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Vector Packet Processing
hash.h
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2  * Copyright (c) 2015 Cisco and/or its affiliates.
3  * Licensed under the Apache License, Version 2.0 (the "License");
4  * you may not use this file except in compliance with the License.
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15 /*
16  Copyright (c) 2001-2005 Eliot Dresselhaus
17 
18  Permission is hereby granted, free of charge, to any person obtaining
19  a copy of this software and associated documentation files (the
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25 
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28 
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36 */
37 
38 #ifndef included_hash_h
39 #define included_hash_h
40 
41 #include <vppinfra/error.h>
42 #include <vppinfra/format.h>
43 #include <vppinfra/vec.h>
44 #include <vppinfra/vector.h>
45 
46 struct hash_header;
47 
48 typedef uword (hash_key_sum_function_t) (struct hash_header *, uword key);
50  (struct hash_header *, uword key1, uword key2);
51 
52 /* Vector header for hash tables. */
53 typedef struct hash_header
54 {
55  /* Number of elements in hash table. */
57 
58  /* Flags as follows. */
60 
61  /* Set if user does not want table to auto-resize when sufficiently full. */
62 #define HASH_FLAG_NO_AUTO_GROW (1 << 0)
63  /* Set if user does not want table to auto-resize when sufficiently empty. */
64 #define HASH_FLAG_NO_AUTO_SHRINK (1 << 1)
65  /* Set when hash_next is in the process of iterating through this hash table. */
66 #define HASH_FLAG_HASH_NEXT_IN_PROGRESS (1 << 2)
67 
69 
70  /* Function to compute the "sum" of a hash key.
71  Hash function is this sum modulo the prime size of
72  the hash table (vec_len (v)). */
74 
75  /* Special values for key_sum "function". */
76 #define KEY_FUNC_NONE (0) /*< sum = key */
77 #define KEY_FUNC_POINTER_UWORD (1) /*< sum = *(uword *) key */
78 #define KEY_FUNC_POINTER_U32 (2) /*< sum = *(u32 *) key */
79 #define KEY_FUNC_STRING (3) /*< sum = string_key_sum, etc. */
80 
81  /* key comparison function */
83 
84  /* Hook for user's data. Used to parameterize sum/equal functions. */
86 
87  /* Format a (k,v) pair */
89 
90  /* Format function arg */
92 
93  /* Bit i is set if pair i is a user object (as opposed to being
94  either zero or an indirect array of pairs). */
96 } hash_t;
97 
98 /* Hash header size in bytes */
101 {
102  hash_t *h;
103  uword is_user_bytes =
104  (sizeof (h->is_user[0]) * vec_len (v)) / BITS (h->is_user[0]);
105  return sizeof (h[0]) + is_user_bytes;
106 }
107 
108 /* Returns a pointer to the hash header given the vector pointer */
110 hash_header (void *v)
111 {
112  return vec_header (v, hash_header_bytes (v));
113 }
114 
115 /* Number of elements in the hash table */
117 hash_elts (void *v)
118 {
119  hash_t *h = hash_header (v);
120  return v ? h->elts : 0;
121 }
122 
123 /* Number of elements the hash table can hold */
125 hash_capacity (void *v)
126 {
127  return vec_len (v);
128 }
129 
130 /* Returns 1 if the hash pair contains user data */
132 hash_is_user (void *v, uword i)
133 {
134  hash_t *h = hash_header (v);
135  uword i0 = i / BITS (h->is_user[0]);
136  uword i1 = i % BITS (h->is_user[0]);
137  return (h->is_user[i0] & ((uword) 1 << i1)) != 0;
138 }
139 
140 /* Set the format function and format argument for a hash table */
141 always_inline void
144 {
145  hash_t *h = hash_header (v);
148 }
149 
150 /* Set hash table flags */
151 always_inline void
153 {
154  hash_header (v)->flags |= flags;
155 }
156 
157 /* Key value pairs. */
158 typedef struct
159 {
160  /* The Key */
162 
163  /* The Value. Length is 2^log2_pair_size - 1. */
164  uword value[0];
165 } hash_pair_t;
166 
167 /* The indirect pair structure
168 
169  If log2_pair_size > 0 we overload hash pairs
170  with indirect pairs for buckets with more than one
171  pair. */
172 typedef struct
173 {
174  /* pair vector */
176  /* padding */
177  u8 pad[sizeof (uword) - sizeof (hash_pair_t *)];
178  /* allocated length */
180 }
182 
183 /* Direct / Indirect pair union */
184 typedef union
185 {
189 
190 #define LOG2_ALLOC_BITS (5)
191 #define PAIR_BITS (BITS (uword) - LOG2_ALLOC_BITS)
192 
193 /* Log2 number of bytes allocated in pairs array. */
196 {
197  return p->alloc_len >> PAIR_BITS;
198 }
199 
200 /* Get the length of an indirect pair */
203 {
204  if (!p->pairs)
205  return 0;
206  else
207  return p->alloc_len & (((uword) 1 << PAIR_BITS) - 1);
208 }
209 
210 /* Set the length of an indirect pair */
211 always_inline void
213 {
214  ASSERT (len < ((uword) 1 << PAIR_BITS));
215  ASSERT (log2_alloc < ((uword) 1 << LOG2_ALLOC_BITS));
216  p->alloc_len = (log2_alloc << PAIR_BITS) | len;
217 }
218 
219 /* internal routine to fetch value for given key */
220 uword *_hash_get (void *v, uword key);
221 
222 /* internal routine to fetch value (key, value) pair for given key */
223 hash_pair_t *_hash_get_pair (void *v, uword key);
224 
225 /* internal routine to unset a (key, value) pair */
226 void *_hash_unset (void *v, uword key, void *old_value);
227 
228 /* internal routine to set a (key, value) pair, return the old value */
229 void *_hash_set3 (void *v, uword key, void *value, void *old_value);
230 
231 /* Resize a hash table */
232 void *hash_resize (void *old, uword new_size);
233 
234 /* duplicate a hash table */
235 void *hash_dup (void *old);
236 
237 /* Returns the number of bytes used by a hash table */
238 uword hash_bytes (void *v);
239 
240 /* Public macro to set a (key, value) pair, return the old value */
241 #define hash_set3(h,key,value,old_value) \
242 ({ \
243  uword _v = (uword) (value); \
244  (h) = _hash_set3 ((h), (uword) (key), (void *) &_v, (old_value)); \
245 })
246 
247 /* Public macro to fetch value for given key */
248 #define hash_get(h,key) _hash_get ((h), (uword) (key))
249 
250 /* Public macro to fetch value (key, value) pair for given key */
251 #define hash_get_pair(h,key) _hash_get_pair ((h), (uword) (key))
252 
253 /* Public macro to set a (key, value) pair */
254 #define hash_set(h,key,value) hash_set3(h,key,value,0)
255 
256 /* Public macro to set (key, 0) pair */
257 #define hash_set1(h,key) (h) = _hash_set3(h,(uword) (key),0,0)
258 
259 /* Public macro to unset a (key, value) pair */
260 #define hash_unset(h,key) ((h) = _hash_unset ((h), (uword) (key),0))
261 
262 /* Public macro to unset a (key, value) pair, return the old value */
263 #define hash_unset3(h,key,old_value) ((h) = _hash_unset ((h), (uword) (key), (void *) (old_value)))
264 
265 /* get/set/unset for pointer keys. */
266 
267 /* Public macro to fetch value for given pointer key */
268 #define hash_get_mem(h,key) _hash_get ((h), pointer_to_uword (key))
269 
270 /* Public macro to fetch (key, value) for given pointer key */
271 #define hash_get_pair_mem(h,key) _hash_get_pair ((h), pointer_to_uword (key))
272 
273 /* Public macro to set (key, value) for pointer key */
274 #define hash_set_mem(h,key,value) hash_set3 (h, pointer_to_uword (key), (value), 0)
275 
276 /* Public macro to set (key, 0) for pointer key */
277 #define hash_set1_mem(h,key) hash_set3 ((h), pointer_to_uword (key), 0, 0)
278 
279 /* Public macro to unset (key, value) for pointer key */
280 #define hash_unset_mem(h,key) ((h) = _hash_unset ((h), pointer_to_uword (key),0))
281 
282 /* internal routine to free a hash table */
283 extern void *_hash_free (void *v);
284 
285 /* Public macro to free a hash table */
286 #define hash_free(h) (h) = _hash_free ((h))
287 
288 clib_error_t *hash_validate (void *v);
289 
290 /* Public inline funcion to get the number of value bytes for a hash table */
293 {
294  hash_pair_t *p;
295  return (sizeof (p->value[0]) << h->log2_pair_size) - sizeof (p->key);
296 }
297 
298 /* Public inline funcion to get log2(size of a (key,value) pair) */
301 {
302  uword log2_bytes = h->log2_pair_size;
303  ASSERT (BITS (hash_pair_t) == 32 || BITS (hash_pair_t) == 64);
304  if (BITS (hash_pair_t) == 32)
305  log2_bytes += 2;
306  else if (BITS (hash_pair_t) == 64)
307  log2_bytes += 3;
308  return log2_bytes;
309 }
310 
311 /* Public inline funcion to get size of a (key,value) pair */
314 {
315  return (uword) 1 << hash_pair_log2_bytes (h);
316 }
317 
318 /* Public inline funcion to advance a pointer past one (key,value) pair */
319 always_inline void *
320 hash_forward1 (hash_t * h, void *v)
321 {
322  return (u8 *) v + hash_pair_bytes (h);
323 }
324 
325 /* Public inline funcion to advance a pointer past N (key,value) pairs */
326 always_inline void *
327 hash_forward (hash_t * h, void *v, uword n)
328 {
329  return (u8 *) v + ((n * sizeof (hash_pair_t)) << h->log2_pair_size);
330 }
331 
332 /** Iterate over hash pairs.
333 
334  @param p The current (key,value) pair. This should be of type
335  <code>(hash_pair_t *)</code>.
336  @param v The hash table to iterate.
337  @param body The operation to perform on each (key,value) pair.
338 
339  Executes the expression or code block @c body with each active hash pair.
340 */
341 /* A previous version of this macro made use of the hash_pair_union_t
342  * structure; this version does not since that approach mightily upset
343  * the static analysis tool. In the rare chance someone is reading this
344  * code, pretend that _p below is of type hash_pair_union_t and that when
345  * used as an rvalue it's really using one of the union members as the
346  * rvalue. If you were confused before you might be marginally less
347  * confused after.
348  */
349 #define hash_foreach_pair(p,v,body) \
350 do { \
351  __label__ _hash_foreach_done; \
352  hash_t * _h = hash_header (v); \
353  void * _p; \
354  hash_pair_t * _q, * _q_end; \
355  uword _i, _i1, _id, _pair_increment; \
356  \
357  _p = (v); \
358  _i = 0; \
359  _pair_increment = 1; \
360  if ((v)) \
361  _pair_increment = 1 << _h->log2_pair_size; \
362  while (_i < hash_capacity (v)) \
363  { \
364  _id = _h->is_user[_i / BITS (_h->is_user[0])]; \
365  _i1 = _i + BITS (_h->is_user[0]); \
366  \
367  do { \
368  if (_id & 1) \
369  { \
370  _q = _p; \
371  _q_end = _q + _pair_increment; \
372  } \
373  else \
374  { \
375  hash_pair_indirect_t * _pi = _p; \
376  _q = _pi->pairs; \
377  if (_h->log2_pair_size > 0) \
378  _q_end = hash_forward (_h, _q, indirect_pair_get_len (_pi)); \
379  else \
380  _q_end = vec_end (_q); \
381  } \
382  \
383  /* Loop through all elements in bucket. \
384  Bucket may have 0 1 or more (indirect case) pairs. */ \
385  while (_q < _q_end) \
386  { \
387  uword _break_in_body = 1; \
388  (p) = _q; \
389  do { \
390  body; \
391  _break_in_body = 0; \
392  } while (0); \
393  if (_break_in_body) \
394  goto _hash_foreach_done; \
395  _q += _pair_increment; \
396  } \
397  \
398  _p = (hash_pair_t *)_p + _pair_increment; \
399  _id = _id / 2; \
400  _i++; \
401  } while (_i < _i1); \
402  } \
403  _hash_foreach_done: \
404  /* Be silent Mr. Compiler-Warning. */ \
405  ; \
406  } while (0)
407 
408 /* Iterate over key/value pairs
409 
410  @param key_var the current key
411  @param value_var the current value
412  @param h the hash table to iterate across
413  @param body the operation to perform on each (key_var,value_var) pair.
414 
415  calls body with each active hash pair
416 */
417 /* Iteratate over key/value pairs. */
418 #define hash_foreach(key_var,value_var,h,body) \
419 do { \
420  hash_pair_t * _r; \
421  hash_foreach_pair (_r, (h), { \
422  (key_var) = (__typeof__ (key_var)) _r->key; \
423  (value_var) = (__typeof__ (value_var)) _r->value[0]; \
424  do { body; } while (0); \
425  }); \
426 } while (0)
427 
428 /* Iterate over key/value pairs for pointer key hash tables
429 
430  @param key_var the current key
431  @param value_var the current value
432  @param h the hash table to iterate across
433  @param body the operation to perform on each (key_var,value_var) pair.
434 
435  calls body with each active hash pair
436 */
437 #define hash_foreach_mem(key_var,value_var,h,body) \
438 do { \
439  hash_pair_t * _r; \
440  hash_foreach_pair (_r, (h), { \
441  (key_var) = (__typeof__ (key_var)) uword_to_pointer (_r->key, void *); \
442  (value_var) = (__typeof__ (value_var)) _r->value[0]; \
443  do { body; } while (0); \
444  }); \
445 } while (0)
446 
447 /* Support for iteration through hash table. */
448 
449 /* This struct saves iteration state for hash_next.
450  None of these fields are meant to be visible to the user.
451  Hence, the cryptic short-hand names. */
452 typedef struct
453 {
454  uword i, j, f;
455 } hash_next_t;
456 
457 hash_pair_t *hash_next (void *v, hash_next_t * hn);
458 
459 void *_hash_create (uword elts, hash_t * h);
460 
461 always_inline void
463 {
464  hash_pair_t *p;
465  h->log2_pair_size =
466  max_log2 ((sizeof (p->key) + value_bytes + sizeof (p->key) -
467  1) / sizeof (p->key));
468 }
469 
470 #define hash_create2(_elts,_user,_value_bytes, \
471  _key_sum,_key_equal, \
472  _format_pair,_format_pair_arg) \
473 ({ \
474  hash_t _h; \
475  memset (&_h, 0, sizeof (_h)); \
476  _h.user = (_user); \
477  _h.key_sum = (hash_key_sum_function_t *) (_key_sum); \
478  _h.key_equal = (_key_equal); \
479  hash_set_value_bytes (&_h, (_value_bytes)); \
480  _h.format_pair = (format_function_t *) (_format_pair); \
481  _h.format_pair_arg = (_format_pair_arg); \
482  _hash_create ((_elts), &_h); \
483 })
484 
485 /* Hash function based on that of Bob Jenkins (bob_jenkins@compuserve.com).
486  Public domain per: http://www.burtleburtle.net/bob/hash/doobs.html
487  Thanks, Bob. */
488 
489 #define hash_mix_step(a,b,c,s0,s1,s2) \
490 do { \
491  (a) -= (b) + (c); (a) ^= (c) >> (s0); \
492  (b) -= (c) + (a); (b) ^= (a) << (s1); \
493  (c) -= (a) + (b); (c) ^= (b) >> (s2); \
494 } while (0)
495 
496 #define hash_mix32_step_1(a,b,c) hash_mix_step(a,b,c,13,8,13)
497 #define hash_mix32_step_2(a,b,c) hash_mix_step(a,b,c,12,16,5)
498 #define hash_mix32_step_3(a,b,c) hash_mix_step(a,b,c,3,10,15)
499 
500 #define hash_mix64_step_1(a,b,c) hash_mix_step(a,b,c,43,9,8)
501 #define hash_mix64_step_2(a,b,c) hash_mix_step(a,b,c,38,23,5)
502 #define hash_mix64_step_3(a,b,c) hash_mix_step(a,b,c,35,49,11)
503 #define hash_mix64_step_4(a,b,c) hash_mix_step(a,b,c,12,18,22)
504 
505 /* Hash function based on that of Bob Jenkins (bob_jenkins@compuserve.com).
506  Thanks, Bob. */
507 #define hash_mix64(a0,b0,c0) \
508 do { \
509  hash_mix64_step_1 (a0, b0, c0); \
510  hash_mix64_step_2 (a0, b0, c0); \
511  hash_mix64_step_3 (a0, b0, c0); \
512  hash_mix64_step_4 (a0, b0, c0); \
513 } while (0) \
514 
515 #define hash_mix32(a0,b0,c0) \
516 do { \
517  hash_mix32_step_1 (a0, b0, c0); \
518  hash_mix32_step_2 (a0, b0, c0); \
519  hash_mix32_step_3 (a0, b0, c0); \
520 } while (0) \
521 
522 /* Finalize from Bob Jenkins lookup3.c */
523 
526 {
527  return (x << i) | (x >> (BITS (i) - i));
528 }
529 
530 #define hash_v3_mix32(a,b,c) \
531 do { \
532  (a) -= (c); (a) ^= hash32_rotate_left ((c), 4); (c) += (b); \
533  (b) -= (a); (b) ^= hash32_rotate_left ((a), 6); (a) += (c); \
534  (c) -= (b); (c) ^= hash32_rotate_left ((b), 8); (b) += (a); \
535  (a) -= (c); (a) ^= hash32_rotate_left ((c),16); (c) += (b); \
536  (b) -= (a); (b) ^= hash32_rotate_left ((a),19); (a) += (c); \
537  (c) -= (b); (c) ^= hash32_rotate_left ((b), 4); (b) += (a); \
538 } while (0)
539 
540 #define hash_v3_finalize32(a,b,c) \
541 do { \
542  (c) ^= (b); (c) -= hash32_rotate_left ((b), 14); \
543  (a) ^= (c); (a) -= hash32_rotate_left ((c), 11); \
544  (b) ^= (a); (b) -= hash32_rotate_left ((a), 25); \
545  (c) ^= (b); (c) -= hash32_rotate_left ((b), 16); \
546  (a) ^= (c); (a) -= hash32_rotate_left ((c), 4); \
547  (b) ^= (a); (b) -= hash32_rotate_left ((a), 14); \
548  (c) ^= (b); (c) -= hash32_rotate_left ((b), 24); \
549 } while (0)
550 
551 /* 32 bit mixing/finalize in steps. */
552 
553 #define hash_v3_mix32_step1(a,b,c) \
554 do { \
555  (a) -= (c); (a) ^= hash32_rotate_left ((c), 4); (c) += (b); \
556  (b) -= (a); (b) ^= hash32_rotate_left ((a), 6); (a) += (c); \
557 } while (0)
558 
559 #define hash_v3_mix32_step2(a,b,c) \
560 do { \
561  (c) -= (b); (c) ^= hash32_rotate_left ((b), 8); (b) += (a); \
562  (a) -= (c); (a) ^= hash32_rotate_left ((c),16); (c) += (b); \
563 } while (0)
564 
565 #define hash_v3_mix32_step3(a,b,c) \
566 do { \
567  (b) -= (a); (b) ^= hash32_rotate_left ((a),19); (a) += (c); \
568  (c) -= (b); (c) ^= hash32_rotate_left ((b), 4); (b) += (a); \
569 } while (0)
570 
571 #define hash_v3_finalize32_step1(a,b,c) \
572 do { \
573  (c) ^= (b); (c) -= hash32_rotate_left ((b), 14); \
574  (a) ^= (c); (a) -= hash32_rotate_left ((c), 11); \
575 } while (0)
576 
577 #define hash_v3_finalize32_step2(a,b,c) \
578 do { \
579  (b) ^= (a); (b) -= hash32_rotate_left ((a), 25); \
580  (c) ^= (b); (c) -= hash32_rotate_left ((b), 16); \
581 } while (0)
582 
583 #define hash_v3_finalize32_step3(a,b,c) \
584 do { \
585  (a) ^= (c); (a) -= hash32_rotate_left ((c), 4); \
586  (b) ^= (a); (b) -= hash32_rotate_left ((a), 14); \
587  (c) ^= (b); (c) -= hash32_rotate_left ((b), 24); \
588 } while (0)
589 
590 /* Vector v3 mixing/finalize. */
591 #define hash_v3_mix_step_1_u32x(a,b,c) \
592 do { \
593  (a) -= (c); (a) ^= u32x_irotate_left ((c), 4); (c) += (b); \
594  (b) -= (a); (b) ^= u32x_irotate_left ((a), 6); (a) += (c); \
595  (c) -= (b); (c) ^= u32x_irotate_left ((b), 8); (b) += (a); \
596 } while (0)
597 
598 #define hash_v3_mix_step_2_u32x(a,b,c) \
599 do { \
600  (a) -= (c); (a) ^= u32x_irotate_left ((c),16); (c) += (b); \
601  (b) -= (a); (b) ^= u32x_irotate_left ((a),19); (a) += (c); \
602  (c) -= (b); (c) ^= u32x_irotate_left ((b), 4); (b) += (a); \
603 } while (0)
604 
605 #define hash_v3_finalize_step_1_u32x(a,b,c) \
606 do { \
607  (c) ^= (b); (c) -= u32x_irotate_left ((b), 14); \
608  (a) ^= (c); (a) -= u32x_irotate_left ((c), 11); \
609  (b) ^= (a); (b) -= u32x_irotate_left ((a), 25); \
610 } while (0)
611 
612 #define hash_v3_finalize_step_2_u32x(a,b,c) \
613 do { \
614  (c) ^= (b); (c) -= u32x_irotate_left ((b), 16); \
615  (a) ^= (c); (a) -= u32x_irotate_left ((c), 4); \
616  (b) ^= (a); (b) -= u32x_irotate_left ((a), 14); \
617  (c) ^= (b); (c) -= u32x_irotate_left ((b), 24); \
618 } while (0)
619 
620 #define hash_v3_mix_u32x(a,b,c) \
621 do { \
622  hash_v3_mix_step_1_u32x(a,b,c); \
623  hash_v3_mix_step_2_u32x(a,b,c); \
624 } while (0)
625 
626 #define hash_v3_finalize_u32x(a,b,c) \
627 do { \
628  hash_v3_finalize_step_1_u32x(a,b,c); \
629  hash_v3_finalize_step_2_u32x(a,b,c); \
630 } while (0)
631 
632 extern uword hash_memory (void *p, word n_bytes, uword state);
633 
634 extern uword mem_key_sum (hash_t * h, uword key);
635 extern uword mem_key_equal (hash_t * h, uword key1, uword key2);
636 
637 #define hash_create_mem(elts,key_bytes,value_bytes) \
638  hash_create2((elts),(key_bytes),(value_bytes),mem_key_sum,mem_key_equal,0,0)
639 
640 extern uword vec_key_sum (hash_t * h, uword key);
641 extern uword vec_key_equal (hash_t * h, uword key1, uword key2);
642 extern u8 *vec_key_format_pair (u8 * s, va_list * args);
643 
644 #define hash_create_vec(elts,key_bytes,value_bytes) \
645  hash_create2((elts),(key_bytes),(value_bytes),\
646  vec_key_sum,vec_key_equal,vec_key_format_pair,0)
647 
648 extern uword string_key_sum (hash_t * h, uword key);
649 extern uword string_key_equal (hash_t * h, uword key1, uword key2);
650 extern u8 *string_key_format_pair (u8 * s, va_list * args);
651 
652 #define hash_create_string(elts,value_bytes) \
653  hash_create2((elts),0,(value_bytes), \
654  (hash_key_sum_function_t *) KEY_FUNC_STRING, \
655  (hash_key_equal_function_t *)KEY_FUNC_STRING, \
656  0, 0)
657 
658 #define hash_create(elts,value_bytes) \
659  hash_create2((elts),0,(value_bytes), \
660  (hash_key_sum_function_t *) KEY_FUNC_NONE, \
661  (hash_key_equal_function_t *) KEY_FUNC_NONE, \
662  0,0)
663 
664 #define hash_create_uword(elts,value_bytes) \
665  hash_create2((elts),0,(value_bytes), \
666  (hash_key_sum_function_t *) KEY_FUNC_POINTER_UWORD, \
667  (hash_key_equal_function_t *) KEY_FUNC_POINTER_UWORD, \
668  0,0)
669 
670 #define hash_create_u32(elts,value_bytes) \
671  hash_create2((elts),0,(value_bytes), \
672  (hash_key_sum_function_t *) KEY_FUNC_POINTER_U32, \
673  (hash_key_equal_function_t *) KEY_FUNC_POINTER_U32, \
674  0,0)
675 
676 u8 *format_hash (u8 * s, va_list * va);
677 
678 /* Looks up input in hash table indexed by either vec string or
679  c string (null terminated). */
682 
683 /* Main test routine. */
684 int test_hash_main (unformat_input_t * input);
685 
686 #endif /* included_hash_h */
687 
688 /*
689  * fd.io coding-style-patch-verification: ON
690  *
691  * Local Variables:
692  * eval: (c-set-style "gnu")
693  * End:
694  */
uword( unformat_function_t)(unformat_input_t *input, va_list *args)
Definition: format.h:231
any user
Definition: hash.h:85
clib_error_t * hash_validate(void *v)
Definition: hash.c:1045
u8 pad[3]
log2 (size of the packing page block)
Definition: bihash_doc.h:61
sll srl srl sll sra u16x4 i
Definition: vector_sse2.h:337
uword hash_bytes(void *v)
Definition: hash.c:925
static uword indirect_pair_get_len(hash_pair_indirect_t *p)
Definition: hash.h:202
void * format_pair_arg
Definition: hash.h:91
unformat_function_t unformat_hash_string
Definition: hash.h:681
uword hash_memory(void *p, word n_bytes, uword state)
Definition: hash.c:214
#define LOG2_ALLOC_BITS
Definition: hash.h:190
hash_pair_t * pairs
Definition: hash.h:175
u8 * format_hash(u8 *s, va_list *va)
Definition: hash.c:950
uword mem_key_sum(hash_t *h, uword key)
Definition: hash.c:860
uword j
Definition: hash.h:454
static void hash_set_value_bytes(hash_t *h, uword value_bytes)
Definition: hash.h:462
int test_hash_main(unformat_input_t *input)
static void indirect_pair_set(hash_pair_indirect_t *p, uword log2_alloc, uword len)
Definition: hash.h:212
uword vec_key_equal(hash_t *h, uword key1, uword key2)
Definition: hash.c:799
u8 *( format_function_t)(u8 *s, va_list *args)
Definition: format.h:48
uword( hash_key_equal_function_t)(struct hash_header *, uword key1, uword key2)
Definition: hash.h:50
static uword hash_header_bytes(void *v)
Definition: hash.h:100
uword value[0]
Definition: hash.h:164
uword elts
Definition: hash.h:56
u32 log2_pair_size
Definition: hash.h:68
#define always_inline
Definition: clib.h:84
hash_key_equal_function_t * key_equal
Definition: hash.h:82
static void hash_set_flags(void *v, uword flags)
Definition: hash.h:152
static uword hash_value_bytes(hash_t *h)
Definition: hash.h:292
static hash_t * hash_header(void *v)
Definition: hash.h:110
static uword hash_capacity(void *v)
Definition: hash.h:125
void * hash_dup(void *old)
Definition: hash.c:765
static uword hash_is_user(void *v, uword i)
Definition: hash.h:132
static uword hash_pair_bytes(hash_t *h)
Definition: hash.h:313
struct _unformat_input_t unformat_input_t
uword string_key_equal(hash_t *h, uword key1, uword key2)
Definition: hash.c:882
void * hash_resize(void *old, uword new_size)
Definition: hash.c:759
#define PAIR_BITS
Definition: hash.h:191
unformat_function_t unformat_hash_vec_string
Definition: hash.h:680
u32 flags
Definition: hash.h:59
word any
Definition: types.h:139
format_function_t * format_pair
Definition: hash.h:88
static uword hash_pair_log2_bytes(hash_t *h)
Definition: hash.h:300
hash_pair_indirect_t indirect
Definition: hash.h:187
static void * hash_forward1(hash_t *h, void *v)
Definition: hash.h:320
static void hash_set_pair_format(void *v, format_function_t *format_pair, void *format_pair_arg)
Definition: hash.h:142
static uword hash32_rotate_left(u32 x, u32 i)
Definition: hash.h:525
u8 * string_key_format_pair(u8 *s, va_list *args)
Definition: hash.c:890
uword mem_key_equal(hash_t *h, uword key1, uword key2)
Definition: hash.c:867
static uword indirect_pair_get_log2_bytes(hash_pair_indirect_t *p)
Definition: hash.h:195
#define ASSERT(truth)
static uword hash_elts(void *v)
Definition: hash.h:117
unsigned int u32
Definition: types.h:88
static void * hash_forward(hash_t *h, void *v, uword n)
Definition: hash.h:327
vhost_vring_state_t state
Definition: vhost-user.h:81
u64 uword
Definition: types.h:112
hash_pair_t * hash_next(void *v, hash_next_t *hn)
Definition: hash.c:588
uword( hash_key_sum_function_t)(struct hash_header *, uword key)
Definition: hash.h:48
i64 word
Definition: types.h:111
hash_pair_t direct
Definition: hash.h:186
u8 * vec_key_format_pair(u8 *s, va_list *args)
Definition: hash.c:809
#define vec_len(v)
Number of elements in vector (rvalue-only, NULL tolerant)
unsigned char u8
Definition: types.h:56
struct hash_header hash_t
static uword max_log2(uword x)
Definition: clib.h:228
static void * vec_header(void *v, uword header_bytes)
Find a user vector header.
Definition: vec_bootstrap.h:92
uword string_key_sum(hash_t *h, uword key)
Definition: hash.c:875
#define BITS(x)
Definition: clib.h:58
uword vec_key_sum(hash_t *h, uword key)
Definition: hash.c:792
uword is_user[0]
Definition: hash.h:95
hash_key_sum_function_t * key_sum
Definition: hash.h:73
uword key
Definition: hash.h:161
CLIB vectors are ubiquitous dynamically resized arrays with by user defined "headers".