示例#1
0
/*------------------------------------------------------------------------
 * afs_BlackListOnce
 *
 * Description:
 *	Mark a server as invalid for further attempts of this request only.
 *
 * Arguments:
 *	areq  : The request record associated with this operation.
 *	afid  : The FID of the file involved in the action.  This argument
 *		may be null if none was involved.
 *      tsp   : pointer to a server struct for the server we wish to 
 *              blacklist. 
 *
 * Returns:
 *	Non-zero value if further servers are available to try,
 *	zero otherwise.
 *
 * Environment:
 *	This routine is typically called in situations where we believe
 *      one server out of a pool may have an error condition.
 *
 * Side Effects:
 *	As advertised.
 *
 * NOTE:
 *	The afs_Conn* routines use the list of invalidated servers to 
 *      avoid reusing a server marked as invalid for this request.
 *------------------------------------------------------------------------*/
static afs_int32 
afs_BlackListOnce(struct vrequest *areq, struct VenusFid *afid, 
		  struct server *tsp)
{
    struct volume *tvp;
    afs_int32 i;
    afs_int32 serversleft = 0;

    if (afid) {
	tvp = afs_FindVolume(afid, READ_LOCK);
	if (tvp) {
	    for (i = 0; i < MAXHOSTS; i++) {
		if (tvp->serverHost[i] == tsp) {
		    areq->skipserver[i] = 1;
		}
		if (tvp->serverHost[i] &&
		    (tvp->serverHost[i]->addr->sa_flags & 
		      SRVR_ISDOWN)) {
		    areq->skipserver[i] = 1;
		}
	    }
	    afs_PutVolume(tvp, READ_LOCK);
	    for (i = 0; i < MAXHOSTS; i++) {
	        if (tvp->serverHost[i] && areq->skipserver[i] == 0) {
		    serversleft = 1;
		    break;
		}
	    }
	    return serversleft;
	}
    }
    return 1;
}
示例#2
0
/**
 *   Note that areq may be null, in which case we don't bother to set any
 * request status information.
 * @param afid Volume FID.
 * @param areq Request type.
 * @param locktype Lock to be used.
 * @return Volume or NULL if no result.
 */
struct volume *
afs_GetVolume(struct VenusFid *afid, struct vrequest *areq,
	      afs_int32 locktype)
{
    struct volume *tv;
    char *bp, tbuf[CVBS];
    AFS_STATCNT(afs_GetVolume);

    tv = afs_FindVolume(afid, locktype);
    if (!tv) {
	/* Do a dynroot check and add dynroot volume if found. */
	if (afs_IsDynrootAnyFid(afid)) {
	    tv = afs_NewDynrootVolume(afid);
	} else {
	    bp = afs_cv2string(&tbuf[CVBS], afid->Fid.Volume);
	    tv = afs_NewVolumeByName(bp, afid->Cell, 0, areq, locktype);
	}
    }
    return tv;
}				/*afs_GetVolume */
示例#3
0
/* question: does afs_create need to set CDirty in the adp or the avc?
 * I think we can get away without it, but I'm not sure.  Note that
 * afs_setattr is called in here for truncation.
 */
#ifdef AFS_SGI64_ENV
int
afs_create(OSI_VC_DECL(adp), char *aname, struct vattr *attrs, int flags,
	   int amode, struct vcache **avcp, afs_ucred_t *acred)
#else /* AFS_SGI64_ENV */
int
afs_create(OSI_VC_DECL(adp), char *aname, struct vattr *attrs,
	   enum vcexcl aexcl, int amode, struct vcache **avcp,
	   afs_ucred_t *acred)
#endif				/* AFS_SGI64_ENV */
{
    afs_int32 origCBs, origZaps, finalZaps;
    struct vrequest *treq = NULL;
    afs_int32 code;
    struct afs_conn *tc;
    struct VenusFid newFid;
    struct AFSStoreStatus InStatus;
    struct AFSFetchStatus *OutFidStatus, *OutDirStatus;
    struct AFSVolSync tsync;
    struct AFSCallBack CallBack;
    afs_int32 now;
    struct dcache *tdc;
    afs_size_t offset, len;
    struct server *hostp = 0;
    struct vcache *tvc;
    struct volume *volp = 0;
    struct afs_fakestat_state fakestate;
    struct rx_connection *rxconn;
    XSTATS_DECLS;
    OSI_VC_CONVERT(adp);

    AFS_STATCNT(afs_create);

    OutFidStatus = osi_AllocSmallSpace(sizeof(struct AFSFetchStatus));
    OutDirStatus = osi_AllocSmallSpace(sizeof(struct AFSFetchStatus));
    memset(&InStatus, 0, sizeof(InStatus));

    if ((code = afs_CreateReq(&treq, acred)))
	goto done2;

    afs_Trace3(afs_iclSetp, CM_TRACE_CREATE, ICL_TYPE_POINTER, adp,
	       ICL_TYPE_STRING, aname, ICL_TYPE_INT32, amode);

    afs_InitFakeStat(&fakestate);

#ifdef AFS_SGI65_ENV
    /* If avcp is passed not null, it's the old reference to this file.
     * We can use this to avoid create races. For now, just decrement
     * the reference count on it.
     */
    if (*avcp) {
	AFS_RELE(AFSTOV(*avcp));
	*avcp = NULL;
    }
#endif

    if (strlen(aname) > AFSNAMEMAX) {
	code = ENAMETOOLONG;
	goto done3;
    }

    if (!afs_ENameOK(aname)) {
	code = EINVAL;
	goto done3;
    }
    switch (attrs->va_type) {
    case VBLK:
    case VCHR:
#if	!defined(AFS_SUN5_ENV)
    case VSOCK:
#endif
    case VFIFO:
	/* We don't support special devices or FIFOs */
	code = EINVAL;
	goto done3;
    default:
	;
    }
    AFS_DISCON_LOCK();

    code = afs_EvalFakeStat(&adp, &fakestate, treq);
    if (code)
	goto done;
  tagain:
    code = afs_VerifyVCache(adp, treq);
    if (code)
	goto done;

    /** If the volume is read-only, return error without making an RPC to the
      * fileserver
      */
    if (adp->f.states & CRO) {
	code = EROFS;
	goto done;
    }

    if (AFS_IS_DISCONNECTED && !AFS_IS_DISCON_RW) {
        code = ENETDOWN;
        goto done;
    }

    tdc = afs_GetDCache(adp, (afs_size_t) 0, treq, &offset, &len, 1);
    ObtainWriteLock(&adp->lock, 135);
    if (tdc)
	ObtainSharedLock(&tdc->lock, 630);

    /*
     * Make sure that the data in the cache is current. We may have
     * received a callback while we were waiting for the write lock.
     */
    if (!(adp->f.states & CStatd)
	|| (tdc && !hsame(adp->f.m.DataVersion, tdc->f.versionNo))) {
	ReleaseWriteLock(&adp->lock);
	if (tdc) {
	    ReleaseSharedLock(&tdc->lock);
	    afs_PutDCache(tdc);
	}
	goto tagain;
    }
    if (tdc) {
	/* see if file already exists.  If it does, we only set 
	 * the size attributes (to handle O_TRUNC) */
	code = afs_dir_Lookup(tdc, aname, &newFid.Fid);	/* use dnlc first xxx */
	if (code == 0) {
	    ReleaseSharedLock(&tdc->lock);
	    afs_PutDCache(tdc);
	    ReleaseWriteLock(&adp->lock);
#ifdef AFS_SGI64_ENV
	    if (flags & VEXCL) {
#else
	    if (aexcl != NONEXCL) {
#endif
		code = EEXIST;	/* file exists in excl mode open */
		goto done;
	    }
	    /* found the file, so use it */
	    newFid.Cell = adp->f.fid.Cell;
	    newFid.Fid.Volume = adp->f.fid.Fid.Volume;
	    tvc = NULL;
	    if (newFid.Fid.Unique == 0) {
		tvc = afs_LookupVCache(&newFid, treq, NULL, adp, aname);
	    }
	    if (!tvc)		/* lookup failed or wasn't called */
		tvc = afs_GetVCache(&newFid, treq, NULL, NULL);

	    if (tvc) {
		/* if the thing exists, we need the right access to open it.
		 * we must check that here, since no other checks are
		 * made by the open system call */
		len = attrs->va_size;	/* only do the truncate */
		/*
		 * We used to check always for READ access before; the
		 * problem is that we will fail if the existing file
		 * has mode -w-w-w, which is wrong.
		 */
		if ((amode & VREAD)
		    && !afs_AccessOK(tvc, PRSFS_READ, treq, CHECK_MODE_BITS)) {
		    afs_PutVCache(tvc);
		    code = EACCES;
		    goto done;
		}
#if defined(AFS_DARWIN80_ENV)
		if ((amode & VWRITE) || VATTR_IS_ACTIVE(attrs, va_data_size))
#elif defined(AFS_SUN5_ENV) || defined(AFS_SGI_ENV)
		if ((amode & VWRITE) || (attrs->va_mask & AT_SIZE))
#else
		if ((amode & VWRITE) || len != 0xffffffff)
#endif
		{
		    /* needed for write access check */
		    tvc->f.parent.vnode = adp->f.fid.Fid.Vnode;
		    tvc->f.parent.unique = adp->f.fid.Fid.Unique;
		    /* need write mode for these guys */
		    if (!afs_AccessOK
			(tvc, PRSFS_WRITE, treq, CHECK_MODE_BITS)) {
			afs_PutVCache(tvc);
			code = EACCES;
			goto done;
		    }
		}
#if defined(AFS_DARWIN80_ENV)
		if (VATTR_IS_ACTIVE(attrs, va_data_size))
#elif defined(AFS_SUN5_ENV) || defined(AFS_SGI_ENV)
		if (attrs->va_mask & AT_SIZE)
#else
		if (len != 0xffffffff)
#endif
		{
		    if (vType(tvc) != VREG) {
			afs_PutVCache(tvc);
			code = EISDIR;
			goto done;
		    }
		    /* do a truncate */
#if defined(AFS_DARWIN80_ENV)
		    VATTR_INIT(attrs);
		    VATTR_SET_SUPPORTED(attrs, va_data_size);
		    VATTR_SET_ACTIVE(attrs, va_data_size);
#elif defined(UKERNEL)
		    attrs->va_mask = ATTR_SIZE;
#elif defined(AFS_SUN5_ENV) || defined(AFS_SGI_ENV)
		    attrs->va_mask = AT_SIZE;
#else
		    VATTR_NULL(attrs);
#endif
		    attrs->va_size = len;
		    ObtainWriteLock(&tvc->lock, 136);
		    tvc->f.states |= CCreating;
		    ReleaseWriteLock(&tvc->lock);
#if defined(AFS_SUN5_ENV) || defined(AFS_SGI_ENV)
#if defined(AFS_SGI64_ENV)
		    code =
			afs_setattr(VNODE_TO_FIRST_BHV((vnode_t *) tvc),
				    attrs, 0, acred);
#else
		    code = afs_setattr(tvc, attrs, 0, acred);
#endif /* AFS_SGI64_ENV */
#else /* SUN5 || SGI */
		    code = afs_setattr(tvc, attrs, acred);
#endif /* SUN5 || SGI */
		    ObtainWriteLock(&tvc->lock, 137);
		    tvc->f.states &= ~CCreating;
		    ReleaseWriteLock(&tvc->lock);
		    if (code) {
			afs_PutVCache(tvc);
			goto done;
		    }
		}
		*avcp = tvc;
	    } else
		code = ENOENT;	/* shouldn't get here */
	    /* make sure vrefCount bumped only if code == 0 */
	    goto done;
	}
    }
    
    /* if we create the file, we don't do any access checks, since
     * that's how O_CREAT is supposed to work */
    if (adp->f.states & CForeign) {
	origCBs = afs_allCBs;
	origZaps = afs_allZaps;
    } else {
	origCBs = afs_evenCBs;	/* if changes, we don't really have a callback */
	origZaps = afs_evenZaps;	/* number of even numbered vnodes discarded */
    }
    InStatus.Mask = AFS_SETMODTIME | AFS_SETMODE | AFS_SETGROUP;
    InStatus.ClientModTime = osi_Time();
    InStatus.Group = (afs_int32) afs_cr_gid(acred);
    if (AFS_NFSXLATORREQ(acred)) {
	/*
	 * XXX The following is mainly used to fix a bug in the HP-UX
	 * nfs client where they create files with mode of 0 without
	 * doing any setattr later on to fix it.  * XXX
	 */
#if	defined(AFS_AIX_ENV)
	if (attrs->va_mode != -1) {
#else
#if	defined(AFS_SUN5_ENV) || defined(AFS_SGI_ENV)
	if (attrs->va_mask & AT_MODE) {
#else
	if (attrs->va_mode != ((unsigned short)-1)) {
#endif
#endif
	    if (!attrs->va_mode)
		attrs->va_mode = 0x1b6;	/* XXX default mode: rw-rw-rw XXX */
	}
    }

    if (!AFS_IS_DISCONNECTED) {
	/* If not disconnected, connect to the server.*/

    	InStatus.UnixModeBits = attrs->va_mode & 0xffff;	/* only care about protection bits */
    	do {
	    tc = afs_Conn(&adp->f.fid, treq, SHARED_LOCK, &rxconn);
	    if (tc) {
	    	hostp = tc->srvr->server;	/* remember for callback processing */
	    	now = osi_Time();
	    	XSTATS_START_TIME(AFS_STATS_FS_RPCIDX_CREATEFILE);
	    	RX_AFS_GUNLOCK();
	    	code =
		    RXAFS_CreateFile(rxconn, (struct AFSFid *)&adp->f.fid.Fid,
				 aname, &InStatus, (struct AFSFid *)
				 &newFid.Fid, OutFidStatus, OutDirStatus,
				 &CallBack, &tsync);
	    	RX_AFS_GLOCK();
	    	XSTATS_END_TIME;
	    	CallBack.ExpirationTime += now;
	    } else
	    	code = -1;
    	} while (afs_Analyze
	         (tc, rxconn, code, &adp->f.fid, treq, AFS_STATS_FS_RPCIDX_CREATEFILE,
	          SHARED_LOCK, NULL));

	if ((code == EEXIST || code == UAEEXIST) &&
#ifdef AFS_SGI64_ENV
    	!(flags & VEXCL)
#else /* AFS_SGI64_ENV */
    	aexcl == NONEXCL
#endif
    	) {
	    /* if we get an EEXIST in nonexcl mode, just do a lookup */
	    if (tdc) {
	    	ReleaseSharedLock(&tdc->lock);
	    	afs_PutDCache(tdc);
	    }
	    ReleaseWriteLock(&adp->lock);


#if defined(AFS_SGI64_ENV)
	    code = afs_lookup(VNODE_TO_FIRST_BHV((vnode_t *) adp), aname, avcp,
				  NULL, 0, NULL, acred);
#elif defined(AFS_SUN5_ENV) || defined(AFS_SGI_ENV)
	    code = afs_lookup(adp, aname, avcp, NULL, 0, NULL, acred);
#elif defined(UKERNEL)
	    code = afs_lookup(adp, aname, avcp, acred, 0);
#elif !defined(AFS_DARWIN_ENV)
	    code = afs_lookup(adp, aname, avcp, acred);
#endif
	goto done;
        }

	if (code) {
	    if (code < 0) {
	    	ObtainWriteLock(&afs_xcbhash, 488);
	    	afs_DequeueCallback(adp);
	    	adp->f.states &= ~CStatd;
	    	ReleaseWriteLock(&afs_xcbhash);
	    	osi_dnlc_purgedp(adp);
	    }
	    ReleaseWriteLock(&adp->lock);
	    if (tdc) {
	    	ReleaseSharedLock(&tdc->lock);
	    	afs_PutDCache(tdc);
	    }
	goto done;
	}

    } else {
	/* Generate a fake FID for disconnected mode. */
	newFid.Cell = adp->f.fid.Cell;
	newFid.Fid.Volume = adp->f.fid.Fid.Volume;
	afs_GenFakeFid(&newFid, VREG, 1);
    }				/* if (!AFS_IS_DISCON_RW) */

    /* otherwise, we should see if we can make the change to the dir locally */
    if (tdc)
	UpgradeSToWLock(&tdc->lock, 631);
    if (AFS_IS_DISCON_RW || afs_LocalHero(adp, tdc, OutDirStatus, 1)) {
	/* we can do it locally */
	ObtainWriteLock(&afs_xdcache, 291);
	code = afs_dir_Create(tdc, aname, &newFid.Fid);
	ReleaseWriteLock(&afs_xdcache);
	if (code) {
	    ZapDCE(tdc);
	    DZap(tdc);
	}
    }
    if (tdc) {
	ReleaseWriteLock(&tdc->lock);
	afs_PutDCache(tdc);
    }
    if (AFS_IS_DISCON_RW)
	adp->f.m.LinkCount++;

    newFid.Cell = adp->f.fid.Cell;
    newFid.Fid.Volume = adp->f.fid.Fid.Volume;
    ReleaseWriteLock(&adp->lock);
    volp = afs_FindVolume(&newFid, READ_LOCK);

    /* New tricky optimistic callback handling algorithm for file creation works
     * as follows.  We create the file essentially with no locks set at all.  File
     * server may thus handle operations from others cache managers as well as from
     * this very own cache manager that reference the file in question before
     * we managed to create the cache entry.  However, if anyone else changes
     * any of the status information for a file, we'll see afs_evenCBs increase
     * (files always have even fids).  If someone on this workstation manages
     * to do something to the file, they'll end up having to create a cache
     * entry for the new file.  Either we'll find it once we've got the afs_xvcache
     * lock set, or it was also *deleted* the vnode before we got there, in which case
     * we will find evenZaps has changed, too.  Thus, we only assume we have the right
     * status information if no callbacks or vnode removals have occurred to even
     * numbered files from the time the call started until the time that we got the xvcache
     * lock set.  Of course, this also assumes that any call that modifies a file first
     * gets a write lock on the file's vnode, but if that weren't true, the whole cache manager
     * would fail, since no call would be able to update the local vnode status after modifying
     * a file on a file server. */
    ObtainWriteLock(&afs_xvcache, 138);
    if (adp->f.states & CForeign)
	finalZaps = afs_allZaps;	/* do this before calling newvcache */
    else
	finalZaps = afs_evenZaps;	/* do this before calling newvcache */
    /* don't need to call RemoveVCB, since only path leaving a callback is the
     * one where we pass through afs_NewVCache.  Can't have queued a VCB unless
     * we created and freed an entry between file creation time and here, and the
     * freeing of the vnode will change evenZaps.  Don't need to update the VLRU
     * queue, since the find will only succeed in the event of a create race, and 
     * then the vcache will be at the front of the VLRU queue anyway...  */
    if (!(tvc = afs_FindVCache(&newFid, 0, DO_STATS))) {
	tvc = afs_NewVCache(&newFid, hostp);
	if (tvc) {
	    int finalCBs;
	    ObtainWriteLock(&tvc->lock, 139);

	    ObtainWriteLock(&afs_xcbhash, 489);
	    finalCBs = afs_evenCBs;
	    /* add the callback in */
	    if (adp->f.states & CForeign) {
		tvc->f.states |= CForeign;
		finalCBs = afs_allCBs;
	    }
	    if (origCBs == finalCBs && origZaps == finalZaps) {
		tvc->f.states |= CStatd;	/* we've fake entire thing, so don't stat */
		tvc->f.states &= ~CBulkFetching;
		if (!AFS_IS_DISCON_RW) {
		    tvc->cbExpires = CallBack.ExpirationTime;
		    afs_QueueCallback(tvc, CBHash(CallBack.ExpirationTime), volp);
		}
	    } else {
		afs_DequeueCallback(tvc);
		tvc->f.states &= ~(CStatd | CUnique);
		tvc->callback = 0;
		if (tvc->f.fid.Fid.Vnode & 1 || (vType(tvc) == VDIR))
		    osi_dnlc_purgedp(tvc);
	    }
	    ReleaseWriteLock(&afs_xcbhash);
	    if (AFS_IS_DISCON_RW) {
		afs_DisconAddDirty(tvc, VDisconCreate, 0);
		afs_GenDisconStatus(adp, tvc, &newFid, attrs, treq, VREG);
	    } else {
		afs_ProcessFS(tvc, OutFidStatus, treq);
	    }

	    tvc->f.parent.vnode = adp->f.fid.Fid.Vnode;
	    tvc->f.parent.unique = adp->f.fid.Fid.Unique;
#if !defined(UKERNEL)
            if (volp && (volp->states & VPartVisible))
                tvc->f.states |= CPartVisible;
#endif
	    ReleaseWriteLock(&tvc->lock);
	    *avcp = tvc;
	    code = 0;
	} else
	    code = ENOENT;
    } else {
	/* otherwise cache entry already exists, someone else must
	 * have created it.  Comments used to say:  "don't need write
	 * lock to *clear* these flags" but we should do it anyway.
	 * Code used to clear stat bit and callback, but I don't see 
	 * the point -- we didn't have a create race, somebody else just
	 * snuck into NewVCache before we got here, probably a racing 
	 * lookup.
	 */
	*avcp = tvc;
	code = 0;
    }
    ReleaseWriteLock(&afs_xvcache);

  done:
    AFS_DISCON_UNLOCK();

  done3:
    if (volp)
	afs_PutVolume(volp, READ_LOCK);

    if (code == 0) {
	if (afs_mariner)
	    afs_AddMarinerName(aname, *avcp);
	/* return the new status in vattr */
	afs_CopyOutAttrs(*avcp, attrs);
	if (afs_mariner)
	    afs_MarinerLog("store$Creating", *avcp);
    }

    afs_PutFakeStat(&fakestate);
    code = afs_CheckCode(code, treq, 20);
    afs_DestroyReq(treq);

  done2:
    osi_FreeSmallSpace(OutFidStatus);
    osi_FreeSmallSpace(OutDirStatus);
    return code;
}


/*
 * Check to see if we can track the change locally: requires that
 * we have sufficiently recent info in data cache.  If so, we
 * know the new DataVersion number, and place it correctly in both the
 * data and stat cache entries.  This routine returns 1 if we should
 * do the operation locally, and 0 otherwise.
 *
 * This routine must be called with the stat cache entry write-locked,
 * and dcache entry write-locked.
 */
int
afs_LocalHero(struct vcache *avc, struct dcache *adc,
	      AFSFetchStatus * astat, int aincr)
{
    afs_int32 ok;
    afs_hyper_t avers;

    AFS_STATCNT(afs_LocalHero);
    hset64(avers, astat->dataVersionHigh, astat->DataVersion);
    /* avers *is* the version number now, no matter what */

    if (adc) {
	/* does what's in the dcache *now* match what's in the vcache *now*,
	 * and do we have a valid callback? if not, our local copy is not "ok" */
	ok = (hsame(avc->f.m.DataVersion, adc->f.versionNo) && avc->callback
	      && (avc->f.states & CStatd) && avc->cbExpires >= osi_Time());
    } else {
	ok = 0;
    }
    if (ok) {
	/* check that the DV on the server is what we expect it to be */
	afs_hyper_t newDV;
	hset(newDV, adc->f.versionNo);
	hadd32(newDV, aincr);
	if (!hsame(avers, newDV)) {
	    ok = 0;
	}
    }
#if defined(AFS_SGI_ENV)
    osi_Assert(avc->v.v_type == VDIR);
#endif
    /* The bulk status code used the length as a sequence number.  */
    /* Don't update the vcache entry unless the stats are current. */
    if (avc->f.states & CStatd) {
	hset(avc->f.m.DataVersion, avers);
#ifdef AFS_64BIT_CLIENT
	FillInt64(avc->f.m.Length, astat->Length_hi, astat->Length);
#else /* AFS_64BIT_CLIENT */
	avc->f.m.Length = astat->Length;
#endif /* AFS_64BIT_CLIENT */
	avc->f.m.Date = astat->ClientModTime;
    }
    if (ok) {
	/* we've been tracking things correctly */
	adc->dflags |= DFEntryMod;
	adc->f.versionNo = avers;
	return 1;
    } else {
	if (adc) {
	    ZapDCE(adc);
	    DZap(adc);
	}
	if (avc->f.states & CStatd) {
	    osi_dnlc_purgedp(avc);
	}
	return 0;
    }
}
示例#4
0
static int
VLDB_Same(struct VenusFid *afid, struct vrequest *areq)
{
    struct vrequest treq;
    struct afs_conn *tconn;
    int i, type = 0;
    union {
	struct vldbentry tve;
	struct nvldbentry ntve;
	struct uvldbentry utve;
    } *v;
    struct volume *tvp;
    struct cell *tcell;
    char *bp, tbuf[CVBS];	/* biggest volume id is 2^32, ~ 4*10^9 */
    unsigned int changed;
    struct server *(oldhosts[NMAXNSERVERS]);

    AFS_STATCNT(CheckVLDB);
    afs_FinalizeReq(areq);

    if ((i = afs_InitReq(&treq, afs_osi_credp)))
	return DUNNO;
    v = afs_osi_Alloc(sizeof(*v));
    tcell = afs_GetCell(afid->Cell, READ_LOCK);
    bp = afs_cv2string(&tbuf[CVBS], afid->Fid.Volume);
    do {
	VSleep(2);		/* Better safe than sorry. */
	tconn =
	    afs_ConnByMHosts(tcell->cellHosts, tcell->vlport, tcell->cellNum,
			     &treq, SHARED_LOCK);
	if (tconn) {
	    if (tconn->srvr->server->flags & SNO_LHOSTS) {
		type = 0;
		RX_AFS_GUNLOCK();
		i = VL_GetEntryByNameO(tconn->id, bp, &v->tve);
		RX_AFS_GLOCK();
	    } else if (tconn->srvr->server->flags & SYES_LHOSTS) {
		type = 1;
		RX_AFS_GUNLOCK();
		i = VL_GetEntryByNameN(tconn->id, bp, &v->ntve);
		RX_AFS_GLOCK();
	    } else {
		type = 2;
		RX_AFS_GUNLOCK();
		i = VL_GetEntryByNameU(tconn->id, bp, &v->utve);
		RX_AFS_GLOCK();
		if (!(tconn->srvr->server->flags & SVLSRV_UUID)) {
		    if (i == RXGEN_OPCODE) {
			type = 1;
			RX_AFS_GUNLOCK();
			i = VL_GetEntryByNameN(tconn->id, bp, &v->ntve);
			RX_AFS_GLOCK();
			if (i == RXGEN_OPCODE) {
			    type = 0;
			    tconn->srvr->server->flags |= SNO_LHOSTS;
			    RX_AFS_GUNLOCK();
			    i = VL_GetEntryByNameO(tconn->id, bp, &v->tve);
			    RX_AFS_GLOCK();
			} else if (!i)
			    tconn->srvr->server->flags |= SYES_LHOSTS;
		    } else if (!i)
			tconn->srvr->server->flags |= SVLSRV_UUID;
		}
		lastcode = i;
	    }
	} else
	    i = -1;
    } while (afs_Analyze(tconn, i, NULL, &treq, -1,	/* no op code for this */
			 SHARED_LOCK, tcell));

    afs_PutCell(tcell, READ_LOCK);
    afs_Trace2(afs_iclSetp, CM_TRACE_CHECKVLDB, ICL_TYPE_FID, &afid,
	       ICL_TYPE_INT32, i);

    if (i) {
	afs_osi_Free(v, sizeof(*v));
	return DUNNO;
    }
    /* have info, copy into serverHost array */
    changed = 0;
    tvp = afs_FindVolume(afid, WRITE_LOCK);
    if (tvp) {
	ObtainWriteLock(&tvp->lock, 107);
	for (i = 0; i < NMAXNSERVERS && tvp->serverHost[i]; i++) {
	    oldhosts[i] = tvp->serverHost[i];
	}

	if (type == 2) {
	    InstallUVolumeEntry(tvp, &v->utve, afid->Cell, tcell, &treq);
	} else if (type == 1) {
	    InstallNVolumeEntry(tvp, &v->ntve, afid->Cell);
	} else {
	    InstallVolumeEntry(tvp, &v->tve, afid->Cell);
	}

	if (i < NMAXNSERVERS && tvp->serverHost[i]) {
	    changed = 1;
	}
	for (--i; !changed && i >= 0; i--) {
	    if (tvp->serverHost[i] != oldhosts[i]) {
		changed = 1;	/* also happens if prefs change.  big deal. */
	    }
	}

	ReleaseWriteLock(&tvp->lock);
	afs_PutVolume(tvp, WRITE_LOCK);
    } else {			/* can't find volume */
	tvp = afs_GetVolume(afid, &treq, WRITE_LOCK);
	if (tvp) {
	    afs_PutVolume(tvp, WRITE_LOCK);
	    afs_osi_Free(v, sizeof(*v));
	    return DIFFERENT;
	} else {
	    afs_osi_Free(v, sizeof(*v));
	    return DUNNO;
	}
    }

    afs_osi_Free(v, sizeof(*v));
    return (changed ? DIFFERENT : SAME);
}				/*VLDB_Same */
示例#5
0
/*------------------------------------------------------------------------
 * EXPORTED afs_Analyze
 *
 * Description:
 *	Analyze the outcome of an RPC operation, taking whatever support
 *	actions are necessary.
 *
 * Arguments:
 *	aconn : Ptr to the relevant connection on which the call was made.
 *	acode : The return code experienced by the RPC.
 *	afid  : The FID of the file involved in the action.  This argument
 *		may be null if none was involved.
 *	areq  : The request record associated with this operation.
 *      op    : which RPC we are analyzing.
 *      cellp : pointer to a cell struct.  Must provide either fid or cell.
 *
 * Returns:
 *	Non-zero value if the related RPC operation should be retried,
 *	zero otherwise.
 *
 * Environment:
 *	This routine is typically called in a do-while loop, causing the
 *	embedded RPC operation to be called repeatedly if appropriate
 *	until whatever error condition (if any) is intolerable.
 *
 * Side Effects:
 *	As advertised.
 *
 * NOTE:
 *	The retry return value is used by afs_StoreAllSegments to determine
 *	if this is a temporary or permanent error.
 *------------------------------------------------------------------------*/
int
afs_Analyze(register struct afs_conn *aconn, afs_int32 acode,
	    struct VenusFid *afid, register struct vrequest *areq, int op,
	    afs_int32 locktype, struct cell *cellp)
{
    afs_int32 i;
    struct srvAddr *sa;
    struct server *tsp;
    struct volume *tvp;
    afs_int32 shouldRetry = 0;
    afs_int32 serversleft = 1;
    struct afs_stats_RPCErrors *aerrP;
    afs_int32 markeddown;

 
 
    if (AFS_IS_DISCONNECTED && !AFS_IN_SYNC) {
	/* On reconnection, act as connected. XXX: for now.... */
        /* SXW - This may get very tired after a while. We should try and
	 *       intercept all RPCs before they get here ... */
	/*printf("afs_Analyze: disconnected\n");*/
	afs_FinalizeReq(areq);
	if (aconn) {
	    /* SXW - I suspect that this will _never_ happen - we shouldn't
	     *       get a connection because we're disconnected !!!*/
	    afs_PutConn(aconn, locktype);
	}
	return 0;
    }
    
    AFS_STATCNT(afs_Analyze);
    afs_Trace4(afs_iclSetp, CM_TRACE_ANALYZE, ICL_TYPE_INT32, op,
	       ICL_TYPE_POINTER, aconn, ICL_TYPE_INT32, acode, ICL_TYPE_LONG,
	       areq->uid);

    aerrP = (struct afs_stats_RPCErrors *)0;

    if ((op >= 0) && (op < AFS_STATS_NUM_FS_RPC_OPS))
	aerrP = &(afs_stats_cmfullperf.rpc.fsRPCErrors[op]);

    afs_FinalizeReq(areq);
    if (!aconn && areq->busyCount) {	/* one RPC or more got VBUSY/VRESTARTING */

	tvp = afs_FindVolume(afid, READ_LOCK);
	if (tvp) {
	    afs_warnuser("afs: Waiting for busy volume %u (%s) in cell %s\n",
			 (afid ? afid->Fid.Volume : 0),
			 (tvp->name ? tvp->name : ""),
			 ((tvp->serverHost[0]
			   && tvp->serverHost[0]->cell) ? tvp->serverHost[0]->
			  cell->cellName : ""));

	    for (i = 0; i < MAXHOSTS; i++) {
		if (tvp->status[i] != not_busy && tvp->status[i] != offline) {
		    tvp->status[i] = not_busy;
		}
		if (tvp->status[i] == not_busy)
		    shouldRetry = 1;
	    }
	    afs_PutVolume(tvp, READ_LOCK);
	} else {
	    afs_warnuser("afs: Waiting for busy volume %u\n",
			 (afid ? afid->Fid.Volume : 0));
	}

	if (areq->busyCount > 100) {
	    if (aerrP)
		(aerrP->err_Volume)++;
	    areq->volumeError = VOLBUSY;
	    shouldRetry = 0;
	} else {
	    VSleep(afs_BusyWaitPeriod);	/* poll periodically */
	}
	if (shouldRetry != 0)
	    areq->busyCount++;

	return shouldRetry;	/* should retry */
    }

    if (!aconn || !aconn->srvr) {
	if (!areq->volumeError) {
	    if (aerrP)
		(aerrP->err_Network)++;
	    if (hm_retry_int && !(areq->flags & O_NONBLOCK) &&	/* "hard" mount */
		((afid && afs_IsPrimaryCellNum(afid->Cell))
		 || (cellp && afs_IsPrimaryCell(cellp)))) {
		if (!afid) {
		    afs_warnuser
			("afs: hard-mount waiting for a vlserver to return to service\n");
		    VSleep(hm_retry_int);
		    afs_CheckServers(1, cellp);
		    shouldRetry = 1;
		} else {
		    tvp = afs_FindVolume(afid, READ_LOCK);
		    if (!tvp || (tvp->states & VRO)) {
			shouldRetry = hm_retry_RO;
		    } else {
			shouldRetry = hm_retry_RW;
		    }
		    if (tvp)
			afs_PutVolume(tvp, READ_LOCK);
		    if (shouldRetry) {
			afs_warnuser
			    ("afs: hard-mount waiting for volume %u\n",
			     afid->Fid.Volume);
			VSleep(hm_retry_int);
			afs_CheckServers(1, cellp);
		    }
		}
	    } /* if (hm_retry_int ... */
	    else {
		areq->networkError = 1;
	    }
	}
	return shouldRetry;
    }

    /* Find server associated with this connection. */
    sa = aconn->srvr;
    tsp = sa->server;

    /* Before we do anything with acode, make sure we translate it back to
     * a system error */
    if ((acode & ~0xff) == ERROR_TABLE_BASE_uae)
	acode = et_to_sys_error(acode);

    if (acode == 0) {
	/* If we previously took an error, mark this volume not busy */
	if (areq->volumeError) {
	    tvp = afs_FindVolume(afid, READ_LOCK);
	    if (tvp) {
		for (i = 0; i < MAXHOSTS; i++) {
		    if (tvp->serverHost[i] == tsp) {
			tvp->status[i] = not_busy;
		    }
		}
		afs_PutVolume(tvp, READ_LOCK);
	    }
	}

	afs_PutConn(aconn, locktype);
	return 0;
    }

    /* If network troubles, mark server as having bogued out again. */
    /* VRESTARTING is < 0 because of backward compatibility issues 
     * with 3.4 file servers and older cache managers */
#ifdef AFS_64BIT_CLIENT
    if (acode == -455)
	acode = 455;
#endif /* AFS_64BIT_CLIENT */
    if ((acode < 0) && (acode != VRESTARTING)) {
	if (acode == RX_CALL_TIMEOUT) {
	    serversleft = afs_BlackListOnce(areq, afid, tsp);
	    areq->idleError++;
	    if (serversleft) {
		shouldRetry = 1;
	    } else {
		shouldRetry = 0;
	    }
	    /* By doing this, we avoid ever marking a server down
	     * in an idle timeout case. That's because the server is 
	     * still responding and may only be letting a single vnode
	     * time out. We otherwise risk having the server continually
	     * be marked down, then up, then down again... 
	     */
	    goto out;
	} 
	markeddown = afs_ServerDown(sa);
	ForceNewConnections(sa); /**multi homed clients lock:afs_xsrvAddr? */
	if (aerrP)
	    (aerrP->err_Server)++;
#if 0
	/* retry *once* when the server is timed out in case of NAT */
	if (markeddown && acode == RX_CALL_DEAD) {
	    aconn->forceConnectFS = 1;
	    shouldRetry = 1;
	}
#endif
    }

    if (acode == VBUSY || acode == VRESTARTING) {
	if (acode == VBUSY) {
	    areq->busyCount++;
	    if (aerrP)
		(aerrP->err_VolumeBusies)++;
	} else
	    areq->busyCount = 1;

	tvp = afs_FindVolume(afid, READ_LOCK);
	if (tvp) {
	    for (i = 0; i < MAXHOSTS; i++) {
		if (tvp->serverHost[i] == tsp) {
		    tvp->status[i] = rdwr_busy;	/* can't tell which yet */
		    /* to tell which, have to look at the op code. */
		}
	    }
	    afs_PutVolume(tvp, READ_LOCK);
	} else {
	    afs_warnuser("afs: Waiting for busy volume %u in cell %s\n",
			 (afid ? afid->Fid.Volume : 0), tsp->cell->cellName);
	    VSleep(afs_BusyWaitPeriod);	/* poll periodically */
	}
	shouldRetry = 1;
	acode = 0;
    } else if (acode == VICETOKENDEAD
	       || (acode & ~0xff) == ERROR_TABLE_BASE_RXK) {
	/* any rxkad error is treated as token expiration */
	struct unixuser *tu;
	/*
	 * I'm calling these errors protection errors, since they involve
	 * faulty authentication.
	 */
	if (aerrP)
	    (aerrP->err_Protection)++;

	tu = afs_FindUser(areq->uid, tsp->cell->cellNum, READ_LOCK);
	if (tu) {
	    if (acode == VICETOKENDEAD) {
		aconn->forceConnectFS = 1;
	    } else if (acode == RXKADEXPIRED) {
		aconn->forceConnectFS = 0;	/* don't check until new tokens set */
		aconn->user->states |= UTokensBad;
		afs_warnuser
		    ("afs: Tokens for user of AFS id %d for cell %s have expired\n",
		     tu->vid, aconn->srvr->server->cell->cellName);
	    } else {
		serversleft = afs_BlackListOnce(areq, afid, tsp);
		areq->tokenError++;

		if (serversleft) {
		    afs_warnuser
			("afs: Tokens for user of AFS id %d for cell %s: rxkad error=%d\n",
			 tu->vid, aconn->srvr->server->cell->cellName, acode);
		    shouldRetry = 1;
		} else {
		    areq->tokenError = 0;
		    aconn->forceConnectFS = 0;	/* don't check until new tokens set */
		    aconn->user->states |= UTokensBad;
		    afs_warnuser
			("afs: Tokens for user of AFS id %d for cell %s are discarded (rxkad error=%d)\n",
			 tu->vid, aconn->srvr->server->cell->cellName, acode);
		}
	    }
	    afs_PutUser(tu, READ_LOCK);
	} else {
	    /* The else case shouldn't be possible and should probably be replaced by a panic? */
	    if (acode == VICETOKENDEAD) {
		aconn->forceConnectFS = 1;
	    } else if (acode == RXKADEXPIRED) {
		aconn->forceConnectFS = 0;	/* don't check until new tokens set */
		aconn->user->states |= UTokensBad;
		afs_warnuser
		    ("afs: Tokens for user %d for cell %s have expired\n",
		     areq->uid, aconn->srvr->server->cell->cellName);
	    } else {
		aconn->forceConnectFS = 0;	/* don't check until new tokens set */
		aconn->user->states |= UTokensBad;
		afs_warnuser
		    ("afs: Tokens for user %d for cell %s are discarded (rxkad error = %d)\n",
		     areq->uid, aconn->srvr->server->cell->cellName, acode);
	    }
	}
	shouldRetry = 1;	/* Try again (as root). */
    }
    /* Check for access violation. */
    else if (acode == EACCES) {
	/* should mark access error in non-existent per-user global structure */
	if (aerrP)
	    (aerrP->err_Protection)++;
	areq->accessError = 1;
	if (op == AFS_STATS_FS_RPCIDX_STOREDATA)
	    areq->permWriteError = 1;
	shouldRetry = 0;
    }
    /* check for ubik errors; treat them like crashed servers */
    else if (acode >= ERROR_TABLE_BASE_U && acode < ERROR_TABLE_BASE_U + 255) {
	afs_ServerDown(sa);
	if (aerrP)
	    (aerrP->err_Server)++;
	shouldRetry = 1;	/* retryable (maybe one is working) */
	VSleep(1);		/* just in case */
    }
    /* Check for bad volume data base / missing volume. */
    else if (acode == VSALVAGE || acode == VOFFLINE || acode == VNOVOL
	     || acode == VNOSERVICE || acode == VMOVED) {
	struct cell *tcell;
	int same;

	shouldRetry = 1;
	areq->volumeError = VOLMISSING;
	if (aerrP)
	    (aerrP->err_Volume)++;
	if (afid && (tcell = afs_GetCell(afid->Cell, 0))) {
	    same = VLDB_Same(afid, areq);
	    tvp = afs_FindVolume(afid, READ_LOCK);
	    if (tvp) {
		for (i = 0; i < MAXHOSTS && tvp->serverHost[i]; i++) {
		    if (tvp->serverHost[i] == tsp) {
			if (tvp->status[i] == end_not_busy)
			    tvp->status[i] = offline;
			else
			    tvp->status[i]++;
		    } else if (!same) {
			tvp->status[i] = not_busy;	/* reset the others */
		    }
		}
		afs_PutVolume(tvp, READ_LOCK);
	    }
	}
    } else if (acode >= ERROR_TABLE_BASE_VL && acode <= ERROR_TABLE_BASE_VL + 255) {	/* vlserver errors */
	shouldRetry = 0;
	areq->volumeError = VOLMISSING;
    } else if (acode >= 0) {
	if (aerrP)
	    (aerrP->err_Other)++;
	if (op == AFS_STATS_FS_RPCIDX_STOREDATA)
	    areq->permWriteError = 1;
	shouldRetry = 0;	/* Other random Vice error. */
    } else if (acode == RX_MSGSIZE) {	/* same meaning as EMSGSIZE... */
	VSleep(1);		/* Just a hack for desperate times. */
	if (aerrP)
	    (aerrP->err_Other)++;
	shouldRetry = 1;	/* packet was too big, please retry call */
    }

    if (acode < 0 && acode != RX_MSGSIZE && acode != VRESTARTING) {
	/* If we get here, code < 0 and we have network/Server troubles.
	 * areq->networkError is not set here, since we always
	 * retry in case there is another server.  However, if we find
	 * no connection (aconn == 0) we set the networkError flag.
	 */
	afs_MarkServerUpOrDown(sa, SRVR_ISDOWN);
	if (aerrP)
	    (aerrP->err_Server)++;
	VSleep(1);		/* Just a hack for desperate times. */
	shouldRetry = 1;
    }
out:
    /* now unlock the connection and return */
    afs_PutConn(aconn, locktype);
    return (shouldRetry);
}				/*afs_Analyze */
示例#6
0
/* don't set CDirty in here because RPC is called synchronously */
int 
afs_symlink(OSI_VC_DECL(adp), char *aname, struct vattr *attrs, 
	    char *atargetName, struct vcache **tvcp, afs_ucred_t *acred)
{
    afs_uint32 now = 0;
    struct vrequest *treq = NULL;
    afs_int32 code = 0;
    struct afs_conn *tc;
    struct VenusFid newFid;
    struct dcache *tdc;
    afs_size_t offset, len;
    afs_int32 alen;
    struct server *hostp = 0;
    struct vcache *tvc;
    struct AFSStoreStatus InStatus;
    struct AFSFetchStatus *OutFidStatus, *OutDirStatus;
    struct AFSCallBack CallBack;
    struct AFSVolSync tsync;
    struct volume *volp = 0;
    struct afs_fakestat_state fakestate;
    struct rx_connection *rxconn;
    XSTATS_DECLS;
    OSI_VC_CONVERT(adp);

    AFS_STATCNT(afs_symlink);
    afs_Trace2(afs_iclSetp, CM_TRACE_SYMLINK, ICL_TYPE_POINTER, adp,
	       ICL_TYPE_STRING, aname);

    OutFidStatus = osi_AllocSmallSpace(sizeof(struct AFSFetchStatus));
    OutDirStatus = osi_AllocSmallSpace(sizeof(struct AFSFetchStatus));
    memset(&InStatus, 0, sizeof(InStatus));

    if ((code = afs_CreateReq(&treq, acred)))
	goto done2;

    afs_InitFakeStat(&fakestate);

    AFS_DISCON_LOCK();
    
    code = afs_EvalFakeStat(&adp, &fakestate, treq);
    if (code)
	goto done;

    if (strlen(aname) > AFSNAMEMAX || strlen(atargetName) > AFSPATHMAX) {
	code = ENAMETOOLONG;
	goto done;
    }

    if (afs_IsDynroot(adp)) {
	code = afs_DynrootVOPSymlink(adp, acred, aname, atargetName);
	goto done;
    }
    if (afs_IsDynrootMount(adp)) {
	code = EROFS;
	goto done;
    }

    code = afs_VerifyVCache(adp, treq);
    if (code) {
	code = afs_CheckCode(code, treq, 30);
	goto done;
    }

    /** If the volume is read-only, return error without making an RPC to the
      * fileserver
      */
    if (adp->f.states & CRO) {
	code = EROFS;
	goto done;
    }

    if (AFS_IS_DISCONNECTED && !AFS_IS_DISCON_RW) {
        code = ENETDOWN;
        goto done;
    }
    
    InStatus.Mask = AFS_SETMODTIME | AFS_SETMODE;
    InStatus.ClientModTime = osi_Time();
    alen = strlen(atargetName);	/* we want it to include the null */
    if ( (*atargetName == '#' || *atargetName == '%') && alen > 1 && atargetName[alen-1] == '.') {
	InStatus.UnixModeBits = 0644;	/* mt pt: null from "." at end */
	if (alen == 1)
	    alen++;		/* Empty string */
    } else {
	InStatus.UnixModeBits = 0755;
	alen++;			/* add in the null */
    }
    tdc = afs_GetDCache(adp, (afs_size_t) 0, treq, &offset, &len, 1);
    volp = afs_FindVolume(&adp->f.fid, READ_LOCK);	/*parent is also in same vol */
    ObtainWriteLock(&adp->lock, 156);
    if (tdc)
	ObtainWriteLock(&tdc->lock, 636);
    /* No further locks: if the SymLink succeeds, it does not matter what happens
     * to our local copy of the directory. If somebody tampers with it in the meantime,
     * the copy will be invalidated */
    if (!AFS_IS_DISCON_RW) {
	do {
	    tc = afs_Conn(&adp->f.fid, treq, SHARED_LOCK, &rxconn);
	    if (tc) {
		hostp = tc->parent->srvr->server;
		XSTATS_START_TIME(AFS_STATS_FS_RPCIDX_SYMLINK);
		if (adp->f.states & CForeign) {
		    now = osi_Time();
		    RX_AFS_GUNLOCK();
		    code = 
			RXAFS_DFSSymlink(rxconn,
					 (struct AFSFid *)&adp->f.fid.Fid,
					 aname, atargetName, &InStatus,
					 (struct AFSFid *)&newFid.Fid,
					 OutFidStatus, OutDirStatus,
					 &CallBack, &tsync);
		    RX_AFS_GLOCK();
		} else {
		    RX_AFS_GUNLOCK();
		    code =
			RXAFS_Symlink(rxconn, (struct AFSFid *)&adp->f.fid.Fid,
				      aname, atargetName, &InStatus,
				      (struct AFSFid *)&newFid.Fid, 
				      OutFidStatus, OutDirStatus, &tsync);
		    RX_AFS_GLOCK();
	    	}
		XSTATS_END_TIME;
	    } else
		code = -1;
	} while (afs_Analyze
		    (tc, rxconn, code, &adp->f.fid, treq, AFS_STATS_FS_RPCIDX_SYMLINK,
		     SHARED_LOCK, NULL));
    } else {
	newFid.Cell = adp->f.fid.Cell;
	newFid.Fid.Volume = adp->f.fid.Fid.Volume;
	afs_GenFakeFid(&newFid, VREG, 0);
    }

    ObtainWriteLock(&afs_xvcache, 40);
    if (code) {
	if (code < 0) {
	    afs_StaleVCache(adp);
	}
	ReleaseWriteLock(&adp->lock);
	ReleaseWriteLock(&afs_xvcache);
	if (tdc) {
	    ReleaseWriteLock(&tdc->lock);
	    afs_PutDCache(tdc);
	}
	goto done;
    }
    /* otherwise, we should see if we can make the change to the dir locally */
    if (AFS_IS_DISCON_RW || afs_LocalHero(adp, tdc, OutDirStatus, 1)) {
	/* we can do it locally */
	ObtainWriteLock(&afs_xdcache, 293);
	/* If the following fails because the name has been created in the meantime, the
	 * directory is out-of-date - the file server knows best! */
	code = afs_dir_Create(tdc, aname, &newFid.Fid);
	ReleaseWriteLock(&afs_xdcache);
	if (code && !AFS_IS_DISCON_RW) {
	    ZapDCE(tdc);	/* surprise error -- use invalid value */
	    DZap(tdc);
	}
    }
    if (tdc) {
	ReleaseWriteLock(&tdc->lock);
	afs_PutDCache(tdc);
    }
    newFid.Cell = adp->f.fid.Cell;
    newFid.Fid.Volume = adp->f.fid.Fid.Volume;
    ReleaseWriteLock(&adp->lock);

    /* now we're done with parent dir, create the link's entry.  Note that
     * no one can get a pointer to the new cache entry until we release 
     * the xvcache lock. */
    tvc = afs_NewVCache(&newFid, hostp);
    if (!tvc)
    {
	code = -2;
	ReleaseWriteLock(&afs_xvcache);
	goto done;
    }
    ObtainWriteLock(&tvc->lock, 157);
    ObtainWriteLock(&afs_xcbhash, 500);
    tvc->f.states |= CStatd;	/* have valid info */
    tvc->f.states &= ~CBulkFetching;

    if (adp->f.states & CForeign) {
	tvc->f.states |= CForeign;
	/* We don't have to worry about losing the callback since we're doing it 
	 * under the afs_xvcache lock actually, afs_NewVCache may drop the 
	 * afs_xvcache lock, if it calls afs_FlushVCache */
	tvc->cbExpires = CallBack.ExpirationTime + now;
	afs_QueueCallback(tvc, CBHash(CallBack.ExpirationTime), volp);
    } else {
	tvc->cbExpires = 0x7fffffff;	/* never expires, they can't change */
	/* since it never expires, we don't have to queue the callback */
    }
    ReleaseWriteLock(&afs_xcbhash);

    if (AFS_IS_DISCON_RW) {
	attrs->va_mode = InStatus.UnixModeBits;
	afs_GenDisconStatus(adp, tvc, &newFid, attrs, treq, VLNK);
	code = afs_DisconCreateSymlink(tvc, atargetName, treq);
	if (code) {
	    /* XXX - When this goes wrong, we need to tidy up the changes we made to
	     * the parent, and get rid of the vcache we just created */
	    ReleaseWriteLock(&tvc->lock);
	    ReleaseWriteLock(&afs_xvcache);
	    afs_PutVCache(tvc);
	    goto done;
	}
	afs_DisconAddDirty(tvc, VDisconCreate, 0);
    } else {
	afs_ProcessFS(tvc, OutFidStatus, treq);
    }

    if (!tvc->linkData) {
	tvc->linkData = afs_osi_Alloc(alen);
	osi_Assert(tvc->linkData != NULL);
	strncpy(tvc->linkData, atargetName, alen - 1);
	tvc->linkData[alen - 1] = 0;
    }
    ReleaseWriteLock(&tvc->lock);
    ReleaseWriteLock(&afs_xvcache);
    if (tvcp)
	*tvcp = tvc;
    else
	afs_PutVCache(tvc);
    code = 0;
  done:
    afs_PutFakeStat(&fakestate);
    if (volp)
	afs_PutVolume(volp, READ_LOCK);
    AFS_DISCON_UNLOCK();
    code = afs_CheckCode(code, treq, 31);
    afs_DestroyReq(treq);
  done2:
    osi_FreeSmallSpace(OutFidStatus);
    osi_FreeSmallSpace(OutDirStatus);
    return code;
}
示例#7
0
void
afs_CheckCallbacks(unsigned int secs)
{
    struct vcache *tvc;
    register struct afs_q *tq;
    struct afs_q *uq;
    afs_uint32 now;
    struct volume *tvp;
    register int safety;

    ObtainWriteLock(&afs_xcbhash, 85);	/* pretty likely I'm going to remove something */
    now = osi_Time();
    for (safety = 0, tq = cbHashT[base].head.prev;
	 (safety <= CBQ_LIMIT) && (tq != &(cbHashT[base].head));
	 tq = uq, safety++) {

	uq = QPrev(tq);
	tvc = CBQTOV(tq);
	if (tvc->cbExpires < now + secs) {	/* race #1 here */
	    /* Get the volume, and if its callback expiration time is more than secs
	     * seconds into the future, update this vcache entry and requeue it below
	     */
	    if ((tvc->f.states & CRO)
		&& (tvp = afs_FindVolume(&(tvc->f.fid), READ_LOCK))) {
		if (tvp->expireTime > now + secs) {
		    tvc->cbExpires = tvp->expireTime;	/* XXX race here */
		} else {
		    int i;
		    for (i = 0; i < MAXHOSTS && tvp->serverHost[i]; i++) {
			if (!(tvp->serverHost[i]->flags & SRVR_ISDOWN)) {
			    /* What about locking xvcache or vrefcount++ or
			     * write locking tvc? */
			    QRemove(tq);
			    tvc->f.states &= ~(CStatd | CMValid | CUnique);
                            if (!(tvc->f.states & (CVInit|CVFlushed)) &&
                                (tvc->f.fid.Fid.Vnode & 1 ||
                                 (vType(tvc) == VDIR)))
				osi_dnlc_purgedp(tvc);
			    tvc->dchint = NULL;	/*invalidate em */
			    afs_ResetVolumeInfo(tvp);
			    break;
			}
		    }
		}
		afs_PutVolume(tvp, READ_LOCK);
	    } else {
		/* Do I need to worry about things like execsorwriters?
		 * What about locking xvcache or vrefcount++ or write locking tvc?
		 */
		QRemove(tq);
		tvc->f.states &= ~(CStatd | CMValid | CUnique);
                if (!(tvc->f.states & (CVInit|CVFlushed)) &&
                    (tvc->f.fid.Fid.Vnode & 1 || (vType(tvc) == VDIR)))
		    osi_dnlc_purgedp(tvc);
	    }
	}

	if ((tvc->cbExpires > basetime) && CBHash(tvc->cbExpires - basetime)) {
	    /* it's been renewed on us.  Have to be careful not to put it back
	     * into this slot, or we may never get out of here.
	     */
	    int slot;
	    slot = (CBHash(tvc->cbExpires - basetime) + base) % CBHTSIZE;
	    if (slot != base) {
		if (QPrev(tq))
		    QRemove(&(tvc->callsort));
		QAdd(&(cbHashT[slot].head), &(tvc->callsort));
		/* XXX remember to update volume expiration time */
		/* -- not needed for correctness, though */
	    }
	}
    }

    if (safety > CBQ_LIMIT) {
	afs_stats_cmperf.cbloops++;
	if (afs_paniconwarn)
	    osi_Panic("CheckCallbacks");

	afs_warn
	    ("AFS Internal Error (minor): please contact AFS Product Support.\n");
	ReleaseWriteLock(&afs_xcbhash);
	afs_FlushCBs();
	return;
    } else
	ReleaseWriteLock(&afs_xcbhash);


/* XXX future optimization:
   if this item has been recently accessed, queue up a stat for it.
   {
   struct dcache * adc;

   ObtainReadLock(&afs_xdcache);
   if ((adc = tvc->quick.dc) && (adc->stamp == tvc->quick.stamp)
   && (afs_indexTimes[adc->index] > afs_indexCounter - 20)) {
   queue up the stat request
   }
   ReleaseReadLock(&afs_xdcache);
   }
   */

    return;
}				/* afs_CheckCallback */
示例#8
0
static int
ClearCallBack(struct rx_connection *a_conn,
	      struct AFSFid *a_fid)
{
    struct vcache *tvc;
    int i;
    struct VenusFid localFid;
    struct volume *tv;
#ifdef AFS_DARWIN80_ENV
    vnode_t vp;
#endif

    AFS_STATCNT(ClearCallBack);

    AFS_ASSERT_GLOCK();

    /*
     * XXXX Don't hold any server locks here because of callback protocol XXX
     */
    localFid.Cell = 0;
    localFid.Fid.Volume = a_fid->Volume;
    localFid.Fid.Vnode = a_fid->Vnode;
    localFid.Fid.Unique = a_fid->Unique;

    /*
     * Volume ID of zero means don't do anything.
     */
    if (a_fid->Volume != 0) {
	if (a_fid->Vnode == 0) {
		struct afs_q *tq, *uq;
	    /*
	     * Clear callback for the whole volume.  Zip through the
	     * hash chain, nullifying entries whose volume ID matches.
	     */
loop1:
		ObtainReadLock(&afs_xvcache);
		i = VCHashV(&localFid);
		for (tq = afs_vhashTV[i].prev; tq != &afs_vhashTV[i]; tq = uq) {
		    uq = QPrev(tq);
		    tvc = QTOVH(tq);
		    if (tvc->f.fid.Fid.Volume == a_fid->Volume) {
			tvc->callback = NULL;
			if (!localFid.Cell)
			    localFid.Cell = tvc->f.fid.Cell;
			tvc->dchint = NULL;	/* invalidate hints */
			if (tvc->f.states & CVInit) {
			    ReleaseReadLock(&afs_xvcache);
			    afs_osi_Sleep(&tvc->f.states);
			    goto loop1;
			}
#if     defined(AFS_SGI_ENV) || defined(AFS_SUN5_ENV)  || defined(AFS_HPUX_ENV) || defined(AFS_LINUX20_ENV)
			AFS_FAST_HOLD(tvc);
#else
#ifdef AFS_DARWIN80_ENV
			if (tvc->f.states & CDeadVnode) {
			    if (!(tvc->f.states & CBulkFetching)) {
				ReleaseReadLock(&afs_xvcache);
				afs_osi_Sleep(&tvc->f.states);
				goto loop1;
			    }
			}
			vp = AFSTOV(tvc);
			if (vnode_get(vp))
			    continue;
			if (vnode_ref(vp)) {
			    AFS_GUNLOCK();
			    vnode_put(vp);
			    AFS_GLOCK();
			    continue;
			}
			if (tvc->f.states & (CBulkFetching|CDeadVnode)) {
			    AFS_GUNLOCK();
			    vnode_recycle(AFSTOV(tvc));
			    AFS_GLOCK();
			}
#else
			AFS_FAST_HOLD(tvc);
#endif
#endif
			ReleaseReadLock(&afs_xvcache);
			ObtainWriteLock(&afs_xcbhash, 449);
			afs_DequeueCallback(tvc);
			tvc->f.states &= ~(CStatd | CUnique | CBulkFetching);
			afs_allCBs++;
			if (tvc->f.fid.Fid.Vnode & 1)
			    afs_oddCBs++;
			else
			    afs_evenCBs++;
			ReleaseWriteLock(&afs_xcbhash);
			if ((tvc->f.fid.Fid.Vnode & 1 || (vType(tvc) == VDIR)))
			    osi_dnlc_purgedp(tvc);
			afs_Trace3(afs_iclSetp, CM_TRACE_CALLBACK,
				   ICL_TYPE_POINTER, tvc, ICL_TYPE_INT32,
				   tvc->f.states, ICL_TYPE_INT32,
				   a_fid->Volume);
#ifdef AFS_DARWIN80_ENV
			vnode_put(AFSTOV(tvc));
#endif
			ObtainReadLock(&afs_xvcache);
			uq = QPrev(tq);
			AFS_FAST_RELE(tvc);
		    } else if ((tvc->f.states & CMValid)
			       && (tvc->mvid->Fid.Volume == a_fid->Volume)) {
			tvc->f.states &= ~CMValid;
			if (!localFid.Cell)
			    localFid.Cell = tvc->mvid->Cell;
		    }
		}
		ReleaseReadLock(&afs_xvcache);

	    /*
	     * XXXX Don't hold any locks here XXXX
	     */
	    tv = afs_FindVolume(&localFid, 0);
	    if (tv) {
		afs_ResetVolumeInfo(tv);
		afs_PutVolume(tv, 0);
		/* invalidate mtpoint? */
	    }
	} /*Clear callbacks for whole volume */
	else {
	    /*
	     * Clear callbacks just for the one file.
	     */
	    struct vcache *uvc;
	    afs_allCBs++;
	    if (a_fid->Vnode & 1)
		afs_oddCBs++;	/*Could do this on volume basis, too */
	    else
		afs_evenCBs++;	/*A particular fid was specified */
loop2:
	    ObtainReadLock(&afs_xvcache);
	    i = VCHash(&localFid);
	    for (tvc = afs_vhashT[i]; tvc; tvc = uvc) {
		uvc = tvc->hnext;
		if (tvc->f.fid.Fid.Vnode == a_fid->Vnode
		    && tvc->f.fid.Fid.Volume == a_fid->Volume
		    && tvc->f.fid.Fid.Unique == a_fid->Unique) {
		    tvc->callback = NULL;
		    tvc->dchint = NULL;	/* invalidate hints */
		    if (tvc->f.states & CVInit) {
			ReleaseReadLock(&afs_xvcache);
			afs_osi_Sleep(&tvc->f.states);
			goto loop2;
		    }
#if     defined(AFS_SGI_ENV) || defined(AFS_SUN5_ENV)  || defined(AFS_HPUX_ENV) || defined(AFS_LINUX20_ENV)
		    AFS_FAST_HOLD(tvc);
#else
#ifdef AFS_DARWIN80_ENV
		    if (tvc->f.states & CDeadVnode) {
			if (!(tvc->f.states & CBulkFetching)) {
			    ReleaseReadLock(&afs_xvcache);
			    afs_osi_Sleep(&tvc->f.states);
			    goto loop2;
			}
		    }
		    vp = AFSTOV(tvc);
		    if (vnode_get(vp))
			continue;
		    if (vnode_ref(vp)) {
			AFS_GUNLOCK();
			vnode_put(vp);
			AFS_GLOCK();
			continue;
		    }
		    if (tvc->f.states & (CBulkFetching|CDeadVnode)) {
			AFS_GUNLOCK();
			vnode_recycle(AFSTOV(tvc));
			AFS_GLOCK();
		    }
#else
		    AFS_FAST_HOLD(tvc);
#endif
#endif
		    ReleaseReadLock(&afs_xvcache);
		    ObtainWriteLock(&afs_xcbhash, 450);
		    afs_DequeueCallback(tvc);
		    tvc->f.states &= ~(CStatd | CUnique | CBulkFetching);
		    ReleaseWriteLock(&afs_xcbhash);
		    if ((tvc->f.fid.Fid.Vnode & 1 || (vType(tvc) == VDIR)))
			osi_dnlc_purgedp(tvc);
		    afs_Trace3(afs_iclSetp, CM_TRACE_CALLBACK,
			       ICL_TYPE_POINTER, tvc, ICL_TYPE_INT32,
			       tvc->f.states, ICL_TYPE_LONG, 0);
#ifdef CBDEBUG
		    lastCallBack_vnode = afid->Vnode;
		    lastCallBack_dv = tvc->mstat.DataVersion.low;
		    osi_GetuTime(&lastCallBack_time);
#endif /* CBDEBUG */
#ifdef AFS_DARWIN80_ENV
		    vnode_put(AFSTOV(tvc));
#endif
		    ObtainReadLock(&afs_xvcache);
		    uvc = tvc->hnext;
		    AFS_FAST_RELE(tvc);
		}
	    }			/*Walk through hash table */
	    ReleaseReadLock(&afs_xvcache);
	}			/*Clear callbacks for one file */
    }

    /*Fid has non-zero volume ID */
    /*
     * Always return a predictable value.
     */
    return (0);

}				/*ClearCallBack */