/home/wollman/openafs/src/afs/afs

Bug Summary

File:	afs/afs_conn.c
Location:	line 98, column 17
Description:	Value stored to 'bix' is never read

Annotated Source Code

1	/*
2	* Copyright 2000, International Business Machines Corporation and others.
3	* All Rights Reserved.
4	*
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
8	*/
9
10	/*
11	* Implements:
12	*/
13	#include <afsconfig.h>
14	#include "afs/param.h"
15
16
17	#include "afs/stds.h"
18	#include "afs/sysincludes.h" /* Standard vendor system headers */
19
20	#if !defined(UKERNEL1)
21	#if !defined(AFS_LINUX20_ENV)
22	#include <net/if.h>
23	#endif
24	#include <netinet/in.h>
25
26	#ifdef AFS_SGI62_ENV
27	#include "h/hashing.h"
28	#endif
29	#if !defined(AFS_HPUX110_ENV) && !defined(AFS_LINUX20_ENV) && !defined(AFS_DARWIN_ENV)
30	#include <netinet/in_var.h>
31	#endif /* ! AFS_HPUX110_ENV */
32	#endif /* !defined(UKERNEL) */
33
34	#include "afsincludes.h" /* Afs-based standard headers */
35	#include "afs/afs_stats.h" /* afs statistics */
36
37	#if defined(AFS_SUN5_ENV)
38	#include <inet/led.h>
39	#include <inet/common.h>
40	#include <netinet/ip6.h>
41	#include <inet/ip.h>
42	#endif
43
44	/* Exported variables */
45	afs_rwlock_t afs_xconn; /* allocation lock for new things */
46	afs_rwlock_t afs_xinterface; /* for multiple client address */
47	afs_int32 cryptall = 0; /* encrypt all communications */
48
49	/* some connection macros */
50
51	/* a constructor */
52	#define new_conn_vector(xcv)do { xcv = (struct sa_conn_vector ) afs_osi_Alloc(sizeof(struct sa_conn_vector)); if (xcv) { memset((char )xcv, 0, sizeof(struct sa_conn_vector)); } } while (0); \
53	do { \
54	xcv = (struct sa_conn_vector *) \
55	afs_osi_Alloc(sizeof(struct sa_conn_vector)); \
56	if (xcv) { \
57	memset((char *)xcv, 0, sizeof(struct sa_conn_vector)); \
58	} \
59	} while (0);
60
61	/* select a connection to return (if no connection has lower utilization
62	* than any other) */
63	#define conn_vec_select_conn(xcv, bix, conn)do { (bix) = ((xcv)->select_index)++ % 3; (conn) = &(( xcv)->cvec[bix]); } while (0); \
64	do { \
65	(bix) = ((xcv)->select_index)++ % CVEC_LEN3; \
66	(conn) = &((xcv)->cvec[bix]); \
67	} while (0);
68
69	#define struct_conn(s)((struct afs_conn )(s)) ((struct afs_conn )(s))
70
71	#define REPORT_CONNECTIONS_ISSUED0 0 /* enable to see utilization */
72
73	/**
74	* Find a connection with call slots available, allocating one
75	* if nothing is available and we find an allocated slot
76	* @param xcv A connection vector
77	* @param create If set, a new connection may be created
78	*/
79	static struct afs_conn *
80	find_preferred_connection(struct sa_conn_vector *xcv, int create)
81	{
82	afs_int32 cix, bix;
83	struct afs_conn tc = NULL((void )0);
84
85	bix = -1;
86	for(cix = 0; cix < CVEC_LEN3; ++cix) {
87	tc = &(xcv->cvec[cix]);
88	if (!tc->id) {
89	if (create) {
90	tc->parent = xcv;
91	tc->forceConnectFS = 1;
92	tc->activated = 1;
93	bix = cix;
94	break;
95	} /* create */
96	} else {
97	if (tc->refCount < (RX_MAXCALLS4-1)) {
98	bix = cix;
	Value stored to 'bix' is never read
99	goto f_conn;
100	} else if (cix == (CVEC_LEN3-1))
101	conn_vec_select_conn(xcv, bix, tc)do { (bix) = ((xcv)->select_index)++ % 3; (tc) = &((xcv )->cvec[bix]); } while (0);;
102	} /* tc->id */
103	} /* for cix < CVEC_LEN */
104
105	if (bix < 0) {
106	afs_warn("find_preferred_connection: no connection and !create\n");
107	tc = NULL((void *)0);
108	goto out;
109	}
110
111	f_conn:
112	tc->refCount++;
113	xcv->refCount++;
114
115	#if REPORT_CONNECTIONS_ISSUED0
116	afs_warn("Issuing conn %d refCount=%d parent refCount=%d\n", bix,
117	tc->refCount, xcv->refCount);
118	#endif
119
120	out:
121	return (tc);
122
123	} /* find_preferred_connection */
124
125
126	/**
127	* Release all connections for unix user xu at server xs
128	* @param xu
129	* @param xs
130	*/
131	static void
132	release_conns_user_server(struct unixuser xu, struct server xs)
133	{
134	int cix, glocked;
135	struct srvAddr *sa;
136	struct afs_conn *tc;
137	struct sa_conn_vector tcv, *lcv;
138	for (sa = (xs)->addr; sa; sa = sa->next_sa) {
139	lcv = &sa->conns;
140	for (tcv = lcv; tcv; lcv = &tcv->next, tcv = lcv) {
141	if (tcv->user == (xu) && tcv->refCount == 0) {
142	*lcv = tcv->next;
143	/* our old friend, the GLOCK */
144	glocked = ISAFS_GLOCK()(pthread_self() == afs_global_owner);
145	if (glocked)
146	AFS_GUNLOCK()do { do { if (!(pthread_self() == afs_global_owner)) { osi_Panic ("afs global lock not held"); } } while(0); memset(&afs_global_owner , 0, sizeof(pthread_t)); do{if (!(pthread_mutex_unlock(&afs_global_lock ) == 0)) AssertionFailed("/home/wollman/openafs/src/afs/afs_conn.c" , 146);}while(0); } while(0);
147	for(cix = 0; cix < CVEC_LEN3; ++cix) {
148	tc = &(tcv->cvec[cix]);
149	if (tc->activated)
150	rx_DestroyConnection(tc->id);
151	}
152	if (glocked)
153	AFS_GLOCK()do { do{if (!(pthread_mutex_lock(&afs_global_lock) == 0)) AssertionFailed("/home/wollman/openafs/src/afs/afs_conn.c", 153 );}while(0); afs_global_owner = pthread_self(); } while(0);
154	afs_osi_Free(tcv, sizeof(struct sa_conn_vector));
155	break; /* at most one instance per server */
156	} /Found unreferenced connection for user /
157	}
158	} /For each connection on the server /
159
160	} /* release_conns_user_server */
161
162
163	static void
164	release_conns_vector(struct sa_conn_vector *xcv)
165	{
166	int cix, glocked;
167	struct afs_conn *tc;
168	struct sa_conn_vector tcv = NULL((void )0);
169	struct sa_conn_vector *lcv = NULL((void )0);
170	for (tcv = xcv; tcv; lcv = &tcv->next, tcv = *lcv) {
171	*lcv = tcv->next;
172	/* you know it, you love it, the GLOCK */
173	glocked = ISAFS_GLOCK()(pthread_self() == afs_global_owner);
174	if (glocked)
175	AFS_GUNLOCK()do { do { if (!(pthread_self() == afs_global_owner)) { osi_Panic ("afs global lock not held"); } } while(0); memset(&afs_global_owner , 0, sizeof(pthread_t)); do{if (!(pthread_mutex_unlock(&afs_global_lock ) == 0)) AssertionFailed("/home/wollman/openafs/src/afs/afs_conn.c" , 175);}while(0); } while(0); \
176	for(cix = 0; cix < CVEC_LEN3; ++cix) {
177	tc = &(tcv->cvec[cix]);
178	if (tc->activated)
179	rx_DestroyConnection( tc->id );
180	}
181	if (glocked)
182	AFS_GLOCK()do { do{if (!(pthread_mutex_lock(&afs_global_lock) == 0)) AssertionFailed("/home/wollman/openafs/src/afs/afs_conn.c", 182 );}while(0); afs_global_owner = pthread_self(); } while(0);
183	afs_osi_Free(tcv, sizeof(struct sa_conn_vector));
184	}
185
186	} /* release_conns_vector */
187
188
189	unsigned int VNOSERVERS = 0;
190
191	/**
192	* Pick a security object to use for a connection to a given server,
193	* by a given user
194	*
195	* @param[in] conn
196	* The AFS connection for which the security object is required
197	* @param[out] secLevel
198	* The security level of the returned object
199	*
200	* @return
201	* An rx security object. This function is guaranteed to return
202	* an object, although that object may be rxnull (with a secLevel
203	* of 0)
204	*/
205	static struct rx_securityClass *
206	afs_pickSecurityObject(struct afs_conn conn, int secLevel)
207	{
208	struct rx_securityClass secObj = NULL((void )0);
209	union tokenUnion *token;
210
211	/* Do we have tokens ? */
212	if (conn->parent->user->states & UHasTokens1) {
213	token = afs_FindToken(conn->parent->user->tokens, RX_SECIDX_KAD);
214	if (token) {
215	*secLevel = RX_SECIDX_KAD;
216	/* kerberos tickets on channel 2 */
217	secObj = rxkad_NewClientSecurityObject(
218	cryptall ? rxkad_crypt2 : rxkad_clear0,
219	(struct ktc_encryptionKey *)
220	token->rxkad.clearToken.HandShakeKey,
221	token->rxkad.clearToken.AuthHandle,
222	token->rxkad.ticketLen, token->rxkad.ticket);
223	/* We're going to use this token, so populate the viced */
224	conn->parent->user->viceId = token->rxkad.clearToken.ViceId;
225	}
226	}
227	if (secObj == NULL((void *)0)) {
228	*secLevel = 0;
229	secObj = rxnull_NewClientSecurityObject();
230	}
231
232	return secObj;
233	}
234
235
236	/**
237	* Try setting up a connection to the server containing the specified fid.
238	* Gets the volume, checks if it's up and does the connection by server address.
239	*
240	* @param afid
241	* @param areq Request filled in by the caller.
242	* @param locktype Type of lock that will be used.
243	*
244	* @return The conn struct, or NULL.
245	*/
246	struct afs_conn *
247	afs_Conn(struct VenusFid afid, struct vrequest areq,
248	afs_int32 locktype, struct rx_connection **rxconn)
249	{
250	u_short fsport = AFS_FSPORT((unsigned short) (__builtin_constant_p(7000) ? (__uint16_t)( ((__uint16_t)(7000)) << 8 \| ((__uint16_t)(7000)) >> 8) : __bswap16_var(7000)));
251	struct volume *tv;
252	struct afs_conn tconn = NULL((void )0);
253	struct srvAddr lowp = NULL((void )0);
254	struct unixuser *tu;
255	int notbusy;
256	int i;
257	struct srvAddr *sa1p;
258
259	rxconn = NULL((void )0);
260
261	AFS_STATCNT(afs_Conn)((afs_cmstats.callInfo.C_afs_Conn)++);
262	/* Get fid's volume. */
263	tv = afs_GetVolume(afid, areq, READ_LOCK1);
264	if (!tv) {
265	if (areq) {
266	afs_FinalizeReq(areq);
267	areq->volumeError = 1;
268	}
269	return NULL((void *)0);
270	}
271
272	if (tv->serverHost[0] && tv->serverHost[0]->cell) {
273	fsport = tv->serverHost[0]->cell->fsport;
274	} else {
275	VNOSERVERS++;
276	}
277
278	/* First is always lowest rank, if it's up */
279	if ((tv->status[0] == not_busy) && tv->serverHost[0]
280	&& !(tv->serverHost[0]->addr->sa_flags & SRVR_ISDOWN0x20) &&
281	!(((areq->idleError > 0) \|\| (areq->tokenError > 0))
282	&& (areq->skipserver[0] == 1)))
283	lowp = tv->serverHost[0]->addr;
284
285	/* Otherwise we look at all of them. There are seven levels of
286	* not_busy. This means we will check a volume seven times before it
287	* is marked offline. Ideally, we only need two levels, but this
288	* serves a second purpose of waiting some number of seconds before
289	* the client decides the volume is offline (ie: a clone could finish
290	* in this time).
291	*/
292	for (notbusy = not_busy; (!lowp && (notbusy <= end_not_busy)); notbusy++) {
293	for (i = 0; i < AFS_MAXHOSTS13 && tv->serverHost[i]; i++) {
294	if (((areq->tokenError > 0)\|\|(areq->idleError > 0))
295	&& (areq->skipserver[i] == 1))
296	continue;
297	if (tv->status[i] != notbusy) {
298	if (tv->status[i] == rd_busy \|\| tv->status[i] == rdwr_busy) {
299	if (!areq->busyCount)
300	areq->busyCount++;
301	} else if (tv->status[i] == offline) {
302	if (!areq->volumeError)
303	areq->volumeError = VOLMISSING1;
304	}
305	continue;
306	}
307	for (sa1p = tv->serverHost[i]->addr; sa1p; sa1p = sa1p->next_sa) {
308	if (sa1p->sa_flags & SRVR_ISDOWN0x20)
309	continue;
310	if (!lowp \|\| (lowp->sa_iprank > sa1p->sa_iprank))
311	lowp = sa1p;
312	}
313	}
314	}
315	afs_PutVolume(tv, READ_LOCK)((tv)->refCount--);
316
317	if (lowp) {
318	tu = afs_GetUser(areq->uid, afid->Cell, SHARED_LOCK4);
319	tconn = afs_ConnBySA(lowp, fsport, afid->Cell, tu, 0 /!force / ,
320	1 /create / , locktype, rxconn);
321
322	afs_PutUser(tu, SHARED_LOCK4);
323	}
324
325	return tconn;
326	} /afs_Conn /
327
328
329	/**
330	* Connects to a server by it's server address.
331	*
332	* @param sap Server address.
333	* @param aport Server port.
334	* @param acell
335	* @param tu Connect as this user.
336	* @param force_if_down
337	* @param create
338	* @param locktype Specifies type of lock to be used for this function.
339	*
340	* @return The new connection.
341	*/
342	struct afs_conn *
343	afs_ConnBySA(struct srvAddr *sap, unsigned short aport, afs_int32 acell,
344	struct unixuser *tu, int force_if_down, afs_int32 create,
345	afs_int32 locktype, struct rx_connection **rxconn)
346	{
347	int glocked, foundvec;
348	struct afs_conn tc = NULL((void )0);
349	struct sa_conn_vector tcv = NULL((void )0);
350	struct rx_securityClass csec; /Security class object */
351	int isec; /Security index /
352	int service;
353
354	rxconn = NULL((void )0);
355
356	/* find cached connection */
357	ObtainSharedLock(&afs_xconn, 15)do { ; if (!(&afs_xconn)->excl_locked) (&afs_xconn ) -> excl_locked = 4; else Afs_Lock_Obtain(&afs_xconn, 4); (&afs_xconn)->pid_writer = (get_user_struct()-> u_procp->p_pid ); (&afs_xconn)->src_indicator = 15; } while (0);
358	foundvec = 0;
359	for (tcv = sap->conns; tcv; tcv = tcv->next) {
360	if (tcv->user == tu && tcv->port == aport) {
361	/* return most eligible conn */
362	if (!foundvec)
363	foundvec = 1;
364	UpgradeSToWLock(&afs_xconn, 37)do { ; if (!(&afs_xconn)->readers_reading) (&afs_xconn )->excl_locked = 2; else Afs_Lock_Obtain(&afs_xconn, 6 ); (&afs_xconn)->pid_writer = (get_user_struct()->u_procp ->p_pid ); (&afs_xconn)->src_indicator = 37; } while (0);
365	tc = find_preferred_connection(tcv, create);
366	ConvertWToSLock(&afs_xconn)do { ; (&afs_xconn)->excl_locked = 4; if((&afs_xconn )->wait_states) Afs_Lock_ReleaseR(&afs_xconn); } while (0);
367	break;
368	}
369	}
370
371	if (!tc && !create) {
372	/* Not found and can't create a new one. */
373	ReleaseSharedLock(&afs_xconn)do { ; (&afs_xconn)->excl_locked &= ~(4 \| 2); if ( (&afs_xconn)->wait_states) Afs_Lock_ReleaseR(&afs_xconn ); (&afs_xconn)->pid_writer=0; } while (0);
374	return NULL((void *)0);
375	}
376
377	if (AFS_IS_DISCONNECTED(afs_is_disconnected) && !AFS_IN_SYNC(afs_in_sync)) {
378	afs_warnuser("afs_ConnBySA: disconnected\n");
379	ReleaseSharedLock(&afs_xconn)do { ; (&afs_xconn)->excl_locked &= ~(4 \| 2); if ( (&afs_xconn)->wait_states) Afs_Lock_ReleaseR(&afs_xconn ); (&afs_xconn)->pid_writer=0; } while (0);
380	return NULL((void *)0);
381	}
382
383	if (!foundvec && create) {
384	/* No such connection vector exists. Create one and splice it in.
385	* Make sure the server record has been marked as used (for the purposes
386	* of calculating up & down times, it's now considered to be an
387	* ``active'' server). Also make sure the server's lastUpdateEvalTime
388	* gets set, marking the time of its ``birth''.
389	*/
390	UpgradeSToWLock(&afs_xconn, 37)do { ; if (!(&afs_xconn)->readers_reading) (&afs_xconn )->excl_locked = 2; else Afs_Lock_Obtain(&afs_xconn, 6 ); (&afs_xconn)->pid_writer = (get_user_struct()->u_procp ->p_pid ); (&afs_xconn)->src_indicator = 37; } while (0);
391	new_conn_vector(tcv)do { tcv = (struct sa_conn_vector ) afs_osi_Alloc(sizeof(struct sa_conn_vector)); if (tcv) { memset((char )tcv, 0, sizeof(struct sa_conn_vector)); } } while (0);;
392
393	tcv->user = tu;
394	tcv->port = aport;
395	tcv->srvr = sap;
396	tcv->next = sap->conns;
397	sap->conns = tcv;
398
399	/* all struct afs_conn ptrs come from here */
400	tc = find_preferred_connection(tcv, create);
401
402	afs_ActivateServer(sap);
403
404	ConvertWToSLock(&afs_xconn)do { ; (&afs_xconn)->excl_locked = 4; if((&afs_xconn )->wait_states) Afs_Lock_ReleaseR(&afs_xconn); } while (0);
405	} /* end of if (!tcv) */
406
407	if (!tc) {
408	/* Not found and no alternatives. */
409	ReleaseSharedLock(&afs_xconn)do { ; (&afs_xconn)->excl_locked &= ~(4 \| 2); if ( (&afs_xconn)->wait_states) Afs_Lock_ReleaseR(&afs_xconn ); (&afs_xconn)->pid_writer=0; } while (0);
410	return NULL((void *)0);
411	}
412
413	if (tu->states & UTokensBad2) {
414	/* we may still have an authenticated RPC connection here,
415	* we'll have to create a new, unauthenticated, connection.
416	* Perhaps a better way to do this would be to set
417	* conn->forceConnectFS on all conns when the token first goes
418	* bad, but that's somewhat trickier, due to locking
419	* constraints (though not impossible).
420	*/
421	if (tc->id && (rx_SecurityClassOf(tc->id)((tc->id)->securityIndex) != 0)) {
422	tc->forceConnectFS = 1; /* force recreation of connection */
423	}
424	tu->states &= ~UHasTokens1; /* remove the authentication info */
425	}
426
427	glocked = ISAFS_GLOCK()(pthread_self() == afs_global_owner);
428	if (tc->forceConnectFS) {
429	UpgradeSToWLock(&afs_xconn, 38)do { ; if (!(&afs_xconn)->readers_reading) (&afs_xconn )->excl_locked = 2; else Afs_Lock_Obtain(&afs_xconn, 6 ); (&afs_xconn)->pid_writer = (get_user_struct()->u_procp ->p_pid ); (&afs_xconn)->src_indicator = 38; } while (0);
430	csec = (struct rx_securityClass *)0;
431	if (tc->id) {
432	if (glocked)
433	AFS_GUNLOCK()do { do { if (!(pthread_self() == afs_global_owner)) { osi_Panic ("afs global lock not held"); } } while(0); memset(&afs_global_owner , 0, sizeof(pthread_t)); do{if (!(pthread_mutex_unlock(&afs_global_lock ) == 0)) AssertionFailed("/home/wollman/openafs/src/afs/afs_conn.c" , 433);}while(0); } while(0);
434	rx_DestroyConnection(tc->id);
435	if (glocked)
436	AFS_GLOCK()do { do{if (!(pthread_mutex_lock(&afs_global_lock) == 0)) AssertionFailed("/home/wollman/openafs/src/afs/afs_conn.c", 436 );}while(0); afs_global_owner = pthread_self(); } while(0);
437	}
438	/*
439	* Stupid hack to determine if using vldb service or file system
440	* service.
441	*/
442	if (aport == sap->server->cell->vlport)
443	service = 52;
444	else
445	service = 1;
446	isec = 0;
447
448	csec = afs_pickSecurityObject(tc, &isec);
449
450	if (glocked)
451	AFS_GUNLOCK()do { do { if (!(pthread_self() == afs_global_owner)) { osi_Panic ("afs global lock not held"); } } while(0); memset(&afs_global_owner , 0, sizeof(pthread_t)); do{if (!(pthread_mutex_unlock(&afs_global_lock ) == 0)) AssertionFailed("/home/wollman/openafs/src/afs/afs_conn.c" , 451);}while(0); } while(0);
452	tc->id = rx_NewConnection(sap->sa_ip, aport, service, csec, isec);
453	if (glocked)
454	AFS_GLOCK()do { do{if (!(pthread_mutex_lock(&afs_global_lock) == 0)) AssertionFailed("/home/wollman/openafs/src/afs/afs_conn.c", 454 );}while(0); afs_global_owner = pthread_self(); } while(0);
455	if (service == 52) {
456	rx_SetConnHardDeadTime(tc->id, afs_rx_harddead);
457	}
458	/* set to a RX_CALL_TIMEOUT error to allow MTU retry to trigger */
459	rx_SetServerConnIdleDeadErr(tc->id, RX_CALL_DEAD)((tc->id)->idleDeadErr = ((-1)));
460	rx_SetConnIdleDeadTime(tc->id, afs_rx_idledead);
461	rx_SetMsgsizeRetryErr(tc->id, RX_MSGSIZE)((tc->id)->msgsizeRetryErr = ((-8)));
462
463	/*
464	* Only do this for the base connection, not per-user.
465	* Will need to be revisited if/when CB gets security.
466	*/
467	if ((isec == 0) && (service != 52) && !(tu->states & UTokensBad2) &&
468	(tu->viceId == UNDEFVID(-1)))
469	rx_SetConnSecondsUntilNatPing(tc->id, 20);
470
471	tc->forceConnectFS = 0; /* apparently we're appropriately connected now */
472	if (csec)
473	rxs_Release(csec);
474	ConvertWToSLock(&afs_xconn)do { ; (&afs_xconn)->excl_locked = 4; if((&afs_xconn )->wait_states) Afs_Lock_ReleaseR(&afs_xconn); } while (0);
475	} /* end of if (tc->forceConnectFS)*/
476
477	*rxconn = tc->id;
478	rx_GetConnection(*rxconn);
479
480	ReleaseSharedLock(&afs_xconn)do { ; (&afs_xconn)->excl_locked &= ~(4 \| 2); if ( (&afs_xconn)->wait_states) Afs_Lock_ReleaseR(&afs_xconn ); (&afs_xconn)->pid_writer=0; } while (0);
481	return tc;
482	}
483
484	/**
485	* forceConnectFS is set whenever we must recompute the connection. UTokensBad
486	* is true only if we know that the tokens are bad. We thus clear this flag
487	* when we get a new set of tokens..
488	* Having force... true and UTokensBad true simultaneously means that the tokens
489	* went bad and we're supposed to create a new, unauthenticated, connection.
490	*
491	* @param aserver Server to connect to.
492	* @param aport Connection port.
493	* @param acell The cell where all of this happens.
494	* @param areq The request.
495	* @param aforce Force connection?
496	* @param locktype Type of lock to be used.
497	*
498	* @return The established connection.
499	*/
500	struct afs_conn *
501	afs_ConnByHost(struct server *aserver, unsigned short aport, afs_int32 acell,
502	struct vrequest *areq, int aforce, afs_int32 locktype,
503	struct rx_connection **rxconn)
504	{
505	struct unixuser *tu;
506	struct afs_conn tc = NULL((void )0);
507	struct srvAddr sa = NULL((void )0);
508
509	rxconn = NULL((void )0);
510
511	AFS_STATCNT(afs_ConnByHost)((afs_cmstats.callInfo.C_afs_ConnByHost)++);
512
513	if (AFS_IS_DISCONNECTED(afs_is_disconnected) && !AFS_IN_SYNC(afs_in_sync)) {
514	afs_warnuser("afs_ConnByHost: disconnected\n");
515	return NULL((void *)0);
516	}
517
518	/*
519	1. look for an existing connection
520	2. create a connection at an address believed to be up
521	(if aforce is true, create a connection at the first address)
522	*/
523
524	tu = afs_GetUser(areq->uid, acell, SHARED_LOCK4);
525
526	for (sa = aserver->addr; sa; sa = sa->next_sa) {
527	tc = afs_ConnBySA(sa, aport, acell, tu, aforce,
528	0 /don't create one / ,
529	locktype, rxconn);
530	if (tc)
531	break;
532	}
533
534	if (!tc) {
535	for (sa = aserver->addr; sa; sa = sa->next_sa) {
536	tc = afs_ConnBySA(sa, aport, acell, tu, aforce,
537	1 /create one / ,
538	locktype, rxconn);
539	if (tc)
540	break;
541	}
542	}
543
544	afs_PutUser(tu, SHARED_LOCK4);
545	return tc;
546
547	} /afs_ConnByHost /
548
549
550	/**
551	* Connect by multiple hosts.
552	* Try to connect to one of the hosts from the ahosts array.
553	*
554	* @param ahosts Multiple hosts to connect to.
555	* @param aport Connection port.
556	* @param acell The cell where all of this happens.
557	* @param areq The request.
558	* @param locktype Type of lock to be used.
559	*
560	* @return The established connection or NULL.
561	*/
562	struct afs_conn *
563	afs_ConnByMHosts(struct server *ahosts[], unsigned short aport,
564	afs_int32 acell, struct vrequest *areq,
565	afs_int32 locktype, struct rx_connection **rxconn)
566	{
567	afs_int32 i;
568	struct afs_conn *tconn;
569	struct server *ts;
570
571	rxconn = NULL((void )0);
572
573	/* try to find any connection from the set */
574	AFS_STATCNT(afs_ConnByMHosts)((afs_cmstats.callInfo.C_afs_ConnByMHosts)++);
575	for (i = 0; i < AFS_MAXCELLHOSTS8; i++) {
576	if ((ts = ahosts[i]) == NULL((void *)0))
577	break;
578	tconn = afs_ConnByHost(ts, aport, acell, areq, 0, locktype, rxconn);
579	if (tconn) {
580	return tconn;
581	}
582	}
583	return NULL((void *)0);
584
585	} /afs_ConnByMHosts /
586
587
588	/**
589	* Decrement reference count to this connection.
590	* @param ac
591	* @param locktype
592	*/
593	void
594	afs_PutConn(struct afs_conn ac, struct rx_connection rxconn,
595	afs_int32 locktype)
596	{
597	AFS_STATCNT(afs_PutConn)((afs_cmstats.callInfo.C_afs_PutConn)++);
598	ac->refCount--;
599	if (ac->refCount < 0) {
600	static int warned = 0;
601	/* So, someone is 'put'ing more refs than they got. From now on, we
602	* have no idea if the structure is actually still in use, so just
603	* set the refcount to a really negative number to make it unlikely
604	* that the count will ever reach 0 and the conn gets freed. This
605	* leaks memory, but the alternative is panicing, or risking memory
606	* corruption. */
607	ac->refCount = -10000;
608	if (!warned) {
609	warned = 1;
610	afs_warn("afs_PutConn: negative refCount with 0x%lx; this should "
611	"not ever happen! Trying to carry on anyway, but please "
612	"report this issue\n",
613	(unsigned long)(uintptrszunsigned int)ac);
614	}
615	return;
616	}
617	ac->parent->refCount--;
618	rx_PutConnection(rxconn)rx_DestroyConnection(rxconn);
619	} /afs_PutConn /
620
621
622	/**
623	* Free up a connection vector, allowing, eg, code in afs_user.c
624	* to ignore how connections are stored/pooled
625	* @param tcv
626	*/
627	void
628	afs_ReleaseConns(struct sa_conn_vector *tcv) {
629	release_conns_vector(tcv);
630	}
631
632
633	/**
634	* Free connection vector(s) for a user
635	* @param au
636	*/
637	void
638	afs_ReleaseConnsUser(struct unixuser *au) {
639
640	int i;
641	struct server *ts;
642
643	for (i = 0; i < NSERVERS16; i++) {
644	for (ts = afs_servers[i]; ts; ts = ts->next) {
645	release_conns_user_server(au, ts);
646	} /For each server on chain /
647	} /For each chain /
648	}
649
650
651	/**
652	* For multi homed clients, a RPC may timeout because of a
653	* client network interface going down. We need to reopen new
654	* connections in this case.
655	*
656	* @param sap Server address.
657	*/
658	void
659	ForceNewConnections(struct srvAddr *sap)
660	{
661	int cix;
662	struct afs_conn tc = NULL((void )0);
663	struct sa_conn_vector tcv = NULL((void )0);
664
665	if (!sap)
666	return; /* defensive check */
667
668	ObtainWriteLock(&afs_xconn, 413)do { ; if (!(&afs_xconn)->excl_locked && !(& afs_xconn)->readers_reading) (&afs_xconn) -> excl_locked = 2; else Afs_Lock_Obtain(&afs_xconn, 2); (&afs_xconn )->pid_writer = (get_user_struct()->u_procp->p_pid ) ; (&afs_xconn)->src_indicator = 413; } while (0);
669	for (tcv = sap->conns; tcv; tcv = tcv->next) {
670	for(cix = 0; cix < CVEC_LEN3; ++cix) {
671	tc = &(tcv->cvec[cix]);
672	if (tc->activated)
673	tc->forceConnectFS = 1;
674	}
675	}
676	ReleaseWriteLock(&afs_xconn)do { ; (&afs_xconn)->excl_locked &= ~2; if ((& afs_xconn)->wait_states) Afs_Lock_ReleaseR(&afs_xconn) ; (&afs_xconn)->pid_writer=0; } while (0);
677	}
678
679