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TOMOYO Linux Cross Reference
Linux/net/tipc/crypto.c

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Diff markup

Differences between /net/tipc/crypto.c (Version linux-6.11.5) and /net/tipc/crypto.c (Version ccs-tools-1.8.9)


  1 // SPDX-License-Identifier: GPL-2.0                 1 
  2 /*                                                
  3  * net/tipc/crypto.c: TIPC crypto for key hand    
  4  *                                                
  5  * Copyright (c) 2019, Ericsson AB                
  6  * All rights reserved.                           
  7  *                                                
  8  * Redistribution and use in source and binary    
  9  * modification, are permitted provided that t    
 10  *                                                
 11  * 1. Redistributions of source code must reta    
 12  *    notice, this list of conditions and the     
 13  * 2. Redistributions in binary form must repr    
 14  *    notice, this list of conditions and the     
 15  *    documentation and/or other materials pro    
 16  * 3. Neither the names of the copyright holde    
 17  *    contributors may be used to endorse or p    
 18  *    this software without specific prior wri    
 19  *                                                
 20  * Alternatively, this software may be distrib    
 21  * GNU General Public License ("GPL") version     
 22  * Software Foundation.                           
 23  *                                                
 24  * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT     
 25  * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCL    
 26  * IMPLIED WARRANTIES OF MERCHANTABILITY AND F    
 27  * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYR    
 28  * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL    
 29  * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT L    
 30  * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,     
 31  * INTERRUPTION) HOWEVER CAUSED AND ON ANY THE    
 32  * CONTRACT, STRICT LIABILITY, OR TORT (INCLUD    
 33  * ARISING IN ANY WAY OUT OF THE USE OF THIS S    
 34  * POSSIBILITY OF SUCH DAMAGE.                    
 35  */                                               
 36                                                   
 37 #include <crypto/aead.h>                          
 38 #include <crypto/aes.h>                           
 39 #include <crypto/rng.h>                           
 40 #include "crypto.h"                               
 41 #include "msg.h"                                  
 42 #include "bcast.h"                                
 43                                                   
 44 #define TIPC_TX_GRACE_PERIOD    msecs_to_jiffi    
 45 #define TIPC_TX_LASTING_TIME    msecs_to_jiffi    
 46 #define TIPC_RX_ACTIVE_LIM      msecs_to_jiffi    
 47 #define TIPC_RX_PASSIVE_LIM     msecs_to_jiffi    
 48                                                   
 49 #define TIPC_MAX_TFMS_DEF       10                
 50 #define TIPC_MAX_TFMS_LIM       1000              
 51                                                   
 52 #define TIPC_REKEYING_INTV_DEF  (60 * 24) /* d    
 53                                                   
 54 /*                                                
 55  * TIPC Key ids                                   
 56  */                                               
 57 enum {                                            
 58         KEY_MASTER = 0,                           
 59         KEY_MIN = KEY_MASTER,                     
 60         KEY_1 = 1,                                
 61         KEY_2,                                    
 62         KEY_3,                                    
 63         KEY_MAX = KEY_3,                          
 64 };                                                
 65                                                   
 66 /*                                                
 67  * TIPC Crypto statistics                         
 68  */                                               
 69 enum {                                            
 70         STAT_OK,                                  
 71         STAT_NOK,                                 
 72         STAT_ASYNC,                               
 73         STAT_ASYNC_OK,                            
 74         STAT_ASYNC_NOK,                           
 75         STAT_BADKEYS, /* tx only */               
 76         STAT_BADMSGS = STAT_BADKEYS, /* rx onl    
 77         STAT_NOKEYS,                              
 78         STAT_SWITCHES,                            
 79                                                   
 80         MAX_STATS,                                
 81 };                                                
 82                                                   
 83 /* TIPC crypto statistics' header */              
 84 static const char *hstats[MAX_STATS] = {"ok",     
 85                                         "async    
 86                                         "switc    
 87                                                   
 88 /* Max TFMs number per key */                     
 89 int sysctl_tipc_max_tfms __read_mostly = TIPC_    
 90 /* Key exchange switch, default: on */            
 91 int sysctl_tipc_key_exchange_enabled __read_mo    
 92                                                   
 93 /*                                                
 94  * struct tipc_key - TIPC keys' status indicat    
 95  *                                                
 96  *         7     6     5     4     3     2        
 97  *      +-----+-----+-----+-----+-----+-----+-    
 98  * key: | (reserved)|passive idx| active idx|p    
 99  *      +-----+-----+-----+-----+-----+-----+-    
100  */                                               
101 struct tipc_key {                                 
102 #define KEY_BITS (2)                              
103 #define KEY_MASK ((1 << KEY_BITS) - 1)            
104         union {                                   
105                 struct {                          
106 #if defined(__LITTLE_ENDIAN_BITFIELD)             
107                         u8 pending:2,             
108                            active:2,              
109                            passive:2, /* rx on    
110                            reserved:2;            
111 #elif defined(__BIG_ENDIAN_BITFIELD)              
112                         u8 reserved:2,            
113                            passive:2, /* rx on    
114                            active:2,              
115                            pending:2;             
116 #else                                             
117 #error  "Please fix <asm/byteorder.h>"            
118 #endif                                            
119                 } __packed;                       
120                 u8 keys;                          
121         };                                        
122 };                                                
123                                                   
124 /**                                               
125  * struct tipc_tfm - TIPC TFM structure to for    
126  * @tfm: cipher handle/key                        
127  * @list: linked list of TFMs                     
128  */                                               
129 struct tipc_tfm {                                 
130         struct crypto_aead *tfm;                  
131         struct list_head list;                    
132 };                                                
133                                                   
134 /**                                               
135  * struct tipc_aead - TIPC AEAD key structure     
136  * @tfm_entry: per-cpu pointer to one entry in    
137  * @crypto: TIPC crypto owns this key             
138  * @cloned: reference to the source key in cas    
139  * @users: the number of the key users (TX/RX)    
140  * @salt: the key's SALT value                    
141  * @authsize: authentication tag size (max = 1    
142  * @mode: crypto mode is applied to the key       
143  * @hint: a hint for user key                     
144  * @rcu: struct rcu_head                          
145  * @key: the aead key                             
146  * @gen: the key's generation                     
147  * @seqno: the key seqno (cluster scope)          
148  * @refcnt: the key reference counter             
149  */                                               
150 struct tipc_aead {                                
151 #define TIPC_AEAD_HINT_LEN (5)                    
152         struct tipc_tfm * __percpu *tfm_entry;    
153         struct tipc_crypto *crypto;               
154         struct tipc_aead *cloned;                 
155         atomic_t users;                           
156         u32 salt;                                 
157         u8 authsize;                              
158         u8 mode;                                  
159         char hint[2 * TIPC_AEAD_HINT_LEN + 1];    
160         struct rcu_head rcu;                      
161         struct tipc_aead_key *key;                
162         u16 gen;                                  
163                                                   
164         atomic64_t seqno ____cacheline_aligned    
165         refcount_t refcnt ____cacheline_aligne    
166                                                   
167 } ____cacheline_aligned;                          
168                                                   
169 /**                                               
170  * struct tipc_crypto_stats - TIPC Crypto stat    
171  * @stat: array of crypto statistics              
172  */                                               
173 struct tipc_crypto_stats {                        
174         unsigned int stat[MAX_STATS];             
175 };                                                
176                                                   
177 /**                                               
178  * struct tipc_crypto - TIPC TX/RX crypto stru    
179  * @net: struct net                               
180  * @node: TIPC node (RX)                          
181  * @aead: array of pointers to AEAD keys for e    
182  * @peer_rx_active: replicated peer RX active     
183  * @key_gen: TX/RX key generation                 
184  * @key: the key states                           
185  * @skey_mode: session key's mode                 
186  * @skey: received session key                    
187  * @wq: common workqueue on TX crypto             
188  * @work: delayed work sched for TX/RX            
189  * @key_distr: key distributing state             
190  * @rekeying_intv: rekeying interval (in minut    
191  * @stats: the crypto statistics                  
192  * @name: the crypto name                         
193  * @sndnxt: the per-peer sndnxt (TX)              
194  * @timer1: general timer 1 (jiffies)             
195  * @timer2: general timer 2 (jiffies)             
196  * @working: the crypto is working or not         
197  * @key_master: flag indicates if master key e    
198  * @legacy_user: flag indicates if a peer join    
199  * @nokey: no key indication                      
200  * @flags: combined flags field                   
201  * @lock: tipc_key lock                           
202  */                                               
203 struct tipc_crypto {                              
204         struct net *net;                          
205         struct tipc_node *node;                   
206         struct tipc_aead __rcu *aead[KEY_MAX +    
207         atomic_t peer_rx_active;                  
208         u16 key_gen;                              
209         struct tipc_key key;                      
210         u8 skey_mode;                             
211         struct tipc_aead_key *skey;               
212         struct workqueue_struct *wq;              
213         struct delayed_work work;                 
214 #define KEY_DISTR_SCHED         1                 
215 #define KEY_DISTR_COMPL         2                 
216         atomic_t key_distr;                       
217         u32 rekeying_intv;                        
218                                                   
219         struct tipc_crypto_stats __percpu *sta    
220         char name[48];                            
221                                                   
222         atomic64_t sndnxt ____cacheline_aligne    
223         unsigned long timer1;                     
224         unsigned long timer2;                     
225         union {                                   
226                 struct {                          
227                         u8 working:1;             
228                         u8 key_master:1;          
229                         u8 legacy_user:1;         
230                         u8 nokey: 1;              
231                 };                                
232                 u8 flags;                         
233         };                                        
234         spinlock_t lock; /* crypto lock */        
235                                                   
236 } ____cacheline_aligned;                          
237                                                   
238 /* struct tipc_crypto_tx_ctx - TX context for     
239 struct tipc_crypto_tx_ctx {                       
240         struct tipc_aead *aead;                   
241         struct tipc_bearer *bearer;               
242         struct tipc_media_addr dst;               
243 };                                                
244                                                   
245 /* struct tipc_crypto_rx_ctx - RX context for     
246 struct tipc_crypto_rx_ctx {                       
247         struct tipc_aead *aead;                   
248         struct tipc_bearer *bearer;               
249 };                                                
250                                                   
251 static struct tipc_aead *tipc_aead_get(struct     
252 static inline void tipc_aead_put(struct tipc_a    
253 static void tipc_aead_free(struct rcu_head *rp    
254 static int tipc_aead_users(struct tipc_aead __    
255 static void tipc_aead_users_inc(struct tipc_ae    
256 static void tipc_aead_users_dec(struct tipc_ae    
257 static void tipc_aead_users_set(struct tipc_ae    
258 static struct crypto_aead *tipc_aead_tfm_next(    
259 static int tipc_aead_init(struct tipc_aead **a    
260                           u8 mode);               
261 static int tipc_aead_clone(struct tipc_aead **    
262 static void *tipc_aead_mem_alloc(struct crypto    
263                                  unsigned int     
264                                  u8 **iv, stru    
265                                  struct scatte    
266 static int tipc_aead_encrypt(struct tipc_aead     
267                              struct tipc_beare    
268                              struct tipc_media    
269                              struct tipc_node     
270 static void tipc_aead_encrypt_done(void *data,    
271 static int tipc_aead_decrypt(struct net *net,     
272                              struct sk_buff *s    
273 static void tipc_aead_decrypt_done(void *data,    
274 static inline int tipc_ehdr_size(struct tipc_e    
275 static int tipc_ehdr_build(struct net *net, st    
276                            u8 tx_key, struct s    
277                            struct tipc_crypto     
278 static inline void tipc_crypto_key_set_state(s    
279                                              u    
280                                              u    
281                                              u    
282 static int tipc_crypto_key_attach(struct tipc_    
283                                   struct tipc_    
284                                   bool master_    
285 static bool tipc_crypto_key_try_align(struct t    
286 static struct tipc_aead *tipc_crypto_key_pick_    
287                                                   
288                                                   
289                                                   
290 static void tipc_crypto_key_synch(struct tipc_    
291 static int tipc_crypto_key_revoke(struct net *    
292 static inline void tipc_crypto_clone_msg(struc    
293                                          struc    
294                                          struc    
295                                          struc    
296 static void tipc_crypto_rcv_complete(struct ne    
297                                      struct ti    
298                                      struct sk    
299 static void tipc_crypto_do_cmd(struct net *net    
300 static char *tipc_crypto_key_dump(struct tipc_    
301 static char *tipc_key_change_dump(struct tipc_    
302                                   char *buf);     
303 static int tipc_crypto_key_xmit(struct net *ne    
304                                 u16 gen, u8 mo    
305 static bool tipc_crypto_key_rcv(struct tipc_cr    
306 static void tipc_crypto_work_tx(struct work_st    
307 static void tipc_crypto_work_rx(struct work_st    
308 static int tipc_aead_key_generate(struct tipc_    
309                                                   
310 #define is_tx(crypto) (!(crypto)->node)           
311 #define is_rx(crypto) (!is_tx(crypto))            
312                                                   
313 #define key_next(cur) ((cur) % KEY_MAX + 1)       
314                                                   
315 #define tipc_aead_rcu_ptr(rcu_ptr, lock)          
316         rcu_dereference_protected((rcu_ptr), l    
317                                                   
318 #define tipc_aead_rcu_replace(rcu_ptr, ptr, lo    
319 do {                                              
320         struct tipc_aead *__tmp = rcu_derefere    
321                                                   
322         rcu_assign_pointer((rcu_ptr), (ptr));     
323         tipc_aead_put(__tmp);                     
324 } while (0)                                       
325                                                   
326 #define tipc_crypto_key_detach(rcu_ptr, lock)     
327         tipc_aead_rcu_replace((rcu_ptr), NULL,    
328                                                   
329 /**                                               
330  * tipc_aead_key_validate - Validate a AEAD us    
331  * @ukey: pointer to user key data                
332  * @info: netlink info pointer                    
333  */                                               
334 int tipc_aead_key_validate(struct tipc_aead_ke    
335 {                                                 
336         int keylen;                               
337                                                   
338         /* Check if algorithm exists */           
339         if (unlikely(!crypto_has_alg(ukey->alg    
340                 GENL_SET_ERR_MSG(info, "unable    
341                 return -ENODEV;                   
342         }                                         
343                                                   
344         /* Currently, we only support the "gcm    
345         if (strcmp(ukey->alg_name, "gcm(aes)")    
346                 GENL_SET_ERR_MSG(info, "not su    
347                 return -ENOTSUPP;                 
348         }                                         
349                                                   
350         /* Check if key size is correct */        
351         keylen = ukey->keylen - TIPC_AES_GCM_S    
352         if (unlikely(keylen != TIPC_AES_GCM_KE    
353                      keylen != TIPC_AES_GCM_KE    
354                      keylen != TIPC_AES_GCM_KE    
355                 GENL_SET_ERR_MSG(info, "incorr    
356                 return -EKEYREJECTED;             
357         }                                         
358                                                   
359         return 0;                                 
360 }                                                 
361                                                   
362 /**                                               
363  * tipc_aead_key_generate - Generate new sessi    
364  * @skey: input/output key with new content       
365  *                                                
366  * Return: 0 in case of success, otherwise < 0    
367  */                                               
368 static int tipc_aead_key_generate(struct tipc_    
369 {                                                 
370         int rc = 0;                               
371                                                   
372         /* Fill the key's content with a rando    
373         rc = crypto_get_default_rng();            
374         if (likely(!rc)) {                        
375                 rc = crypto_rng_get_bytes(cryp    
376                                           skey    
377                 crypto_put_default_rng();         
378         }                                         
379                                                   
380         return rc;                                
381 }                                                 
382                                                   
383 static struct tipc_aead *tipc_aead_get(struct     
384 {                                                 
385         struct tipc_aead *tmp;                    
386                                                   
387         rcu_read_lock();                          
388         tmp = rcu_dereference(aead);              
389         if (unlikely(!tmp || !refcount_inc_not    
390                 tmp = NULL;                       
391         rcu_read_unlock();                        
392                                                   
393         return tmp;                               
394 }                                                 
395                                                   
396 static inline void tipc_aead_put(struct tipc_a    
397 {                                                 
398         if (aead && refcount_dec_and_test(&aea    
399                 call_rcu(&aead->rcu, tipc_aead    
400 }                                                 
401                                                   
402 /**                                               
403  * tipc_aead_free - Release AEAD key incl. all    
404  * @rp: rcu head pointer                          
405  */                                               
406 static void tipc_aead_free(struct rcu_head *rp    
407 {                                                 
408         struct tipc_aead *aead = container_of(    
409         struct tipc_tfm *tfm_entry, *head, *tm    
410                                                   
411         if (aead->cloned) {                       
412                 tipc_aead_put(aead->cloned);      
413         } else {                                  
414                 head = *get_cpu_ptr(aead->tfm_    
415                 put_cpu_ptr(aead->tfm_entry);     
416                 list_for_each_entry_safe(tfm_e    
417                         crypto_free_aead(tfm_e    
418                         list_del(&tfm_entry->l    
419                         kfree(tfm_entry);         
420                 }                                 
421                 /* Free the head */               
422                 crypto_free_aead(head->tfm);      
423                 list_del(&head->list);            
424                 kfree(head);                      
425         }                                         
426         free_percpu(aead->tfm_entry);             
427         kfree_sensitive(aead->key);               
428         kfree(aead);                              
429 }                                                 
430                                                   
431 static int tipc_aead_users(struct tipc_aead __    
432 {                                                 
433         struct tipc_aead *tmp;                    
434         int users = 0;                            
435                                                   
436         rcu_read_lock();                          
437         tmp = rcu_dereference(aead);              
438         if (tmp)                                  
439                 users = atomic_read(&tmp->user    
440         rcu_read_unlock();                        
441                                                   
442         return users;                             
443 }                                                 
444                                                   
445 static void tipc_aead_users_inc(struct tipc_ae    
446 {                                                 
447         struct tipc_aead *tmp;                    
448                                                   
449         rcu_read_lock();                          
450         tmp = rcu_dereference(aead);              
451         if (tmp)                                  
452                 atomic_add_unless(&tmp->users,    
453         rcu_read_unlock();                        
454 }                                                 
455                                                   
456 static void tipc_aead_users_dec(struct tipc_ae    
457 {                                                 
458         struct tipc_aead *tmp;                    
459                                                   
460         rcu_read_lock();                          
461         tmp = rcu_dereference(aead);              
462         if (tmp)                                  
463                 atomic_add_unless(&rcu_derefer    
464         rcu_read_unlock();                        
465 }                                                 
466                                                   
467 static void tipc_aead_users_set(struct tipc_ae    
468 {                                                 
469         struct tipc_aead *tmp;                    
470         int cur;                                  
471                                                   
472         rcu_read_lock();                          
473         tmp = rcu_dereference(aead);              
474         if (tmp) {                                
475                 do {                              
476                         cur = atomic_read(&tmp    
477                         if (cur == val)           
478                                 break;            
479                 } while (atomic_cmpxchg(&tmp->    
480         }                                         
481         rcu_read_unlock();                        
482 }                                                 
483                                                   
484 /**                                               
485  * tipc_aead_tfm_next - Move TFM entry to the     
486  * @aead: the AEAD key pointer                    
487  */                                               
488 static struct crypto_aead *tipc_aead_tfm_next(    
489 {                                                 
490         struct tipc_tfm **tfm_entry;              
491         struct crypto_aead *tfm;                  
492                                                   
493         tfm_entry = get_cpu_ptr(aead->tfm_entr    
494         *tfm_entry = list_next_entry(*tfm_entr    
495         tfm = (*tfm_entry)->tfm;                  
496         put_cpu_ptr(tfm_entry);                   
497                                                   
498         return tfm;                               
499 }                                                 
500                                                   
501 /**                                               
502  * tipc_aead_init - Initiate TIPC AEAD            
503  * @aead: returned new TIPC AEAD key handle po    
504  * @ukey: pointer to user key data                
505  * @mode: the key mode                            
506  *                                                
507  * Allocate a (list of) new cipher transformat    
508  * key data if valid. The number of the alloca    
509  * "net/tipc/max_tfms" first.                     
510  * Also, all the other AEAD data are also init    
511  *                                                
512  * Return: 0 if the initiation is successful,     
513  */                                               
514 static int tipc_aead_init(struct tipc_aead **a    
515                           u8 mode)                
516 {                                                 
517         struct tipc_tfm *tfm_entry, *head;        
518         struct crypto_aead *tfm;                  
519         struct tipc_aead *tmp;                    
520         int keylen, err, cpu;                     
521         int tfm_cnt = 0;                          
522                                                   
523         if (unlikely(*aead))                      
524                 return -EEXIST;                   
525                                                   
526         /* Allocate a new AEAD */                 
527         tmp = kzalloc(sizeof(*tmp), GFP_ATOMIC    
528         if (unlikely(!tmp))                       
529                 return -ENOMEM;                   
530                                                   
531         /* The key consists of two parts: [AES    
532         keylen = ukey->keylen - TIPC_AES_GCM_S    
533                                                   
534         /* Allocate per-cpu TFM entry pointer     
535         tmp->tfm_entry = alloc_percpu(struct t    
536         if (!tmp->tfm_entry) {                    
537                 kfree_sensitive(tmp);             
538                 return -ENOMEM;                   
539         }                                         
540                                                   
541         /* Make a list of TFMs with the user k    
542         do {                                      
543                 tfm = crypto_alloc_aead(ukey->    
544                 if (IS_ERR(tfm)) {                
545                         err = PTR_ERR(tfm);       
546                         break;                    
547                 }                                 
548                                                   
549                 if (unlikely(!tfm_cnt &&          
550                              crypto_aead_ivsiz    
551                         crypto_free_aead(tfm);    
552                         err = -ENOTSUPP;          
553                         break;                    
554                 }                                 
555                                                   
556                 err = crypto_aead_setauthsize(    
557                 err |= crypto_aead_setkey(tfm,    
558                 if (unlikely(err)) {              
559                         crypto_free_aead(tfm);    
560                         break;                    
561                 }                                 
562                                                   
563                 tfm_entry = kmalloc(sizeof(*tf    
564                 if (unlikely(!tfm_entry)) {       
565                         crypto_free_aead(tfm);    
566                         err = -ENOMEM;            
567                         break;                    
568                 }                                 
569                 INIT_LIST_HEAD(&tfm_entry->lis    
570                 tfm_entry->tfm = tfm;             
571                                                   
572                 /* First entry? */                
573                 if (!tfm_cnt) {                   
574                         head = tfm_entry;         
575                         for_each_possible_cpu(    
576                                 *per_cpu_ptr(t    
577                         }                         
578                 } else {                          
579                         list_add_tail(&tfm_ent    
580                 }                                 
581                                                   
582         } while (++tfm_cnt < sysctl_tipc_max_t    
583                                                   
584         /* Not any TFM is allocated? */           
585         if (!tfm_cnt) {                           
586                 free_percpu(tmp->tfm_entry);      
587                 kfree_sensitive(tmp);             
588                 return err;                       
589         }                                         
590                                                   
591         /* Form a hex string of some last byte    
592         bin2hex(tmp->hint, ukey->key + keylen     
593                 TIPC_AEAD_HINT_LEN);              
594                                                   
595         /* Initialize the other data */           
596         tmp->mode = mode;                         
597         tmp->cloned = NULL;                       
598         tmp->authsize = TIPC_AES_GCM_TAG_SIZE;    
599         tmp->key = kmemdup(ukey, tipc_aead_key    
600         if (!tmp->key) {                          
601                 tipc_aead_free(&tmp->rcu);        
602                 return -ENOMEM;                   
603         }                                         
604         memcpy(&tmp->salt, ukey->key + keylen,    
605         atomic_set(&tmp->users, 0);               
606         atomic64_set(&tmp->seqno, 0);             
607         refcount_set(&tmp->refcnt, 1);            
608                                                   
609         *aead = tmp;                              
610         return 0;                                 
611 }                                                 
612                                                   
613 /**                                               
614  * tipc_aead_clone - Clone a TIPC AEAD key        
615  * @dst: dest key for the cloning                 
616  * @src: source key to clone from                 
617  *                                                
618  * Make a "copy" of the source AEAD key data t    
619  * common for the keys.                           
620  * A reference to the source is hold in the "c    
621  * freeing purposes.                              
622  *                                                
623  * Note: this must be done in cluster-key mode    
624  * Return: 0 in case of success, otherwise < 0    
625  */                                               
626 static int tipc_aead_clone(struct tipc_aead **    
627 {                                                 
628         struct tipc_aead *aead;                   
629         int cpu;                                  
630                                                   
631         if (!src)                                 
632                 return -ENOKEY;                   
633                                                   
634         if (src->mode != CLUSTER_KEY)             
635                 return -EINVAL;                   
636                                                   
637         if (unlikely(*dst))                       
638                 return -EEXIST;                   
639                                                   
640         aead = kzalloc(sizeof(*aead), GFP_ATOM    
641         if (unlikely(!aead))                      
642                 return -ENOMEM;                   
643                                                   
644         aead->tfm_entry = alloc_percpu_gfp(str    
645         if (unlikely(!aead->tfm_entry)) {         
646                 kfree_sensitive(aead);            
647                 return -ENOMEM;                   
648         }                                         
649                                                   
650         for_each_possible_cpu(cpu) {              
651                 *per_cpu_ptr(aead->tfm_entry,     
652                                 *per_cpu_ptr(s    
653         }                                         
654                                                   
655         memcpy(aead->hint, src->hint, sizeof(s    
656         aead->mode = src->mode;                   
657         aead->salt = src->salt;                   
658         aead->authsize = src->authsize;           
659         atomic_set(&aead->users, 0);              
660         atomic64_set(&aead->seqno, 0);            
661         refcount_set(&aead->refcnt, 1);           
662                                                   
663         WARN_ON(!refcount_inc_not_zero(&src->r    
664         aead->cloned = src;                       
665                                                   
666         *dst = aead;                              
667         return 0;                                 
668 }                                                 
669                                                   
670 /**                                               
671  * tipc_aead_mem_alloc - Allocate memory for A    
672  * @tfm: cipher handle to be registered with t    
673  * @crypto_ctx_size: size of crypto context fo    
674  * @iv: returned pointer to IV data               
675  * @req: returned pointer to AEAD request data    
676  * @sg: returned pointer to SG lists              
677  * @nsg: number of SG lists to be allocated       
678  *                                                
679  * Allocate memory to store the crypto context    
680  * lists, the memory layout is as follows:        
681  * crypto_ctx || iv || aead_req || sg[]           
682  *                                                
683  * Return: the pointer to the memory areas in     
684  */                                               
685 static void *tipc_aead_mem_alloc(struct crypto    
686                                  unsigned int     
687                                  u8 **iv, stru    
688                                  struct scatte    
689 {                                                 
690         unsigned int iv_size, req_size;           
691         unsigned int len;                         
692         u8 *mem;                                  
693                                                   
694         iv_size = crypto_aead_ivsize(tfm);        
695         req_size = sizeof(**req) + crypto_aead    
696                                                   
697         len = crypto_ctx_size;                    
698         len += iv_size;                           
699         len += crypto_aead_alignmask(tfm) & ~(    
700         len = ALIGN(len, crypto_tfm_ctx_alignm    
701         len += req_size;                          
702         len = ALIGN(len, __alignof__(struct sc    
703         len += nsg * sizeof(**sg);                
704                                                   
705         mem = kmalloc(len, GFP_ATOMIC);           
706         if (!mem)                                 
707                 return NULL;                      
708                                                   
709         *iv = (u8 *)PTR_ALIGN(mem + crypto_ctx    
710                               crypto_aead_alig    
711         *req = (struct aead_request *)PTR_ALIG    
712                                                   
713         *sg = (struct scatterlist *)PTR_ALIGN(    
714                                                   
715                                                   
716         return (void *)mem;                       
717 }                                                 
718                                                   
719 /**                                               
720  * tipc_aead_encrypt - Encrypt a message          
721  * @aead: TIPC AEAD key for the message encryp    
722  * @skb: the input/output skb                     
723  * @b: TIPC bearer where the message will be d    
724  * @dst: the destination media address            
725  * @__dnode: TIPC dest node if "known"            
726  *                                                
727  * Return:                                        
728  * * 0                   : if the encryption h    
729  * * -EINPROGRESS/-EBUSY : if a callback will     
730  * * < 0                 : the encryption has     
731  */                                               
732 static int tipc_aead_encrypt(struct tipc_aead     
733                              struct tipc_beare    
734                              struct tipc_media    
735                              struct tipc_node     
736 {                                                 
737         struct crypto_aead *tfm = tipc_aead_tf    
738         struct tipc_crypto_tx_ctx *tx_ctx;        
739         struct aead_request *req;                 
740         struct sk_buff *trailer;                  
741         struct scatterlist *sg;                   
742         struct tipc_ehdr *ehdr;                   
743         int ehsz, len, tailen, nsg, rc;           
744         void *ctx;                                
745         u32 salt;                                 
746         u8 *iv;                                   
747                                                   
748         /* Make sure message len at least 4-by    
749         len = ALIGN(skb->len, 4);                 
750         tailen = len - skb->len + aead->authsi    
751                                                   
752         /* Expand skb tail for authentication     
753          * As for simplicity, we'd have made s    
754          * for authentication tag @skb allocat    
755          * but there is no frag_list, it shoul    
756          * Otherwise, we must cow it to be a w    
757          */                                       
758         SKB_LINEAR_ASSERT(skb);                   
759         if (tailen > skb_tailroom(skb)) {         
760                 pr_debug("TX(): skb tailroom i    
761                          skb_tailroom(skb), ta    
762         }                                         
763                                                   
764         nsg = skb_cow_data(skb, tailen, &trail    
765         if (unlikely(nsg < 0)) {                  
766                 pr_err("TX: skb_cow_data() ret    
767                 return nsg;                       
768         }                                         
769                                                   
770         pskb_put(skb, trailer, tailen);           
771                                                   
772         /* Allocate memory for the AEAD operat    
773         ctx = tipc_aead_mem_alloc(tfm, sizeof(    
774         if (unlikely(!ctx))                       
775                 return -ENOMEM;                   
776         TIPC_SKB_CB(skb)->crypto_ctx = ctx;       
777                                                   
778         /* Map skb to the sg lists */             
779         sg_init_table(sg, nsg);                   
780         rc = skb_to_sgvec(skb, sg, 0, skb->len    
781         if (unlikely(rc < 0)) {                   
782                 pr_err("TX: skb_to_sgvec() ret    
783                 goto exit;                        
784         }                                         
785                                                   
786         /* Prepare IV: [SALT (4 octets)][SEQNO    
787          * In case we're in cluster-key mode,     
788          * the source address (or w0 of id), o    
789          * if dest is known.                      
790          */                                       
791         ehdr = (struct tipc_ehdr *)skb->data;     
792         salt = aead->salt;                        
793         if (aead->mode == CLUSTER_KEY)            
794                 salt ^= __be32_to_cpu(ehdr->ad    
795         else if (__dnode)                         
796                 salt ^= tipc_node_get_addr(__d    
797         memcpy(iv, &salt, 4);                     
798         memcpy(iv + 4, (u8 *)&ehdr->seqno, 8);    
799                                                   
800         /* Prepare request */                     
801         ehsz = tipc_ehdr_size(ehdr);              
802         aead_request_set_tfm(req, tfm);           
803         aead_request_set_ad(req, ehsz);           
804         aead_request_set_crypt(req, sg, sg, le    
805                                                   
806         /* Set callback function & data */        
807         aead_request_set_callback(req, CRYPTO_    
808                                   tipc_aead_en    
809         tx_ctx = (struct tipc_crypto_tx_ctx *)    
810         tx_ctx->aead = aead;                      
811         tx_ctx->bearer = b;                       
812         memcpy(&tx_ctx->dst, dst, sizeof(*dst)    
813                                                   
814         /* Hold bearer */                         
815         if (unlikely(!tipc_bearer_hold(b))) {     
816                 rc = -ENODEV;                     
817                 goto exit;                        
818         }                                         
819                                                   
820         /* Now, do encrypt */                     
821         rc = crypto_aead_encrypt(req);            
822         if (rc == -EINPROGRESS || rc == -EBUSY    
823                 return rc;                        
824                                                   
825         tipc_bearer_put(b);                       
826                                                   
827 exit:                                             
828         kfree(ctx);                               
829         TIPC_SKB_CB(skb)->crypto_ctx = NULL;      
830         return rc;                                
831 }                                                 
832                                                   
833 static void tipc_aead_encrypt_done(void *data,    
834 {                                                 
835         struct sk_buff *skb = data;               
836         struct tipc_crypto_tx_ctx *tx_ctx = TI    
837         struct tipc_bearer *b = tx_ctx->bearer    
838         struct tipc_aead *aead = tx_ctx->aead;    
839         struct tipc_crypto *tx = aead->crypto;    
840         struct net *net = tx->net;                
841                                                   
842         switch (err) {                            
843         case 0:                                   
844                 this_cpu_inc(tx->stats->stat[S    
845                 rcu_read_lock();                  
846                 if (likely(test_bit(0, &b->up)    
847                         b->media->send_msg(net    
848                 else                              
849                         kfree_skb(skb);           
850                 rcu_read_unlock();                
851                 break;                            
852         case -EINPROGRESS:                        
853                 return;                           
854         default:                                  
855                 this_cpu_inc(tx->stats->stat[S    
856                 kfree_skb(skb);                   
857                 break;                            
858         }                                         
859                                                   
860         kfree(tx_ctx);                            
861         tipc_bearer_put(b);                       
862         tipc_aead_put(aead);                      
863 }                                                 
864                                                   
865 /**                                               
866  * tipc_aead_decrypt - Decrypt an encrypted me    
867  * @net: struct net                               
868  * @aead: TIPC AEAD for the message decryption    
869  * @skb: the input/output skb                     
870  * @b: TIPC bearer where the message has been     
871  *                                                
872  * Return:                                        
873  * * 0                   : if the decryption h    
874  * * -EINPROGRESS/-EBUSY : if a callback will     
875  * * < 0                 : the decryption has     
876  */                                               
877 static int tipc_aead_decrypt(struct net *net,     
878                              struct sk_buff *s    
879 {                                                 
880         struct tipc_crypto_rx_ctx *rx_ctx;        
881         struct aead_request *req;                 
882         struct crypto_aead *tfm;                  
883         struct sk_buff *unused;                   
884         struct scatterlist *sg;                   
885         struct tipc_ehdr *ehdr;                   
886         int ehsz, nsg, rc;                        
887         void *ctx;                                
888         u32 salt;                                 
889         u8 *iv;                                   
890                                                   
891         if (unlikely(!aead))                      
892                 return -ENOKEY;                   
893                                                   
894         nsg = skb_cow_data(skb, 0, &unused);      
895         if (unlikely(nsg < 0)) {                  
896                 pr_err("RX: skb_cow_data() ret    
897                 return nsg;                       
898         }                                         
899                                                   
900         /* Allocate memory for the AEAD operat    
901         tfm = tipc_aead_tfm_next(aead);           
902         ctx = tipc_aead_mem_alloc(tfm, sizeof(    
903         if (unlikely(!ctx))                       
904                 return -ENOMEM;                   
905         TIPC_SKB_CB(skb)->crypto_ctx = ctx;       
906                                                   
907         /* Map skb to the sg lists */             
908         sg_init_table(sg, nsg);                   
909         rc = skb_to_sgvec(skb, sg, 0, skb->len    
910         if (unlikely(rc < 0)) {                   
911                 pr_err("RX: skb_to_sgvec() ret    
912                 goto exit;                        
913         }                                         
914                                                   
915         /* Reconstruct IV: */                     
916         ehdr = (struct tipc_ehdr *)skb->data;     
917         salt = aead->salt;                        
918         if (aead->mode == CLUSTER_KEY)            
919                 salt ^= __be32_to_cpu(ehdr->ad    
920         else if (ehdr->destined)                  
921                 salt ^= tipc_own_addr(net);       
922         memcpy(iv, &salt, 4);                     
923         memcpy(iv + 4, (u8 *)&ehdr->seqno, 8);    
924                                                   
925         /* Prepare request */                     
926         ehsz = tipc_ehdr_size(ehdr);              
927         aead_request_set_tfm(req, tfm);           
928         aead_request_set_ad(req, ehsz);           
929         aead_request_set_crypt(req, sg, sg, sk    
930                                                   
931         /* Set callback function & data */        
932         aead_request_set_callback(req, CRYPTO_    
933                                   tipc_aead_de    
934         rx_ctx = (struct tipc_crypto_rx_ctx *)    
935         rx_ctx->aead = aead;                      
936         rx_ctx->bearer = b;                       
937                                                   
938         /* Hold bearer */                         
939         if (unlikely(!tipc_bearer_hold(b))) {     
940                 rc = -ENODEV;                     
941                 goto exit;                        
942         }                                         
943                                                   
944         /* Now, do decrypt */                     
945         rc = crypto_aead_decrypt(req);            
946         if (rc == -EINPROGRESS || rc == -EBUSY    
947                 return rc;                        
948                                                   
949         tipc_bearer_put(b);                       
950                                                   
951 exit:                                             
952         kfree(ctx);                               
953         TIPC_SKB_CB(skb)->crypto_ctx = NULL;      
954         return rc;                                
955 }                                                 
956                                                   
957 static void tipc_aead_decrypt_done(void *data,    
958 {                                                 
959         struct sk_buff *skb = data;               
960         struct tipc_crypto_rx_ctx *rx_ctx = TI    
961         struct tipc_bearer *b = rx_ctx->bearer    
962         struct tipc_aead *aead = rx_ctx->aead;    
963         struct tipc_crypto_stats __percpu *sta    
964         struct net *net = aead->crypto->net;      
965                                                   
966         switch (err) {                            
967         case 0:                                   
968                 this_cpu_inc(stats->stat[STAT_    
969                 break;                            
970         case -EINPROGRESS:                        
971                 return;                           
972         default:                                  
973                 this_cpu_inc(stats->stat[STAT_    
974                 break;                            
975         }                                         
976                                                   
977         kfree(rx_ctx);                            
978         tipc_crypto_rcv_complete(net, aead, b,    
979         if (likely(skb)) {                        
980                 if (likely(test_bit(0, &b->up)    
981                         tipc_rcv(net, skb, b);    
982                 else                              
983                         kfree_skb(skb);           
984         }                                         
985                                                   
986         tipc_bearer_put(b);                       
987 }                                                 
988                                                   
989 static inline int tipc_ehdr_size(struct tipc_e    
990 {                                                 
991         return (ehdr->user != LINK_CONFIG) ? E    
992 }                                                 
993                                                   
994 /**                                               
995  * tipc_ehdr_validate - Validate an encryption    
996  * @skb: the message buffer                       
997  *                                                
998  * Return: "true" if this is a valid encryptio    
999  */                                               
1000 bool tipc_ehdr_validate(struct sk_buff *skb)     
1001 {                                                
1002         struct tipc_ehdr *ehdr;                  
1003         int ehsz;                                
1004                                                  
1005         if (unlikely(!pskb_may_pull(skb, EHDR    
1006                 return false;                    
1007                                                  
1008         ehdr = (struct tipc_ehdr *)skb->data;    
1009         if (unlikely(ehdr->version != TIPC_EV    
1010                 return false;                    
1011         ehsz = tipc_ehdr_size(ehdr);             
1012         if (unlikely(!pskb_may_pull(skb, ehsz    
1013                 return false;                    
1014         if (unlikely(skb->len <= ehsz + TIPC_    
1015                 return false;                    
1016                                                  
1017         return true;                             
1018 }                                                
1019                                                  
1020 /**                                              
1021  * tipc_ehdr_build - Build TIPC encryption me    
1022  * @net: struct net                              
1023  * @aead: TX AEAD key to be used for the mess    
1024  * @tx_key: key id used for the message encry    
1025  * @skb: input/output message skb                
1026  * @__rx: RX crypto handle if dest is "known"    
1027  *                                               
1028  * Return: the header size if the building is    
1029  */                                              
1030 static int tipc_ehdr_build(struct net *net, s    
1031                            u8 tx_key, struct     
1032                            struct tipc_crypto    
1033 {                                                
1034         struct tipc_msg *hdr = buf_msg(skb);     
1035         struct tipc_ehdr *ehdr;                  
1036         u32 user = msg_user(hdr);                
1037         u64 seqno;                               
1038         int ehsz;                                
1039                                                  
1040         /* Make room for encryption header */    
1041         ehsz = (user != LINK_CONFIG) ? EHDR_S    
1042         WARN_ON(skb_headroom(skb) < ehsz);       
1043         ehdr = (struct tipc_ehdr *)skb_push(s    
1044                                                  
1045         /* Obtain a seqno first:                 
1046          * Use the key seqno (= cluster wise)    
1047          * cluster key mode, otherwise it's b    
1048          */                                      
1049         if (!__rx || aead->mode == CLUSTER_KE    
1050                 seqno = atomic64_inc_return(&    
1051         else                                     
1052                 seqno = atomic64_inc_return(&    
1053                                                  
1054         /* Revoke the key if seqno is wrapped    
1055         if (unlikely(!seqno))                    
1056                 return tipc_crypto_key_revoke    
1057                                                  
1058         /* Word 1-2 */                           
1059         ehdr->seqno = cpu_to_be64(seqno);        
1060                                                  
1061         /* Words 0, 3- */                        
1062         ehdr->version = TIPC_EVERSION;           
1063         ehdr->user = 0;                          
1064         ehdr->keepalive = 0;                     
1065         ehdr->tx_key = tx_key;                   
1066         ehdr->destined = (__rx) ? 1 : 0;         
1067         ehdr->rx_key_active = (__rx) ? __rx->    
1068         ehdr->rx_nokey = (__rx) ? __rx->nokey    
1069         ehdr->master_key = aead->crypto->key_    
1070         ehdr->reserved_1 = 0;                    
1071         ehdr->reserved_2 = 0;                    
1072                                                  
1073         switch (user) {                          
1074         case LINK_CONFIG:                        
1075                 ehdr->user = LINK_CONFIG;        
1076                 memcpy(ehdr->id, tipc_own_id(    
1077                 break;                           
1078         default:                                 
1079                 if (user == LINK_PROTOCOL &&     
1080                         ehdr->user = LINK_PRO    
1081                         ehdr->keepalive = msg    
1082                 }                                
1083                 ehdr->addr = hdr->hdr[3];        
1084                 break;                           
1085         }                                        
1086                                                  
1087         return ehsz;                             
1088 }                                                
1089                                                  
1090 static inline void tipc_crypto_key_set_state(    
1091                                                  
1092                                                  
1093                                                  
1094 {                                                
1095         struct tipc_key old = c->key;            
1096         char buf[32];                            
1097                                                  
1098         c->key.keys = ((new_passive & KEY_MAS    
1099                       ((new_active  & KEY_MAS    
1100                       ((new_pending & KEY_MAS    
1101                                                  
1102         pr_debug("%s: key changing %s ::%pS\n    
1103                  tipc_key_change_dump(old, c-    
1104                  __builtin_return_address(0))    
1105 }                                                
1106                                                  
1107 /**                                              
1108  * tipc_crypto_key_init - Initiate a new user    
1109  * @c: TIPC crypto to which new key is attach    
1110  * @ukey: the user key                           
1111  * @mode: the key mode (CLUSTER_KEY or PER_NO    
1112  * @master_key: specify this is a cluster mas    
1113  *                                               
1114  * A new TIPC AEAD key will be allocated and     
1115  * key, then attached to the TIPC crypto.        
1116  *                                               
1117  * Return: new key id in case of success, oth    
1118  */                                              
1119 int tipc_crypto_key_init(struct tipc_crypto *    
1120                          u8 mode, bool master    
1121 {                                                
1122         struct tipc_aead *aead = NULL;           
1123         int rc = 0;                              
1124                                                  
1125         /* Initiate with the new user key */     
1126         rc = tipc_aead_init(&aead, ukey, mode    
1127                                                  
1128         /* Attach it to the crypto */            
1129         if (likely(!rc)) {                       
1130                 rc = tipc_crypto_key_attach(c    
1131                 if (rc < 0)                      
1132                         tipc_aead_free(&aead-    
1133         }                                        
1134                                                  
1135         return rc;                               
1136 }                                                
1137                                                  
1138 /**                                              
1139  * tipc_crypto_key_attach - Attach a new AEAD    
1140  * @c: TIPC crypto to which the new AEAD key     
1141  * @aead: the new AEAD key pointer               
1142  * @pos: desired slot in the crypto key array    
1143  * @master_key: specify this is a cluster mas    
1144  *                                               
1145  * Return: new key id in case of success, oth    
1146  */                                              
1147 static int tipc_crypto_key_attach(struct tipc    
1148                                   struct tipc    
1149                                   bool master    
1150 {                                                
1151         struct tipc_key key;                     
1152         int rc = -EBUSY;                         
1153         u8 new_key;                              
1154                                                  
1155         spin_lock_bh(&c->lock);                  
1156         key = c->key;                            
1157         if (master_key) {                        
1158                 new_key = KEY_MASTER;            
1159                 goto attach;                     
1160         }                                        
1161         if (key.active && key.passive)           
1162                 goto exit;                       
1163         if (key.pending) {                       
1164                 if (tipc_aead_users(c->aead[k    
1165                         goto exit;               
1166                 /* if (pos): ok with replacin    
1167                 /* Replace it */                 
1168                 new_key = key.pending;           
1169         } else {                                 
1170                 if (pos) {                       
1171                         if (key.active && pos    
1172                                 key.passive =    
1173                                 new_key = pos    
1174                                 goto attach;     
1175                         } else if (!key.activ    
1176                                 key.pending =    
1177                                 new_key = pos    
1178                                 goto attach;     
1179                         }                        
1180                 }                                
1181                 key.pending = key_next(key.ac    
1182                 new_key = key.pending;           
1183         }                                        
1184                                                  
1185 attach:                                          
1186         aead->crypto = c;                        
1187         aead->gen = (is_tx(c)) ? ++c->key_gen    
1188         tipc_aead_rcu_replace(c->aead[new_key    
1189         if (likely(c->key.keys != key.keys))     
1190                 tipc_crypto_key_set_state(c,     
1191                                           key    
1192         c->working = 1;                          
1193         c->nokey = 0;                            
1194         c->key_master |= master_key;             
1195         rc = new_key;                            
1196                                                  
1197 exit:                                            
1198         spin_unlock_bh(&c->lock);                
1199         return rc;                               
1200 }                                                
1201                                                  
1202 void tipc_crypto_key_flush(struct tipc_crypto    
1203 {                                                
1204         struct tipc_crypto *tx, *rx;             
1205         int k;                                   
1206                                                  
1207         spin_lock_bh(&c->lock);                  
1208         if (is_rx(c)) {                          
1209                 /* Try to cancel pending work    
1210                 rx = c;                          
1211                 tx = tipc_net(rx->net)->crypt    
1212                 if (cancel_delayed_work(&rx->    
1213                         kfree(rx->skey);         
1214                         rx->skey = NULL;         
1215                         atomic_xchg(&rx->key_    
1216                         tipc_node_put(rx->nod    
1217                 }                                
1218                 /* RX stopping => decrease TX    
1219                 k = atomic_xchg(&rx->peer_rx_    
1220                 if (k) {                         
1221                         tipc_aead_users_dec(t    
1222                         /* Mark the point TX     
1223                         tx->timer1 = jiffies;    
1224                 }                                
1225         }                                        
1226                                                  
1227         c->flags = 0;                            
1228         tipc_crypto_key_set_state(c, 0, 0, 0)    
1229         for (k = KEY_MIN; k <= KEY_MAX; k++)     
1230                 tipc_crypto_key_detach(c->aea    
1231         atomic64_set(&c->sndnxt, 0);             
1232         spin_unlock_bh(&c->lock);                
1233 }                                                
1234                                                  
1235 /**                                              
1236  * tipc_crypto_key_try_align - Align RX keys     
1237  * @rx: RX crypto handle                         
1238  * @new_pending: new pending slot if aligned     
1239  *                                               
1240  * Peer has used an unknown key slot, this on    
1241  * rejoned, or we are newcomer.                  
1242  * That means, there must be no active key bu    
1243  * If so, we try to move the pending key to t    
1244  * Note: A potential passive key can exist, i    
1245  *                                               
1246  * Return: "true" if key is successfully alig    
1247  */                                              
1248 static bool tipc_crypto_key_try_align(struct     
1249 {                                                
1250         struct tipc_aead *tmp1, *tmp2 = NULL;    
1251         struct tipc_key key;                     
1252         bool aligned = false;                    
1253         u8 new_passive = 0;                      
1254         int x;                                   
1255                                                  
1256         spin_lock(&rx->lock);                    
1257         key = rx->key;                           
1258         if (key.pending == new_pending) {        
1259                 aligned = true;                  
1260                 goto exit;                       
1261         }                                        
1262         if (key.active)                          
1263                 goto exit;                       
1264         if (!key.pending)                        
1265                 goto exit;                       
1266         if (tipc_aead_users(rx->aead[key.pend    
1267                 goto exit;                       
1268                                                  
1269         /* Try to "isolate" this pending key     
1270         tmp1 = tipc_aead_rcu_ptr(rx->aead[key    
1271         if (!refcount_dec_if_one(&tmp1->refcn    
1272                 goto exit;                       
1273         rcu_assign_pointer(rx->aead[key.pendi    
1274                                                  
1275         /* Move passive key if any */            
1276         if (key.passive) {                       
1277                 tmp2 = rcu_replace_pointer(rx    
1278                 x = (key.passive - key.pendin    
1279                 new_passive = (x <= 0) ? x +     
1280         }                                        
1281                                                  
1282         /* Re-allocate the key(s) */             
1283         tipc_crypto_key_set_state(rx, new_pas    
1284         rcu_assign_pointer(rx->aead[new_pendi    
1285         if (new_passive)                         
1286                 rcu_assign_pointer(rx->aead[n    
1287         refcount_set(&tmp1->refcnt, 1);          
1288         aligned = true;                          
1289         pr_info_ratelimited("%s: key[%d] -> k    
1290                             new_pending);        
1291                                                  
1292 exit:                                            
1293         spin_unlock(&rx->lock);                  
1294         return aligned;                          
1295 }                                                
1296                                                  
1297 /**                                              
1298  * tipc_crypto_key_pick_tx - Pick one TX key     
1299  * @tx: TX crypto handle                         
1300  * @rx: RX crypto handle (can be NULL)           
1301  * @skb: the message skb which will be decryp    
1302  * @tx_key: peer TX key id                       
1303  *                                               
1304  * This function looks up the existing TX key    
1305  * for the message decryption, that must be a    
1306  * on the same message (i.e. recursive).         
1307  *                                               
1308  * Return: the TX AEAD key handle in case of     
1309  */                                              
1310 static struct tipc_aead *tipc_crypto_key_pick    
1311                                                  
1312                                                  
1313                                                  
1314 {                                                
1315         struct tipc_skb_cb *skb_cb = TIPC_SKB    
1316         struct tipc_aead *aead = NULL;           
1317         struct tipc_key key = tx->key;           
1318         u8 k, i = 0;                             
1319                                                  
1320         /* Initialize data if not yet */         
1321         if (!skb_cb->tx_clone_deferred) {        
1322                 skb_cb->tx_clone_deferred = 1    
1323                 memset(&skb_cb->tx_clone_ctx,    
1324         }                                        
1325                                                  
1326         skb_cb->tx_clone_ctx.rx = rx;            
1327         if (++skb_cb->tx_clone_ctx.recurs > 2    
1328                 return NULL;                     
1329                                                  
1330         /* Pick one TX key */                    
1331         spin_lock(&tx->lock);                    
1332         if (tx_key == KEY_MASTER) {              
1333                 aead = tipc_aead_rcu_ptr(tx->    
1334                 goto done;                       
1335         }                                        
1336         do {                                     
1337                 k = (i == 0) ? key.pending :     
1338                         ((i == 1) ? key.activ    
1339                 if (!k)                          
1340                         continue;                
1341                 aead = tipc_aead_rcu_ptr(tx->    
1342                 if (!aead)                       
1343                         continue;                
1344                 if (aead->mode != CLUSTER_KEY    
1345                     aead == skb_cb->tx_clone_    
1346                         aead = NULL;             
1347                         continue;                
1348                 }                                
1349                 /* Ok, found one cluster key     
1350                 skb_cb->tx_clone_ctx.last = a    
1351                 WARN_ON(skb->next);              
1352                 skb->next = skb_clone(skb, GF    
1353                 if (unlikely(!skb->next))        
1354                         pr_warn("Failed to cl    
1355                 break;                           
1356         } while (++i < 3);                       
1357                                                  
1358 done:                                            
1359         if (likely(aead))                        
1360                 WARN_ON(!refcount_inc_not_zer    
1361         spin_unlock(&tx->lock);                  
1362                                                  
1363         return aead;                             
1364 }                                                
1365                                                  
1366 /**                                              
1367  * tipc_crypto_key_synch: Synch own key data     
1368  * @rx: RX crypto handle                         
1369  * @skb: TIPCv2 message buffer (incl. the ehd    
1370  *                                               
1371  * This function updates the peer node relate    
1372  * has changed, so the number of TX keys' use    
1373  * decreased correspondingly.                    
1374  *                                               
1375  * It also considers if peer has no key, then    
1376  * (if any) taking over i.e. starting grace p    
1377  * distributing process.                         
1378  *                                               
1379  * The "per-peer" sndnxt is also reset when t    
1380  */                                              
1381 static void tipc_crypto_key_synch(struct tipc    
1382 {                                                
1383         struct tipc_ehdr *ehdr = (struct tipc    
1384         struct tipc_crypto *tx = tipc_net(rx-    
1385         struct tipc_msg *hdr = buf_msg(skb);     
1386         u32 self = tipc_own_addr(rx->net);       
1387         u8 cur, new;                             
1388         unsigned long delay;                     
1389                                                  
1390         /* Update RX 'key_master' flag accord    
1391          * a peer has no master key.             
1392          */                                      
1393         rx->key_master = ehdr->master_key;       
1394         if (!rx->key_master)                     
1395                 tx->legacy_user = 1;             
1396                                                  
1397         /* For later cases, apply only if mes    
1398         if (!ehdr->destined || msg_short(hdr)    
1399                 return;                          
1400                                                  
1401         /* Case 1: Peer has no keys, let's ma    
1402         if (ehdr->rx_nokey) {                    
1403                 /* Set or extend grace period    
1404                 tx->timer2 = jiffies;            
1405                 /* Schedule key distributing     
1406                 if (tx->key.keys &&              
1407                     !atomic_cmpxchg(&rx->key_    
1408                         get_random_bytes(&del    
1409                         delay %= 5;              
1410                         delay = msecs_to_jiff    
1411                         if (queue_delayed_wor    
1412                                 tipc_node_get    
1413                 }                                
1414         } else {                                 
1415                 /* Cancel a pending key distr    
1416                 atomic_xchg(&rx->key_distr, 0    
1417         }                                        
1418                                                  
1419         /* Case 2: Peer RX active key has cha    
1420         cur = atomic_read(&rx->peer_rx_active    
1421         new = ehdr->rx_key_active;               
1422         if (tx->key.keys &&                      
1423             cur != new &&                        
1424             atomic_cmpxchg(&rx->peer_rx_activ    
1425                 if (new)                         
1426                         tipc_aead_users_inc(t    
1427                 if (cur)                         
1428                         tipc_aead_users_dec(t    
1429                                                  
1430                 atomic64_set(&rx->sndnxt, 0);    
1431                 /* Mark the point TX key user    
1432                 tx->timer1 = jiffies;            
1433                                                  
1434                 pr_debug("%s: key users chang    
1435                          tx->name, cur, new,     
1436         }                                        
1437 }                                                
1438                                                  
1439 static int tipc_crypto_key_revoke(struct net     
1440 {                                                
1441         struct tipc_crypto *tx = tipc_net(net    
1442         struct tipc_key key;                     
1443                                                  
1444         spin_lock_bh(&tx->lock);                 
1445         key = tx->key;                           
1446         WARN_ON(!key.active || tx_key != key.    
1447                                                  
1448         /* Free the active key */                
1449         tipc_crypto_key_set_state(tx, key.pas    
1450         tipc_crypto_key_detach(tx->aead[key.a    
1451         spin_unlock_bh(&tx->lock);               
1452                                                  
1453         pr_warn("%s: key is revoked\n", tx->n    
1454         return -EKEYREVOKED;                     
1455 }                                                
1456                                                  
1457 int tipc_crypto_start(struct tipc_crypto **cr    
1458                       struct tipc_node *node)    
1459 {                                                
1460         struct tipc_crypto *c;                   
1461                                                  
1462         if (*crypto)                             
1463                 return -EEXIST;                  
1464                                                  
1465         /* Allocate crypto */                    
1466         c = kzalloc(sizeof(*c), GFP_ATOMIC);     
1467         if (!c)                                  
1468                 return -ENOMEM;                  
1469                                                  
1470         /* Allocate workqueue on TX */           
1471         if (!node) {                             
1472                 c->wq = alloc_ordered_workque    
1473                 if (!c->wq) {                    
1474                         kfree(c);                
1475                         return -ENOMEM;          
1476                 }                                
1477         }                                        
1478                                                  
1479         /* Allocate statistic structure */       
1480         c->stats = alloc_percpu_gfp(struct ti    
1481         if (!c->stats) {                         
1482                 if (c->wq)                       
1483                         destroy_workqueue(c->    
1484                 kfree_sensitive(c);              
1485                 return -ENOMEM;                  
1486         }                                        
1487                                                  
1488         c->flags = 0;                            
1489         c->net = net;                            
1490         c->node = node;                          
1491         get_random_bytes(&c->key_gen, 2);        
1492         tipc_crypto_key_set_state(c, 0, 0, 0)    
1493         atomic_set(&c->key_distr, 0);            
1494         atomic_set(&c->peer_rx_active, 0);       
1495         atomic64_set(&c->sndnxt, 0);             
1496         c->timer1 = jiffies;                     
1497         c->timer2 = jiffies;                     
1498         c->rekeying_intv = TIPC_REKEYING_INTV    
1499         spin_lock_init(&c->lock);                
1500         scnprintf(c->name, 48, "%s(%s)", (is_    
1501                   (is_rx(c)) ? tipc_node_get_    
1502                                tipc_own_id_st    
1503                                                  
1504         if (is_rx(c))                            
1505                 INIT_DELAYED_WORK(&c->work, t    
1506         else                                     
1507                 INIT_DELAYED_WORK(&c->work, t    
1508                                                  
1509         *crypto = c;                             
1510         return 0;                                
1511 }                                                
1512                                                  
1513 void tipc_crypto_stop(struct tipc_crypto **cr    
1514 {                                                
1515         struct tipc_crypto *c = *crypto;         
1516         u8 k;                                    
1517                                                  
1518         if (!c)                                  
1519                 return;                          
1520                                                  
1521         /* Flush any queued works & destroy w    
1522         if (is_tx(c)) {                          
1523                 c->rekeying_intv = 0;            
1524                 cancel_delayed_work_sync(&c->    
1525                 destroy_workqueue(c->wq);        
1526         }                                        
1527                                                  
1528         /* Release AEAD keys */                  
1529         rcu_read_lock();                         
1530         for (k = KEY_MIN; k <= KEY_MAX; k++)     
1531                 tipc_aead_put(rcu_dereference    
1532         rcu_read_unlock();                       
1533         pr_debug("%s: has been stopped\n", c-    
1534                                                  
1535         /* Free this crypto statistics */        
1536         free_percpu(c->stats);                   
1537                                                  
1538         *crypto = NULL;                          
1539         kfree_sensitive(c);                      
1540 }                                                
1541                                                  
1542 void tipc_crypto_timeout(struct tipc_crypto *    
1543 {                                                
1544         struct tipc_net *tn = tipc_net(rx->ne    
1545         struct tipc_crypto *tx = tn->crypto_t    
1546         struct tipc_key key;                     
1547         int cmd;                                 
1548                                                  
1549         /* TX pending: taking all users & sta    
1550         spin_lock(&tx->lock);                    
1551         key = tx->key;                           
1552         if (key.active && tipc_aead_users(tx-    
1553                 goto s1;                         
1554         if (!key.pending || tipc_aead_users(t    
1555                 goto s1;                         
1556         if (time_before(jiffies, tx->timer1 +    
1557                 goto s1;                         
1558                                                  
1559         tipc_crypto_key_set_state(tx, key.pas    
1560         if (key.active)                          
1561                 tipc_crypto_key_detach(tx->ae    
1562         this_cpu_inc(tx->stats->stat[STAT_SWI    
1563         pr_info("%s: key[%d] is activated\n",    
1564                                                  
1565 s1:                                              
1566         spin_unlock(&tx->lock);                  
1567                                                  
1568         /* RX pending: having user -> active     
1569         spin_lock(&rx->lock);                    
1570         key = rx->key;                           
1571         if (!key.pending || tipc_aead_users(r    
1572                 goto s2;                         
1573                                                  
1574         if (key.active)                          
1575                 key.passive = key.active;        
1576         key.active = key.pending;                
1577         rx->timer2 = jiffies;                    
1578         tipc_crypto_key_set_state(rx, key.pas    
1579         this_cpu_inc(rx->stats->stat[STAT_SWI    
1580         pr_info("%s: key[%d] is activated\n",    
1581         goto s5;                                 
1582                                                  
1583 s2:                                              
1584         /* RX pending: not working -> remove     
1585         if (!key.pending || tipc_aead_users(r    
1586                 goto s3;                         
1587                                                  
1588         tipc_crypto_key_set_state(rx, key.pas    
1589         tipc_crypto_key_detach(rx->aead[key.p    
1590         pr_debug("%s: key[%d] is removed\n",     
1591         goto s5;                                 
1592                                                  
1593 s3:                                              
1594         /* RX active: timed out or no user ->    
1595         if (!key.active)                         
1596                 goto s4;                         
1597         if (time_before(jiffies, rx->timer1 +    
1598             tipc_aead_users(rx->aead[key.acti    
1599                 goto s4;                         
1600                                                  
1601         if (key.pending)                         
1602                 key.passive = key.active;        
1603         else                                     
1604                 key.pending = key.active;        
1605         rx->timer2 = jiffies;                    
1606         tipc_crypto_key_set_state(rx, key.pas    
1607         tipc_aead_users_set(rx->aead[key.pend    
1608         pr_debug("%s: key[%d] is deactivated\    
1609         goto s5;                                 
1610                                                  
1611 s4:                                              
1612         /* RX passive: outdated or not workin    
1613         if (!key.passive)                        
1614                 goto s5;                         
1615         if (time_before(jiffies, rx->timer2 +    
1616             tipc_aead_users(rx->aead[key.pass    
1617                 goto s5;                         
1618                                                  
1619         tipc_crypto_key_set_state(rx, 0, key.    
1620         tipc_crypto_key_detach(rx->aead[key.p    
1621         pr_debug("%s: key[%d] is freed\n", rx    
1622                                                  
1623 s5:                                              
1624         spin_unlock(&rx->lock);                  
1625                                                  
1626         /* Relax it here, the flag will be se    
1627          * when we are not in grace period fo    
1628          */                                      
1629         if (time_after(jiffies, tx->timer2 +     
1630                 tx->legacy_user = 0;             
1631                                                  
1632         /* Limit max_tfms & do debug commands    
1633         if (likely(sysctl_tipc_max_tfms <= TI    
1634                 return;                          
1635                                                  
1636         cmd = sysctl_tipc_max_tfms;              
1637         sysctl_tipc_max_tfms = TIPC_MAX_TFMS_    
1638         tipc_crypto_do_cmd(rx->net, cmd);        
1639 }                                                
1640                                                  
1641 static inline void tipc_crypto_clone_msg(stru    
1642                                          stru    
1643                                          stru    
1644                                          stru    
1645 {                                                
1646         struct sk_buff *skb;                     
1647                                                  
1648         skb = skb_clone(_skb, GFP_ATOMIC);       
1649         if (skb) {                               
1650                 TIPC_SKB_CB(skb)->xmit_type =    
1651                 tipc_crypto_xmit(net, &skb, b    
1652                 if (skb)                         
1653                         b->media->send_msg(ne    
1654         }                                        
1655 }                                                
1656                                                  
1657 /**                                              
1658  * tipc_crypto_xmit - Build & encrypt TIPC me    
1659  * @net: struct net                              
1660  * @skb: input/output message skb pointer        
1661  * @b: bearer used for xmit later                
1662  * @dst: destination media address               
1663  * @__dnode: destination node for reference i    
1664  *                                               
1665  * First, build an encryption message header     
1666  * encrypt the original TIPC message by using    
1667  * key with this preference order.               
1668  * If the encryption is successful, the encry    
1669  * via the callback.                             
1670  * Otherwise, the skb is freed!                  
1671  *                                               
1672  * Return:                                       
1673  * * 0                   : the encryption has    
1674  * * -EINPROGRESS/-EBUSY : the encryption is     
1675  * * -ENOKEK             : the encryption has    
1676  * * -EKEYREVOKED        : the encryption has    
1677  * * -ENOMEM             : the encryption has    
1678  * * < 0                 : the encryption has    
1679  */                                              
1680 int tipc_crypto_xmit(struct net *net, struct     
1681                      struct tipc_bearer *b, s    
1682                      struct tipc_node *__dnod    
1683 {                                                
1684         struct tipc_crypto *__rx = tipc_node_    
1685         struct tipc_crypto *tx = tipc_net(net    
1686         struct tipc_crypto_stats __percpu *st    
1687         struct tipc_msg *hdr = buf_msg(*skb);    
1688         struct tipc_key key = tx->key;           
1689         struct tipc_aead *aead = NULL;           
1690         u32 user = msg_user(hdr);                
1691         u32 type = msg_type(hdr);                
1692         int rc = -ENOKEY;                        
1693         u8 tx_key = 0;                           
1694                                                  
1695         /* No encryption? */                     
1696         if (!tx->working)                        
1697                 return 0;                        
1698                                                  
1699         /* Pending key if peer has active on     
1700         if (unlikely(key.pending)) {             
1701                 tx_key = key.pending;            
1702                 if (!tx->key_master && !key.a    
1703                         goto encrypt;            
1704                 if (__rx && atomic_read(&__rx    
1705                         goto encrypt;            
1706                 if (TIPC_SKB_CB(*skb)->xmit_t    
1707                         pr_debug("%s: probing    
1708                                  key.pending)    
1709                         goto encrypt;            
1710                 }                                
1711                 if (user == LINK_CONFIG || us    
1712                         tipc_crypto_clone_msg    
1713                                                  
1714         }                                        
1715                                                  
1716         /* Master key if this is a *vital* me    
1717         if (tx->key_master) {                    
1718                 tx_key = KEY_MASTER;             
1719                 if (!key.active)                 
1720                         goto encrypt;            
1721                 if (TIPC_SKB_CB(*skb)->xmit_t    
1722                         pr_debug("%s: gracing    
1723                                  user, type);    
1724                         goto encrypt;            
1725                 }                                
1726                 if (user == LINK_CONFIG ||       
1727                     (user == LINK_PROTOCOL &&    
1728                     (user == MSG_CRYPTO && ty    
1729                     time_before(jiffies, tx->    
1730                         if (__rx && __rx->key    
1731                             !atomic_read(&__r    
1732                                 goto encrypt;    
1733                         if (!__rx) {             
1734                                 if (likely(!t    
1735                                         goto     
1736                                 tipc_crypto_c    
1737                                                  
1738                         }                        
1739                 }                                
1740         }                                        
1741                                                  
1742         /* Else, use the active key if any */    
1743         if (likely(key.active)) {                
1744                 tx_key = key.active;             
1745                 goto encrypt;                    
1746         }                                        
1747                                                  
1748         goto exit;                               
1749                                                  
1750 encrypt:                                         
1751         aead = tipc_aead_get(tx->aead[tx_key]    
1752         if (unlikely(!aead))                     
1753                 goto exit;                       
1754         rc = tipc_ehdr_build(net, aead, tx_ke    
1755         if (likely(rc > 0))                      
1756                 rc = tipc_aead_encrypt(aead,     
1757                                                  
1758 exit:                                            
1759         switch (rc) {                            
1760         case 0:                                  
1761                 this_cpu_inc(stats->stat[STAT    
1762                 break;                           
1763         case -EINPROGRESS:                       
1764         case -EBUSY:                             
1765                 this_cpu_inc(stats->stat[STAT    
1766                 *skb = NULL;                     
1767                 return rc;                       
1768         default:                                 
1769                 this_cpu_inc(stats->stat[STAT    
1770                 if (rc == -ENOKEY)               
1771                         this_cpu_inc(stats->s    
1772                 else if (rc == -EKEYREVOKED)     
1773                         this_cpu_inc(stats->s    
1774                 kfree_skb(*skb);                 
1775                 *skb = NULL;                     
1776                 break;                           
1777         }                                        
1778                                                  
1779         tipc_aead_put(aead);                     
1780         return rc;                               
1781 }                                                
1782                                                  
1783 /**                                              
1784  * tipc_crypto_rcv - Decrypt an encrypted TIP    
1785  * @net: struct net                              
1786  * @rx: RX crypto handle                         
1787  * @skb: input/output message skb pointer        
1788  * @b: bearer where the message has been rece    
1789  *                                               
1790  * If the decryption is successful, the decry    
1791  * as the callback, the encryption header and    
1792  * before forwarding to tipc_rcv() via the ti    
1793  * Otherwise, the skb will be freed!             
1794  * Note: RX key(s) can be re-aligned, or in c    
1795  * cluster key(s) can be taken for decryption    
1796  *                                               
1797  * Return:                                       
1798  * * 0                   : the decryption has    
1799  * * -EINPROGRESS/-EBUSY : the decryption is     
1800  * * -ENOKEY             : the decryption has    
1801  * * -EBADMSG            : the decryption has    
1802  * * -ENOMEM             : the decryption has    
1803  * * < 0                 : the decryption has    
1804  */                                              
1805 int tipc_crypto_rcv(struct net *net, struct t    
1806                     struct sk_buff **skb, str    
1807 {                                                
1808         struct tipc_crypto *tx = tipc_net(net    
1809         struct tipc_crypto_stats __percpu *st    
1810         struct tipc_aead *aead = NULL;           
1811         struct tipc_key key;                     
1812         int rc = -ENOKEY;                        
1813         u8 tx_key, n;                            
1814                                                  
1815         tx_key = ((struct tipc_ehdr *)(*skb)-    
1816                                                  
1817         /* New peer?                             
1818          * Let's try with TX key (i.e. cluste    
1819          */                                      
1820         if (unlikely(!rx || tx_key == KEY_MAS    
1821                 goto pick_tx;                    
1822                                                  
1823         /* Pick RX key according to TX key if    
1824         key = rx->key;                           
1825         if (tx_key == key.active || tx_key ==    
1826             tx_key == key.passive)               
1827                 goto decrypt;                    
1828                                                  
1829         /* Unknown key, let's try to align RX    
1830         if (tipc_crypto_key_try_align(rx, tx_    
1831                 goto decrypt;                    
1832                                                  
1833 pick_tx:                                         
1834         /* No key suitable? Try to pick one f    
1835         aead = tipc_crypto_key_pick_tx(tx, rx    
1836         if (aead)                                
1837                 goto decrypt;                    
1838         goto exit;                               
1839                                                  
1840 decrypt:                                         
1841         rcu_read_lock();                         
1842         if (!aead)                               
1843                 aead = tipc_aead_get(rx->aead    
1844         rc = tipc_aead_decrypt(net, aead, *sk    
1845         rcu_read_unlock();                       
1846                                                  
1847 exit:                                            
1848         stats = ((rx) ?: tx)->stats;             
1849         switch (rc) {                            
1850         case 0:                                  
1851                 this_cpu_inc(stats->stat[STAT    
1852                 break;                           
1853         case -EINPROGRESS:                       
1854         case -EBUSY:                             
1855                 this_cpu_inc(stats->stat[STAT    
1856                 *skb = NULL;                     
1857                 return rc;                       
1858         default:                                 
1859                 this_cpu_inc(stats->stat[STAT    
1860                 if (rc == -ENOKEY) {             
1861                         kfree_skb(*skb);         
1862                         *skb = NULL;             
1863                         if (rx) {                
1864                                 /* Mark rx->n    
1865                                  * pending re    
1866                                  * one i.e. i    
1867                                  */              
1868                                 n = key_next(    
1869                                 rx->nokey = !    
1870                                                  
1871                                 pr_debug_rate    
1872                                                  
1873                                                  
1874                                 tipc_node_put    
1875                         }                        
1876                         this_cpu_inc(stats->s    
1877                         return rc;               
1878                 } else if (rc == -EBADMSG) {     
1879                         this_cpu_inc(stats->s    
1880                 }                                
1881                 break;                           
1882         }                                        
1883                                                  
1884         tipc_crypto_rcv_complete(net, aead, b    
1885         return rc;                               
1886 }                                                
1887                                                  
1888 static void tipc_crypto_rcv_complete(struct n    
1889                                      struct t    
1890                                      struct s    
1891 {                                                
1892         struct tipc_skb_cb *skb_cb = TIPC_SKB    
1893         struct tipc_crypto *rx = aead->crypto    
1894         struct tipc_aead *tmp = NULL;            
1895         struct tipc_ehdr *ehdr;                  
1896         struct tipc_node *n;                     
1897                                                  
1898         /* Is this completed by TX? */           
1899         if (unlikely(is_tx(aead->crypto))) {     
1900                 rx = skb_cb->tx_clone_ctx.rx;    
1901                 pr_debug("TX->RX(%s): err %d,    
1902                          (rx) ? tipc_node_get    
1903                          (*skb)->next, skb_cb    
1904                 pr_debug("skb_cb [recurs %d,     
1905                          skb_cb->tx_clone_ctx    
1906                          aead->crypto->aead[1    
1907                          aead->crypto->aead[3    
1908                 if (unlikely(err)) {             
1909                         if (err == -EBADMSG &    
1910                                 tipc_rcv(net,    
1911                         goto free_skb;           
1912                 }                                
1913                                                  
1914                 if (likely((*skb)->next)) {      
1915                         kfree_skb((*skb)->nex    
1916                         (*skb)->next = NULL;     
1917                 }                                
1918                 ehdr = (struct tipc_ehdr *)(*    
1919                 if (!rx) {                       
1920                         WARN_ON(ehdr->user !=    
1921                         n = tipc_node_create(    
1922                                                  
1923                         rx = tipc_node_crypto    
1924                         if (unlikely(!rx))       
1925                                 goto free_skb    
1926                 }                                
1927                                                  
1928                 /* Ignore cloning if it was T    
1929                 if (ehdr->tx_key == KEY_MASTE    
1930                         goto rcv;                
1931                 if (tipc_aead_clone(&tmp, aea    
1932                         goto rcv;                
1933                 WARN_ON(!refcount_inc_not_zer    
1934                 if (tipc_crypto_key_attach(rx    
1935                         tipc_aead_free(&tmp->    
1936                         goto rcv;                
1937                 }                                
1938                 tipc_aead_put(aead);             
1939                 aead = tmp;                      
1940         }                                        
1941                                                  
1942         if (unlikely(err)) {                     
1943                 tipc_aead_users_dec((struct t    
1944                 goto free_skb;                   
1945         }                                        
1946                                                  
1947         /* Set the RX key's user */              
1948         tipc_aead_users_set((struct tipc_aead    
1949                                                  
1950         /* Mark this point, RX works */          
1951         rx->timer1 = jiffies;                    
1952                                                  
1953 rcv:                                             
1954         /* Remove ehdr & auth. tag prior to t    
1955         ehdr = (struct tipc_ehdr *)(*skb)->da    
1956                                                  
1957         /* Mark this point, RX passive still     
1958         if (rx->key.passive && ehdr->tx_key =    
1959                 rx->timer2 = jiffies;            
1960                                                  
1961         skb_reset_network_header(*skb);          
1962         skb_pull(*skb, tipc_ehdr_size(ehdr));    
1963         if (pskb_trim(*skb, (*skb)->len - aea    
1964                 goto free_skb;                   
1965                                                  
1966         /* Validate TIPCv2 message */            
1967         if (unlikely(!tipc_msg_validate(skb))    
1968                 pr_err_ratelimited("Packet dr    
1969                 goto free_skb;                   
1970         }                                        
1971                                                  
1972         /* Ok, everything's fine, try to sync    
1973         tipc_crypto_key_synch(rx, *skb);         
1974                                                  
1975         /* Re-fetch skb cb as skb might be ch    
1976         skb_cb = TIPC_SKB_CB(*skb);              
1977                                                  
1978         /* Mark skb decrypted */                 
1979         skb_cb->decrypted = 1;                   
1980                                                  
1981         /* Clear clone cxt if any */             
1982         if (likely(!skb_cb->tx_clone_deferred    
1983                 goto exit;                       
1984         skb_cb->tx_clone_deferred = 0;           
1985         memset(&skb_cb->tx_clone_ctx, 0, size    
1986         goto exit;                               
1987                                                  
1988 free_skb:                                        
1989         kfree_skb(*skb);                         
1990         *skb = NULL;                             
1991                                                  
1992 exit:                                            
1993         tipc_aead_put(aead);                     
1994         if (rx)                                  
1995                 tipc_node_put(rx->node);         
1996 }                                                
1997                                                  
1998 static void tipc_crypto_do_cmd(struct net *ne    
1999 {                                                
2000         struct tipc_net *tn = tipc_net(net);     
2001         struct tipc_crypto *tx = tn->crypto_t    
2002         struct list_head *p;                     
2003         unsigned int stat;                       
2004         int i, j, cpu;                           
2005         char buf[200];                           
2006                                                  
2007         /* Currently only one command is supp    
2008         switch (cmd) {                           
2009         case 0xfff1:                             
2010                 goto print_stats;                
2011         default:                                 
2012                 return;                          
2013         }                                        
2014                                                  
2015 print_stats:                                     
2016         /* Print a header */                     
2017         pr_info("\n=============== TIPC Crypt    
2018                                                  
2019         /* Print key status */                   
2020         pr_info("Key status:\n");                
2021         pr_info("TX(%7.7s)\n%s", tipc_own_id_    
2022                 tipc_crypto_key_dump(tx, buf)    
2023                                                  
2024         rcu_read_lock();                         
2025         for (p = tn->node_list.next; p != &tn    
2026                 rx = tipc_node_crypto_rx_by_l    
2027                 pr_info("RX(%7.7s)\n%s", tipc    
2028                         tipc_crypto_key_dump(    
2029         }                                        
2030         rcu_read_unlock();                       
2031                                                  
2032         /* Print crypto statistics */            
2033         for (i = 0, j = 0; i < MAX_STATS; i++    
2034                 j += scnprintf(buf + j, 200 -    
2035         pr_info("Counter     %s", buf);          
2036                                                  
2037         memset(buf, '-', 115);                   
2038         buf[115] = '\0';                         
2039         pr_info("%s\n", buf);                    
2040                                                  
2041         j = scnprintf(buf, 200, "TX(%7.7s) ",    
2042         for_each_possible_cpu(cpu) {             
2043                 for (i = 0; i < MAX_STATS; i+    
2044                         stat = per_cpu_ptr(tx    
2045                         j += scnprintf(buf +     
2046                 }                                
2047                 pr_info("%s", buf);              
2048                 j = scnprintf(buf, 200, "%12s    
2049         }                                        
2050                                                  
2051         rcu_read_lock();                         
2052         for (p = tn->node_list.next; p != &tn    
2053                 rx = tipc_node_crypto_rx_by_l    
2054                 j = scnprintf(buf, 200, "RX(%    
2055                               tipc_node_get_i    
2056                 for_each_possible_cpu(cpu) {     
2057                         for (i = 0; i < MAX_S    
2058                                 stat = per_cp    
2059                                 j += scnprint    
2060                                                  
2061                         }                        
2062                         pr_info("%s", buf);      
2063                         j = scnprintf(buf, 20    
2064                 }                                
2065         }                                        
2066         rcu_read_unlock();                       
2067                                                  
2068         pr_info("\n======================== D    
2069 }                                                
2070                                                  
2071 static char *tipc_crypto_key_dump(struct tipc    
2072 {                                                
2073         struct tipc_key key = c->key;            
2074         struct tipc_aead *aead;                  
2075         int k, i = 0;                            
2076         char *s;                                 
2077                                                  
2078         for (k = KEY_MIN; k <= KEY_MAX; k++)     
2079                 if (k == KEY_MASTER) {           
2080                         if (is_rx(c))            
2081                                 continue;        
2082                         if (time_before(jiffi    
2083                                         c->ti    
2084                                 s = "ACT";       
2085                         else                     
2086                                 s = "PAS";       
2087                 } else {                         
2088                         if (k == key.passive)    
2089                                 s = "PAS";       
2090                         else if (k == key.act    
2091                                 s = "ACT";       
2092                         else if (k == key.pen    
2093                                 s = "PEN";       
2094                         else                     
2095                                 s = "-";         
2096                 }                                
2097                 i += scnprintf(buf + i, 200 -    
2098                                                  
2099                 rcu_read_lock();                 
2100                 aead = rcu_dereference(c->aea    
2101                 if (aead)                        
2102                         i += scnprintf(buf +     
2103                                        "{\"0x    
2104                                        aead->    
2105                                        (aead-    
2106                                        atomic    
2107                                        refcou    
2108                 rcu_read_unlock();               
2109                 i += scnprintf(buf + i, 200 -    
2110         }                                        
2111                                                  
2112         if (is_rx(c))                            
2113                 i += scnprintf(buf + i, 200 -    
2114                                atomic_read(&c    
2115                                                  
2116         return buf;                              
2117 }                                                
2118                                                  
2119 static char *tipc_key_change_dump(struct tipc    
2120                                   char *buf)     
2121 {                                                
2122         struct tipc_key *key = &old;             
2123         int k, i = 0;                            
2124         char *s;                                 
2125                                                  
2126         /* Output format: "[%s %s %s] -> [%s     
2127 again:                                           
2128         i += scnprintf(buf + i, 32 - i, "[");    
2129         for (k = KEY_1; k <= KEY_3; k++) {       
2130                 if (k == key->passive)           
2131                         s = "pas";               
2132                 else if (k == key->active)       
2133                         s = "act";               
2134                 else if (k == key->pending)      
2135                         s = "pen";               
2136                 else                             
2137                         s = "-";                 
2138                 i += scnprintf(buf + i, 32 -     
2139                                (k != KEY_3) ?    
2140         }                                        
2141         if (key != &new) {                       
2142                 i += scnprintf(buf + i, 32 -     
2143                 key = &new;                      
2144                 goto again;                      
2145         }                                        
2146         i += scnprintf(buf + i, 32 - i, "]");    
2147         return buf;                              
2148 }                                                
2149                                                  
2150 /**                                              
2151  * tipc_crypto_msg_rcv - Common 'MSG_CRYPTO'     
2152  * @net: the struct net                          
2153  * @skb: the receiving message buffer            
2154  */                                              
2155 void tipc_crypto_msg_rcv(struct net *net, str    
2156 {                                                
2157         struct tipc_crypto *rx;                  
2158         struct tipc_msg *hdr;                    
2159                                                  
2160         if (unlikely(skb_linearize(skb)))        
2161                 goto exit;                       
2162                                                  
2163         hdr = buf_msg(skb);                      
2164         rx = tipc_node_crypto_rx_by_addr(net,    
2165         if (unlikely(!rx))                       
2166                 goto exit;                       
2167                                                  
2168         switch (msg_type(hdr)) {                 
2169         case KEY_DISTR_MSG:                      
2170                 if (tipc_crypto_key_rcv(rx, h    
2171                         goto exit;               
2172                 break;                           
2173         default:                                 
2174                 break;                           
2175         }                                        
2176                                                  
2177         tipc_node_put(rx->node);                 
2178                                                  
2179 exit:                                            
2180         kfree_skb(skb);                          
2181 }                                                
2182                                                  
2183 /**                                              
2184  * tipc_crypto_key_distr - Distribute a TX ke    
2185  * @tx: the TX crypto                            
2186  * @key: the key's index                         
2187  * @dest: the destination tipc node, = NULL i    
2188  *                                               
2189  * Return: 0 in case of success, otherwise <     
2190  */                                              
2191 int tipc_crypto_key_distr(struct tipc_crypto     
2192                           struct tipc_node *d    
2193 {                                                
2194         struct tipc_aead *aead;                  
2195         u32 dnode = tipc_node_get_addr(dest);    
2196         int rc = -ENOKEY;                        
2197                                                  
2198         if (!sysctl_tipc_key_exchange_enabled    
2199                 return 0;                        
2200                                                  
2201         if (key) {                               
2202                 rcu_read_lock();                 
2203                 aead = tipc_aead_get(tx->aead    
2204                 if (likely(aead)) {              
2205                         rc = tipc_crypto_key_    
2206                                                  
2207                                                  
2208                         tipc_aead_put(aead);     
2209                 }                                
2210                 rcu_read_unlock();               
2211         }                                        
2212                                                  
2213         return rc;                               
2214 }                                                
2215                                                  
2216 /**                                              
2217  * tipc_crypto_key_xmit - Send a session key     
2218  * @net: the struct net                          
2219  * @skey: the session key to be sent             
2220  * @gen: the key's generation                    
2221  * @mode: the key's mode                         
2222  * @dnode: the destination node address, = 0     
2223  *                                               
2224  * The session key 'skey' is packed in a TIPC    
2225  * as its data section, then xmit-ed through     
2226  *                                               
2227  * Return: 0 in case of success, otherwise <     
2228  */                                              
2229 static int tipc_crypto_key_xmit(struct net *n    
2230                                 u16 gen, u8 m    
2231 {                                                
2232         struct sk_buff_head pkts;                
2233         struct tipc_msg *hdr;                    
2234         struct sk_buff *skb;                     
2235         u16 size, cong_link_cnt;                 
2236         u8 *data;                                
2237         int rc;                                  
2238                                                  
2239         size = tipc_aead_key_size(skey);         
2240         skb = tipc_buf_acquire(INT_H_SIZE + s    
2241         if (!skb)                                
2242                 return -ENOMEM;                  
2243                                                  
2244         hdr = buf_msg(skb);                      
2245         tipc_msg_init(tipc_own_addr(net), hdr    
2246                       INT_H_SIZE, dnode);        
2247         msg_set_size(hdr, INT_H_SIZE + size);    
2248         msg_set_key_gen(hdr, gen);               
2249         msg_set_key_mode(hdr, mode);             
2250                                                  
2251         data = msg_data(hdr);                    
2252         *((__be32 *)(data + TIPC_AEAD_ALG_NAM    
2253         memcpy(data, skey->alg_name, TIPC_AEA    
2254         memcpy(data + TIPC_AEAD_ALG_NAME + si    
2255                skey->keylen);                    
2256                                                  
2257         __skb_queue_head_init(&pkts);            
2258         __skb_queue_tail(&pkts, skb);            
2259         if (dnode)                               
2260                 rc = tipc_node_xmit(net, &pkt    
2261         else                                     
2262                 rc = tipc_bcast_xmit(net, &pk    
2263                                                  
2264         return rc;                               
2265 }                                                
2266                                                  
2267 /**                                              
2268  * tipc_crypto_key_rcv - Receive a session ke    
2269  * @rx: the RX crypto                            
2270  * @hdr: the TIPC v2 message incl. the receiv    
2271  *                                               
2272  * This function retrieves the session key in    
2273  * schedules a RX work to attach the key to t    
2274  *                                               
2275  * Return: "true" if the key has been schedul    
2276  * "false".                                      
2277  */                                              
2278 static bool tipc_crypto_key_rcv(struct tipc_c    
2279 {                                                
2280         struct tipc_crypto *tx = tipc_net(rx-    
2281         struct tipc_aead_key *skey = NULL;       
2282         u16 key_gen = msg_key_gen(hdr);          
2283         u32 size = msg_data_sz(hdr);             
2284         u8 *data = msg_data(hdr);                
2285         unsigned int keylen;                     
2286                                                  
2287         /* Verify whether the size can exist     
2288         if (unlikely(size < sizeof(struct tip    
2289                 pr_debug("%s: message data si    
2290                 goto exit;                       
2291         }                                        
2292                                                  
2293         keylen = ntohl(*((__be32 *)(data + TI    
2294                                                  
2295         /* Verify the supplied size values */    
2296         if (unlikely(size != keylen + sizeof(    
2297                      keylen > TIPC_AEAD_KEY_S    
2298                 pr_debug("%s: invalid MSG_CRY    
2299                 goto exit;                       
2300         }                                        
2301                                                  
2302         spin_lock(&rx->lock);                    
2303         if (unlikely(rx->skey || (key_gen ==     
2304                 pr_err("%s: key existed <%p>,    
2305                        rx->skey, key_gen, rx-    
2306                 goto exit_unlock;                
2307         }                                        
2308                                                  
2309         /* Allocate memory for the key */        
2310         skey = kmalloc(size, GFP_ATOMIC);        
2311         if (unlikely(!skey)) {                   
2312                 pr_err("%s: unable to allocat    
2313                 goto exit_unlock;                
2314         }                                        
2315                                                  
2316         /* Copy key from msg data */             
2317         skey->keylen = keylen;                   
2318         memcpy(skey->alg_name, data, TIPC_AEA    
2319         memcpy(skey->key, data + TIPC_AEAD_AL    
2320                skey->keylen);                    
2321                                                  
2322         rx->key_gen = key_gen;                   
2323         rx->skey_mode = msg_key_mode(hdr);       
2324         rx->skey = skey;                         
2325         rx->nokey = 0;                           
2326         mb(); /* for nokey flag */               
2327                                                  
2328 exit_unlock:                                     
2329         spin_unlock(&rx->lock);                  
2330                                                  
2331 exit:                                            
2332         /* Schedule the key attaching on this    
2333         if (likely(skey && queue_delayed_work    
2334                 return true;                     
2335                                                  
2336         return false;                            
2337 }                                                
2338                                                  
2339 /**                                              
2340  * tipc_crypto_work_rx - Scheduled RX works h    
2341  * @work: the struct RX work                     
2342  *                                               
2343  * The function processes the previous schedu    
2344  * or attaching a received session key on RX     
2345  */                                              
2346 static void tipc_crypto_work_rx(struct work_s    
2347 {                                                
2348         struct delayed_work *dwork = to_delay    
2349         struct tipc_crypto *rx = container_of    
2350         struct tipc_crypto *tx = tipc_net(rx-    
2351         unsigned long delay = msecs_to_jiffie    
2352         bool resched = false;                    
2353         u8 key;                                  
2354         int rc;                                  
2355                                                  
2356         /* Case 1: Distribute TX key to peer     
2357         if (atomic_cmpxchg(&rx->key_distr,       
2358                            KEY_DISTR_SCHED,      
2359                            KEY_DISTR_COMPL) =    
2360                 /* Always pick the newest one    
2361                 key = tx->key.pending ?: tx->    
2362                 rc = tipc_crypto_key_distr(tx    
2363                 if (unlikely(rc))                
2364                         pr_warn("%s: unable t    
2365                                 tx->name, key    
2366                                 rc);             
2367                                                  
2368                 /* Sched for key_distr releas    
2369                 resched = true;                  
2370         } else {                                 
2371                 atomic_cmpxchg(&rx->key_distr    
2372         }                                        
2373                                                  
2374         /* Case 2: Attach a pending received     
2375         if (rx->skey) {                          
2376                 rc = tipc_crypto_key_init(rx,    
2377                 if (unlikely(rc < 0))            
2378                         pr_warn("%s: unable t    
2379                                 rx->name, rc)    
2380                 switch (rc) {                    
2381                 case -EBUSY:                     
2382                 case -ENOMEM:                    
2383                         /* Resched the key at    
2384                         resched = true;          
2385                         break;                   
2386                 default:                         
2387                         synchronize_rcu();       
2388                         kfree(rx->skey);         
2389                         rx->skey = NULL;         
2390                         break;                   
2391                 }                                
2392         }                                        
2393                                                  
2394         if (resched && queue_delayed_work(tx-    
2395                 return;                          
2396                                                  
2397         tipc_node_put(rx->node);                 
2398 }                                                
2399                                                  
2400 /**                                              
2401  * tipc_crypto_rekeying_sched - (Re)schedule     
2402  * @tx: TX crypto                                
2403  * @changed: if the rekeying needs to be resc    
2404  * @new_intv: new rekeying interval (when "ch    
2405  */                                              
2406 void tipc_crypto_rekeying_sched(struct tipc_c    
2407                                 u32 new_intv)    
2408 {                                                
2409         unsigned long delay;                     
2410         bool now = false;                        
2411                                                  
2412         if (changed) {                           
2413                 if (new_intv == TIPC_REKEYING    
2414                         now = true;              
2415                 else                             
2416                         tx->rekeying_intv = n    
2417                 cancel_delayed_work_sync(&tx-    
2418         }                                        
2419                                                  
2420         if (tx->rekeying_intv || now) {          
2421                 delay = (now) ? 0 : tx->rekey    
2422                 queue_delayed_work(tx->wq, &t    
2423         }                                        
2424 }                                                
2425                                                  
2426 /**                                              
2427  * tipc_crypto_work_tx - Scheduled TX works h    
2428  * @work: the struct TX work                     
2429  *                                               
2430  * The function processes the previous schedu    
2431  * generating a new session key based on curr    
2432  * TX crypto and finally distributing it to p    
2433  * rekeying if needed.                           
2434  */                                              
2435 static void tipc_crypto_work_tx(struct work_s    
2436 {                                                
2437         struct delayed_work *dwork = to_delay    
2438         struct tipc_crypto *tx = container_of    
2439         struct tipc_aead_key *skey = NULL;       
2440         struct tipc_key key = tx->key;           
2441         struct tipc_aead *aead;                  
2442         int rc = -ENOMEM;                        
2443                                                  
2444         if (unlikely(key.pending))               
2445                 goto resched;                    
2446                                                  
2447         /* Take current key as a template */     
2448         rcu_read_lock();                         
2449         aead = rcu_dereference(tx->aead[key.a    
2450         if (unlikely(!aead)) {                   
2451                 rcu_read_unlock();               
2452                 /* At least one key should ex    
2453                 return;                          
2454         }                                        
2455                                                  
2456         /* Lets duplicate it first */            
2457         skey = kmemdup(aead->key, tipc_aead_k    
2458         rcu_read_unlock();                       
2459                                                  
2460         /* Now, generate new key, initiate &     
2461         if (likely(skey)) {                      
2462                 rc = tipc_aead_key_generate(s    
2463                      tipc_crypto_key_init(tx,    
2464                 if (likely(rc > 0))              
2465                         rc = tipc_crypto_key_    
2466                 kfree_sensitive(skey);           
2467         }                                        
2468                                                  
2469         if (unlikely(rc))                        
2470                 pr_warn_ratelimited("%s: reke    
2471                                                  
2472 resched:                                         
2473         /* Re-schedule rekeying if any */        
2474         tipc_crypto_rekeying_sched(tx, false,    
2475 }                                                
2476                                                  

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