2 * Copyright 2000, International Business Machines Corporation and others.
5 * This software has been released under the terms of the IBM Public
6 * License. For details, see the LICENSE file in the top-level source
7 * directory or online at http://www.openafs.org/dl/license10.html
10 /* The rxkad security object. Routines used by both client and servers. */
12 #include <afsconfig.h>
14 #include "afs/param.h"
16 #include <afs/param.h>
20 #include <sys/time_impl.h>
23 #define INCLUDE_RXKAD_PRIVATE_DECLS
31 #include "afs/afs_osi.h"
32 #if defined(AFS_AIX_ENV) || defined(AFS_AUX_ENV) || defined(AFS_SUN5_ENV)
35 #if defined(AFS_DARWIN60_ENV) || defined(AFS_OBSD_ENV)
40 #ifndef AFS_LINUX22_ENV
41 #include "rpc/types.h"
43 #endif /* AFS_LINUX22_ENV */
45 #include "afs/sysincludes.h"
46 #include "afsincludes.h"
52 #include <sys/types.h>
57 #ifdef AFS_PTHREAD_ENV
58 #define RXKAD_STATS_DECLSPEC __declspec(dllexport)
61 #include <netinet/in.h>
65 #include <afs/afsutil.h>
68 #include <des/stats.h>
69 #include "private_data.h"
70 #define XPRT_RXKAD_COMMON
73 #define afs_max(a,b) ((a) < (b)? (b) : (a))
77 #define osi_Time() time(0)
79 /* variable initialization for the benefit of darwin compiler; if it causes
80 problems elsewhere, conditionalize for darwin or fc_test compile breaks */
81 #ifdef AFS_PTHREAD_ENV
82 struct rxkad_global_stats rxkad_global_stats = { 0 };
83 pthread_mutex_t rxkad_global_stats_lock;
84 pthread_key_t rxkad_stats_key;
85 #else /* AFS_PTHREAD_ENV */
86 #if defined(KERNEL) && !defined(UKERNEL)
87 struct rxkad_stats rxkad_stats = { { 0 } };
89 /* Move delaration of this to des/key_sched.c */
91 #endif /* AFS_PTHREAD_ENV */
93 #ifdef AFS_PTHREAD_ENV
94 /* rxkad_stats related stuff */
97 * Macro to insert an element at the tail of a doubly linked list
99 #define DLL_INSERT_TAIL(ptr,head,tail,next,prev) \
101 (ptr)->next = NULL; \
102 (ptr)->prev = (tail); \
105 (ptr)->prev->next = (ptr); \
108 assert((head) && ((head)->prev == NULL)); \
111 void rxkad_global_stats_init() {
112 assert(pthread_mutex_init(&rxkad_global_stats_lock, (const pthread_mutexattr_t *)0) == 0);
113 assert(pthread_key_create(&rxkad_stats_key, NULL) == 0);
114 memset(&rxkad_global_stats, 0, sizeof(rxkad_global_stats));
118 rxkad_thr_stats_init() {
119 rxkad_stats_t * rxkad_stats;
120 rxkad_stats = (rxkad_stats_t *)malloc(sizeof(rxkad_stats_t));
121 assert(rxkad_stats != NULL && pthread_setspecific(rxkad_stats_key,rxkad_stats) == 0);
122 memset(rxkad_stats,0,sizeof(rxkad_stats_t));
123 RXKAD_GLOBAL_STATS_LOCK;
124 DLL_INSERT_TAIL(rxkad_stats, rxkad_global_stats.first, rxkad_global_stats.last, next, prev);
125 RXKAD_GLOBAL_STATS_UNLOCK;
129 int rxkad_stats_agg(rxkad_stats_t * rxkad_stats) {
130 rxkad_stats_t * thr_stats;
131 assert(rxkad_stats != NULL);
132 memset(rxkad_stats, 0, sizeof(rxkad_stats_t));
133 RXKAD_GLOBAL_STATS_LOCK;
134 for (thr_stats = rxkad_global_stats.first; thr_stats != NULL; thr_stats = thr_stats->next) {
135 rxkad_stats->connections[0] += thr_stats->connections[0];
136 rxkad_stats->connections[1] += thr_stats->connections[1];
137 rxkad_stats->connections[2] += thr_stats->connections[2];
138 rxkad_stats->destroyObject += thr_stats->destroyObject;
139 rxkad_stats->destroyClient += thr_stats->destroyClient;
140 rxkad_stats->destroyUnused += thr_stats->destroyUnused;
141 rxkad_stats->destroyUnauth += thr_stats->destroyUnauth;
142 rxkad_stats->destroyConn[0] += thr_stats->destroyConn[0];
143 rxkad_stats->destroyConn[1] += thr_stats->destroyConn[1];
144 rxkad_stats->destroyConn[2] += thr_stats->destroyConn[2];
145 rxkad_stats->expired += thr_stats->expired;
146 rxkad_stats->challengesSent += thr_stats->challengesSent;
147 rxkad_stats->challenges[0] += thr_stats->challenges[0];
148 rxkad_stats->challenges[1] += thr_stats->challenges[1];
149 rxkad_stats->challenges[2] += thr_stats->challenges[2];
150 rxkad_stats->responses[0] += thr_stats->responses[0];
151 rxkad_stats->responses[1] += thr_stats->responses[1];
152 rxkad_stats->responses[2] += thr_stats->responses[2];
153 rxkad_stats->preparePackets[0] += thr_stats->preparePackets[0];
154 rxkad_stats->preparePackets[1] += thr_stats->preparePackets[1];
155 rxkad_stats->preparePackets[2] += thr_stats->preparePackets[2];
156 rxkad_stats->preparePackets[3] += thr_stats->preparePackets[3];
157 rxkad_stats->preparePackets[4] += thr_stats->preparePackets[4];
158 rxkad_stats->preparePackets[5] += thr_stats->preparePackets[5];
159 rxkad_stats->checkPackets[0] += thr_stats->checkPackets[0];
160 rxkad_stats->checkPackets[1] += thr_stats->checkPackets[1];
161 rxkad_stats->checkPackets[2] += thr_stats->checkPackets[2];
162 rxkad_stats->checkPackets[3] += thr_stats->checkPackets[3];
163 rxkad_stats->checkPackets[4] += thr_stats->checkPackets[4];
164 rxkad_stats->checkPackets[5] += thr_stats->checkPackets[5];
165 rxkad_stats->bytesEncrypted[0] += thr_stats->bytesEncrypted[0];
166 rxkad_stats->bytesEncrypted[1] += thr_stats->bytesEncrypted[1];
167 rxkad_stats->bytesDecrypted[0] += thr_stats->bytesDecrypted[0];
168 rxkad_stats->bytesDecrypted[1] += thr_stats->bytesDecrypted[1];
169 rxkad_stats->fc_encrypts[0] += thr_stats->fc_encrypts[0];
170 rxkad_stats->fc_encrypts[1] += thr_stats->fc_encrypts[1];
171 rxkad_stats->fc_key_scheds += thr_stats->fc_key_scheds;
172 rxkad_stats->des_encrypts[0] += thr_stats->des_encrypts[0];
173 rxkad_stats->des_encrypts[1] += thr_stats->des_encrypts[1];
174 rxkad_stats->des_key_scheds += thr_stats->des_key_scheds;
175 rxkad_stats->des_randoms += thr_stats->des_randoms;
176 rxkad_stats->spares[0] += thr_stats->spares[0];
177 rxkad_stats->spares[1] += thr_stats->spares[1];
178 rxkad_stats->spares[2] += thr_stats->spares[2];
179 rxkad_stats->spares[3] += thr_stats->spares[3];
180 rxkad_stats->spares[4] += thr_stats->spares[4];
181 rxkad_stats->spares[5] += thr_stats->spares[5];
182 rxkad_stats->spares[6] += thr_stats->spares[6];
183 rxkad_stats->spares[7] += thr_stats->spares[7];
184 rxkad_stats->spares[8] += thr_stats->spares[8];
185 rxkad_stats->spares[9] += thr_stats->spares[9];
187 RXKAD_GLOBAL_STATS_UNLOCK;
190 #endif /* AFS_PTHREAD_ENV */
192 /* static prototypes */
193 static afs_int32 ComputeSum(struct rx_packet *apacket,
194 fc_KeySchedule * aschedule, afs_int32 * aivec);
195 static afs_int32 FreeObject(struct rx_securityClass *aobj);
197 /* this call sets up an endpoint structure, leaving it in *network* byte
198 * order so that it can be used quickly for encryption.
201 rxkad_SetupEndpoint(struct rx_connection *aconnp,
202 struct rxkad_endpoint *aendpointp)
204 register afs_int32 i;
206 aendpointp->cuid[0] = htonl(aconnp->epoch);
207 i = aconnp->cid & RX_CIDMASK;
208 aendpointp->cuid[1] = htonl(i);
209 aendpointp->cksum = 0; /* used as cksum only in chal resp. */
210 aendpointp->securityIndex = htonl(aconnp->securityIndex);
214 /* setup xor information based on session key */
216 rxkad_DeriveXORInfo(struct rx_connection *aconnp, fc_KeySchedule * aschedule,
217 char *aivec, char *aresult)
219 struct rxkad_endpoint tendpoint;
222 rxkad_SetupEndpoint(aconnp, &tendpoint);
223 memcpy((void *)xor, aivec, 2 * sizeof(afs_int32));
224 fc_cbc_encrypt(&tendpoint, &tendpoint, sizeof(tendpoint), aschedule, xor,
227 ((char *)&tendpoint) + sizeof(tendpoint) - ENCRYPTIONBLOCKSIZE,
228 ENCRYPTIONBLOCKSIZE);
232 /* rxkad_CksumChallengeResponse - computes a checksum of the components of a
233 * challenge response packet (which must be unencrypted and in network order).
234 * The endpoint.cksum field is omitted and treated as zero. The cksum is
235 * returned in network order. */
238 rxkad_CksumChallengeResponse(struct rxkad_v2ChallengeResponse * v2r)
242 u_char *cp = (u_char *) v2r;
243 afs_uint32 savedCksum = v2r->encrypted.endpoint.cksum;
245 v2r->encrypted.endpoint.cksum = 0;
247 /* this function captured from budb/db_hash.c */
249 for (i = 0; i < sizeof(*v2r); i++)
250 cksum = (*cp++) + cksum * 0x10204081;
252 v2r->encrypted.endpoint.cksum = savedCksum;
257 rxkad_SetLevel(struct rx_connection *conn, rxkad_level level)
259 if (level == rxkad_auth) {
260 rx_SetSecurityHeaderSize(conn, 4);
261 rx_SetSecurityMaxTrailerSize(conn, 4);
262 } else if (level == rxkad_crypt) {
263 rx_SetSecurityHeaderSize(conn, 8);
264 rx_SetSecurityMaxTrailerSize(conn, 8); /* XXX was 7, but why screw with
265 * unaligned accesses? */
269 /* returns a short integer in host byte order representing a good checksum of
273 ComputeSum(struct rx_packet *apacket, fc_KeySchedule * aschedule,
277 register afs_uint32 t;
279 t = apacket->header.callNumber;
281 /* note that word [1] includes the channel # */
282 t = ((apacket->header.cid & 0x3) << 30)
283 | ((apacket->header.seq & 0x3fffffff));
285 /* XOR in the ivec from the per-endpoint encryption */
288 /* encrypts word as if it were a character string */
289 fc_ecb_encrypt(word, word, aschedule, ENCRYPT);
291 t = (t >> 16) & 0xffff;
293 t = 1; /* so that 0 means don't care */
299 FreeObject(struct rx_securityClass *aobj)
301 struct rxkad_cprivate *tcp; /* both structs start w/ type field */
303 if (aobj->refCount > 0)
304 return 0; /* still in use */
305 tcp = (struct rxkad_cprivate *)aobj->privateData;
306 rxi_Free(aobj, sizeof(struct rx_securityClass));
307 if (tcp->type & rxkad_client) {
308 afs_int32 psize = PDATA_SIZE(tcp->ticketLen);
309 rxi_Free(tcp, psize);
310 } else if (tcp->type & rxkad_server) {
311 rxi_Free(tcp, sizeof(struct rxkad_sprivate));
313 return RXKADINCONSISTENCY;
315 INC_RXKAD_STATS(destroyObject);
319 /* rxkad_Close - called by rx with the security class object as a parameter
320 * when a security object is to be discarded */
323 rxkad_Close(struct rx_securityClass *aobj)
327 code = FreeObject(aobj);
331 /* either: called to (re)create a new connection. */
334 rxkad_NewConnection(struct rx_securityClass *aobj,
335 struct rx_connection *aconn)
337 if (aconn->securityData)
338 return RXKADINCONSISTENCY; /* already allocated??? */
340 if (rx_IsServerConn(aconn)) {
341 int size = sizeof(struct rxkad_sconn);
342 aconn->securityData = (char *)rxi_Alloc(size);
343 memset(aconn->securityData, 0, size); /* initialize it conveniently */
344 } else { /* client */
345 struct rxkad_cprivate *tcp;
346 struct rxkad_cconn *tccp;
347 int size = sizeof(struct rxkad_cconn);
348 tccp = (struct rxkad_cconn *)rxi_Alloc(size);
349 aconn->securityData = (char *)tccp;
350 memset(aconn->securityData, 0, size); /* initialize it conveniently */
351 tcp = (struct rxkad_cprivate *)aobj->privateData;
352 if (!(tcp->type & rxkad_client))
353 return RXKADINCONSISTENCY;
354 rxkad_SetLevel(aconn, tcp->level); /* set header and trailer sizes */
355 rxkad_AllocCID(aobj, aconn); /* CHANGES cid AND epoch!!!! */
356 rxkad_DeriveXORInfo(aconn, tcp->keysched, tcp->ivec, tccp->preSeq);
357 INC_RXKAD_STATS(connections[rxkad_LevelIndex(tcp->level)]);
360 aobj->refCount++; /* attached connection */
364 /* either: called to destroy a connection. */
367 rxkad_DestroyConnection(struct rx_securityClass *aobj,
368 struct rx_connection *aconn)
370 if (rx_IsServerConn(aconn)) {
371 struct rxkad_sconn *sconn;
372 struct rxkad_serverinfo *rock;
373 sconn = (struct rxkad_sconn *)aconn->securityData;
375 aconn->securityData = 0;
376 if (sconn->authenticated)
377 INC_RXKAD_STATS(destroyConn[rxkad_LevelIndex(sconn->level)]);
379 INC_RXKAD_STATS(destroyUnauth);
382 rxi_Free(rock, sizeof(struct rxkad_serverinfo));
383 rxi_Free(sconn, sizeof(struct rxkad_sconn));
385 INC_RXKAD_STATS(destroyUnused);
387 } else { /* client */
388 struct rxkad_cconn *cconn;
389 struct rxkad_cprivate *tcp;
390 cconn = (struct rxkad_cconn *)aconn->securityData;
391 tcp = (struct rxkad_cprivate *)aobj->privateData;
392 if (!(tcp->type & rxkad_client))
393 return RXKADINCONSISTENCY;
395 aconn->securityData = 0;
396 rxi_Free(cconn, sizeof(struct rxkad_cconn));
398 INC_RXKAD_STATS(destroyClient);
400 aobj->refCount--; /* decrement connection counter */
401 if (aobj->refCount <= 0) {
403 code = FreeObject(aobj);
410 /* either: decode packet */
413 rxkad_CheckPacket(struct rx_securityClass *aobj, struct rx_call *acall,
414 struct rx_packet *apacket)
416 struct rx_connection *tconn;
418 fc_KeySchedule *schedule;
419 fc_InitializationVector *ivec;
422 u_int word; /* so we get unsigned right-shift */
427 tconn = rx_ConnectionOf(acall);
428 len = rx_GetDataSize(apacket);
429 checkCksum = 0; /* init */
430 if (rx_IsServerConn(tconn)) {
431 struct rxkad_sconn *sconn;
432 sconn = (struct rxkad_sconn *)tconn->securityData;
433 if (rx_GetPacketCksum(apacket) != 0)
434 sconn->cksumSeen = 1;
435 checkCksum = sconn->cksumSeen;
436 if (sconn && sconn->authenticated
437 && (osi_Time() < sconn->expirationTime)) {
438 level = sconn->level;
439 INC_RXKAD_STATS(checkPackets[rxkad_StatIndex(rxkad_server, level)]);
440 sconn->stats.packetsReceived++;
441 sconn->stats.bytesReceived += len;
442 schedule = (fc_KeySchedule *) sconn->keysched;
443 ivec = (fc_InitializationVector *) sconn->ivec;
445 INC_RXKAD_STATS(expired);
448 preSeq = sconn->preSeq;
449 } else { /* client connection */
450 struct rxkad_cconn *cconn;
451 struct rxkad_cprivate *tcp;
452 cconn = (struct rxkad_cconn *)tconn->securityData;
453 if (rx_GetPacketCksum(apacket) != 0)
454 cconn->cksumSeen = 1;
455 checkCksum = cconn->cksumSeen;
456 tcp = (struct rxkad_cprivate *)aobj->privateData;
457 if (!(tcp->type & rxkad_client))
458 return RXKADINCONSISTENCY;
460 INC_RXKAD_STATS(checkPackets[rxkad_StatIndex(rxkad_client, level)]);
461 cconn->stats.packetsReceived++;
462 cconn->stats.bytesReceived += len;
463 preSeq = cconn->preSeq;
464 schedule = (fc_KeySchedule *) tcp->keysched;
465 ivec = (fc_InitializationVector *) tcp->ivec;
469 code = ComputeSum(apacket, schedule, preSeq);
470 if (code != rx_GetPacketCksum(apacket))
471 return RXKADSEALEDINCON;
476 return 0; /* shouldn't happen */
478 rx_Pullup(apacket, 8); /* the following encrypts 8 bytes only */
479 fc_ecb_encrypt(rx_DataOf(apacket), rx_DataOf(apacket), schedule,
483 code = rxkad_DecryptPacket(tconn, schedule, ivec, len, apacket);
488 word = ntohl(rx_GetInt32(apacket, 0)); /* get first sealed word */
490 ((apacket->header.seq ^ apacket->header.callNumber) & 0xffff))
491 return RXKADSEALEDINCON;
492 nlen = word & 0xffff; /* get real user data length */
494 /* The sealed length should be no larger than the initial length, since the
495 * reverse (round-up) occurs in ...PreparePacket */
498 rx_SetDataSize(apacket, nlen);
502 /* either: encode packet */
505 rxkad_PreparePacket(struct rx_securityClass *aobj, struct rx_call *acall,
506 struct rx_packet *apacket)
508 struct rx_connection *tconn;
510 fc_KeySchedule *schedule;
511 fc_InitializationVector *ivec;
518 tconn = rx_ConnectionOf(acall);
519 len = rx_GetDataSize(apacket);
520 if (rx_IsServerConn(tconn)) {
521 struct rxkad_sconn *sconn;
522 sconn = (struct rxkad_sconn *)tconn->securityData;
523 if (sconn && sconn->authenticated
524 && (osi_Time() < sconn->expirationTime)) {
525 level = sconn->level;
526 INC_RXKAD_STATS(preparePackets[rxkad_StatIndex(rxkad_server, level)]);
527 sconn->stats.packetsSent++;
528 sconn->stats.bytesSent += len;
529 schedule = (fc_KeySchedule *) sconn->keysched;
530 ivec = (fc_InitializationVector *) sconn->ivec;
532 INC_RXKAD_STATS(expired); /* this is a pretty unlikely path... */
535 preSeq = sconn->preSeq;
536 } else { /* client connection */
537 struct rxkad_cconn *cconn;
538 struct rxkad_cprivate *tcp;
539 cconn = (struct rxkad_cconn *)tconn->securityData;
540 tcp = (struct rxkad_cprivate *)aobj->privateData;
541 if (!(tcp->type & rxkad_client))
542 return RXKADINCONSISTENCY;
544 INC_RXKAD_STATS(preparePackets[rxkad_StatIndex(rxkad_client, level)]);
545 cconn->stats.packetsSent++;
546 cconn->stats.bytesSent += len;
547 preSeq = cconn->preSeq;
548 schedule = (fc_KeySchedule *) tcp->keysched;
549 ivec = (fc_InitializationVector *) tcp->ivec;
552 /* compute upward compatible checksum */
553 rx_SetPacketCksum(apacket, ComputeSum(apacket, schedule, preSeq));
554 if (level == rxkad_clear)
557 len = rx_GetDataSize(apacket);
558 word = (((apacket->header.seq ^ apacket->header.callNumber)
559 & 0xffff) << 16) | (len & 0xffff);
560 rx_PutInt32(apacket, 0, htonl(word));
564 return 0; /* shouldn't happen */
567 afs_max(ENCRYPTIONBLOCKSIZE,
568 len + rx_GetSecurityHeaderSize(tconn));
569 if (nlen > (len + rx_GetSecurityHeaderSize(tconn))) {
570 rxi_RoundUpPacket(apacket,
571 nlen - (len + rx_GetSecurityHeaderSize(tconn)));
573 rx_Pullup(apacket, 8); /* the following encrypts 8 bytes only */
574 fc_ecb_encrypt(rx_DataOf(apacket), rx_DataOf(apacket), schedule,
578 nlen = round_up_to_ebs(len + rx_GetSecurityHeaderSize(tconn));
579 if (nlen > (len + rx_GetSecurityHeaderSize(tconn))) {
580 rxi_RoundUpPacket(apacket,
581 nlen - (len + rx_GetSecurityHeaderSize(tconn)));
583 code = rxkad_EncryptPacket(tconn, schedule, ivec, nlen, apacket);
588 rx_SetDataSize(apacket, nlen);
592 /* either: return connection stats */
595 rxkad_GetStats(struct rx_securityClass *aobj, struct rx_connection *aconn,
596 struct rx_securityObjectStats *astats)
599 astats->level = ((struct rxkad_cprivate *)aobj->privateData)->level;
600 if (!aconn->securityData) {
604 if (rx_IsServerConn(aconn)) {
605 struct rxkad_sconn *sconn;
606 sconn = (struct rxkad_sconn *)aconn->securityData;
607 astats->level = sconn->level;
608 if (sconn->authenticated)
610 if (sconn->cksumSeen)
612 astats->expires = sconn->expirationTime;
613 astats->bytesReceived = sconn->stats.bytesReceived;
614 astats->packetsReceived = sconn->stats.packetsReceived;
615 astats->bytesSent = sconn->stats.bytesSent;
616 astats->packetsSent = sconn->stats.packetsSent;
617 } else { /* client connection */
618 struct rxkad_cconn *cconn;
619 cconn = (struct rxkad_cconn *)aconn->securityData;
620 if (cconn->cksumSeen)
622 astats->bytesReceived = cconn->stats.bytesReceived;
623 astats->packetsReceived = cconn->stats.packetsReceived;
624 astats->bytesSent = cconn->stats.bytesSent;
625 astats->packetsSent = cconn->stats.packetsSent;
631 rxkad_StringToLevel(char *name)
633 if (strcmp(name, "clear") == 0)
635 if (strcmp(name, "auth") == 0)
637 if (strcmp(name, "crypt") == 0)
643 rxkad_LevelToString(rxkad_level level)
645 if (level == rxkad_clear)
647 if (level == rxkad_auth)
649 if (level == rxkad_crypt)