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author | Mike Buland <eichlan@xagasoft.com> | 2009-02-11 22:51:25 +0000 |
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committer | Mike Buland <eichlan@xagasoft.com> | 2009-02-11 22:51:25 +0000 |
commit | 3f958097632256329cdbaf2219e2ba15325e9c52 (patch) | |
tree | e7616f7db3709d68ae51d6da0ef8ce44600bd33f /misc | |
parent | f4b191f0ea396b58465bfba40749977780a3af58 (diff) | |
download | libbu++-3f958097632256329cdbaf2219e2ba15325e9c52.tar.gz libbu++-3f958097632256329cdbaf2219e2ba15325e9c52.tar.bz2 libbu++-3f958097632256329cdbaf2219e2ba15325e9c52.tar.xz libbu++-3f958097632256329cdbaf2219e2ba15325e9c52.zip |
Hey, formatter, awesome, and look at that...I'm adding uuid support.
Diffstat (limited to 'misc')
-rw-r--r-- | misc/rfc4122 | 1928 |
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129 | <span class="pre noprint docinfo top">[<a href="../html/" title="Document search and retrieval page">RFCs/IDs</a>] [<a href="/rfc/rfc4122.txt" title="Plaintext version of this document">Plain Text</a>] [From <a href="draft-mealling-uuid-urn">draft-mealling-uuid-urn</a>] </span><br /> | ||
130 | <span class="pre noprint docinfo"> </span><br /> | ||
131 | <span class="pre noprint docinfo"> PROPOSED STANDARD</span><br /> | ||
132 | <span class="pre noprint docinfo"> <a href="http://www.rfc-editor.org/errata_search.php?rfc=4122">Errata</a></span><br /> | ||
133 | <pre> | ||
134 | Network Working Group P. Leach | ||
135 | Request for Comments: 4122 Microsoft | ||
136 | Category: Standards Track M. Mealling | ||
137 | Refactored Networks, LLC | ||
138 | R. Salz | ||
139 | DataPower Technology, Inc. | ||
140 | July 2005 | ||
141 | |||
142 | |||
143 | <span class="h1">A Universally Unique IDentifier (UUID) URN Namespace</span> | ||
144 | |||
145 | Status of This Memo | ||
146 | |||
147 | This document specifies an Internet standards track protocol for the | ||
148 | Internet community, and requests discussion and suggestions for | ||
149 | improvements. Please refer to the current edition of the "Internet | ||
150 | Official Protocol Standards" (STD 1) for the standardization state | ||
151 | and status of this protocol. Distribution of this memo is unlimited. | ||
152 | |||
153 | Copyright Notice | ||
154 | |||
155 | Copyright (C) The Internet Society (2005). | ||
156 | |||
157 | Abstract | ||
158 | |||
159 | This specification defines a Uniform Resource Name namespace for | ||
160 | UUIDs (Universally Unique IDentifier), also known as GUIDs (Globally | ||
161 | Unique IDentifier). A UUID is 128 bits long, and can guarantee | ||
162 | uniqueness across space and time. UUIDs were originally used in the | ||
163 | Apollo Network Computing System and later in the Open Software | ||
164 | Foundation's (OSF) Distributed Computing Environment (DCE), and then | ||
165 | in Microsoft Windows platforms. | ||
166 | |||
167 | This specification is derived from the DCE specification with the | ||
168 | kind permission of the OSF (now known as The Open Group). | ||
169 | Information from earlier versions of the DCE specification have been | ||
170 | incorporated into this document. | ||
171 | |||
172 | |||
173 | |||
174 | |||
175 | |||
176 | |||
177 | |||
178 | |||
179 | |||
180 | |||
181 | |||
182 | |||
183 | |||
184 | |||
185 | <span class="grey">Leach, et al. Standards Track [Page 1]</span> | ||
186 | </pre><pre class='newpage'><a name="page-2" id="page-2" href="#page-2" class="invisible"> </a> | ||
187 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
188 | |||
189 | |||
190 | Table of Contents | ||
191 | |||
192 | <a href="#section-1">1</a>. Introduction . . . . . . . . . . . . . . . . . . . . . . . . . <a href="#page-2">2</a> | ||
193 | <a href="#section-2">2</a>. Motivation . . . . . . . . . . . . . . . . . . . . . . . . . . <a href="#page-3">3</a> | ||
194 | <a href="#section-3">3</a>. Namespace Registration Template . . . . . . . . . . . . . . . <a href="#page-3">3</a> | ||
195 | <a href="#section-4">4</a>. Specification . . . . . . . . . . . . . . . . . . . . . . . . <a href="#page-5">5</a> | ||
196 | <a href="#section-4.1">4.1</a>. Format. . . . . . . . . . . . . . . . . . . . . . . . . . <a href="#page-5">5</a> | ||
197 | <a href="#section-4.1.1">4.1.1</a>. Variant. . . . . . . . . . . . . . . . . . . . . . <a href="#page-6">6</a> | ||
198 | <a href="#section-4.1.2">4.1.2</a>. Layout and Byte Order. . . . . . . . . . . . . . . <a href="#page-6">6</a> | ||
199 | <a href="#section-4.1.3">4.1.3</a>. Version. . . . . . . . . . . . . . . . . . . . . . <a href="#page-7">7</a> | ||
200 | <a href="#section-4.1.4">4.1.4</a>. Timestamp. . . . . . . . . . . . . . . . . . . . . <a href="#page-8">8</a> | ||
201 | <a href="#section-4.1.5">4.1.5</a>. Clock Sequence . . . . . . . . . . . . . . . . . . <a href="#page-8">8</a> | ||
202 | <a href="#section-4.1.6">4.1.6</a>. Node . . . . . . . . . . . . . . . . . . . . . . . <a href="#page-9">9</a> | ||
203 | <a href="#section-4.1.7">4.1.7</a>. Nil UUID . . . . . . . . . . . . . . . . . . . . . <a href="#page-9">9</a> | ||
204 | <a href="#section-4.2">4.2</a>. Algorithms for Creating a Time-Based UUID . . . . . . . . <a href="#page-9">9</a> | ||
205 | <a href="#section-4.2.1">4.2.1</a>. Basic Algorithm. . . . . . . . . . . . . . . . . . <a href="#page-10">10</a> | ||
206 | <a href="#section-4.2.2">4.2.2</a>. Generation Details . . . . . . . . . . . . . . . . <a href="#page-12">12</a> | ||
207 | <a href="#section-4.3">4.3</a>. Algorithm for Creating a Name-Based UUID. . . . . . . . . <a href="#page-13">13</a> | ||
208 | 4.4. Algorithms for Creating a UUID from Truly Random or | ||
209 | Pseudo-Random Numbers . . . . . . . . . . . . . . . . . . <a href="#page-14">14</a> | ||
210 | <a href="#section-4.5">4.5</a>. Node IDs that Do Not Identify the Host. . . . . . . . . . <a href="#page-15">15</a> | ||
211 | <a href="#section-5">5</a>. Community Considerations . . . . . . . . . . . . . . . . . . . <a href="#page-15">15</a> | ||
212 | <a href="#section-6">6</a>. Security Considerations . . . . . . . . . . . . . . . . . . . <a href="#page-16">16</a> | ||
213 | <a href="#section-7">7</a>. Acknowledgments . . . . . . . . . . . . . . . . . . . . . . . <a href="#page-16">16</a> | ||
214 | <a href="#section-8">8</a>. Normative References . . . . . . . . . . . . . . . . . . . . . <a href="#page-16">16</a> | ||
215 | <a href="#appendix-A">A</a>. <a href="#appendix-A">Appendix A</a> - Sample Implementation . . . . . . . . . . . . . . <a href="#page-18">18</a> | ||
216 | <a href="#appendix-B">B</a>. <a href="#appendix-B">Appendix B</a> - Sample Output of utest . . . . . . . . . . . . . <a href="#page-29">29</a> | ||
217 | <a href="#appendix-C">C</a>. <a href="#appendix-C">Appendix C</a> - Some Name Space IDs . . . . . . . . . . . . . . . <a href="#page-30">30</a> | ||
218 | |||
219 | <span class="h2"><a name="section-1">1</a>. Introduction</span> | ||
220 | |||
221 | This specification defines a Uniform Resource Name namespace for | ||
222 | UUIDs (Universally Unique IDentifier), also known as GUIDs (Globally | ||
223 | Unique IDentifier). A UUID is 128 bits long, and requires no central | ||
224 | registration process. | ||
225 | |||
226 | The information here is meant to be a concise guide for those wishing | ||
227 | to implement services using UUIDs as URNs. Nothing in this document | ||
228 | should be construed to override the DCE standards that defined UUIDs. | ||
229 | |||
230 | There is an ITU-T Recommendation and ISO/IEC Standard [<a href="#ref-3" title='"Procedures for the operation of OSI Registration Authorities: Generation and registration of Universally Unique Identifiers (UUIDs) and their use as ASN.1 Object Identifier components"'>3</a>] that are | ||
231 | derived from earlier versions of this document. Both sets of | ||
232 | specifications have been aligned, and are fully technically | ||
233 | compatible. In addition, a global registration function is being | ||
234 | provided by the Telecommunications Standardisation Bureau of ITU-T; | ||
235 | for details see <<a href="http://www.itu.int/ITU-T/asn1/uuid.html">http://www.itu.int/ITU-T/asn1/uuid.html</a>>. | ||
236 | |||
237 | |||
238 | |||
239 | |||
240 | |||
241 | <span class="grey">Leach, et al. Standards Track [Page 2]</span> | ||
242 | </pre><pre class='newpage'><a name="page-3" id="page-3" href="#page-3" class="invisible"> </a> | ||
243 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
244 | |||
245 | |||
246 | <span class="h2"><a name="section-2">2</a>. Motivation</span> | ||
247 | |||
248 | One of the main reasons for using UUIDs is that no centralized | ||
249 | authority is required to administer them (although one format uses | ||
250 | IEEE 802 node identifiers, others do not). As a result, generation | ||
251 | on demand can be completely automated, and used for a variety of | ||
252 | purposes. The UUID generation algorithm described here supports very | ||
253 | high allocation rates of up to 10 million per second per machine if | ||
254 | necessary, so that they could even be used as transaction IDs. | ||
255 | |||
256 | UUIDs are of a fixed size (128 bits) which is reasonably small | ||
257 | compared to other alternatives. This lends itself well to sorting, | ||
258 | ordering, and hashing of all sorts, storing in databases, simple | ||
259 | allocation, and ease of programming in general. | ||
260 | |||
261 | Since UUIDs are unique and persistent, they make excellent Uniform | ||
262 | Resource Names. The unique ability to generate a new UUID without a | ||
263 | registration process allows for UUIDs to be one of the URNs with the | ||
264 | lowest minting cost. | ||
265 | |||
266 | <span class="h2"><a name="section-3">3</a>. Namespace Registration Template</span> | ||
267 | |||
268 | Namespace ID: UUID | ||
269 | Registration Information: | ||
270 | Registration date: 2003-10-01 | ||
271 | |||
272 | Declared registrant of the namespace: | ||
273 | JTC 1/SC6 (ASN.1 Rapporteur Group) | ||
274 | |||
275 | Declaration of syntactic structure: | ||
276 | A UUID is an identifier that is unique across both space and time, | ||
277 | with respect to the space of all UUIDs. Since a UUID is a fixed | ||
278 | size and contains a time field, it is possible for values to | ||
279 | rollover (around A.D. 3400, depending on the specific algorithm | ||
280 | used). A UUID can be used for multiple purposes, from tagging | ||
281 | objects with an extremely short lifetime, to reliably identifying | ||
282 | very persistent objects across a network. | ||
283 | |||
284 | The internal representation of a UUID is a specific sequence of | ||
285 | bits in memory, as described in <a href="#section-4">Section 4</a>. To accurately | ||
286 | represent a UUID as a URN, it is necessary to convert the bit | ||
287 | sequence to a string representation. | ||
288 | |||
289 | Each field is treated as an integer and has its value printed as a | ||
290 | zero-filled hexadecimal digit string with the most significant | ||
291 | digit first. The hexadecimal values "a" through "f" are output as | ||
292 | lower case characters and are case insensitive on input. | ||
293 | |||
294 | |||
295 | |||
296 | |||
297 | <span class="grey">Leach, et al. Standards Track [Page 3]</span> | ||
298 | </pre><pre class='newpage'><a name="page-4" id="page-4" href="#page-4" class="invisible"> </a> | ||
299 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
300 | |||
301 | |||
302 | The formal definition of the UUID string representation is | ||
303 | provided by the following ABNF [<a href="#ref-7" title='"Augmented BNF for Syntax Specifications: ABNF"'>7</a>]: | ||
304 | |||
305 | UUID = time-low "-" time-mid "-" | ||
306 | time-high-and-version "-" | ||
307 | clock-seq-and-reserved | ||
308 | clock-seq-low "-" node | ||
309 | time-low = 4hexOctet | ||
310 | time-mid = 2hexOctet | ||
311 | time-high-and-version = 2hexOctet | ||
312 | clock-seq-and-reserved = hexOctet | ||
313 | clock-seq-low = hexOctet | ||
314 | node = 6hexOctet | ||
315 | hexOctet = hexDigit hexDigit | ||
316 | hexDigit = | ||
317 | "0" / "1" / "2" / "3" / "4" / "5" / "6" / "7" / "8" / "9" / | ||
318 | "a" / "b" / "c" / "d" / "e" / "f" / | ||
319 | "A" / "B" / "C" / "D" / "E" / "F" | ||
320 | |||
321 | The following is an example of the string representation of a UUID as | ||
322 | a URN: | ||
323 | |||
324 | urn:uuid:f81d4fae-7dec-11d0-a765-00a0c91e6bf6 | ||
325 | |||
326 | Relevant ancillary documentation: | ||
327 | [<a href="#ref-1" title='"Network Computing Architecture"'>1</a>][2] | ||
328 | Identifier uniqueness considerations: | ||
329 | This document specifies three algorithms to generate UUIDs: the | ||
330 | first leverages the unique values of 802 MAC addresses to | ||
331 | guarantee uniqueness, the second uses pseudo-random number | ||
332 | generators, and the third uses cryptographic hashing and | ||
333 | application-provided text strings. As a result, the UUIDs | ||
334 | generated according to the mechanisms here will be unique from all | ||
335 | other UUIDs that have been or will be assigned. | ||
336 | |||
337 | Identifier persistence considerations: | ||
338 | UUIDs are inherently very difficult to resolve in a global sense. | ||
339 | This, coupled with the fact that UUIDs are temporally unique | ||
340 | within their spatial context, ensures that UUIDs will remain as | ||
341 | persistent as possible. | ||
342 | |||
343 | Process of identifier assignment: | ||
344 | Generating a UUID does not require that a registration authority | ||
345 | be contacted. One algorithm requires a unique value over space | ||
346 | for each generator. This value is typically an IEEE 802 MAC | ||
347 | address, usually already available on network-connected hosts. | ||
348 | The address can be assigned from an address block obtained from | ||
349 | the IEEE registration authority. If no such address is available, | ||
350 | |||
351 | |||
352 | |||
353 | <span class="grey">Leach, et al. Standards Track [Page 4]</span> | ||
354 | </pre><pre class='newpage'><a name="page-5" id="page-5" href="#page-5" class="invisible"> </a> | ||
355 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
356 | |||
357 | |||
358 | or privacy concerns make its use undesirable, <a href="#section-4.5">Section 4.5</a> | ||
359 | specifies two alternatives. Another approach is to use version 3 | ||
360 | or version 4 UUIDs as defined below. | ||
361 | |||
362 | Process for identifier resolution: | ||
363 | Since UUIDs are not globally resolvable, this is not applicable. | ||
364 | |||
365 | Rules for Lexical Equivalence: | ||
366 | Consider each field of the UUID to be an unsigned integer as shown | ||
367 | in the table in section <a href="#section-4.1.2">Section 4.1.2</a>. Then, to compare a pair of | ||
368 | UUIDs, arithmetically compare the corresponding fields from each | ||
369 | UUID in order of significance and according to their data type. | ||
370 | Two UUIDs are equal if and only if all the corresponding fields | ||
371 | are equal. | ||
372 | |||
373 | As an implementation note, equality comparison can be performed on | ||
374 | many systems by doing the appropriate byte-order canonicalization, | ||
375 | and then treating the two UUIDs as 128-bit unsigned integers. | ||
376 | |||
377 | UUIDs, as defined in this document, can also be ordered | ||
378 | lexicographically. For a pair of UUIDs, the first one follows the | ||
379 | second if the most significant field in which the UUIDs differ is | ||
380 | greater for the first UUID. The second precedes the first if the | ||
381 | most significant field in which the UUIDs differ is greater for | ||
382 | the second UUID. | ||
383 | |||
384 | Conformance with URN Syntax: | ||
385 | The string representation of a UUID is fully compatible with the | ||
386 | URN syntax. When converting from a bit-oriented, in-memory | ||
387 | representation of a UUID into a URN, care must be taken to | ||
388 | strictly adhere to the byte order issues mentioned in the string | ||
389 | representation section. | ||
390 | |||
391 | Validation mechanism: | ||
392 | Apart from determining whether the timestamp portion of the UUID | ||
393 | is in the future and therefore not yet assignable, there is no | ||
394 | mechanism for determining whether a UUID is 'valid'. | ||
395 | |||
396 | Scope: | ||
397 | UUIDs are global in scope. | ||
398 | |||
399 | <span class="h2"><a name="section-4">4</a>. Specification</span> | ||
400 | |||
401 | <span class="h3"><a name="section-4.1">4.1</a>. Format</span> | ||
402 | |||
403 | The UUID format is 16 octets; some bits of the eight octet variant | ||
404 | field specified below determine finer structure. | ||
405 | |||
406 | |||
407 | |||
408 | |||
409 | <span class="grey">Leach, et al. Standards Track [Page 5]</span> | ||
410 | </pre><pre class='newpage'><a name="page-6" id="page-6" href="#page-6" class="invisible"> </a> | ||
411 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
412 | |||
413 | |||
414 | <span class="h4"><a name="section-4.1.1">4.1.1</a>. Variant</span> | ||
415 | |||
416 | The variant field determines the layout of the UUID. That is, the | ||
417 | interpretation of all other bits in the UUID depends on the setting | ||
418 | of the bits in the variant field. As such, it could more accurately | ||
419 | be called a type field; we retain the original term for | ||
420 | compatibility. The variant field consists of a variable number of | ||
421 | the most significant bits of octet 8 of the UUID. | ||
422 | |||
423 | The following table lists the contents of the variant field, where | ||
424 | the letter "x" indicates a "don't-care" value. | ||
425 | |||
426 | Msb0 Msb1 Msb2 Description | ||
427 | |||
428 | 0 x x Reserved, NCS backward compatibility. | ||
429 | |||
430 | 1 0 x The variant specified in this document. | ||
431 | |||
432 | 1 1 0 Reserved, Microsoft Corporation backward | ||
433 | compatibility | ||
434 | |||
435 | 1 1 1 Reserved for future definition. | ||
436 | |||
437 | Interoperability, in any form, with variants other than the one | ||
438 | defined here is not guaranteed, and is not likely to be an issue in | ||
439 | practice. | ||
440 | |||
441 | <span class="h4"><a name="section-4.1.2">4.1.2</a>. Layout and Byte Order</span> | ||
442 | |||
443 | To minimize confusion about bit assignments within octets, the UUID | ||
444 | record definition is defined only in terms of fields that are | ||
445 | integral numbers of octets. The fields are presented with the most | ||
446 | significant one first. | ||
447 | |||
448 | Field Data Type Octet Note | ||
449 | # | ||
450 | |||
451 | time_low unsigned 32 0-3 The low field of the | ||
452 | bit integer timestamp | ||
453 | |||
454 | time_mid unsigned 16 4-5 The middle field of the | ||
455 | bit integer timestamp | ||
456 | |||
457 | time_hi_and_version unsigned 16 6-7 The high field of the | ||
458 | bit integer timestamp multiplexed | ||
459 | with the version number | ||
460 | |||
461 | |||
462 | |||
463 | |||
464 | |||
465 | <span class="grey">Leach, et al. Standards Track [Page 6]</span> | ||
466 | </pre><pre class='newpage'><a name="page-7" id="page-7" href="#page-7" class="invisible"> </a> | ||
467 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
468 | |||
469 | |||
470 | clock_seq_hi_and_rese unsigned 8 8 The high field of the | ||
471 | rved bit integer clock sequence | ||
472 | multiplexed with the | ||
473 | variant | ||
474 | |||
475 | clock_seq_low unsigned 8 9 The low field of the | ||
476 | bit integer clock sequence | ||
477 | |||
478 | node unsigned 48 10-15 The spatially unique | ||
479 | bit integer node identifier | ||
480 | |||
481 | In the absence of explicit application or presentation protocol | ||
482 | specification to the contrary, a UUID is encoded as a 128-bit object, | ||
483 | as follows: | ||
484 | |||
485 | The fields are encoded as 16 octets, with the sizes and order of the | ||
486 | fields defined above, and with each field encoded with the Most | ||
487 | Significant Byte first (known as network byte order). Note that the | ||
488 | field names, particularly for multiplexed fields, follow historical | ||
489 | practice. | ||
490 | |||
491 | 0 1 2 3 | ||
492 | 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 2 3 4 5 6 7 8 9 0 1 | ||
493 | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | ||
494 | | time_low | | ||
495 | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | ||
496 | | time_mid | time_hi_and_version | | ||
497 | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | ||
498 | |clk_seq_hi_res | clk_seq_low | node (0-1) | | ||
499 | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | ||
500 | | node (2-5) | | ||
501 | +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ | ||
502 | |||
503 | <span class="h4"><a name="section-4.1.3">4.1.3</a>. Version</span> | ||
504 | |||
505 | The version number is in the most significant 4 bits of the time | ||
506 | stamp (bits 4 through 7 of the time_hi_and_version field). | ||
507 | |||
508 | The following table lists the currently-defined versions for this | ||
509 | UUID variant. | ||
510 | |||
511 | Msb0 Msb1 Msb2 Msb3 Version Description | ||
512 | |||
513 | 0 0 0 1 1 The time-based version | ||
514 | specified in this document. | ||
515 | |||
516 | 0 0 1 0 2 DCE Security version, with | ||
517 | embedded POSIX UIDs. | ||
518 | |||
519 | |||
520 | |||
521 | <span class="grey">Leach, et al. Standards Track [Page 7]</span> | ||
522 | </pre><pre class='newpage'><a name="page-8" id="page-8" href="#page-8" class="invisible"> </a> | ||
523 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
524 | |||
525 | |||
526 | 0 0 1 1 3 The name-based version | ||
527 | specified in this document | ||
528 | that uses MD5 hashing. | ||
529 | |||
530 | 0 1 0 0 4 The randomly or pseudo- | ||
531 | randomly generated version | ||
532 | specified in this document. | ||
533 | |||
534 | 0 1 0 1 5 The name-based version | ||
535 | specified in this document | ||
536 | that uses SHA-1 hashing. | ||
537 | |||
538 | The version is more accurately a sub-type; again, we retain the term | ||
539 | for compatibility. | ||
540 | |||
541 | <span class="h4"><a name="section-4.1.4">4.1.4</a>. Timestamp</span> | ||
542 | |||
543 | The timestamp is a 60-bit value. For UUID version 1, this is | ||
544 | represented by Coordinated Universal Time (UTC) as a count of 100- | ||
545 | nanosecond intervals since 00:00:00.00, 15 October 1582 (the date of | ||
546 | Gregorian reform to the Christian calendar). | ||
547 | |||
548 | For systems that do not have UTC available, but do have the local | ||
549 | time, they may use that instead of UTC, as long as they do so | ||
550 | consistently throughout the system. However, this is not recommended | ||
551 | since generating the UTC from local time only needs a time zone | ||
552 | offset. | ||
553 | |||
554 | For UUID version 3 or 5, the timestamp is a 60-bit value constructed | ||
555 | from a name as described in <a href="#section-4.3">Section 4.3</a>. | ||
556 | |||
557 | For UUID version 4, the timestamp is a randomly or pseudo-randomly | ||
558 | generated 60-bit value, as described in <a href="#section-4.4">Section 4.4</a>. | ||
559 | |||
560 | <span class="h4"><a name="section-4.1.5">4.1.5</a>. Clock Sequence</span> | ||
561 | |||
562 | For UUID version 1, the clock sequence is used to help avoid | ||
563 | duplicates that could arise when the clock is set backwards in time | ||
564 | or if the node ID changes. | ||
565 | |||
566 | If the clock is set backwards, or might have been set backwards | ||
567 | (e.g., while the system was powered off), and the UUID generator can | ||
568 | not be sure that no UUIDs were generated with timestamps larger than | ||
569 | the value to which the clock was set, then the clock sequence has to | ||
570 | be changed. If the previous value of the clock sequence is known, it | ||
571 | can just be incremented; otherwise it should be set to a random or | ||
572 | high-quality pseudo-random value. | ||
573 | |||
574 | |||
575 | |||
576 | |||
577 | <span class="grey">Leach, et al. Standards Track [Page 8]</span> | ||
578 | </pre><pre class='newpage'><a name="page-9" id="page-9" href="#page-9" class="invisible"> </a> | ||
579 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
580 | |||
581 | |||
582 | Similarly, if the node ID changes (e.g., because a network card has | ||
583 | been moved between machines), setting the clock sequence to a random | ||
584 | number minimizes the probability of a duplicate due to slight | ||
585 | differences in the clock settings of the machines. If the value of | ||
586 | clock sequence associated with the changed node ID were known, then | ||
587 | the clock sequence could just be incremented, but that is unlikely. | ||
588 | |||
589 | The clock sequence MUST be originally (i.e., once in the lifetime of | ||
590 | a system) initialized to a random number to minimize the correlation | ||
591 | across systems. This provides maximum protection against node | ||
592 | identifiers that may move or switch from system to system rapidly. | ||
593 | The initial value MUST NOT be correlated to the node identifier. | ||
594 | |||
595 | For UUID version 3 or 5, the clock sequence is a 14-bit value | ||
596 | constructed from a name as described in <a href="#section-4.3">Section 4.3</a>. | ||
597 | |||
598 | For UUID version 4, clock sequence is a randomly or pseudo-randomly | ||
599 | generated 14-bit value as described in <a href="#section-4.4">Section 4.4</a>. | ||
600 | |||
601 | <span class="h4"><a name="section-4.1.6">4.1.6</a>. Node</span> | ||
602 | |||
603 | For UUID version 1, the node field consists of an IEEE 802 MAC | ||
604 | address, usually the host address. For systems with multiple IEEE | ||
605 | 802 addresses, any available one can be used. The lowest addressed | ||
606 | octet (octet number 10) contains the global/local bit and the | ||
607 | unicast/multicast bit, and is the first octet of the address | ||
608 | transmitted on an 802.3 LAN. | ||
609 | |||
610 | For systems with no IEEE address, a randomly or pseudo-randomly | ||
611 | generated value may be used; see <a href="#section-4.5">Section 4.5</a>. The multicast bit must | ||
612 | be set in such addresses, in order that they will never conflict with | ||
613 | addresses obtained from network cards. | ||
614 | |||
615 | For UUID version 3 or 5, the node field is a 48-bit value constructed | ||
616 | from a name as described in <a href="#section-4.3">Section 4.3</a>. | ||
617 | |||
618 | For UUID version 4, the node field is a randomly or pseudo-randomly | ||
619 | generated 48-bit value as described in <a href="#section-4.4">Section 4.4</a>. | ||
620 | |||
621 | <span class="h4"><a name="section-4.1.7">4.1.7</a>. Nil UUID</span> | ||
622 | |||
623 | The nil UUID is special form of UUID that is specified to have all | ||
624 | 128 bits set to zero. | ||
625 | |||
626 | <span class="h3"><a name="section-4.2">4.2</a>. Algorithms for Creating a Time-Based UUID</span> | ||
627 | |||
628 | Various aspects of the algorithm for creating a version 1 UUID are | ||
629 | discussed in the following sections. | ||
630 | |||
631 | |||
632 | |||
633 | <span class="grey">Leach, et al. Standards Track [Page 9]</span> | ||
634 | </pre><pre class='newpage'><a name="page-10" id="page-10" href="#page-10" class="invisible"> </a> | ||
635 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
636 | |||
637 | |||
638 | <span class="h4"><a name="section-4.2.1">4.2.1</a>. Basic Algorithm</span> | ||
639 | |||
640 | The following algorithm is simple, correct, and inefficient: | ||
641 | |||
642 | o Obtain a system-wide global lock | ||
643 | |||
644 | o From a system-wide shared stable store (e.g., a file), read the | ||
645 | UUID generator state: the values of the timestamp, clock sequence, | ||
646 | and node ID used to generate the last UUID. | ||
647 | |||
648 | o Get the current time as a 60-bit count of 100-nanosecond intervals | ||
649 | since 00:00:00.00, 15 October 1582. | ||
650 | |||
651 | o Get the current node ID. | ||
652 | |||
653 | o If the state was unavailable (e.g., non-existent or corrupted), or | ||
654 | the saved node ID is different than the current node ID, generate | ||
655 | a random clock sequence value. | ||
656 | |||
657 | o If the state was available, but the saved timestamp is later than | ||
658 | the current timestamp, increment the clock sequence value. | ||
659 | |||
660 | o Save the state (current timestamp, clock sequence, and node ID) | ||
661 | back to the stable store. | ||
662 | |||
663 | o Release the global lock. | ||
664 | |||
665 | o Format a UUID from the current timestamp, clock sequence, and node | ||
666 | ID values according to the steps in <a href="#section-4.2.2">Section 4.2.2</a>. | ||
667 | |||
668 | If UUIDs do not need to be frequently generated, the above algorithm | ||
669 | may be perfectly adequate. For higher performance requirements, | ||
670 | however, issues with the basic algorithm include: | ||
671 | |||
672 | o Reading the state from stable storage each time is inefficient. | ||
673 | |||
674 | o The resolution of the system clock may not be 100-nanoseconds. | ||
675 | |||
676 | o Writing the state to stable storage each time is inefficient. | ||
677 | |||
678 | o Sharing the state across process boundaries may be inefficient. | ||
679 | |||
680 | Each of these issues can be addressed in a modular fashion by local | ||
681 | improvements in the functions that read and write the state and read | ||
682 | the clock. We address each of them in turn in the following | ||
683 | sections. | ||
684 | |||
685 | |||
686 | |||
687 | |||
688 | |||
689 | <span class="grey">Leach, et al. Standards Track [Page 10]</span> | ||
690 | </pre><pre class='newpage'><a name="page-11" id="page-11" href="#page-11" class="invisible"> </a> | ||
691 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
692 | |||
693 | |||
694 | <span class="h5"><a name="section-4.2.1.1">4.2.1.1</a>. Reading Stable Storage</span> | ||
695 | |||
696 | The state only needs to be read from stable storage once at boot | ||
697 | time, if it is read into a system-wide shared volatile store (and | ||
698 | updated whenever the stable store is updated). | ||
699 | |||
700 | If an implementation does not have any stable store available, then | ||
701 | it can always say that the values were unavailable. This is the | ||
702 | least desirable implementation because it will increase the frequency | ||
703 | of creation of new clock sequence numbers, which increases the | ||
704 | probability of duplicates. | ||
705 | |||
706 | If the node ID can never change (e.g., the net card is inseparable | ||
707 | from the system), or if any change also reinitializes the clock | ||
708 | sequence to a random value, then instead of keeping it in stable | ||
709 | store, the current node ID may be returned. | ||
710 | |||
711 | <span class="h5"><a name="section-4.2.1.2">4.2.1.2</a>. System Clock Resolution</span> | ||
712 | |||
713 | The timestamp is generated from the system time, whose resolution may | ||
714 | be less than the resolution of the UUID timestamp. | ||
715 | |||
716 | If UUIDs do not need to be frequently generated, the timestamp can | ||
717 | simply be the system time multiplied by the number of 100-nanosecond | ||
718 | intervals per system time interval. | ||
719 | |||
720 | If a system overruns the generator by requesting too many UUIDs | ||
721 | within a single system time interval, the UUID service MUST either | ||
722 | return an error, or stall the UUID generator until the system clock | ||
723 | catches up. | ||
724 | |||
725 | A high resolution timestamp can be simulated by keeping a count of | ||
726 | the number of UUIDs that have been generated with the same value of | ||
727 | the system time, and using it to construct the low order bits of the | ||
728 | timestamp. The count will range between zero and the number of | ||
729 | 100-nanosecond intervals per system time interval. | ||
730 | |||
731 | Note: If the processors overrun the UUID generation frequently, | ||
732 | additional node identifiers can be allocated to the system, which | ||
733 | will permit higher speed allocation by making multiple UUIDs | ||
734 | potentially available for each time stamp value. | ||
735 | |||
736 | <span class="h5"><a name="section-4.2.1.3">4.2.1.3</a>. Writing Stable Storage</span> | ||
737 | |||
738 | The state does not always need to be written to stable store every | ||
739 | time a UUID is generated. The timestamp in the stable store can be | ||
740 | periodically set to a value larger than any yet used in a UUID. As | ||
741 | long as the generated UUIDs have timestamps less than that value, and | ||
742 | |||
743 | |||
744 | |||
745 | <span class="grey">Leach, et al. Standards Track [Page 11]</span> | ||
746 | </pre><pre class='newpage'><a name="page-12" id="page-12" href="#page-12" class="invisible"> </a> | ||
747 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
748 | |||
749 | |||
750 | the clock sequence and node ID remain unchanged, only the shared | ||
751 | volatile copy of the state needs to be updated. Furthermore, if the | ||
752 | timestamp value in stable store is in the future by less than the | ||
753 | typical time it takes the system to reboot, a crash will not cause a | ||
754 | reinitialization of the clock sequence. | ||
755 | |||
756 | <span class="h5"><a name="section-4.2.1.4">4.2.1.4</a>. Sharing State Across Processes</span> | ||
757 | |||
758 | If it is too expensive to access shared state each time a UUID is | ||
759 | generated, then the system-wide generator can be implemented to | ||
760 | allocate a block of time stamps each time it is called; a per- | ||
761 | process generator can allocate from that block until it is exhausted. | ||
762 | |||
763 | <span class="h4"><a name="section-4.2.2">4.2.2</a>. Generation Details</span> | ||
764 | |||
765 | Version 1 UUIDs are generated according to the following algorithm: | ||
766 | |||
767 | o Determine the values for the UTC-based timestamp and clock | ||
768 | sequence to be used in the UUID, as described in <a href="#section-4.2.1">Section 4.2.1</a>. | ||
769 | |||
770 | o For the purposes of this algorithm, consider the timestamp to be a | ||
771 | 60-bit unsigned integer and the clock sequence to be a 14-bit | ||
772 | unsigned integer. Sequentially number the bits in a field, | ||
773 | starting with zero for the least significant bit. | ||
774 | |||
775 | o Set the time_low field equal to the least significant 32 bits | ||
776 | (bits zero through 31) of the timestamp in the same order of | ||
777 | significance. | ||
778 | |||
779 | o Set the time_mid field equal to bits 32 through 47 from the | ||
780 | timestamp in the same order of significance. | ||
781 | |||
782 | o Set the 12 least significant bits (bits zero through 11) of the | ||
783 | time_hi_and_version field equal to bits 48 through 59 from the | ||
784 | timestamp in the same order of significance. | ||
785 | |||
786 | o Set the four most significant bits (bits 12 through 15) of the | ||
787 | time_hi_and_version field to the 4-bit version number | ||
788 | corresponding to the UUID version being created, as shown in the | ||
789 | table above. | ||
790 | |||
791 | o Set the clock_seq_low field to the eight least significant bits | ||
792 | (bits zero through 7) of the clock sequence in the same order of | ||
793 | significance. | ||
794 | |||
795 | |||
796 | |||
797 | |||
798 | |||
799 | |||
800 | |||
801 | <span class="grey">Leach, et al. Standards Track [Page 12]</span> | ||
802 | </pre><pre class='newpage'><a name="page-13" id="page-13" href="#page-13" class="invisible"> </a> | ||
803 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
804 | |||
805 | |||
806 | o Set the 6 least significant bits (bits zero through 5) of the | ||
807 | clock_seq_hi_and_reserved field to the 6 most significant bits | ||
808 | (bits 8 through 13) of the clock sequence in the same order of | ||
809 | significance. | ||
810 | |||
811 | o Set the two most significant bits (bits 6 and 7) of the | ||
812 | clock_seq_hi_and_reserved to zero and one, respectively. | ||
813 | |||
814 | o Set the node field to the 48-bit IEEE address in the same order of | ||
815 | significance as the address. | ||
816 | |||
817 | <span class="h3"><a name="section-4.3">4.3</a>. Algorithm for Creating a Name-Based UUID</span> | ||
818 | |||
819 | The version 3 or 5 UUID is meant for generating UUIDs from "names" | ||
820 | that are drawn from, and unique within, some "name space". The | ||
821 | concept of name and name space should be broadly construed, and not | ||
822 | limited to textual names. For example, some name spaces are the | ||
823 | domain name system, URLs, ISO Object IDs (OIDs), X.500 Distinguished | ||
824 | Names (DNs), and reserved words in a programming language. The | ||
825 | mechanisms or conventions used for allocating names and ensuring | ||
826 | their uniqueness within their name spaces are beyond the scope of | ||
827 | this specification. | ||
828 | |||
829 | The requirements for these types of UUIDs are as follows: | ||
830 | |||
831 | o The UUIDs generated at different times from the same name in the | ||
832 | same namespace MUST be equal. | ||
833 | |||
834 | o The UUIDs generated from two different names in the same namespace | ||
835 | should be different (with very high probability). | ||
836 | |||
837 | o The UUIDs generated from the same name in two different namespaces | ||
838 | should be different with (very high probability). | ||
839 | |||
840 | o If two UUIDs that were generated from names are equal, then they | ||
841 | were generated from the same name in the same namespace (with very | ||
842 | high probability). | ||
843 | |||
844 | The algorithm for generating a UUID from a name and a name space are | ||
845 | as follows: | ||
846 | |||
847 | o Allocate a UUID to use as a "name space ID" for all UUIDs | ||
848 | generated from names in that name space; see <a href="#appendix-C">Appendix C</a> for some | ||
849 | pre-defined values. | ||
850 | |||
851 | o Choose either MD5 [<a href="#ref-4" title='"The MD5 Message-Digest Algorithm "'>4</a>] or SHA-1 [<a href="#ref-8" title='"Secure Hash Standard"'>8</a>] as the hash algorithm; If | ||
852 | backward compatibility is not an issue, SHA-1 is preferred. | ||
853 | |||
854 | |||
855 | |||
856 | |||
857 | <span class="grey">Leach, et al. Standards Track [Page 13]</span> | ||
858 | </pre><pre class='newpage'><a name="page-14" id="page-14" href="#page-14" class="invisible"> </a> | ||
859 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
860 | |||
861 | |||
862 | o Convert the name to a canonical sequence of octets (as defined by | ||
863 | the standards or conventions of its name space); put the name | ||
864 | space ID in network byte order. | ||
865 | |||
866 | o Compute the hash of the name space ID concatenated with the name. | ||
867 | |||
868 | o Set octets zero through 3 of the time_low field to octets zero | ||
869 | through 3 of the hash. | ||
870 | |||
871 | o Set octets zero and one of the time_mid field to octets 4 and 5 of | ||
872 | the hash. | ||
873 | |||
874 | o Set octets zero and one of the time_hi_and_version field to octets | ||
875 | 6 and 7 of the hash. | ||
876 | |||
877 | o Set the four most significant bits (bits 12 through 15) of the | ||
878 | time_hi_and_version field to the appropriate 4-bit version number | ||
879 | from <a href="#section-4.1.3">Section 4.1.3</a>. | ||
880 | |||
881 | o Set the clock_seq_hi_and_reserved field to octet 8 of the hash. | ||
882 | |||
883 | o Set the two most significant bits (bits 6 and 7) of the | ||
884 | clock_seq_hi_and_reserved to zero and one, respectively. | ||
885 | |||
886 | o Set the clock_seq_low field to octet 9 of the hash. | ||
887 | |||
888 | o Set octets zero through five of the node field to octets 10 | ||
889 | through 15 of the hash. | ||
890 | |||
891 | o Convert the resulting UUID to local byte order. | ||
892 | |||
893 | <span class="h3"><a name="section-4.4">4.4</a>. Algorithms for Creating a UUID from Truly Random or</span> | ||
894 | Pseudo-Random Numbers | ||
895 | |||
896 | The version 4 UUID is meant for generating UUIDs from truly-random or | ||
897 | pseudo-random numbers. | ||
898 | |||
899 | The algorithm is as follows: | ||
900 | |||
901 | o Set the two most significant bits (bits 6 and 7) of the | ||
902 | clock_seq_hi_and_reserved to zero and one, respectively. | ||
903 | |||
904 | o Set the four most significant bits (bits 12 through 15) of the | ||
905 | time_hi_and_version field to the 4-bit version number from | ||
906 | <a href="#section-4.1.3">Section 4.1.3</a>. | ||
907 | |||
908 | o Set all the other bits to randomly (or pseudo-randomly) chosen | ||
909 | values. | ||
910 | |||
911 | |||
912 | |||
913 | <span class="grey">Leach, et al. Standards Track [Page 14]</span> | ||
914 | </pre><pre class='newpage'><a name="page-15" id="page-15" href="#page-15" class="invisible"> </a> | ||
915 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
916 | |||
917 | |||
918 | See <a href="#section-4.5">Section 4.5</a> for a discussion on random numbers. | ||
919 | |||
920 | <span class="h3"><a name="section-4.5">4.5</a>. Node IDs that Do Not Identify the Host</span> | ||
921 | |||
922 | This section describes how to generate a version 1 UUID if an IEEE | ||
923 | 802 address is not available, or its use is not desired. | ||
924 | |||
925 | One approach is to contact the IEEE and get a separate block of | ||
926 | addresses. At the time of writing, the application could be found at | ||
927 | <<a href="http://standards.ieee.org/regauth/oui/pilot-ind.html">http://standards.ieee.org/regauth/oui/pilot-ind.html</a>>, and the cost | ||
928 | was US$550. | ||
929 | |||
930 | A better solution is to obtain a 47-bit cryptographic quality random | ||
931 | number and use it as the low 47 bits of the node ID, with the least | ||
932 | significant bit of the first octet of the node ID set to one. This | ||
933 | bit is the unicast/multicast bit, which will never be set in IEEE 802 | ||
934 | addresses obtained from network cards. Hence, there can never be a | ||
935 | conflict between UUIDs generated by machines with and without network | ||
936 | cards. (Recall that the IEEE 802 spec talks about transmission | ||
937 | order, which is the opposite of the in-memory representation that is | ||
938 | discussed in this document.) | ||
939 | |||
940 | For compatibility with earlier specifications, note that this | ||
941 | document uses the unicast/multicast bit, instead of the arguably more | ||
942 | correct local/global bit. | ||
943 | |||
944 | Advice on generating cryptographic-quality random numbers can be | ||
945 | found in <a href="./rfc1750">RFC1750</a> [<a href="#ref-5" title='"Randomness Requirements for Security"'>5</a>]. | ||
946 | |||
947 | In addition, items such as the computer's name and the name of the | ||
948 | operating system, while not strictly speaking random, will help | ||
949 | differentiate the results from those obtained by other systems. | ||
950 | |||
951 | The exact algorithm to generate a node ID using these data is system | ||
952 | specific, because both the data available and the functions to obtain | ||
953 | them are often very system specific. A generic approach, however, is | ||
954 | to accumulate as many sources as possible into a buffer, use a | ||
955 | message digest such as MD5 [<a href="#ref-4" title='"The MD5 Message-Digest Algorithm "'>4</a>] or SHA-1 [<a href="#ref-8" title='"Secure Hash Standard"'>8</a>], take an arbitrary 6 | ||
956 | bytes from the hash value, and set the multicast bit as described | ||
957 | above. | ||
958 | |||
959 | <span class="h2"><a name="section-5">5</a>. Community Considerations</span> | ||
960 | |||
961 | The use of UUIDs is extremely pervasive in computing. They comprise | ||
962 | the core identifier infrastructure for many operating systems | ||
963 | (Microsoft Windows) and applications (the Mozilla browser) and in | ||
964 | many cases, become exposed to the Web in many non-standard ways. | ||
965 | |||
966 | |||
967 | |||
968 | |||
969 | <span class="grey">Leach, et al. Standards Track [Page 15]</span> | ||
970 | </pre><pre class='newpage'><a name="page-16" id="page-16" href="#page-16" class="invisible"> </a> | ||
971 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
972 | |||
973 | |||
974 | This specification attempts to standardize that practice as openly as | ||
975 | possible and in a way that attempts to benefit the entire Internet. | ||
976 | |||
977 | <span class="h2"><a name="section-6">6</a>. Security Considerations</span> | ||
978 | |||
979 | Do not assume that UUIDs are hard to guess; they should not be used | ||
980 | as security capabilities (identifiers whose mere possession grants | ||
981 | access), for example. A predictable random number source will | ||
982 | exacerbate the situation. | ||
983 | |||
984 | Do not assume that it is easy to determine if a UUID has been | ||
985 | slightly transposed in order to redirect a reference to another | ||
986 | object. Humans do not have the ability to easily check the integrity | ||
987 | of a UUID by simply glancing at it. | ||
988 | |||
989 | Distributed applications generating UUIDs at a variety of hosts must | ||
990 | be willing to rely on the random number source at all hosts. If this | ||
991 | is not feasible, the namespace variant should be used. | ||
992 | |||
993 | <span class="h2"><a name="section-7">7</a>. Acknowledgments</span> | ||
994 | |||
995 | This document draws heavily on the OSF DCE specification for UUIDs. | ||
996 | Ted Ts'o provided helpful comments, especially on the byte ordering | ||
997 | section which we mostly plagiarized from a proposed wording he | ||
998 | supplied (all errors in that section are our responsibility, | ||
999 | however). | ||
1000 | |||
1001 | We are also grateful to the careful reading and bit-twiddling of Ralf | ||
1002 | S. Engelschall, John Larmouth, and Paul Thorpe. Professor Larmouth | ||
1003 | was also invaluable in achieving coordination with ISO/IEC. | ||
1004 | |||
1005 | <span class="h2"><a name="section-8">8</a>. Normative References</span> | ||
1006 | |||
1007 | [<a name="ref-1" id="ref-1">1</a>] Zahn, L., Dineen, T., and P. Leach, "Network Computing | ||
1008 | Architecture", ISBN 0-13-611674-4, January 1990. | ||
1009 | |||
1010 | [<a name="ref-2" id="ref-2">2</a>] "DCE: Remote Procedure Call", Open Group CAE Specification C309, | ||
1011 | ISBN 1-85912-041-5, August 1994. | ||
1012 | |||
1013 | [<a name="ref-3" id="ref-3">3</a>] ISO/IEC 9834-8:2004 Information Technology, "Procedures for the | ||
1014 | operation of OSI Registration Authorities: Generation and | ||
1015 | registration of Universally Unique Identifiers (UUIDs) and their | ||
1016 | use as ASN.1 Object Identifier components" ITU-T Rec. X.667, | ||
1017 | 2004. | ||
1018 | |||
1019 | [<a name="ref-4" id="ref-4">4</a>] Rivest, R., "The MD5 Message-Digest Algorithm ", <a href="./rfc1321">RFC 1321</a>, April | ||
1020 | 1992. | ||
1021 | |||
1022 | |||
1023 | |||
1024 | |||
1025 | <span class="grey">Leach, et al. Standards Track [Page 16]</span> | ||
1026 | </pre><pre class='newpage'><a name="page-17" id="page-17" href="#page-17" class="invisible"> </a> | ||
1027 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1028 | |||
1029 | |||
1030 | [<a name="ref-5" id="ref-5">5</a>] Eastlake, D., 3rd, Schiller, J., and S. Crocker, "Randomness | ||
1031 | Requirements for Security", <a href="./bcp106">BCP 106</a>, <a href="./rfc4086">RFC 4086</a>, June 2005. | ||
1032 | |||
1033 | [<a name="ref-6" id="ref-6">6</a>] Moats, R., "URN Syntax", <a href="./rfc2141">RFC 2141</a>, May 1997. | ||
1034 | |||
1035 | [<a name="ref-7" id="ref-7">7</a>] Crocker, D. and P. Overell, "Augmented BNF for Syntax | ||
1036 | Specifications: ABNF", <a href="./rfc2234">RFC 2234</a>, November 1997. | ||
1037 | |||
1038 | [<a name="ref-8" id="ref-8">8</a>] National Institute of Standards and Technology, "Secure Hash | ||
1039 | Standard", FIPS PUB 180-1, April 1995, | ||
1040 | <<a href="http://www.itl.nist.gov/fipspubs/fip180-1.htm">http://www.itl.nist.gov/fipspubs/fip180-1.htm</a>>. | ||
1041 | |||
1042 | |||
1043 | |||
1044 | |||
1045 | |||
1046 | |||
1047 | |||
1048 | |||
1049 | |||
1050 | |||
1051 | |||
1052 | |||
1053 | |||
1054 | |||
1055 | |||
1056 | |||
1057 | |||
1058 | |||
1059 | |||
1060 | |||
1061 | |||
1062 | |||
1063 | |||
1064 | |||
1065 | |||
1066 | |||
1067 | |||
1068 | |||
1069 | |||
1070 | |||
1071 | |||
1072 | |||
1073 | |||
1074 | |||
1075 | |||
1076 | |||
1077 | |||
1078 | |||
1079 | |||
1080 | |||
1081 | <span class="grey">Leach, et al. Standards Track [Page 17]</span> | ||
1082 | </pre><pre class='newpage'><a name="page-18" id="page-18" href="#page-18" class="invisible"> </a> | ||
1083 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1084 | |||
1085 | |||
1086 | <span class="h2"><a name="appendix-A">Appendix A</a>. <a href="#appendix-A">Appendix A</a> - Sample Implementation</span> | ||
1087 | |||
1088 | This implementation consists of 5 files: uuid.h, uuid.c, sysdep.h, | ||
1089 | sysdep.c and utest.c. The uuid.* files are the system independent | ||
1090 | implementation of the UUID generation algorithms described above, | ||
1091 | with all the optimizations described above except efficient state | ||
1092 | sharing across processes included. The code has been tested on Linux | ||
1093 | (Red Hat 4.0) with GCC (2.7.2), and Windows NT 4.0 with VC++ 5.0. | ||
1094 | The code assumes 64-bit integer support, which makes it much clearer. | ||
1095 | |||
1096 | All the following source files should have the following copyright | ||
1097 | notice included: | ||
1098 | |||
1099 | copyrt.h | ||
1100 | |||
1101 | /* | ||
1102 | ** Copyright (c) 1990- 1993, 1996 Open Software Foundation, Inc. | ||
1103 | ** Copyright (c) 1989 by Hewlett-Packard Company, Palo Alto, Ca. & | ||
1104 | ** Digital Equipment Corporation, Maynard, Mass. | ||
1105 | ** Copyright (c) 1998 Microsoft. | ||
1106 | ** To anyone who acknowledges that this file is provided "AS IS" | ||
1107 | ** without any express or implied warranty: permission to use, copy, | ||
1108 | ** modify, and distribute this file for any purpose is hereby | ||
1109 | ** granted without fee, provided that the above copyright notices and | ||
1110 | ** this notice appears in all source code copies, and that none of | ||
1111 | ** the names of Open Software Foundation, Inc., Hewlett-Packard | ||
1112 | ** Company, Microsoft, or Digital Equipment Corporation be used in | ||
1113 | ** advertising or publicity pertaining to distribution of the software | ||
1114 | ** without specific, written prior permission. Neither Open Software | ||
1115 | ** Foundation, Inc., Hewlett-Packard Company, Microsoft, nor Digital | ||
1116 | ** Equipment Corporation makes any representations about the | ||
1117 | ** suitability of this software for any purpose. | ||
1118 | */ | ||
1119 | |||
1120 | |||
1121 | uuid.h | ||
1122 | |||
1123 | #include "copyrt.h" | ||
1124 | #undef uuid_t | ||
1125 | typedef struct { | ||
1126 | unsigned32 time_low; | ||
1127 | unsigned16 time_mid; | ||
1128 | unsigned16 time_hi_and_version; | ||
1129 | unsigned8 clock_seq_hi_and_reserved; | ||
1130 | unsigned8 clock_seq_low; | ||
1131 | byte node[6]; | ||
1132 | } uuid_t; | ||
1133 | |||
1134 | |||
1135 | |||
1136 | |||
1137 | <span class="grey">Leach, et al. Standards Track [Page 18]</span> | ||
1138 | </pre><pre class='newpage'><a name="page-19" id="page-19" href="#page-19" class="invisible"> </a> | ||
1139 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1140 | |||
1141 | |||
1142 | /* uuid_create -- generate a UUID */ | ||
1143 | int uuid_create(uuid_t * uuid); | ||
1144 | |||
1145 | /* uuid_create_md5_from_name -- create a version 3 (MD5) UUID using a | ||
1146 | "name" from a "name space" */ | ||
1147 | void uuid_create_md5_from_name( | ||
1148 | uuid_t *uuid, /* resulting UUID */ | ||
1149 | uuid_t nsid, /* UUID of the namespace */ | ||
1150 | void *name, /* the name from which to generate a UUID */ | ||
1151 | int namelen /* the length of the name */ | ||
1152 | ); | ||
1153 | |||
1154 | /* uuid_create_sha1_from_name -- create a version 5 (SHA-1) UUID | ||
1155 | using a "name" from a "name space" */ | ||
1156 | void uuid_create_sha1_from_name( | ||
1157 | |||
1158 | uuid_t *uuid, /* resulting UUID */ | ||
1159 | uuid_t nsid, /* UUID of the namespace */ | ||
1160 | void *name, /* the name from which to generate a UUID */ | ||
1161 | int namelen /* the length of the name */ | ||
1162 | ); | ||
1163 | |||
1164 | /* uuid_compare -- Compare two UUID's "lexically" and return | ||
1165 | -1 u1 is lexically before u2 | ||
1166 | 0 u1 is equal to u2 | ||
1167 | 1 u1 is lexically after u2 | ||
1168 | Note that lexical ordering is not temporal ordering! | ||
1169 | */ | ||
1170 | int uuid_compare(uuid_t *u1, uuid_t *u2); | ||
1171 | |||
1172 | |||
1173 | uuid.c | ||
1174 | |||
1175 | #include "copyrt.h" | ||
1176 | #include <string.h> | ||
1177 | #include <stdio.h> | ||
1178 | #include <stdlib.h> | ||
1179 | #include <time.h> | ||
1180 | #include "sysdep.h" | ||
1181 | #include "uuid.h" | ||
1182 | |||
1183 | /* various forward declarations */ | ||
1184 | static int read_state(unsigned16 *clockseq, uuid_time_t *timestamp, | ||
1185 | uuid_node_t *node); | ||
1186 | static void write_state(unsigned16 clockseq, uuid_time_t timestamp, | ||
1187 | uuid_node_t node); | ||
1188 | static void format_uuid_v1(uuid_t *uuid, unsigned16 clockseq, | ||
1189 | uuid_time_t timestamp, uuid_node_t node); | ||
1190 | |||
1191 | |||
1192 | |||
1193 | <span class="grey">Leach, et al. Standards Track [Page 19]</span> | ||
1194 | </pre><pre class='newpage'><a name="page-20" id="page-20" href="#page-20" class="invisible"> </a> | ||
1195 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1196 | |||
1197 | |||
1198 | static void format_uuid_v3or5(uuid_t *uuid, unsigned char hash[16], | ||
1199 | int v); | ||
1200 | static void get_current_time(uuid_time_t *timestamp); | ||
1201 | static unsigned16 true_random(void); | ||
1202 | |||
1203 | /* uuid_create -- generator a UUID */ | ||
1204 | int uuid_create(uuid_t *uuid) | ||
1205 | { | ||
1206 | uuid_time_t timestamp, last_time; | ||
1207 | unsigned16 clockseq; | ||
1208 | uuid_node_t node; | ||
1209 | uuid_node_t last_node; | ||
1210 | int f; | ||
1211 | |||
1212 | /* acquire system-wide lock so we're alone */ | ||
1213 | LOCK; | ||
1214 | /* get time, node ID, saved state from non-volatile storage */ | ||
1215 | get_current_time(&timestamp); | ||
1216 | get_ieee_node_identifier(&node); | ||
1217 | f = read_state(&clockseq, &last_time, &last_node); | ||
1218 | |||
1219 | /* if no NV state, or if clock went backwards, or node ID | ||
1220 | changed (e.g., new network card) change clockseq */ | ||
1221 | if (!f || memcmp(&node, &last_node, sizeof node)) | ||
1222 | clockseq = true_random(); | ||
1223 | else if (timestamp < last_time) | ||
1224 | clockseq++; | ||
1225 | |||
1226 | /* save the state for next time */ | ||
1227 | write_state(clockseq, timestamp, node); | ||
1228 | |||
1229 | UNLOCK; | ||
1230 | |||
1231 | /* stuff fields into the UUID */ | ||
1232 | format_uuid_v1(uuid, clockseq, timestamp, node); | ||
1233 | return 1; | ||
1234 | } | ||
1235 | |||
1236 | /* format_uuid_v1 -- make a UUID from the timestamp, clockseq, | ||
1237 | and node ID */ | ||
1238 | void format_uuid_v1(uuid_t* uuid, unsigned16 clock_seq, | ||
1239 | uuid_time_t timestamp, uuid_node_t node) | ||
1240 | { | ||
1241 | /* Construct a version 1 uuid with the information we've gathered | ||
1242 | plus a few constants. */ | ||
1243 | uuid->time_low = (unsigned long)(timestamp & 0xFFFFFFFF); | ||
1244 | uuid->time_mid = (unsigned short)((timestamp >> 32) & 0xFFFF); | ||
1245 | uuid->time_hi_and_version = | ||
1246 | |||
1247 | |||
1248 | |||
1249 | <span class="grey">Leach, et al. Standards Track [Page 20]</span> | ||
1250 | </pre><pre class='newpage'><a name="page-21" id="page-21" href="#page-21" class="invisible"> </a> | ||
1251 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1252 | |||
1253 | |||
1254 | (unsigned short)((timestamp >> 48) & 0x0FFF); | ||
1255 | uuid->time_hi_and_version |= (1 << 12); | ||
1256 | uuid->clock_seq_low = clock_seq & 0xFF; | ||
1257 | uuid->clock_seq_hi_and_reserved = (clock_seq & 0x3F00) >> 8; | ||
1258 | uuid->clock_seq_hi_and_reserved |= 0x80; | ||
1259 | memcpy(&uuid->node, &node, sizeof uuid->node); | ||
1260 | } | ||
1261 | |||
1262 | /* data type for UUID generator persistent state */ | ||
1263 | typedef struct { | ||
1264 | uuid_time_t ts; /* saved timestamp */ | ||
1265 | uuid_node_t node; /* saved node ID */ | ||
1266 | unsigned16 cs; /* saved clock sequence */ | ||
1267 | } uuid_state; | ||
1268 | |||
1269 | static uuid_state st; | ||
1270 | |||
1271 | /* read_state -- read UUID generator state from non-volatile store */ | ||
1272 | int read_state(unsigned16 *clockseq, uuid_time_t *timestamp, | ||
1273 | uuid_node_t *node) | ||
1274 | { | ||
1275 | static int inited = 0; | ||
1276 | FILE *fp; | ||
1277 | |||
1278 | /* only need to read state once per boot */ | ||
1279 | if (!inited) { | ||
1280 | fp = fopen("state", "rb"); | ||
1281 | if (fp == NULL) | ||
1282 | return 0; | ||
1283 | fread(&st, sizeof st, 1, fp); | ||
1284 | fclose(fp); | ||
1285 | inited = 1; | ||
1286 | } | ||
1287 | *clockseq = st.cs; | ||
1288 | *timestamp = st.ts; | ||
1289 | *node = st.node; | ||
1290 | return 1; | ||
1291 | } | ||
1292 | |||
1293 | /* write_state -- save UUID generator state back to non-volatile | ||
1294 | storage */ | ||
1295 | void write_state(unsigned16 clockseq, uuid_time_t timestamp, | ||
1296 | uuid_node_t node) | ||
1297 | { | ||
1298 | static int inited = 0; | ||
1299 | static uuid_time_t next_save; | ||
1300 | FILE* fp; | ||
1301 | |||
1302 | |||
1303 | |||
1304 | |||
1305 | <span class="grey">Leach, et al. Standards Track [Page 21]</span> | ||
1306 | </pre><pre class='newpage'><a name="page-22" id="page-22" href="#page-22" class="invisible"> </a> | ||
1307 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1308 | |||
1309 | |||
1310 | if (!inited) { | ||
1311 | next_save = timestamp; | ||
1312 | inited = 1; | ||
1313 | } | ||
1314 | |||
1315 | /* always save state to volatile shared state */ | ||
1316 | st.cs = clockseq; | ||
1317 | st.ts = timestamp; | ||
1318 | st.node = node; | ||
1319 | if (timestamp >= next_save) { | ||
1320 | fp = fopen("state", "wb"); | ||
1321 | fwrite(&st, sizeof st, 1, fp); | ||
1322 | fclose(fp); | ||
1323 | /* schedule next save for 10 seconds from now */ | ||
1324 | next_save = timestamp + (10 * 10 * 1000 * 1000); | ||
1325 | } | ||
1326 | } | ||
1327 | |||
1328 | /* get-current_time -- get time as 60-bit 100ns ticks since UUID epoch. | ||
1329 | Compensate for the fact that real clock resolution is | ||
1330 | less than 100ns. */ | ||
1331 | void get_current_time(uuid_time_t *timestamp) | ||
1332 | { | ||
1333 | static int inited = 0; | ||
1334 | static uuid_time_t time_last; | ||
1335 | static unsigned16 uuids_this_tick; | ||
1336 | uuid_time_t time_now; | ||
1337 | |||
1338 | if (!inited) { | ||
1339 | get_system_time(&time_now); | ||
1340 | uuids_this_tick = UUIDS_PER_TICK; | ||
1341 | inited = 1; | ||
1342 | } | ||
1343 | |||
1344 | for ( ; ; ) { | ||
1345 | get_system_time(&time_now); | ||
1346 | |||
1347 | /* if clock reading changed since last UUID generated, */ | ||
1348 | if (time_last != time_now) { | ||
1349 | /* reset count of uuids gen'd with this clock reading */ | ||
1350 | uuids_this_tick = 0; | ||
1351 | time_last = time_now; | ||
1352 | break; | ||
1353 | } | ||
1354 | if (uuids_this_tick < UUIDS_PER_TICK) { | ||
1355 | uuids_this_tick++; | ||
1356 | break; | ||
1357 | } | ||
1358 | |||
1359 | |||
1360 | |||
1361 | <span class="grey">Leach, et al. Standards Track [Page 22]</span> | ||
1362 | </pre><pre class='newpage'><a name="page-23" id="page-23" href="#page-23" class="invisible"> </a> | ||
1363 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1364 | |||
1365 | |||
1366 | /* going too fast for our clock; spin */ | ||
1367 | } | ||
1368 | /* add the count of uuids to low order bits of the clock reading */ | ||
1369 | *timestamp = time_now + uuids_this_tick; | ||
1370 | } | ||
1371 | |||
1372 | /* true_random -- generate a crypto-quality random number. | ||
1373 | **This sample doesn't do that.** */ | ||
1374 | static unsigned16 true_random(void) | ||
1375 | { | ||
1376 | static int inited = 0; | ||
1377 | uuid_time_t time_now; | ||
1378 | |||
1379 | if (!inited) { | ||
1380 | get_system_time(&time_now); | ||
1381 | time_now = time_now / UUIDS_PER_TICK; | ||
1382 | srand((unsigned int) | ||
1383 | (((time_now >> 32) ^ time_now) & 0xffffffff)); | ||
1384 | inited = 1; | ||
1385 | } | ||
1386 | |||
1387 | return rand(); | ||
1388 | } | ||
1389 | |||
1390 | /* uuid_create_md5_from_name -- create a version 3 (MD5) UUID using a | ||
1391 | "name" from a "name space" */ | ||
1392 | void uuid_create_md5_from_name(uuid_t *uuid, uuid_t nsid, void *name, | ||
1393 | int namelen) | ||
1394 | { | ||
1395 | MD5_CTX c; | ||
1396 | unsigned char hash[16]; | ||
1397 | uuid_t net_nsid; | ||
1398 | |||
1399 | /* put name space ID in network byte order so it hashes the same | ||
1400 | no matter what endian machine we're on */ | ||
1401 | net_nsid = nsid; | ||
1402 | net_nsid.time_low = htonl(net_nsid.time_low); | ||
1403 | net_nsid.time_mid = htons(net_nsid.time_mid); | ||
1404 | net_nsid.time_hi_and_version = htons(net_nsid.time_hi_and_version); | ||
1405 | |||
1406 | MD5Init(&c); | ||
1407 | MD5Update(&c, &net_nsid, sizeof net_nsid); | ||
1408 | MD5Update(&c, name, namelen); | ||
1409 | MD5Final(hash, &c); | ||
1410 | |||
1411 | /* the hash is in network byte order at this point */ | ||
1412 | format_uuid_v3or5(uuid, hash, 3); | ||
1413 | } | ||
1414 | |||
1415 | |||
1416 | |||
1417 | <span class="grey">Leach, et al. Standards Track [Page 23]</span> | ||
1418 | </pre><pre class='newpage'><a name="page-24" id="page-24" href="#page-24" class="invisible"> </a> | ||
1419 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1420 | |||
1421 | |||
1422 | void uuid_create_sha1_from_name(uuid_t *uuid, uuid_t nsid, void *name, | ||
1423 | int namelen) | ||
1424 | { | ||
1425 | SHA_CTX c; | ||
1426 | unsigned char hash[20]; | ||
1427 | uuid_t net_nsid; | ||
1428 | |||
1429 | /* put name space ID in network byte order so it hashes the same | ||
1430 | no matter what endian machine we're on */ | ||
1431 | net_nsid = nsid; | ||
1432 | net_nsid.time_low = htonl(net_nsid.time_low); | ||
1433 | net_nsid.time_mid = htons(net_nsid.time_mid); | ||
1434 | net_nsid.time_hi_and_version = htons(net_nsid.time_hi_and_version); | ||
1435 | |||
1436 | SHA1_Init(&c); | ||
1437 | SHA1_Update(&c, &net_nsid, sizeof net_nsid); | ||
1438 | SHA1_Update(&c, name, namelen); | ||
1439 | SHA1_Final(hash, &c); | ||
1440 | |||
1441 | /* the hash is in network byte order at this point */ | ||
1442 | format_uuid_v3or5(uuid, hash, 5); | ||
1443 | } | ||
1444 | |||
1445 | /* format_uuid_v3or5 -- make a UUID from a (pseudo)random 128-bit | ||
1446 | number */ | ||
1447 | void format_uuid_v3or5(uuid_t *uuid, unsigned char hash[16], int v) | ||
1448 | { | ||
1449 | /* convert UUID to local byte order */ | ||
1450 | memcpy(uuid, hash, sizeof *uuid); | ||
1451 | uuid->time_low = ntohl(uuid->time_low); | ||
1452 | uuid->time_mid = ntohs(uuid->time_mid); | ||
1453 | uuid->time_hi_and_version = ntohs(uuid->time_hi_and_version); | ||
1454 | |||
1455 | /* put in the variant and version bits */ | ||
1456 | uuid->time_hi_and_version &= 0x0FFF; | ||
1457 | uuid->time_hi_and_version |= (v << 12); | ||
1458 | uuid->clock_seq_hi_and_reserved &= 0x3F; | ||
1459 | uuid->clock_seq_hi_and_reserved |= 0x80; | ||
1460 | } | ||
1461 | |||
1462 | /* uuid_compare -- Compare two UUID's "lexically" and return */ | ||
1463 | #define CHECK(f1, f2) if (f1 != f2) return f1 < f2 ? -1 : 1; | ||
1464 | int uuid_compare(uuid_t *u1, uuid_t *u2) | ||
1465 | { | ||
1466 | int i; | ||
1467 | |||
1468 | CHECK(u1->time_low, u2->time_low); | ||
1469 | CHECK(u1->time_mid, u2->time_mid); | ||
1470 | |||
1471 | |||
1472 | |||
1473 | <span class="grey">Leach, et al. Standards Track [Page 24]</span> | ||
1474 | </pre><pre class='newpage'><a name="page-25" id="page-25" href="#page-25" class="invisible"> </a> | ||
1475 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1476 | |||
1477 | |||
1478 | CHECK(u1->time_hi_and_version, u2->time_hi_and_version); | ||
1479 | CHECK(u1->clock_seq_hi_and_reserved, u2->clock_seq_hi_and_reserved); | ||
1480 | CHECK(u1->clock_seq_low, u2->clock_seq_low) | ||
1481 | for (i = 0; i < 6; i++) { | ||
1482 | if (u1->node[i] < u2->node[i]) | ||
1483 | return -1; | ||
1484 | if (u1->node[i] > u2->node[i]) | ||
1485 | return 1; | ||
1486 | } | ||
1487 | return 0; | ||
1488 | } | ||
1489 | #undef CHECK | ||
1490 | |||
1491 | |||
1492 | sysdep.h | ||
1493 | |||
1494 | #include "copyrt.h" | ||
1495 | /* remove the following define if you aren't running WIN32 */ | ||
1496 | #define WININC 0 | ||
1497 | |||
1498 | #ifdef WININC | ||
1499 | #include <windows.h> | ||
1500 | #else | ||
1501 | #include <sys/types.h> | ||
1502 | #include <sys/time.h> | ||
1503 | #include <sys/sysinfo.h> | ||
1504 | #endif | ||
1505 | |||
1506 | #include "global.h" | ||
1507 | /* change to point to where MD5 .h's live; <a href="./rfc1321">RFC 1321</a> has sample | ||
1508 | implementation */ | ||
1509 | #include "md5.h" | ||
1510 | |||
1511 | /* set the following to the number of 100ns ticks of the actual | ||
1512 | resolution of your system's clock */ | ||
1513 | #define UUIDS_PER_TICK 1024 | ||
1514 | |||
1515 | /* Set the following to a calls to get and release a global lock */ | ||
1516 | #define LOCK | ||
1517 | #define UNLOCK | ||
1518 | |||
1519 | typedef unsigned long unsigned32; | ||
1520 | typedef unsigned short unsigned16; | ||
1521 | typedef unsigned char unsigned8; | ||
1522 | typedef unsigned char byte; | ||
1523 | |||
1524 | /* Set this to what your compiler uses for 64-bit data type */ | ||
1525 | #ifdef WININC | ||
1526 | |||
1527 | |||
1528 | |||
1529 | <span class="grey">Leach, et al. Standards Track [Page 25]</span> | ||
1530 | </pre><pre class='newpage'><a name="page-26" id="page-26" href="#page-26" class="invisible"> </a> | ||
1531 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1532 | |||
1533 | |||
1534 | #define unsigned64_t unsigned __int64 | ||
1535 | #define I64(C) C | ||
1536 | #else | ||
1537 | #define unsigned64_t unsigned long long | ||
1538 | #define I64(C) C##LL | ||
1539 | #endif | ||
1540 | |||
1541 | typedef unsigned64_t uuid_time_t; | ||
1542 | typedef struct { | ||
1543 | char nodeID[6]; | ||
1544 | } uuid_node_t; | ||
1545 | |||
1546 | void get_ieee_node_identifier(uuid_node_t *node); | ||
1547 | void get_system_time(uuid_time_t *uuid_time); | ||
1548 | void get_random_info(char seed[16]); | ||
1549 | |||
1550 | |||
1551 | sysdep.c | ||
1552 | |||
1553 | #include "copyrt.h" | ||
1554 | #include <stdio.h> | ||
1555 | #include "sysdep.h" | ||
1556 | |||
1557 | /* system dependent call to get IEEE node ID. | ||
1558 | This sample implementation generates a random node ID. */ | ||
1559 | void get_ieee_node_identifier(uuid_node_t *node) | ||
1560 | { | ||
1561 | static inited = 0; | ||
1562 | static uuid_node_t saved_node; | ||
1563 | char seed[16]; | ||
1564 | FILE *fp; | ||
1565 | |||
1566 | if (!inited) { | ||
1567 | fp = fopen("nodeid", "rb"); | ||
1568 | if (fp) { | ||
1569 | fread(&saved_node, sizeof saved_node, 1, fp); | ||
1570 | fclose(fp); | ||
1571 | } | ||
1572 | else { | ||
1573 | get_random_info(seed); | ||
1574 | seed[0] |= 0x01; | ||
1575 | memcpy(&saved_node, seed, sizeof saved_node); | ||
1576 | fp = fopen("nodeid", "wb"); | ||
1577 | if (fp) { | ||
1578 | fwrite(&saved_node, sizeof saved_node, 1, fp); | ||
1579 | fclose(fp); | ||
1580 | } | ||
1581 | } | ||
1582 | |||
1583 | |||
1584 | |||
1585 | <span class="grey">Leach, et al. Standards Track [Page 26]</span> | ||
1586 | </pre><pre class='newpage'><a name="page-27" id="page-27" href="#page-27" class="invisible"> </a> | ||
1587 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1588 | |||
1589 | |||
1590 | inited = 1; | ||
1591 | } | ||
1592 | |||
1593 | *node = saved_node; | ||
1594 | } | ||
1595 | |||
1596 | /* system dependent call to get the current system time. Returned as | ||
1597 | 100ns ticks since UUID epoch, but resolution may be less than | ||
1598 | 100ns. */ | ||
1599 | #ifdef _WINDOWS_ | ||
1600 | |||
1601 | void get_system_time(uuid_time_t *uuid_time) | ||
1602 | { | ||
1603 | ULARGE_INTEGER time; | ||
1604 | |||
1605 | /* NT keeps time in FILETIME format which is 100ns ticks since | ||
1606 | Jan 1, 1601. UUIDs use time in 100ns ticks since Oct 15, 1582. | ||
1607 | The difference is 17 Days in Oct + 30 (Nov) + 31 (Dec) | ||
1608 | + 18 years and 5 leap days. */ | ||
1609 | GetSystemTimeAsFileTime((FILETIME *)&time); | ||
1610 | time.QuadPart += | ||
1611 | |||
1612 | (unsigned __int64) (1000*1000*10) // seconds | ||
1613 | * (unsigned __int64) (60 * 60 * 24) // days | ||
1614 | * (unsigned __int64) (17+30+31+365*18+5); // # of days | ||
1615 | *uuid_time = time.QuadPart; | ||
1616 | } | ||
1617 | |||
1618 | /* Sample code, not for use in production; see <a href="./rfc1750">RFC 1750</a> */ | ||
1619 | void get_random_info(char seed[16]) | ||
1620 | { | ||
1621 | MD5_CTX c; | ||
1622 | struct { | ||
1623 | MEMORYSTATUS m; | ||
1624 | SYSTEM_INFO s; | ||
1625 | FILETIME t; | ||
1626 | LARGE_INTEGER pc; | ||
1627 | DWORD tc; | ||
1628 | DWORD l; | ||
1629 | char hostname[MAX_COMPUTERNAME_LENGTH + 1]; | ||
1630 | } r; | ||
1631 | |||
1632 | MD5Init(&c); | ||
1633 | GlobalMemoryStatus(&r.m); | ||
1634 | GetSystemInfo(&r.s); | ||
1635 | GetSystemTimeAsFileTime(&r.t); | ||
1636 | QueryPerformanceCounter(&r.pc); | ||
1637 | r.tc = GetTickCount(); | ||
1638 | |||
1639 | |||
1640 | |||
1641 | <span class="grey">Leach, et al. Standards Track [Page 27]</span> | ||
1642 | </pre><pre class='newpage'><a name="page-28" id="page-28" href="#page-28" class="invisible"> </a> | ||
1643 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1644 | |||
1645 | |||
1646 | r.l = MAX_COMPUTERNAME_LENGTH + 1; | ||
1647 | GetComputerName(r.hostname, &r.l); | ||
1648 | MD5Update(&c, &r, sizeof r); | ||
1649 | MD5Final(seed, &c); | ||
1650 | } | ||
1651 | |||
1652 | #else | ||
1653 | |||
1654 | void get_system_time(uuid_time_t *uuid_time) | ||
1655 | { | ||
1656 | struct timeval tp; | ||
1657 | |||
1658 | gettimeofday(&tp, (struct timezone *)0); | ||
1659 | |||
1660 | /* Offset between UUID formatted times and Unix formatted times. | ||
1661 | UUID UTC base time is October 15, 1582. | ||
1662 | Unix base time is January 1, 1970.*/ | ||
1663 | *uuid_time = ((unsigned64)tp.tv_sec * 10000000) | ||
1664 | + ((unsigned64)tp.tv_usec * 10) | ||
1665 | + I64(0x01B21DD213814000); | ||
1666 | } | ||
1667 | |||
1668 | /* Sample code, not for use in production; see <a href="./rfc1750">RFC 1750</a> */ | ||
1669 | void get_random_info(char seed[16]) | ||
1670 | { | ||
1671 | MD5_CTX c; | ||
1672 | struct { | ||
1673 | struct sysinfo s; | ||
1674 | struct timeval t; | ||
1675 | char hostname[257]; | ||
1676 | } r; | ||
1677 | |||
1678 | MD5Init(&c); | ||
1679 | sysinfo(&r.s); | ||
1680 | gettimeofday(&r.t, (struct timezone *)0); | ||
1681 | gethostname(r.hostname, 256); | ||
1682 | MD5Update(&c, &r, sizeof r); | ||
1683 | MD5Final(seed, &c); | ||
1684 | } | ||
1685 | |||
1686 | #endif | ||
1687 | |||
1688 | utest.c | ||
1689 | |||
1690 | #include "copyrt.h" | ||
1691 | #include "sysdep.h" | ||
1692 | #include <stdio.h> | ||
1693 | #include "uuid.h" | ||
1694 | |||
1695 | |||
1696 | |||
1697 | <span class="grey">Leach, et al. Standards Track [Page 28]</span> | ||
1698 | </pre><pre class='newpage'><a name="page-29" id="page-29" href="#page-29" class="invisible"> </a> | ||
1699 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1700 | |||
1701 | |||
1702 | uuid_t NameSpace_DNS = { /* 6ba7b810-9dad-11d1-80b4-00c04fd430c8 */ | ||
1703 | 0x6ba7b810, | ||
1704 | 0x9dad, | ||
1705 | 0x11d1, | ||
1706 | 0x80, 0xb4, 0x00, 0xc0, 0x4f, 0xd4, 0x30, 0xc8 | ||
1707 | }; | ||
1708 | |||
1709 | /* puid -- print a UUID */ | ||
1710 | void puid(uuid_t u) | ||
1711 | { | ||
1712 | int i; | ||
1713 | |||
1714 | printf("%8.8x-%4.4x-%4.4x-%2.2x%2.2x-", u.time_low, u.time_mid, | ||
1715 | u.time_hi_and_version, u.clock_seq_hi_and_reserved, | ||
1716 | u.clock_seq_low); | ||
1717 | for (i = 0; i < 6; i++) | ||
1718 | printf("%2.2x", u.node[i]); | ||
1719 | printf("\n"); | ||
1720 | } | ||
1721 | |||
1722 | /* Simple driver for UUID generator */ | ||
1723 | void main(int argc, char **argv) | ||
1724 | { | ||
1725 | uuid_t u; | ||
1726 | int f; | ||
1727 | |||
1728 | uuid_create(&u); | ||
1729 | printf("uuid_create(): "); puid(u); | ||
1730 | |||
1731 | f = uuid_compare(&u, &u); | ||
1732 | printf("uuid_compare(u,u): %d\n", f); /* should be 0 */ | ||
1733 | f = uuid_compare(&u, &NameSpace_DNS); | ||
1734 | printf("uuid_compare(u, NameSpace_DNS): %d\n", f); /* s.b. 1 */ | ||
1735 | f = uuid_compare(&NameSpace_DNS, &u); | ||
1736 | printf("uuid_compare(NameSpace_DNS, u): %d\n", f); /* s.b. -1 */ | ||
1737 | uuid_create_md5_from_name(&u, NameSpace_DNS, "www.widgets.com", 15); | ||
1738 | printf("uuid_create_md5_from_name(): "); puid(u); | ||
1739 | } | ||
1740 | |||
1741 | <span class="h2"><a name="appendix-B">Appendix B</a>. <a href="#appendix-B">Appendix B</a> - Sample Output of utest</span> | ||
1742 | |||
1743 | uuid_create(): 7d444840-9dc0-11d1-b245-5ffdce74fad2 | ||
1744 | uuid_compare(u,u): 0 | ||
1745 | uuid_compare(u, NameSpace_DNS): 1 | ||
1746 | uuid_compare(NameSpace_DNS, u): -1 | ||
1747 | uuid_create_md5_from_name(): e902893a-9d22-3c7e-a7b8-d6e313b71d9f | ||
1748 | |||
1749 | |||
1750 | |||
1751 | |||
1752 | |||
1753 | <span class="grey">Leach, et al. Standards Track [Page 29]</span> | ||
1754 | </pre><pre class='newpage'><a name="page-30" id="page-30" href="#page-30" class="invisible"> </a> | ||
1755 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1756 | |||
1757 | |||
1758 | <span class="h2"><a name="appendix-C">Appendix C</a>. <a href="#appendix-C">Appendix C</a> - Some Name Space IDs</span> | ||
1759 | |||
1760 | This appendix lists the name space IDs for some potentially | ||
1761 | interesting name spaces, as initialized C structures and in the | ||
1762 | string representation defined above. | ||
1763 | |||
1764 | /* Name string is a fully-qualified domain name */ | ||
1765 | uuid_t NameSpace_DNS = { /* 6ba7b810-9dad-11d1-80b4-00c04fd430c8 */ | ||
1766 | 0x6ba7b810, | ||
1767 | 0x9dad, | ||
1768 | 0x11d1, | ||
1769 | 0x80, 0xb4, 0x00, 0xc0, 0x4f, 0xd4, 0x30, 0xc8 | ||
1770 | }; | ||
1771 | |||
1772 | /* Name string is a URL */ | ||
1773 | uuid_t NameSpace_URL = { /* 6ba7b811-9dad-11d1-80b4-00c04fd430c8 */ | ||
1774 | 0x6ba7b811, | ||
1775 | 0x9dad, | ||
1776 | 0x11d1, | ||
1777 | 0x80, 0xb4, 0x00, 0xc0, 0x4f, 0xd4, 0x30, 0xc8 | ||
1778 | }; | ||
1779 | |||
1780 | /* Name string is an ISO OID */ | ||
1781 | uuid_t NameSpace_OID = { /* 6ba7b812-9dad-11d1-80b4-00c04fd430c8 */ | ||
1782 | 0x6ba7b812, | ||
1783 | 0x9dad, | ||
1784 | 0x11d1, | ||
1785 | 0x80, 0xb4, 0x00, 0xc0, 0x4f, 0xd4, 0x30, 0xc8 | ||
1786 | }; | ||
1787 | |||
1788 | /* Name string is an X.500 DN (in DER or a text output format) */ | ||
1789 | uuid_t NameSpace_X500 = { /* 6ba7b814-9dad-11d1-80b4-00c04fd430c8 */ | ||
1790 | 0x6ba7b814, | ||
1791 | 0x9dad, | ||
1792 | 0x11d1, | ||
1793 | 0x80, 0xb4, 0x00, 0xc0, 0x4f, 0xd4, 0x30, 0xc8 | ||
1794 | }; | ||
1795 | |||
1796 | |||
1797 | |||
1798 | |||
1799 | |||
1800 | |||
1801 | |||
1802 | |||
1803 | |||
1804 | |||
1805 | |||
1806 | |||
1807 | |||
1808 | |||
1809 | <span class="grey">Leach, et al. Standards Track [Page 30]</span> | ||
1810 | </pre><pre class='newpage'><a name="page-31" id="page-31" href="#page-31" class="invisible"> </a> | ||
1811 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1812 | |||
1813 | |||
1814 | Authors' Addresses | ||
1815 | |||
1816 | Paul J. Leach | ||
1817 | Microsoft | ||
1818 | 1 Microsoft Way | ||
1819 | Redmond, WA 98052 | ||
1820 | US | ||
1821 | |||
1822 | Phone: +1 425-882-8080 | ||
1823 | EMail: paulle@microsoft.com | ||
1824 | |||
1825 | |||
1826 | Michael Mealling | ||
1827 | Refactored Networks, LLC | ||
1828 | 1635 Old Hwy 41 | ||
1829 | Suite 112, Box 138 | ||
1830 | Kennesaw, GA 30152 | ||
1831 | US | ||
1832 | |||
1833 | Phone: +1-678-581-9656 | ||
1834 | EMail: michael@refactored-networks.com | ||
1835 | URI: <a href="http://www.refactored-networks.com">http://www.refactored-networks.com</a> | ||
1836 | |||
1837 | |||
1838 | Rich Salz | ||
1839 | DataPower Technology, Inc. | ||
1840 | 1 Alewife Center | ||
1841 | Cambridge, MA 02142 | ||
1842 | US | ||
1843 | |||
1844 | Phone: +1 617-864-0455 | ||
1845 | EMail: rsalz@datapower.com | ||
1846 | URI: <a href="http://www.datapower.com">http://www.datapower.com</a> | ||
1847 | |||
1848 | |||
1849 | |||
1850 | |||
1851 | |||
1852 | |||
1853 | |||
1854 | |||
1855 | |||
1856 | |||
1857 | |||
1858 | |||
1859 | |||
1860 | |||
1861 | |||
1862 | |||
1863 | |||
1864 | |||
1865 | <span class="grey">Leach, et al. Standards Track [Page 31]</span> | ||
1866 | </pre><pre class='newpage'><a name="page-32" id="page-32" href="#page-32" class="invisible"> </a> | ||
1867 | <span class="grey"><a href="./rfc4122">RFC 4122</a> A UUID URN Namespace July 2005</span> | ||
1868 | |||
1869 | |||
1870 | Full Copyright Statement | ||
1871 | |||
1872 | Copyright (C) The Internet Society (2005). | ||
1873 | |||
1874 | This document is subject to the rights, licenses and restrictions | ||
1875 | contained in <a href="./bcp78">BCP 78</a>, and except as set forth therein, the authors | ||
1876 | retain all their rights. | ||
1877 | |||
1878 | This document and the information contained herein are provided on an | ||
1879 | "AS IS" basis and THE CONTRIBUTOR, THE ORGANIZATION HE/SHE REPRESENTS | ||
1880 | OR IS SPONSORED BY (IF ANY), THE INTERNET SOCIETY AND THE INTERNET | ||
1881 | ENGINEERING TASK FORCE DISCLAIM ALL WARRANTIES, EXPRESS OR IMPLIED, | ||
1882 | INCLUDING BUT NOT LIMITED TO ANY WARRANTY THAT THE USE OF THE | ||
1883 | INFORMATION HEREIN WILL NOT INFRINGE ANY RIGHTS OR ANY IMPLIED | ||
1884 | WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. | ||
1885 | |||
1886 | Intellectual Property | ||
1887 | |||
1888 | The IETF takes no position regarding the validity or scope of any | ||
1889 | Intellectual Property Rights or other rights that might be claimed to | ||
1890 | pertain to the implementation or use of the technology described in | ||
1891 | this document or the extent to which any license under such rights | ||
1892 | might or might not be available; nor does it represent that it has | ||
1893 | made any independent effort to identify any such rights. Information | ||
1894 | on the procedures with respect to rights in RFC documents can be | ||
1895 | found in <a href="./bcp78">BCP 78</a> and <a href="./bcp79">BCP 79</a>. | ||
1896 | |||
1897 | Copies of IPR disclosures made to the IETF Secretariat and any | ||
1898 | assurances of licenses to be made available, or the result of an | ||
1899 | attempt made to obtain a general license or permission for the use of | ||
1900 | such proprietary rights by implementers or users of this | ||
1901 | specification can be obtained from the IETF on-line IPR repository at | ||
1902 | <a href="http://www.ietf.org/ipr">http://www.ietf.org/ipr</a>. | ||
1903 | |||
1904 | The IETF invites any interested party to bring to its attention any | ||
1905 | copyrights, patents or patent applications, or other proprietary | ||
1906 | rights that may cover technology that may be required to implement | ||
1907 | this standard. Please address the information to the IETF at ietf- | ||
1908 | ipr@ietf.org. | ||
1909 | |||
1910 | Acknowledgement | ||
1911 | |||
1912 | Funding for the RFC Editor function is currently provided by the | ||
1913 | Internet Society. | ||
1914 | |||
1915 | |||
1916 | |||
1917 | |||
1918 | |||
1919 | |||
1920 | |||
1921 | Leach, et al. Standards Track [Page 32] | ||
1922 | </pre><pre class='newpage'> | ||
1923 | |||
1924 | </pre><br /> | ||
1925 | <span class="noprint"><small><small>Html markup produced by rfcmarkup 1.73, available from | ||
1926 | <a href="http://tools.ietf.org/tools/rfcmarkup/">http://tools.ietf.org/tools/rfcmarkup/</a> | ||
1927 | </small></small></span> | ||
1928 | </body></html> | ||