/* * Copyright 2000, International Business Machines Corporation and others. * All Rights Reserved. * * This software has been released under the terms of the IBM Public * License. For details, see the LICENSE file in the top-level source * directory or online at http://www.openafs.org/dl/license10.html */ /* afs_fileprocs.c - Complete File Server request routines */ /* */ /* Information Technology Center */ /* Carnegie Mellon University */ /* */ /* Date: 8/10/88 */ /* */ /* Function - A set of routines to handle the various file Server */ /* requests; these routines are invoked by rxgen. */ /* */ /* ********************************************************************** */ /* * GetVolumePackage disables Rx keepalives; PutVolumePackage re-enables. * If callbacks are to be broken, keepalives should be enabled in the * stub while that occurs; disabled while disk I/O is in process. */ /* * in Check_PermissionRights, certain privileges are afforded to the owner * of the volume, or the owner of a file. Are these considered "use of * privilege"? */ #include #include #include #include #ifdef AFS_SGI_ENV #undef SHARED /* XXX */ #endif #ifdef HAVE_NET_IF_H #include #endif #ifdef HAVE_NETINET_IF_ETHER_H #include #endif #if !defined(AFS_SGI_ENV) && defined(HAVE_SYS_MAP_H) #include #endif #ifdef HAVE_SYS_STATFS_H #include #endif #ifdef HAVE_SYS_LOCKF_H #include #endif #ifdef HAVE_SYS_DK_H #include #endif #ifdef AFS_HPUX_ENV /* included early because of name conflict on IOPEN */ #include #ifdef IOPEN #undef IOPEN #endif #endif /* AFS_HPUX_ENV */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "viced_prototypes.h" #include "viced.h" #include "host.h" #include "callback.h" #include #include #include #include extern void SetDirHandle(DirHandle * dir, Vnode * vnode); extern void FidZap(DirHandle * file); extern void FidZero(DirHandle * file); pthread_mutex_t fileproc_glock_mutex; /* Useful local defines used by this module */ #define DONTCHECK 0 #define MustNOTBeDIR 1 #define MustBeDIR 2 #define TVS_SDATA 1 #define TVS_SSTATUS 2 #define TVS_CFILE 4 #define TVS_SLINK 8 #define TVS_MKDIR 0x10 #define CHK_FETCH 0x10 #define CHK_FETCHDATA 0x10 #define CHK_FETCHACL 0x11 #define CHK_FETCHSTATUS 0x12 #define CHK_STOREDATA 0x00 #define CHK_STOREACL 0x01 #define CHK_STORESTATUS 0x02 #define OWNERREAD 0400 #define OWNERWRITE 0200 #define OWNEREXEC 0100 #ifdef USE_GROUP_PERMS #define GROUPREAD 0040 #define GROUPWRITE 0020 #define GROUPREXEC 0010 #endif /* The following errors were not defined in NT. They are given unique * names here to avoid any potential collision. */ #define FSERR_ELOOP 90 #define FSERR_EOPNOTSUPP 122 #define FSERR_ECONNREFUSED 130 #define NOTACTIVECALL 0 #define ACTIVECALL 1 #define CREATE_SGUID_ADMIN_ONLY 1 extern struct afsconf_dir *confDir; extern afs_int32 dataVersionHigh; extern int SystemId; static struct AFSCallStatistics AFSCallStats; struct fs_stats_FullPerfStats afs_FullPerfStats; extern int AnonymousID; static const char nullString[] = ""; struct afs_FSStats { afs_int32 NothingYet; }; struct afs_FSStats afs_fsstats; int LogLevel = 0; int supported = 1; int Console = 0; afs_int32 BlocksSpare = 1024; /* allow 1 MB overruns */ afs_int32 PctSpare; extern afs_int32 implicitAdminRights; extern afs_int32 readonlyServer; extern int CopyOnWrite_calls, CopyOnWrite_off0, CopyOnWrite_size0; extern afs_fsize_t CopyOnWrite_maxsize; /* * Externals used by the xstat code. */ extern VolPkgStats VStats; extern int CEs, CEBlocks; extern int HTs, HTBlocks; static afs_int32 FetchData_RXStyle(Volume * volptr, Vnode * targetptr, struct rx_call *Call, afs_sfsize_t Pos, afs_sfsize_t Len, afs_int32 Int64Mode, afs_sfsize_t * a_bytesToFetchP, afs_sfsize_t * a_bytesFetchedP); static afs_int32 StoreData_RXStyle(Volume * volptr, Vnode * targetptr, struct AFSFid *Fid, struct client *client, struct rx_call *Call, afs_fsize_t Pos, afs_fsize_t Length, afs_fsize_t FileLength, int sync, afs_sfsize_t * a_bytesToStoreP, afs_sfsize_t * a_bytesStoredP); #ifdef AFS_SGI_XFS_IOPS_ENV #include static int GetLinkCount(Volume * avp, struct stat *astat) { if (!strcmp("xfs", astat->st_fstype)) { return (astat->st_mode & AFS_XFS_MODE_LINK_MASK); } else return astat->st_nlink; } #else #define GetLinkCount(V, S) (S)->st_nlink #endif afs_int32 SpareComp(Volume * avolp) { afs_int32 temp; FS_LOCK; if (PctSpare) { temp = V_maxquota(avolp); if (temp == 0) { /* no matter; doesn't check in this case */ FS_UNLOCK; return 0; } temp = (temp * PctSpare) / 100; FS_UNLOCK; return temp; } else { FS_UNLOCK; return BlocksSpare; } } /*SpareComp */ /* * Set the volume synchronization parameter for this volume. If it changes, * the Cache Manager knows that the volume must be purged from the stat cache. */ static void SetVolumeSync(struct AFSVolSync *async, Volume * avol) { FS_LOCK; /* date volume instance was created */ if (async) { if (avol) async->spare1 = avol->header->diskstuff.creationDate; else async->spare1 = 0; async->spare2 = 0; async->spare3 = 0; async->spare4 = 0; async->spare5 = 0; async->spare6 = 0; } FS_UNLOCK; } /*SetVolumeSync */ /** * Verify that the on-disk size for a vnode matches the length in the vnode * index. * * @param[in] vp Volume pointer * @param[in] vnp Vnode pointer * @param[in] alen Size of the vnode on disk, if known. If unknown, give -1, * and CheckLength itself will determine the on-disk size. * * @return operation status * @retval 0 lengths match * @retval nonzero Error; either the lengths do not match or there was an * error determining the on-disk size. The volume should be * taken offline and salvaged. */ static int CheckLength(struct Volume *vp, struct Vnode *vnp, afs_sfsize_t alen) { afs_sfsize_t vlen; VN_GET_LEN(vlen, vnp); if (alen < 0) { FdHandle_t *fdP; fdP = IH_OPEN(vnp->handle); if (fdP == NULL) { ViceLog(0, ("CheckLength: cannot open inode for fid %lu.%lu.%lu\n", afs_printable_uint32_lu(vp->hashid), afs_printable_uint32_lu(Vn_id(vnp)), afs_printable_uint32_lu(vnp->disk.uniquifier))); return -1; } alen = FDH_SIZE(fdP); FDH_CLOSE(fdP); if (alen < 0) { afs_int64 alen64 = alen; ViceLog(0, ("CheckLength: cannot get size for inode for fid " "%lu.%lu.%lu; FDH_SIZE returned %" AFS_INT64_FMT "\n", afs_printable_uint32_lu(vp->hashid), afs_printable_uint32_lu(Vn_id(vnp)), afs_printable_uint32_lu(vnp->disk.uniquifier), alen64)); return -1; } } if (alen != vlen) { afs_int64 alen64 = alen, vlen64 = vlen; ViceLog(0, ("Fid %lu.%lu.%lu has inconsistent length (index " "%lld inode %lld ); volume must be salvaged\n", afs_printable_uint32_lu(vp->hashid), afs_printable_uint32_lu(Vn_id(vnp)), afs_printable_uint32_lu(vnp->disk.uniquifier), vlen64, alen64)); return -1; } return 0; } /* * Note that this function always returns a held host, so * that CallPostamble can block without the host's disappearing. * Call returns rx connection in passed in *tconn */ static int CallPreamble(struct rx_call *acall, int activecall, struct rx_connection **tconn, struct host **ahostp) { struct host *thost; struct client *tclient; int retry_flag = 1; int code = 0; char hoststr[16], hoststr2[16]; struct ubik_client *uclient; *ahostp = NULL; if (!tconn) { ViceLog(0, ("CallPreamble: unexpected null tconn!\n")); return -1; } *tconn = rx_ConnectionOf(acall); H_LOCK; retry: tclient = h_FindClient_r(*tconn); if (!tclient) { ViceLog(0, ("CallPreamble: Couldn't get client.\n")); H_UNLOCK; return VBUSY; } thost = tclient->host; if (tclient->prfail == 1) { /* couldn't get the CPS */ if (!retry_flag) { h_ReleaseClient_r(tclient); h_Release_r(thost); ViceLog(0, ("CallPreamble: Couldn't get CPS. Fail\n")); H_UNLOCK; return -1001; } retry_flag = 0; /* Retry once */ /* Take down the old connection and re-read the key file */ ViceLog(0, ("CallPreamble: Couldn't get CPS. Reconnect to ptserver\n")); uclient = (struct ubik_client *)pthread_getspecific(viced_uclient_key); /* Is it still necessary to drop this? We hit the net, we should... */ H_UNLOCK; if (uclient) { hpr_End(uclient); uclient = NULL; } code = hpr_Initialize(&uclient); if (!code) osi_Assert(pthread_setspecific(viced_uclient_key, (void *)uclient) == 0); H_LOCK; if (code) { h_ReleaseClient_r(tclient); h_Release_r(thost); H_UNLOCK; ViceLog(0, ("CallPreamble: couldn't reconnect to ptserver\n")); return -1001; } tclient->prfail = 2; /* Means re-eval client's cps */ h_ReleaseClient_r(tclient); h_Release_r(thost); goto retry; } tclient->LastCall = thost->LastCall = FT_ApproxTime(); if (activecall) /* For all but "GetTime", "GetStats", and "GetCaps" calls */ thost->ActiveCall = thost->LastCall; h_Lock_r(thost); if (thost->hostFlags & HOSTDELETED) { ViceLog(3, ("Discarded a packet for deleted host %s:%d\n", afs_inet_ntoa_r(thost->host, hoststr), ntohs(thost->port))); code = VBUSY; /* raced, so retry */ } else if ((thost->hostFlags & VENUSDOWN) || (thost->hostFlags & HFE_LATER)) { if (BreakDelayedCallBacks_r(thost)) { ViceLog(0, ("BreakDelayedCallbacks FAILED for host %s:%d which IS UP. Connection from %s:%d. Possible network or routing failure.\n", afs_inet_ntoa_r(thost->host, hoststr), ntohs(thost->port), afs_inet_ntoa_r(rxr_HostOf(*tconn), hoststr2), ntohs(rxr_PortOf(*tconn)))); if (MultiProbeAlternateAddress_r(thost)) { ViceLog(0, ("MultiProbe failed to find new address for host %s:%d\n", afs_inet_ntoa_r(thost->host, hoststr), ntohs(thost->port))); code = -1; } else { ViceLog(0, ("MultiProbe found new address for host %s:%d\n", afs_inet_ntoa_r(thost->host, hoststr), ntohs(thost->port))); if (BreakDelayedCallBacks_r(thost)) { ViceLog(0, ("BreakDelayedCallbacks FAILED AGAIN for host %s:%d which IS UP. Connection from %s:%d. Possible network or routing failure.\n", afs_inet_ntoa_r(thost->host, hoststr), ntohs(thost->port), afs_inet_ntoa_r(rxr_HostOf(*tconn), hoststr2), ntohs(rxr_PortOf(*tconn)))); code = -1; } } } } else { code = 0; } h_ReleaseClient_r(tclient); h_Unlock_r(thost); H_UNLOCK; *ahostp = thost; return code; } /*CallPreamble */ static afs_int32 CallPostamble(struct rx_connection *aconn, afs_int32 ret, struct host *ahost) { struct host *thost; struct client *tclient; int translate = 0; H_LOCK; tclient = h_FindClient_r(aconn); if (!tclient) goto busyout; thost = tclient->host; if (thost->hostFlags & HERRORTRANS) translate = 1; h_ReleaseClient_r(tclient); if (ahost) { if (ahost != thost) { /* host/client recycle */ char hoststr[16], hoststr2[16]; ViceLog(0, ("CallPostamble: ahost %s:%d (%p) != thost " "%s:%d (%p)\n", afs_inet_ntoa_r(ahost->host, hoststr), ntohs(ahost->port), ahost, afs_inet_ntoa_r(thost->host, hoststr2), ntohs(thost->port), thost)); } /* return the reference taken in CallPreamble */ h_Release_r(ahost); } else { char hoststr[16]; ViceLog(0, ("CallPostamble: null ahost for thost %s:%d (%p)\n", afs_inet_ntoa_r(thost->host, hoststr), ntohs(thost->port), thost)); } /* return the reference taken in local h_FindClient_r--h_ReleaseClient_r * does not decrement refcount on client->host */ h_Release_r(thost); busyout: H_UNLOCK; return (translate ? sys_error_to_et(ret) : ret); } /*CallPostamble */ /* * Returns the volume and vnode pointers associated with file Fid; the lock * type on the vnode is set to lock. Note that both volume/vnode's ref counts * are incremented and they must be eventualy released. */ static afs_int32 CheckVnodeWithCall(AFSFid * fid, Volume ** volptr, struct VCallByVol *cbv, Vnode ** vptr, int lock) { Error fileCode = 0; Error local_errorCode, errorCode = -1; static struct timeval restartedat = { 0, 0 }; if (fid->Volume == 0 || fid->Vnode == 0) /* not: || fid->Unique == 0) */ return (EINVAL); if ((*volptr) == 0) { extern int VInit; while (1) { int restarting = #ifdef AFS_DEMAND_ATTACH_FS VSALVAGE #else VRESTARTING #endif ; static const struct timespec timeout_ts = { 0, 0 }; static const struct timespec * const ts = &timeout_ts; errorCode = 0; *volptr = VGetVolumeWithCall(&local_errorCode, &errorCode, fid->Volume, ts, cbv); if (!errorCode) { osi_Assert(*volptr); break; } if ((errorCode == VOFFLINE) && (VInit < 2)) { /* The volume we want may not be attached yet because * the volume initialization is not yet complete. * We can do several things: * 1. return -1, which will cause users to see * "connection timed out". This is more or * less the same as always, except that the servers * may appear to bounce up and down while they * are actually restarting. * 2. return VBUSY which will cause clients to * sleep and retry for 6.5 - 15 minutes, depending * on what version of the CM they are running. If * the file server takes longer than that interval * to attach the desired volume, then the application * will see an ENODEV or EIO. This approach has * the advantage that volumes which have been attached * are immediately available, it keeps the server's * immediate backlog low, and the call is interruptible * by the user. Users see "waiting for busy volume." * 3. sleep here and retry. Some people like this approach * because there is no danger of seeing errors. However, * this approach only works with a bounded number of * clients, since the pending queues will grow without * stopping. It might be better to find a way to take * this call and stick it back on a queue in order to * recycle this thread for a different request. * 4. Return a new error code, which new cache managers will * know enough to interpret as "sleep and retry", without * the upper bound of 6-15 minutes that is imposed by the * VBUSY handling. Users will see "waiting for * busy volume," so they know that something is * happening. Old cache managers must be able to do * something reasonable with this, for instance, mark the * server down. Fortunately, any error code < 0 * will elicit that behavior. See #1. * 5. Some combination of the above. I like doing #2 for 10 * minutes, followed by #4. 3.1b and 3.2 cache managers * will be fine as long as the restart period is * not longer than 6.5 minutes, otherwise they may * return ENODEV to users. 3.3 cache managers will be * fine for 10 minutes, then will return * ETIMEDOUT. 3.4 cache managers will just wait * until the call works or fails definitively. * NB. The problem with 2,3,4,5 is that old clients won't * fail over to an alternate read-only replica while this * server is restarting. 3.4 clients will fail over right away. */ if (restartedat.tv_sec == 0) { /* I'm not really worried about when we restarted, I'm */ /* just worried about when the first VBUSY was returned. */ FT_GetTimeOfDay(&restartedat, 0); if (busyonrst) { FS_LOCK; afs_perfstats.fs_nBusies++; FS_UNLOCK; } return (busyonrst ? VBUSY : restarting); } else { struct timeval now; FT_GetTimeOfDay(&now, 0); if ((now.tv_sec - restartedat.tv_sec) < (11 * 60)) { if (busyonrst) { FS_LOCK; afs_perfstats.fs_nBusies++; FS_UNLOCK; } return (busyonrst ? VBUSY : restarting); } else { return (restarting); } } } /* allow read operations on busy volume. * must check local_errorCode because demand attach fs * can have local_errorCode == VSALVAGING, errorCode == VBUSY */ else if (local_errorCode == VBUSY && lock == READ_LOCK) { #ifdef AFS_DEMAND_ATTACH_FS /* DAFS case is complicated by the fact that local_errorCode can * be VBUSY in cases where the volume is truly offline */ if (!*volptr) { /* volume is in VOL_STATE_UNATTACHED */ return (errorCode); } #endif /* AFS_DEMAND_ATTACH_FS */ errorCode = 0; break; } else if (errorCode) return (errorCode); } } osi_Assert(*volptr); /* get the vnode */ *vptr = VGetVnode(&errorCode, *volptr, fid->Vnode, lock); if (errorCode) return (errorCode); if ((*vptr)->disk.uniquifier != fid->Unique) { VPutVnode(&fileCode, *vptr); osi_Assert(fileCode == 0); *vptr = 0; return (VNOVNODE); /* return the right error code, at least */ } return (0); } /*CheckVnode */ static_inline afs_int32 CheckVnode(AFSFid * fid, Volume ** volptr, Vnode ** vptr, int lock) { return CheckVnodeWithCall(fid, volptr, NULL, vptr, lock); } /* * This routine returns the ACL associated with the targetptr. If the * targetptr isn't a directory, we access its parent dir and get the ACL * thru the parent; in such case the parent's vnode is returned in * READ_LOCK mode. */ static afs_int32 SetAccessList(Vnode ** targetptr, Volume ** volume, struct acl_accessList **ACL, int *ACLSize, Vnode ** parent, AFSFid * Fid, int Lock) { if ((*targetptr)->disk.type == vDirectory) { *parent = 0; *ACL = VVnodeACL(*targetptr); *ACLSize = VAclSize(*targetptr); return (0); } else { osi_Assert(Fid != 0); while (1) { VnodeId parentvnode; Error errorCode = 0; parentvnode = (*targetptr)->disk.parent; VPutVnode(&errorCode, *targetptr); *targetptr = 0; if (errorCode) return (errorCode); *parent = VGetVnode(&errorCode, *volume, parentvnode, READ_LOCK); if (errorCode) return (errorCode); *ACL = VVnodeACL(*parent); *ACLSize = VAclSize(*parent); if ((errorCode = CheckVnode(Fid, volume, targetptr, Lock)) != 0) return (errorCode); if ((*targetptr)->disk.parent != parentvnode) { VPutVnode(&errorCode, *parent); *parent = 0; if (errorCode) return (errorCode); } else return (0); } } } /*SetAccessList */ /* Must not be called with H_LOCK held */ static void client_CheckRights(struct client *client, struct acl_accessList *ACL, afs_int32 *rights) { *rights = 0; ObtainReadLock(&client->lock); if (client->CPS.prlist_len > 0 && !client->deleted && client->host && !(client->host->hostFlags & HOSTDELETED)) acl_CheckRights(ACL, &client->CPS, rights); ReleaseReadLock(&client->lock); } /* Must not be called with H_LOCK held */ static afs_int32 client_HasAsMember(struct client *client, afs_int32 id) { afs_int32 code = 0; ObtainReadLock(&client->lock); if (client->CPS.prlist_len > 0 && !client->deleted && client->host && !(client->host->hostFlags & HOSTDELETED)) code = acl_IsAMember(id, &client->CPS); ReleaseReadLock(&client->lock); return code; } /* * Compare the directory's ACL with the user's access rights in the client * connection and return the user's and everybody else's access permissions * in rights and anyrights, respectively */ static afs_int32 GetRights(struct client *client, struct acl_accessList *ACL, afs_int32 * rights, afs_int32 * anyrights) { extern prlist SystemAnyUserCPS; afs_int32 hrights = 0; if (acl_CheckRights(ACL, &SystemAnyUserCPS, anyrights) != 0) { ViceLog(0, ("CheckRights failed\n")); *anyrights = 0; } *rights = 0; client_CheckRights(client, ACL, rights); /* wait if somebody else is already doing the getCPS call */ H_LOCK; while (client->host->hostFlags & HCPS_INPROGRESS) { client->host->hostFlags |= HCPS_WAITING; /* I am waiting */ CV_WAIT(&client->host->cond, &host_glock_mutex); } if (!client->host->hcps.prlist_len || !client->host->hcps.prlist_val) { char hoststr[16]; ViceLog(5, ("CheckRights: len=%u, for host=%s:%d\n", client->host->hcps.prlist_len, afs_inet_ntoa_r(client->host->host, hoststr), ntohs(client->host->port))); } else acl_CheckRights(ACL, &client->host->hcps, &hrights); H_UNLOCK; /* Allow system:admin the rights given with the -implicit option */ if (client_HasAsMember(client, SystemId)) *rights |= implicitAdminRights; *rights |= hrights; *anyrights |= hrights; return (0); } /*GetRights */ /* * VanillaUser returns 1 (true) if the user is a vanilla user (i.e., not * a System:Administrator) */ static afs_int32 VanillaUser(struct client *client) { if (client_HasAsMember(client, SystemId)) return (0); /* not a system administrator, then you're "vanilla" */ return (1); } /*VanillaUser */ /*------------------------------------------------------------------------ * GetVolumePackageWithCall * * Description: * This unusual afs_int32-parameter routine encapsulates all volume * package related operations together in a single function; it's * called by almost all AFS interface calls. * * Arguments: * acall : Ptr to Rx call on which this request came in. * cbv : struct containing the RX call for offline cancels * Fid : the AFS fid the caller is acting on * volptr : returns a pointer to the volume struct * targetptr : returns a pointer to the vnode struct * chkforDir : whether to check for if vnode is a dir * parent : returns a pointer to the parent of this vnode * client : returns a pointer to the calling client * locktype : indicates what kind of lock to take on vnodes * rights : returns a pointer to caller's rights * anyrights : returns a pointer to anonymous' rights * * Returns: * 0 on success * appropriate error based on permission or invalid operation. * * Environment: * Nothing interesting. * * Side Effects: * On success, disables keepalives on the call. Caller should re-enable * after completing disk I/O. *------------------------------------------------------------------------*/ static afs_int32 GetVolumePackageWithCall(struct rx_call *acall, struct VCallByVol *cbv, AFSFid * Fid, Volume ** volptr, Vnode ** targetptr, int chkforDir, Vnode ** parent, struct client **client, int locktype, afs_int32 * rights, afs_int32 * anyrights) { struct acl_accessList *aCL; /* Internal access List */ int aCLSize; /* size of the access list */ Error errorCode = 0; /* return code to caller */ struct rx_connection *tcon = rx_ConnectionOf(acall); rx_KeepAliveOff(acall); if ((errorCode = CheckVnodeWithCall(Fid, volptr, cbv, targetptr, locktype))) goto gvpdone; if (chkforDir) { if (chkforDir == MustNOTBeDIR && ((*targetptr)->disk.type == vDirectory)) { errorCode = EISDIR; goto gvpdone; } else if (chkforDir == MustBeDIR && ((*targetptr)->disk.type != vDirectory)) { errorCode = ENOTDIR; goto gvpdone; } } if ((errorCode = SetAccessList(targetptr, volptr, &aCL, &aCLSize, parent, (chkforDir == MustBeDIR ? (AFSFid *) 0 : Fid), (chkforDir == MustBeDIR ? 0 : locktype))) != 0) goto gvpdone; if (chkforDir == MustBeDIR) osi_Assert((*parent) == 0); if (!(*client)) { if ((errorCode = GetClient(tcon, client)) != 0) goto gvpdone; if (!(*client)) { errorCode = EINVAL; goto gvpdone; } } GetRights(*client, aCL, rights, anyrights); /* ok, if this is not a dir, set the PRSFS_ADMINISTER bit iff we're the owner */ if ((*targetptr)->disk.type != vDirectory) { /* anyuser can't be owner, so only have to worry about rights, not anyrights */ if ((*targetptr)->disk.owner == (*client)->ViceId) (*rights) |= PRSFS_ADMINISTER; else (*rights) &= ~PRSFS_ADMINISTER; } #ifdef ADMIN_IMPLICIT_LOOKUP /* admins get automatic lookup on everything */ if (!VanillaUser(*client)) (*rights) |= PRSFS_LOOKUP; #endif /* ADMIN_IMPLICIT_LOOKUP */ gvpdone: if (errorCode) rx_KeepAliveOn(acall); return errorCode; } /*GetVolumePackage */ static_inline afs_int32 GetVolumePackage(struct rx_call *acall, AFSFid * Fid, Volume ** volptr, Vnode ** targetptr, int chkforDir, Vnode ** parent, struct client **client, int locktype, afs_int32 * rights, afs_int32 * anyrights) { return GetVolumePackageWithCall(acall, NULL, Fid, volptr, targetptr, chkforDir, parent, client, locktype, rights, anyrights); } /*------------------------------------------------------------------------ * PutVolumePackageWithCall * * Description: * This is the opposite of GetVolumePackage(), and is always used at * the end of AFS calls to put back all used vnodes and the volume * in the proper order! * * Arguments: * acall : Ptr to Rx call on which this request came in. * parentwhentargetnotdir : a pointer to the parent when the target isn't * a directory vnode * targetptr : a pointer to the vnode struct * parentptr : a pointer to the parent of this vnode * volptr : a pointer to the volume structure * client : a pointer to the calling client * cbv : struct containing the RX call for offline cancels * * Returns: * Nothing * * Environment: * Nothing interesting. * * Side Effects: * Enables keepalives on the call. *------------------------------------------------------------------------*/ static void PutVolumePackageWithCall(struct rx_call *acall, Vnode * parentwhentargetnotdir, Vnode * targetptr, Vnode * parentptr, Volume * volptr, struct client **client, struct VCallByVol *cbv) { Error fileCode = 0; /* Error code returned by the volume package */ rx_KeepAliveOff(acall); if (parentwhentargetnotdir) { VPutVnode(&fileCode, parentwhentargetnotdir); osi_Assert(!fileCode || (fileCode == VSALVAGE)); } if (targetptr) { VPutVnode(&fileCode, targetptr); osi_Assert(!fileCode || (fileCode == VSALVAGE)); } if (parentptr) { VPutVnode(&fileCode, parentptr); osi_Assert(!fileCode || (fileCode == VSALVAGE)); } if (volptr) { VPutVolumeWithCall(volptr, cbv); } rx_KeepAliveOn(acall); if (*client) { PutClient(client); } } /*PutVolumePackage */ static_inline void PutVolumePackage(struct rx_call *acall, Vnode * parentwhentargetnotdir, Vnode * targetptr, Vnode * parentptr, Volume * volptr, struct client **client) { PutVolumePackageWithCall(acall, parentwhentargetnotdir, targetptr, parentptr, volptr, client, NULL); } static int VolumeOwner(struct client *client, Vnode * targetptr) { afs_int32 owner = V_owner(targetptr->volumePtr); /* get volume owner */ if (owner >= 0) return (client->ViceId == owner); else { /* * We don't have to check for host's cps since only regular * viceid are volume owners. */ return (client_HasAsMember(client, owner)); } } /*VolumeOwner */ static int VolumeRootVnode(Vnode * targetptr) { return ((targetptr->vnodeNumber == ROOTVNODE) && (targetptr->disk.uniquifier == 1)); } /*VolumeRootVnode */ /* * Check if target file has the proper access permissions for the Fetch * (FetchData, FetchACL, FetchStatus) and Store (StoreData, StoreACL, * StoreStatus) related calls */ /* this code should probably just set a "priv" flag where all the audit events * are now, and only generate the audit event once at the end of the routine, * thus only generating the event if all the checks succeed, but only because * of the privilege XXX */ static afs_int32 Check_PermissionRights(Vnode * targetptr, struct client *client, afs_int32 rights, int CallingRoutine, AFSStoreStatus * InStatus) { Error errorCode = 0; #define OWNSp(client, target) ((client)->ViceId == (target)->disk.owner) #define CHOWN(i,t) (((i)->Mask & AFS_SETOWNER) &&((i)->Owner != (t)->disk.owner)) #define CHGRP(i,t) (((i)->Mask & AFS_SETGROUP) &&((i)->Group != (t)->disk.group)) if (CallingRoutine & CHK_FETCH) { if (CallingRoutine == CHK_FETCHDATA || VanillaUser(client)) { if (targetptr->disk.type == vDirectory || targetptr->disk.type == vSymlink) { if (!(rights & PRSFS_LOOKUP) #ifdef ADMIN_IMPLICIT_LOOKUP /* grant admins fetch on all directories */ && VanillaUser(client) #endif /* ADMIN_IMPLICIT_LOOKUP */ && !VolumeOwner(client, targetptr)) return (EACCES); } else { /* file */ /* must have read access, or be owner and have insert access */ if (!(rights & PRSFS_READ) && !((OWNSp(client, targetptr) && (rights & PRSFS_INSERT) && (client->ViceId != AnonymousID)))) return (EACCES); } if (CallingRoutine == CHK_FETCHDATA && targetptr->disk.type == vFile) #ifdef USE_GROUP_PERMS if (!OWNSp(client, targetptr) && !client_HasAsMember(client, targetptr->disk.owner)) { errorCode = (((GROUPREAD | GROUPEXEC) & targetptr->disk.modeBits) ? 0 : EACCES); } else { errorCode = (((OWNERREAD | OWNEREXEC) & targetptr->disk.modeBits) ? 0 : EACCES); } #else /* * The check with the ownership below is a kludge to allow * reading of files created with no read permission. The owner * of the file is always allowed to read it. */ if ((client->ViceId != targetptr->disk.owner) && VanillaUser(client)) errorCode = (((OWNERREAD | OWNEREXEC) & targetptr->disk. modeBits) ? 0 : EACCES); #endif } else { /* !VanillaUser(client) && !FetchData */ osi_audit(PrivilegeEvent, 0, AUD_ID, (client ? client->ViceId : 0), AUD_INT, CallingRoutine, AUD_END); } } else { /* a store operation */ if ((rights & PRSFS_INSERT) && OWNSp(client, targetptr) && (CallingRoutine != CHK_STOREACL) && (targetptr->disk.type == vFile)) { /* bypass protection checks on first store after a create * for the creator; also prevent chowns during this time * unless you are a system administrator */ /****** InStatus->Owner && UnixModeBits better be SET!! */ if (CHOWN(InStatus, targetptr) || CHGRP(InStatus, targetptr)) { if (readonlyServer) return (VREADONLY); else if (VanillaUser(client)) return (EPERM); /* Was EACCES */ else osi_audit(PrivilegeEvent, 0, AUD_ID, (client ? client->ViceId : 0), AUD_INT, CallingRoutine, AUD_END); } } else { if (CallingRoutine != CHK_STOREDATA && !VanillaUser(client)) { osi_audit(PrivilegeEvent, 0, AUD_ID, (client ? client->ViceId : 0), AUD_INT, CallingRoutine, AUD_END); } else { if (readonlyServer) { return (VREADONLY); } if (CallingRoutine == CHK_STOREACL) { if (!(rights & PRSFS_ADMINISTER) && !VolumeOwner(client, targetptr)) return (EACCES); } else { /* store data or status */ /* watch for chowns and chgrps */ if (CHOWN(InStatus, targetptr) || CHGRP(InStatus, targetptr)) { if (readonlyServer) return (VREADONLY); else if (VanillaUser(client)) return (EPERM); /* Was EACCES */ else osi_audit(PrivilegeEvent, 0, AUD_ID, (client ? client->ViceId : 0), AUD_INT, CallingRoutine, AUD_END); } /* must be sysadmin to set suid/sgid bits */ if ((InStatus->Mask & AFS_SETMODE) && #ifdef AFS_NT40_ENV (InStatus->UnixModeBits & 0xc00) != 0) { #else (InStatus->UnixModeBits & (S_ISUID | S_ISGID)) != 0) { #endif if (readonlyServer) return (VREADONLY); if (VanillaUser(client)) return (EACCES); else osi_audit(PrivSetID, 0, AUD_ID, (client ? client->ViceId : 0), AUD_INT, CallingRoutine, AUD_END); } if (CallingRoutine == CHK_STOREDATA) { if (readonlyServer) return (VREADONLY); if (!(rights & PRSFS_WRITE)) return (EACCES); /* Next thing is tricky. We want to prevent people * from writing files sans 0200 bit, but we want * creating new files with 0444 mode to work. We * don't check the 0200 bit in the "you are the owner" * path above, but here we check the bit. However, if * you're a system administrator, we ignore the 0200 * bit anyway, since you may have fchowned the file, * too */ #ifdef USE_GROUP_PERMS if ((targetptr->disk.type == vFile) && VanillaUser(client)) { if (!OWNSp(client, targetptr) && !client_HasAsMember(client, targetptr->disk.owner)) { errorCode = ((GROUPWRITE & targetptr->disk.modeBits) ? 0 : EACCES); } else { errorCode = ((OWNERWRITE & targetptr->disk.modeBits) ? 0 : EACCES); } } else #endif if ((targetptr->disk.type != vDirectory) && (!(targetptr->disk.modeBits & OWNERWRITE))) { if (readonlyServer) return (VREADONLY); if (VanillaUser(client)) return (EACCES); else osi_audit(PrivilegeEvent, 0, AUD_ID, (client ? client->ViceId : 0), AUD_INT, CallingRoutine, AUD_END); } } else { /* a status store */ if (readonlyServer) return (VREADONLY); if (targetptr->disk.type == vDirectory) { if (!(rights & PRSFS_DELETE) && !(rights & PRSFS_INSERT)) return (EACCES); } else { /* a file or symlink */ if (!(rights & PRSFS_WRITE)) return (EACCES); } } } } } } return (errorCode); } /*Check_PermissionRights */ /* * The Access List information is converted from its internal form in the * target's vnode buffer (or its parent vnode buffer if not a dir), to an * external form and returned back to the caller, via the AccessList * structure */ static afs_int32 RXFetch_AccessList(Vnode * targetptr, Vnode * parentwhentargetnotdir, struct AFSOpaque *AccessList) { char *eACL; /* External access list placeholder */ if (acl_Externalize_pr (hpr_IdToName, (targetptr->disk.type == vDirectory ? VVnodeACL(targetptr) : VVnodeACL(parentwhentargetnotdir)), &eACL) != 0) { return EIO; } if ((strlen(eACL) + 1) > AFSOPAQUEMAX) { acl_FreeExternalACL(&eACL); return (E2BIG); } else { strcpy((char *)(AccessList->AFSOpaque_val), (char *)eACL); AccessList->AFSOpaque_len = strlen(eACL) + 1; } acl_FreeExternalACL(&eACL); return (0); } /*RXFetch_AccessList */ /* * The Access List information is converted from its external form in the * input AccessList structure to the internal representation and copied into * the target dir's vnode storage. */ static afs_int32 RXStore_AccessList(Vnode * targetptr, struct AFSOpaque *AccessList) { struct acl_accessList *newACL; /* PlaceHolder for new access list */ if (acl_Internalize_pr(hpr_NameToId, AccessList->AFSOpaque_val, &newACL) != 0) return (EINVAL); if ((newACL->size + 4) > VAclSize(targetptr)) return (E2BIG); memcpy((char *)VVnodeACL(targetptr), (char *)newACL, (int)(newACL->size)); acl_FreeACL(&newACL); return (0); } /*RXStore_AccessList */ /* In our current implementation, each successive data store (new file * data version) creates a new inode. This function creates the new * inode, copies the old inode's contents to the new one, remove the old * inode (i.e. decrement inode count -- if it's currently used the delete * will be delayed), and modify some fields (i.e. vnode's * disk.inodeNumber and cloned) */ #define COPYBUFFSIZE 8192 #define MAXFSIZE (~(afs_fsize_t) 0) static int CopyOnWrite(Vnode * targetptr, Volume * volptr, afs_foff_t off, afs_fsize_t len) { Inode ino; Inode nearInode AFS_UNUSED; ssize_t rdlen; ssize_t wrlen; afs_fsize_t size; afs_foff_t done; size_t length; char *buff; int rc; /* return code */ IHandle_t *newH; /* Use until finished copying, then cp to vnode. */ FdHandle_t *targFdP; /* Source Inode file handle */ FdHandle_t *newFdP; /* Dest Inode file handle */ if (targetptr->disk.type == vDirectory) DFlush(); /* just in case? */ VN_GET_LEN(size, targetptr); if (size > off) size -= off; else size = 0; if (size > len) size = len; buff = (char *)malloc(COPYBUFFSIZE); if (buff == NULL) { return EIO; } ino = VN_GET_INO(targetptr); if (!VALID_INO(ino)) { free(buff); VTakeOffline(volptr); ViceLog(0, ("Volume %u now offline, must be salvaged.\n", volptr->hashid)); return EIO; } targFdP = IH_OPEN(targetptr->handle); if (targFdP == NULL) { rc = errno; ViceLog(0, ("CopyOnWrite failed: Failed to open target vnode %u in volume %u (errno = %d)\n", targetptr->vnodeNumber, V_id(volptr), rc)); free(buff); VTakeOffline(volptr); return rc; } nearInode = VN_GET_INO(targetptr); ino = IH_CREATE(V_linkHandle(volptr), V_device(volptr), VPartitionPath(V_partition(volptr)), nearInode, V_id(volptr), targetptr->vnodeNumber, targetptr->disk.uniquifier, (int)targetptr->disk.dataVersion); if (!VALID_INO(ino)) { ViceLog(0, ("CopyOnWrite failed: Partition %s that contains volume %u may be out of free inodes(errno = %d)\n", volptr->partition->name, V_id(volptr), errno)); FDH_CLOSE(targFdP); free(buff); return ENOSPC; } IH_INIT(newH, V_device(volptr), V_id(volptr), ino); newFdP = IH_OPEN(newH); osi_Assert(newFdP != NULL); done = off; while (size > 0) { if (size > COPYBUFFSIZE) { /* more than a buffer */ length = COPYBUFFSIZE; size -= COPYBUFFSIZE; } else { length = size; size = 0; } rdlen = FDH_PREAD(targFdP, buff, length, done); if (rdlen == length) { wrlen = FDH_PWRITE(newFdP, buff, length, done); done += rdlen; } else wrlen = 0; /* Callers of this function are not prepared to recover * from error that put the filesystem in an inconsistent * state. Make sure that we force the volume off-line if * we some error other than ENOSPC - 4.29.99) * * In case we are unable to write the required bytes, and the * error code indicates that the disk is full, we roll-back to * the initial state. */ if ((rdlen != length) || (wrlen != length)) { if ((wrlen < 0) && (errno == ENOSPC)) { /* disk full */ ViceLog(0, ("CopyOnWrite failed: Partition %s containing volume %u is full\n", volptr->partition->name, V_id(volptr))); /* remove destination inode which was partially copied till now */ FDH_REALLYCLOSE(newFdP); IH_RELEASE(newH); FDH_REALLYCLOSE(targFdP); rc = IH_DEC(V_linkHandle(volptr), ino, V_parentId(volptr)); if (rc) { ViceLog(0, ("CopyOnWrite failed: error %u after i_dec on disk full, volume %u in partition %s needs salvage\n", rc, V_id(volptr), volptr->partition->name)); VTakeOffline(volptr); } free(buff); return ENOSPC; } else { /* length, rdlen, and wrlen may or may not be 64-bits wide; * since we never do any I/O anywhere near 2^32 bytes at a * time, just case to an unsigned int for printing */ ViceLog(0, ("CopyOnWrite failed: volume %u in partition %s (tried reading %u, read %u, wrote %u, errno %u) volume needs salvage\n", V_id(volptr), volptr->partition->name, (unsigned)length, (unsigned)rdlen, (unsigned)wrlen, errno)); #if defined(AFS_DEMAND_ATTACH_FS) ViceLog(0, ("CopyOnWrite failed: requesting salvage\n")); #else ViceLog(0, ("CopyOnWrite failed: taking volume offline\n")); #endif /* Decrement this inode so salvager doesn't find it. */ FDH_REALLYCLOSE(newFdP); IH_RELEASE(newH); FDH_REALLYCLOSE(targFdP); rc = IH_DEC(V_linkHandle(volptr), ino, V_parentId(volptr)); free(buff); VTakeOffline(volptr); return EIO; } } } FDH_REALLYCLOSE(targFdP); rc = IH_DEC(V_linkHandle(volptr), VN_GET_INO(targetptr), V_parentId(volptr)); osi_Assert(!rc); IH_RELEASE(targetptr->handle); rc = FDH_SYNC(newFdP); osi_Assert(rc == 0); FDH_CLOSE(newFdP); targetptr->handle = newH; VN_SET_INO(targetptr, ino); targetptr->disk.cloned = 0; /* Internal change to vnode, no user level change to volume - def 5445 */ targetptr->changed_oldTime = 1; free(buff); return 0; /* success */ } /*CopyOnWrite */ /* * Common code to handle with removing the Name (file when it's called from * SAFS_RemoveFile() or an empty dir when called from SAFS_rmdir()) from a * given directory, parentptr. */ int DT1 = 0, DT0 = 0; static afs_int32 DeleteTarget(Vnode * parentptr, Volume * volptr, Vnode ** targetptr, DirHandle * dir, AFSFid * fileFid, char *Name, int ChkForDir) { DirHandle childdir; /* Handle for dir package I/O */ Error errorCode = 0; int code; afs_ino_str_t stmp; /* watch for invalid names */ if (!strcmp(Name, ".") || !strcmp(Name, "..")) return (EINVAL); if (CheckLength(volptr, parentptr, -1)) { VTakeOffline(volptr); return VSALVAGE; } if (parentptr->disk.cloned) { ViceLog(25, ("DeleteTarget : CopyOnWrite called\n")); if ((errorCode = CopyOnWrite(parentptr, volptr, 0, MAXFSIZE))) { ViceLog(20, ("DeleteTarget %s: CopyOnWrite failed %d\n", Name, errorCode)); return errorCode; } } /* check that the file is in the directory */ SetDirHandle(dir, parentptr); if (afs_dir_Lookup(dir, Name, fileFid)) return (ENOENT); fileFid->Volume = V_id(volptr); /* just-in-case check for something causing deadlock */ if (fileFid->Vnode == parentptr->vnodeNumber) return (EINVAL); *targetptr = VGetVnode(&errorCode, volptr, fileFid->Vnode, WRITE_LOCK); if (errorCode) { return (errorCode); } if (ChkForDir == MustBeDIR) { if ((*targetptr)->disk.type != vDirectory) return (ENOTDIR); } else if ((*targetptr)->disk.type == vDirectory) return (EISDIR); /*osi_Assert((*targetptr)->disk.uniquifier == fileFid->Unique); */ /** * If the uniquifiers dont match then instead of asserting * take the volume offline and return VSALVAGE */ if ((*targetptr)->disk.uniquifier != fileFid->Unique) { VTakeOffline(volptr); ViceLog(0, ("Volume %u now offline, must be salvaged.\n", volptr->hashid)); errorCode = VSALVAGE; return errorCode; } if (ChkForDir == MustBeDIR) { SetDirHandle(&childdir, *targetptr); if (afs_dir_IsEmpty(&childdir) != 0) return (EEXIST); DZap(&childdir); FidZap(&childdir); (*targetptr)->delete = 1; } else if ((--(*targetptr)->disk.linkCount) == 0) (*targetptr)->delete = 1; if ((*targetptr)->delete) { if (VN_GET_INO(*targetptr)) { DT0++; IH_REALLYCLOSE((*targetptr)->handle); errorCode = IH_DEC(V_linkHandle(volptr), VN_GET_INO(*targetptr), V_parentId(volptr)); IH_RELEASE((*targetptr)->handle); if (errorCode == -1) { ViceLog(0, ("DT: inode=%s, name=%s, errno=%d\n", PrintInode(stmp, VN_GET_INO(*targetptr)), Name, errno)); if (errno != ENOENT) { VTakeOffline(volptr); ViceLog(0, ("Volume %u now offline, must be salvaged.\n", volptr->hashid)); return (EIO); } DT1++; errorCode = 0; } } VN_SET_INO(*targetptr, (Inode) 0); { afs_fsize_t adjLength; VN_GET_LEN(adjLength, *targetptr); VAdjustDiskUsage(&errorCode, volptr, -(int)nBlocks(adjLength), 0); } } (*targetptr)->changed_newTime = 1; /* Status change of deleted file/dir */ code = afs_dir_Delete(dir, Name); if (code) { ViceLog(0, ("Error %d deleting %s\n", code, (((*targetptr)->disk.type == Directory) ? "directory" : "file"))); VTakeOffline(volptr); ViceLog(0, ("Volume %u now offline, must be salvaged.\n", volptr->hashid)); if (!errorCode) errorCode = code; } DFlush(); return (errorCode); } /*DeleteTarget */ /* * This routine updates the parent directory's status block after the * specified operation (i.e. RemoveFile(), CreateFile(), Rename(), * SymLink(), Link(), MakeDir(), RemoveDir()) on one of its children has * been performed. */ static void Update_ParentVnodeStatus(Vnode * parentptr, Volume * volptr, DirHandle * dir, int author, int linkcount, char a_inSameNetwork) { afs_fsize_t newlength; /* Holds new directory length */ afs_fsize_t parentLength; Error errorCode; Date currDate; /*Current date */ int writeIdx; /*Write index to bump */ int timeIdx; /*Authorship time index to bump */ parentptr->disk.dataVersion++; newlength = (afs_fsize_t) afs_dir_Length(dir); /* * This is a called on both dir removals (i.e. remove, removedir, rename) but also in dir additions * (create, symlink, link, makedir) so we need to check if we have enough space * XXX But we still don't check the error since we're dealing with dirs here and really the increase * of a new entry would be too tiny to worry about failures (since we have all the existing cushion) */ VN_GET_LEN(parentLength, parentptr); if (nBlocks(newlength) != nBlocks(parentLength)) { VAdjustDiskUsage(&errorCode, volptr, (nBlocks(newlength) - nBlocks(parentLength)), (nBlocks(newlength) - nBlocks(parentLength))); } VN_SET_LEN(parentptr, newlength); /* * Update directory write stats for this volume. Note that the auth * counter is located immediately after its associated ``distance'' * counter. */ if (a_inSameNetwork) writeIdx = VOL_STATS_SAME_NET; else writeIdx = VOL_STATS_DIFF_NET; V_stat_writes(volptr, writeIdx)++; if (author != AnonymousID) { V_stat_writes(volptr, writeIdx + 1)++; } /* * Update the volume's authorship information in response to this * directory operation. Get the current time, decide to which time * slot this operation belongs, and bump the appropriate slot. */ currDate = (FT_ApproxTime() - parentptr->disk.unixModifyTime); timeIdx = (currDate < VOL_STATS_TIME_CAP_0 ? VOL_STATS_TIME_IDX_0 : currDate < VOL_STATS_TIME_CAP_1 ? VOL_STATS_TIME_IDX_1 : currDate < VOL_STATS_TIME_CAP_2 ? VOL_STATS_TIME_IDX_2 : currDate < VOL_STATS_TIME_CAP_3 ? VOL_STATS_TIME_IDX_3 : currDate < VOL_STATS_TIME_CAP_4 ? VOL_STATS_TIME_IDX_4 : VOL_STATS_TIME_IDX_5); if (parentptr->disk.author == author) { V_stat_dirSameAuthor(volptr, timeIdx)++; } else { V_stat_dirDiffAuthor(volptr, timeIdx)++; } parentptr->disk.author = author; parentptr->disk.linkCount = linkcount; parentptr->disk.unixModifyTime = FT_ApproxTime(); /* This should be set from CLIENT!! */ parentptr->disk.serverModifyTime = FT_ApproxTime(); parentptr->changed_newTime = 1; /* vnode changed, write it back. */ } /* * Update the target file's (or dir's) status block after the specified * operation is complete. Note that some other fields maybe updated by * the individual module. */ /* XXX INCOMPLETE - More attention is needed here! */ static void Update_TargetVnodeStatus(Vnode * targetptr, afs_uint32 Caller, struct client *client, AFSStoreStatus * InStatus, Vnode * parentptr, Volume * volptr, afs_fsize_t length) { Date currDate; /*Current date */ int writeIdx; /*Write index to bump */ int timeIdx; /*Authorship time index to bump */ if (Caller & (TVS_CFILE | TVS_SLINK | TVS_MKDIR)) { /* initialize new file */ targetptr->disk.parent = parentptr->vnodeNumber; VN_SET_LEN(targetptr, length); /* targetptr->disk.group = 0; save some cycles */ targetptr->disk.modeBits = 0777; targetptr->disk.owner = client->ViceId; targetptr->disk.dataVersion = 0; /* consistent with the client */ targetptr->disk.linkCount = (Caller & TVS_MKDIR ? 2 : 1); /* the inode was created in Alloc_NewVnode() */ } /* * Update file write stats for this volume. Note that the auth * counter is located immediately after its associated ``distance'' * counter. */ if (client->InSameNetwork) writeIdx = VOL_STATS_SAME_NET; else writeIdx = VOL_STATS_DIFF_NET; V_stat_writes(volptr, writeIdx)++; if (client->ViceId != AnonymousID) { V_stat_writes(volptr, writeIdx + 1)++; } /* * We only count operations that DON'T involve creating new objects * (files, symlinks, directories) or simply setting status as * authorship-change operations. */ if (!(Caller & (TVS_CFILE | TVS_SLINK | TVS_MKDIR | TVS_SSTATUS))) { /* * Update the volume's authorship information in response to this * file operation. Get the current time, decide to which time * slot this operation belongs, and bump the appropriate slot. */ currDate = (FT_ApproxTime() - targetptr->disk.unixModifyTime); timeIdx = (currDate < VOL_STATS_TIME_CAP_0 ? VOL_STATS_TIME_IDX_0 : currDate < VOL_STATS_TIME_CAP_1 ? VOL_STATS_TIME_IDX_1 : currDate < VOL_STATS_TIME_CAP_2 ? VOL_STATS_TIME_IDX_2 : currDate < VOL_STATS_TIME_CAP_3 ? VOL_STATS_TIME_IDX_3 : currDate < VOL_STATS_TIME_CAP_4 ? VOL_STATS_TIME_IDX_4 : VOL_STATS_TIME_IDX_5); if (targetptr->disk.author == client->ViceId) { V_stat_fileSameAuthor(volptr, timeIdx)++; } else { V_stat_fileDiffAuthor(volptr, timeIdx)++; } } if (!(Caller & TVS_SSTATUS)) targetptr->disk.author = client->ViceId; if (Caller & TVS_SDATA) { targetptr->disk.dataVersion++; if (VanillaUser(client)) { targetptr->disk.modeBits &= ~04000; /* turn off suid for file. */ #ifdef CREATE_SGUID_ADMIN_ONLY targetptr->disk.modeBits &= ~02000; /* turn off sgid for file. */ #endif } } if (Caller & TVS_SSTATUS) { /* update time on non-status change */ /* store status, must explicitly request to change the date */ if (InStatus->Mask & AFS_SETMODTIME) targetptr->disk.unixModifyTime = InStatus->ClientModTime; } else { /* other: date always changes, but perhaps to what is specified by caller */ targetptr->disk.unixModifyTime = (InStatus->Mask & AFS_SETMODTIME ? InStatus-> ClientModTime : FT_ApproxTime()); } if (InStatus->Mask & AFS_SETOWNER) { /* admin is allowed to do chmod, chown as well as chown, chmod. */ if (VanillaUser(client)) { targetptr->disk.modeBits &= ~04000; /* turn off suid for file. */ #ifdef CREATE_SGUID_ADMIN_ONLY targetptr->disk.modeBits &= ~02000; /* turn off sgid for file. */ #endif } targetptr->disk.owner = InStatus->Owner; if (VolumeRootVnode(targetptr)) { Error errorCode = 0; /* what should be done with this? */ V_owner(targetptr->volumePtr) = InStatus->Owner; VUpdateVolume(&errorCode, targetptr->volumePtr); } } if (InStatus->Mask & AFS_SETMODE) { int modebits = InStatus->UnixModeBits; #define CREATE_SGUID_ADMIN_ONLY 1 #ifdef CREATE_SGUID_ADMIN_ONLY if (VanillaUser(client)) modebits = modebits & 0777; #endif if (VanillaUser(client)) { targetptr->disk.modeBits = modebits; } else { targetptr->disk.modeBits = modebits; switch (Caller) { case TVS_SDATA: osi_audit(PrivSetID, 0, AUD_ID, client->ViceId, AUD_INT, CHK_STOREDATA, AUD_END); break; case TVS_CFILE: case TVS_SSTATUS: osi_audit(PrivSetID, 0, AUD_ID, client->ViceId, AUD_INT, CHK_STORESTATUS, AUD_END); break; default: break; } } } targetptr->disk.serverModifyTime = FT_ApproxTime(); if (InStatus->Mask & AFS_SETGROUP) targetptr->disk.group = InStatus->Group; /* vnode changed : to be written back by VPutVnode */ targetptr->changed_newTime = 1; } /*Update_TargetVnodeStatus */ /* * Fills the CallBack structure with the expiration time and type of callback * structure. Warning: this function is currently incomplete. */ static void SetCallBackStruct(afs_uint32 CallBackTime, struct AFSCallBack *CallBack) { /* CallBackTime could not be 0 */ if (CallBackTime == 0) { ViceLog(0, ("WARNING: CallBackTime == 0!\n")); CallBack->ExpirationTime = 0; } else CallBack->ExpirationTime = CallBackTime - FT_ApproxTime(); CallBack->CallBackVersion = CALLBACK_VERSION; CallBack->CallBackType = CB_SHARED; /* The default for now */ } /*SetCallBackStruct */ /* * Adjusts (Subtract) "length" number of blocks from the volume's disk * allocation; if some error occured (exceeded volume quota or partition * was full, or whatever), it frees the space back and returns the code. * We usually pre-adjust the volume space to make sure that there's * enough space before consuming some. */ static afs_int32 AdjustDiskUsage(Volume * volptr, afs_sfsize_t length, afs_sfsize_t checkLength) { Error rc; Error nc; VAdjustDiskUsage(&rc, volptr, length, checkLength); if (rc) { VAdjustDiskUsage(&nc, volptr, -length, 0); if (rc == VOVERQUOTA) { ViceLog(2, ("Volume %u (%s) is full\n", V_id(volptr), V_name(volptr))); return (rc); } if (rc == VDISKFULL) { ViceLog(0, ("Partition %s that contains volume %u is full\n", volptr->partition->name, V_id(volptr))); return (rc); } ViceLog(0, ("Got error return %d from VAdjustDiskUsage\n", rc)); return (rc); } return (0); } /*AdjustDiskUsage */ /* * Common code that handles the creation of a new file (SAFS_CreateFile and * SAFS_Symlink) or a new dir (SAFS_MakeDir) */ static afs_int32 Alloc_NewVnode(Vnode * parentptr, DirHandle * dir, Volume * volptr, Vnode ** targetptr, char *Name, struct AFSFid *OutFid, int FileType, afs_sfsize_t BlocksPreallocatedForVnode) { Error errorCode = 0; /* Error code returned back */ Error temp; Inode inode = 0; Inode nearInode AFS_UNUSED; /* hint for inode allocation in solaris */ afs_ino_str_t stmp; if ((errorCode = AdjustDiskUsage(volptr, BlocksPreallocatedForVnode, BlocksPreallocatedForVnode))) { ViceLog(25, ("Insufficient space to allocate %lld blocks\n", (afs_intmax_t) BlocksPreallocatedForVnode)); return (errorCode); } if (CheckLength(volptr, parentptr, -1)) { VAdjustDiskUsage(&temp, volptr, -BlocksPreallocatedForVnode, 0); VTakeOffline(volptr); return VSALVAGE; } *targetptr = VAllocVnode(&errorCode, volptr, FileType, 0, 0); if (errorCode != 0) { VAdjustDiskUsage(&temp, volptr, -BlocksPreallocatedForVnode, 0); return (errorCode); } OutFid->Volume = V_id(volptr); OutFid->Vnode = (*targetptr)->vnodeNumber; OutFid->Unique = (*targetptr)->disk.uniquifier; nearInode = VN_GET_INO(parentptr); /* parent is also in same vol */ /* create the inode now itself */ inode = IH_CREATE(V_linkHandle(volptr), V_device(volptr), VPartitionPath(V_partition(volptr)), nearInode, V_id(volptr), (*targetptr)->vnodeNumber, (*targetptr)->disk.uniquifier, 1); /* error in creating inode */ if (!VALID_INO(inode)) { ViceLog(0, ("Volume : %u vnode = %u Failed to create inode: errno = %d\n", (*targetptr)->volumePtr->header->diskstuff.id, (*targetptr)->vnodeNumber, errno)); VAdjustDiskUsage(&temp, volptr, -BlocksPreallocatedForVnode, 0); (*targetptr)->delete = 1; /* delete vnode */ return ENOSPC; } VN_SET_INO(*targetptr, inode); IH_INIT(((*targetptr)->handle), V_device(volptr), V_id(volptr), inode); /* copy group from parent dir */ (*targetptr)->disk.group = parentptr->disk.group; if (parentptr->disk.cloned) { ViceLog(25, ("Alloc_NewVnode : CopyOnWrite called\n")); if ((errorCode = CopyOnWrite(parentptr, volptr, 0, MAXFSIZE))) { /* disk full */ ViceLog(25, ("Alloc_NewVnode : CopyOnWrite failed\n")); /* delete the vnode previously allocated */ (*targetptr)->delete = 1; VAdjustDiskUsage(&temp, volptr, -BlocksPreallocatedForVnode, 0); IH_REALLYCLOSE((*targetptr)->handle); if (IH_DEC(V_linkHandle(volptr), inode, V_parentId(volptr))) ViceLog(0, ("Alloc_NewVnode: partition %s idec %s failed\n", volptr->partition->name, PrintInode(stmp, inode))); IH_RELEASE((*targetptr)->handle); return errorCode; } } /* add the name to the directory */ SetDirHandle(dir, parentptr); if ((errorCode = afs_dir_Create(dir, Name, OutFid))) { (*targetptr)->delete = 1; VAdjustDiskUsage(&temp, volptr, -BlocksPreallocatedForVnode, 0); IH_REALLYCLOSE((*targetptr)->handle); if (IH_DEC(V_linkHandle(volptr), inode, V_parentId(volptr))) ViceLog(0, ("Alloc_NewVnode: partition %s idec %s failed\n", volptr->partition->name, PrintInode(stmp, inode))); IH_RELEASE((*targetptr)->handle); return (errorCode); } DFlush(); return (0); } /*Alloc_NewVnode */ /* * Handle all the lock-related code (SAFS_SetLock, SAFS_ExtendLock and * SAFS_ReleaseLock) */ static afs_int32 HandleLocking(Vnode * targetptr, struct client *client, afs_int32 rights, ViceLockType LockingType) { int Time; /* Used for time */ int writeVnode = targetptr->changed_oldTime; /* save original status */ targetptr->changed_oldTime = 1; /* locking doesn't affect any time stamp */ Time = FT_ApproxTime(); switch (LockingType) { case LockRead: case LockWrite: if (Time > targetptr->disk.lock.lockTime) targetptr->disk.lock.lockTime = targetptr->disk.lock.lockCount = 0; Time += AFS_LOCKWAIT; if (LockingType == LockRead) { if ( !(rights & PRSFS_LOCK) && !(rights & PRSFS_WRITE) && !(OWNSp(client, targetptr) && (rights & PRSFS_INSERT)) ) return(EACCES); if (targetptr->disk.lock.lockCount >= 0) { ++(targetptr->disk.lock.lockCount); targetptr->disk.lock.lockTime = Time; } else return (EAGAIN); } else if (LockingType == LockWrite) { if ( !(rights & PRSFS_WRITE) && !(OWNSp(client, targetptr) && (rights & PRSFS_INSERT)) ) return(EACCES); if (targetptr->disk.lock.lockCount == 0) { targetptr->disk.lock.lockCount = -1; targetptr->disk.lock.lockTime = Time; } else return (EAGAIN); } break; case LockExtend: Time += AFS_LOCKWAIT; if (targetptr->disk.lock.lockCount != 0) targetptr->disk.lock.lockTime = Time; else return (EINVAL); break; case LockRelease: if ((--targetptr->disk.lock.lockCount) <= 0) targetptr->disk.lock.lockCount = targetptr->disk.lock.lockTime = 0; break; default: targetptr->changed_oldTime = writeVnode; /* restore old status */ ViceLog(0, ("Illegal Locking type %d\n", LockingType)); } return (0); } /*HandleLocking */ /* Checks if caller has the proper AFS and Unix (WRITE) access permission to the target directory; Prfs_Mode refers to the AFS Mode operation while rights contains the caller's access permissions to the directory. */ static afs_int32 CheckWriteMode(Vnode * targetptr, afs_int32 rights, int Prfs_Mode) { if (readonlyServer) return (VREADONLY); if (!(rights & Prfs_Mode)) return (EACCES); if ((targetptr->disk.type != vDirectory) && (!(targetptr->disk.modeBits & OWNERWRITE))) return (EACCES); return (0); } /* * If some flags (i.e. min or max quota) are set, the volume's in disk * label is updated; Name, OfflineMsg, and Motd are also reflected in the * update, if applicable. */ static afs_int32 RXUpdate_VolumeStatus(Volume * volptr, AFSStoreVolumeStatus * StoreVolStatus, char *Name, char *OfflineMsg, char *Motd) { Error errorCode = 0; if (StoreVolStatus->Mask & AFS_SETMINQUOTA) V_minquota(volptr) = StoreVolStatus->MinQuota; if (StoreVolStatus->Mask & AFS_SETMAXQUOTA) V_maxquota(volptr) = StoreVolStatus->MaxQuota; if (strlen(OfflineMsg) > 0) { strcpy(V_offlineMessage(volptr), OfflineMsg); } if (strlen(Name) > 0) { strcpy(V_name(volptr), Name); } /* * We don't overwrite the motd field, since it's now being used * for stats */ VUpdateVolume(&errorCode, volptr); return (errorCode); } /*RXUpdate_VolumeStatus */ static afs_int32 RXGetVolumeStatus(AFSFetchVolumeStatus * status, char **name, char **offMsg, char **motd, Volume * volptr) { int temp; status->Vid = V_id(volptr); status->ParentId = V_parentId(volptr); status->Online = V_inUse(volptr); status->InService = V_inService(volptr); status->Blessed = V_blessed(volptr); status->NeedsSalvage = V_needsSalvaged(volptr); if (VolumeWriteable(volptr)) status->Type = ReadWrite; else status->Type = ReadOnly; status->MinQuota = V_minquota(volptr); status->MaxQuota = V_maxquota(volptr); status->BlocksInUse = V_diskused(volptr); status->PartBlocksAvail = RoundInt64ToInt31(volptr->partition->free); status->PartMaxBlocks = RoundInt64ToInt31(volptr->partition->totalUsable); /* now allocate and copy these things; they're freed by the RXGEN stub */ temp = strlen(V_name(volptr)) + 1; *name = malloc(temp); if (!*name) { ViceLogThenPanic(0, ("Failed malloc in RXGetVolumeStatus\n")); } strcpy(*name, V_name(volptr)); temp = strlen(V_offlineMessage(volptr)) + 1; *offMsg = malloc(temp); if (!*offMsg) { ViceLogThenPanic(0, ("Failed malloc in RXGetVolumeStatus\n")); } strcpy(*offMsg, V_offlineMessage(volptr)); *motd = malloc(1); if (!*motd) { ViceLogThenPanic(0, ("Failed malloc in RXGetVolumeStatus\n")); } strcpy(*motd, nullString); return 0; } /*RXGetVolumeStatus */ static afs_int32 FileNameOK(char *aname) { afs_int32 i, tc; i = strlen(aname); if (i >= 4) { /* watch for @sys on the right */ if (strcmp(aname + i - 4, "@sys") == 0) return 0; } while ((tc = *aname++)) { if (tc == '/') return 0; /* very bad character to encounter */ } return 1; /* file name is ok */ } /*FileNameOK */ /* * This variant of symlink is expressly to support the AFS/DFS translator * and is not supported by the AFS fileserver. We just return EINVAL. * The cache manager should not generate this call to an AFS cache manager. */ afs_int32 SRXAFS_DFSSymlink(struct rx_call *acall, struct AFSFid *DirFid, char *Name, char *LinkContents, struct AFSStoreStatus *InStatus, struct AFSFid *OutFid, struct AFSFetchStatus *OutFidStatus, struct AFSFetchStatus *OutDirStatus, struct AFSCallBack *CallBack, struct AFSVolSync *Sync) { return EINVAL; } afs_int32 SRXAFS_FsCmd(struct rx_call * acall, struct AFSFid * Fid, struct FsCmdInputs * Inputs, struct FsCmdOutputs * Outputs) { afs_int32 code = 0; switch (Inputs->command) { default: code = EINVAL; } ViceLog(1,("FsCmd: cmd = %d, code=%d\n", Inputs->command, Outputs->code)); return code; } #ifndef HAVE_PIOV static struct afs_buffer { struct afs_buffer *next; } *freeBufferList = 0; static int afs_buffersAlloced = 0; static int FreeSendBuffer(struct afs_buffer *adata) { FS_LOCK; afs_buffersAlloced--; adata->next = freeBufferList; freeBufferList = adata; FS_UNLOCK; return 0; } /*FreeSendBuffer */ /* allocate space for sender */ static char * AllocSendBuffer(void) { struct afs_buffer *tp; FS_LOCK; afs_buffersAlloced++; if (!freeBufferList) { char *tmp; FS_UNLOCK; tmp = malloc(sendBufSize); if (!tmp) { ViceLogThenPanic(0, ("Failed malloc in AllocSendBuffer\n")); } return tmp; } tp = freeBufferList; freeBufferList = tp->next; FS_UNLOCK; return (char *)tp; } /*AllocSendBuffer */ #endif /* HAVE_PIOV */ /* * This routine returns the status info associated with the targetptr vnode * in the AFSFetchStatus structure. Some of the newer fields, such as * SegSize and Group are not yet implemented */ static void GetStatus(Vnode * targetptr, AFSFetchStatus * status, afs_int32 rights, afs_int32 anyrights, Vnode * parentptr) { int Time =FT_ApproxTime(); /* initialize return status from a vnode */ status->InterfaceVersion = 1; status->SyncCounter = status->dataVersionHigh = status->lockCount = status->errorCode = 0; status->ResidencyMask = 1; /* means for MR-AFS: file in /vicepr-partition */ if (targetptr->disk.type == vFile) status->FileType = File; else if (targetptr->disk.type == vDirectory) status->FileType = Directory; else if (targetptr->disk.type == vSymlink) status->FileType = SymbolicLink; else status->FileType = Invalid; /*invalid type field */ status->LinkCount = targetptr->disk.linkCount; { afs_fsize_t targetLen; VN_GET_LEN(targetLen, targetptr); SplitOffsetOrSize(targetLen, status->Length_hi, status->Length); } status->DataVersion = targetptr->disk.dataVersion; status->Author = targetptr->disk.author; status->Owner = targetptr->disk.owner; status->CallerAccess = rights; status->AnonymousAccess = anyrights; status->UnixModeBits = targetptr->disk.modeBits; status->ClientModTime = targetptr->disk.unixModifyTime; /* This might need rework */ status->ParentVnode = (status->FileType == Directory ? targetptr->vnodeNumber : parentptr->vnodeNumber); status->ParentUnique = (status->FileType == Directory ? targetptr->disk.uniquifier : parentptr->disk.uniquifier); status->ServerModTime = targetptr->disk.serverModifyTime; status->Group = targetptr->disk.group; status->lockCount = Time > targetptr->disk.lock.lockTime ? 0 : targetptr->disk.lock.lockCount; status->errorCode = 0; } /*GetStatus */ static afs_int32 common_FetchData64(struct rx_call *acall, struct AFSFid *Fid, afs_sfsize_t Pos, afs_sfsize_t Len, struct AFSFetchStatus *OutStatus, struct AFSCallBack *CallBack, struct AFSVolSync *Sync, int type) { Vnode *targetptr = 0; /* pointer to vnode to fetch */ Vnode *parentwhentargetnotdir = 0; /* parent vnode if vptr is a file */ Vnode tparentwhentargetnotdir; /* parent vnode for GetStatus */ Error errorCode = 0; /* return code to caller */ Error fileCode = 0; /* return code from vol package */ Volume *volptr = 0; /* pointer to the volume */ struct client *client = 0; /* pointer to the client data */ struct rx_connection *tcon; /* the connection we're part of */ struct host *thost; afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client = NULL; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct VCallByVol tcbv, *cbv = NULL; static int remainder = 0; /* shared access protected by FS_LOCK */ struct fsstats fsstats; afs_sfsize_t bytesToXfer; /* # bytes to xfer */ afs_sfsize_t bytesXferred; /* # bytes actually xferred */ int readIdx; /* Index of read stats array to bump */ fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_FETCHDATA); ViceLog(1, ("SRXAFS_FetchData, Fid = %u.%u.%u\n", Fid->Volume, Fid->Vnode, Fid->Unique)); FS_LOCK; AFSCallStats.FetchData++, AFSCallStats.TotalCalls++; FS_UNLOCK; if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_FetchData; /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(5, ("SRXAFS_FetchData, Fid = %u.%u.%u, Host %s:%d, Id %d\n", Fid->Volume, Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); queue_NodeInit(&tcbv); tcbv.call = acall; cbv = &tcbv; /* * Get volume/vnode for the fetched file; caller's access rights to * it are also returned */ if ((errorCode = GetVolumePackageWithCall(acall, cbv, Fid, &volptr, &targetptr, DONTCHECK, &parentwhentargetnotdir, &client, READ_LOCK, &rights, &anyrights))) goto Bad_FetchData; SetVolumeSync(Sync, volptr); /* * Remember that another read operation was performed. */ FS_LOCK; if (client->InSameNetwork) readIdx = VOL_STATS_SAME_NET; else readIdx = VOL_STATS_DIFF_NET; V_stat_reads(volptr, readIdx)++; if (client->ViceId != AnonymousID) { V_stat_reads(volptr, readIdx + 1)++; } FS_UNLOCK; /* Check whether the caller has permission access to fetch the data */ if ((errorCode = Check_PermissionRights(targetptr, client, rights, CHK_FETCHDATA, 0))) goto Bad_FetchData; /* * Drop the read lock on the parent directory after saving the parent * vnode information we need to pass to GetStatus */ if (parentwhentargetnotdir != NULL) { tparentwhentargetnotdir = *parentwhentargetnotdir; VPutVnode(&fileCode, parentwhentargetnotdir); osi_Assert(!fileCode || (fileCode == VSALVAGE)); parentwhentargetnotdir = NULL; } fsstats_StartXfer(&fsstats, FS_STATS_XFERIDX_FETCHDATA); /* actually do the data transfer */ errorCode = FetchData_RXStyle(volptr, targetptr, acall, Pos, Len, type, &bytesToXfer, &bytesXferred); fsstats_FinishXfer(&fsstats, errorCode, bytesToXfer, bytesXferred, &remainder); if (errorCode) goto Bad_FetchData; /* write back the OutStatus from the target vnode */ GetStatus(targetptr, OutStatus, rights, anyrights, &tparentwhentargetnotdir); rx_KeepAliveOn(acall); /* I/O done */ /* if a r/w volume, promise a callback to the caller */ if (VolumeWriteable(volptr)) SetCallBackStruct(AddCallBack(client->host, Fid), CallBack); else { struct AFSFid myFid; memset(&myFid, 0, sizeof(struct AFSFid)); myFid.Volume = Fid->Volume; SetCallBackStruct(AddVolCallBack(client->host, &myFid), CallBack); } Bad_FetchData: /* Update and store volume/vnode and parent vnodes back */ (void)PutVolumePackageWithCall(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client, cbv); ViceLog(2, ("SRXAFS_FetchData returns %d\n", errorCode)); errorCode = CallPostamble(tcon, errorCode, thost); fsstats_FinishOp(&fsstats, errorCode); osi_auditU(acall, FetchDataEvent, errorCode, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, Fid, AUD_END); return (errorCode); } /*SRXAFS_FetchData */ afs_int32 SRXAFS_FetchData(struct rx_call * acall, struct AFSFid * Fid, afs_int32 Pos, afs_int32 Len, struct AFSFetchStatus * OutStatus, struct AFSCallBack * CallBack, struct AFSVolSync * Sync) { return common_FetchData64(acall, Fid, Pos, Len, OutStatus, CallBack, Sync, 0); } afs_int32 SRXAFS_FetchData64(struct rx_call * acall, struct AFSFid * Fid, afs_int64 Pos, afs_int64 Len, struct AFSFetchStatus * OutStatus, struct AFSCallBack * CallBack, struct AFSVolSync * Sync) { int code; afs_sfsize_t tPos, tLen; tPos = (afs_sfsize_t) Pos; tLen = (afs_sfsize_t) Len; code = common_FetchData64(acall, Fid, tPos, tLen, OutStatus, CallBack, Sync, 1); return code; } afs_int32 SRXAFS_FetchACL(struct rx_call * acall, struct AFSFid * Fid, struct AFSOpaque * AccessList, struct AFSFetchStatus * OutStatus, struct AFSVolSync * Sync) { Vnode *targetptr = 0; /* pointer to vnode to fetch */ Vnode *parentwhentargetnotdir = 0; /* parent vnode if targetptr is a file */ Error errorCode = 0; /* return error code to caller */ Volume *volptr = 0; /* pointer to the volume */ struct client *client = 0; /* pointer to the client data */ afs_int32 rights, anyrights; /* rights for this and any user */ struct rx_connection *tcon = rx_ConnectionOf(acall); struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_FETCHACL); ViceLog(1, ("SAFS_FetchACL, Fid = %u.%u.%u\n", Fid->Volume, Fid->Vnode, Fid->Unique)); FS_LOCK; AFSCallStats.FetchACL++, AFSCallStats.TotalCalls++; FS_UNLOCK; if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_FetchACL; /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(5, ("SAFS_FetchACL, Fid = %u.%u.%u, Host %s:%d, Id %d\n", Fid->Volume, Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); AccessList->AFSOpaque_len = 0; AccessList->AFSOpaque_val = malloc(AFSOPAQUEMAX); if (!AccessList->AFSOpaque_val) { ViceLogThenPanic(0, ("Failed malloc in SRXAFS_FetchACL\n")); } /* * Get volume/vnode for the fetched file; caller's access rights to it * are also returned */ if ((errorCode = GetVolumePackage(acall, Fid, &volptr, &targetptr, DONTCHECK, &parentwhentargetnotdir, &client, READ_LOCK, &rights, &anyrights))) goto Bad_FetchACL; SetVolumeSync(Sync, volptr); /* Check whether we have permission to fetch the ACL */ if ((errorCode = Check_PermissionRights(targetptr, client, rights, CHK_FETCHACL, 0))) goto Bad_FetchACL; /* Get the Access List from the dir's vnode */ if ((errorCode = RXFetch_AccessList(targetptr, parentwhentargetnotdir, AccessList))) goto Bad_FetchACL; /* Get OutStatus back From the target Vnode */ GetStatus(targetptr, OutStatus, rights, anyrights, parentwhentargetnotdir); Bad_FetchACL: /* Update and store volume/vnode and parent vnodes back */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); ViceLog(2, ("SAFS_FetchACL returns %d (ACL=%s)\n", errorCode, AccessList->AFSOpaque_val)); errorCode = CallPostamble(tcon, errorCode, thost); fsstats_FinishOp(&fsstats, errorCode); osi_auditU(acall, FetchACLEvent, errorCode, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, Fid, AUD_ACL, AccessList->AFSOpaque_val, AUD_END); return errorCode; } /*SRXAFS_FetchACL */ /* * This routine is called exclusively by SRXAFS_FetchStatus(), and should be * merged into it when possible. */ static afs_int32 SAFSS_FetchStatus(struct rx_call *acall, struct AFSFid *Fid, struct AFSFetchStatus *OutStatus, struct AFSCallBack *CallBack, struct AFSVolSync *Sync) { Vnode *targetptr = 0; /* pointer to vnode to fetch */ Vnode *parentwhentargetnotdir = 0; /* parent vnode if targetptr is a file */ Error errorCode = 0; /* return code to caller */ Volume *volptr = 0; /* pointer to the volume */ struct client *client = 0; /* pointer to the client data */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client = NULL; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct rx_connection *tcon = rx_ConnectionOf(acall); /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_FetchStatus, Fid = %u.%u.%u, Host %s:%d, Id %d\n", Fid->Volume, Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.FetchStatus++, AFSCallStats.TotalCalls++; FS_UNLOCK; /* * Get volume/vnode for the fetched file; caller's rights to it are * also returned */ if ((errorCode = GetVolumePackage(acall, Fid, &volptr, &targetptr, DONTCHECK, &parentwhentargetnotdir, &client, READ_LOCK, &rights, &anyrights))) goto Bad_FetchStatus; rx_KeepAliveOn(acall); /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Are we allowed to fetch Fid's status? */ if (targetptr->disk.type != vDirectory) { if ((errorCode = Check_PermissionRights(targetptr, client, rights, CHK_FETCHSTATUS, 0))) { if (rx_GetCallAbortCode(acall) == errorCode) rx_SetCallAbortCode(acall, 0); goto Bad_FetchStatus; } } /* set OutStatus From the Fid */ GetStatus(targetptr, OutStatus, rights, anyrights, parentwhentargetnotdir); /* If a r/w volume, also set the CallBack state */ if (VolumeWriteable(volptr)) SetCallBackStruct(AddCallBack(client->host, Fid), CallBack); else { struct AFSFid myFid; memset(&myFid, 0, sizeof(struct AFSFid)); myFid.Volume = Fid->Volume; SetCallBackStruct(AddVolCallBack(client->host, &myFid), CallBack); } Bad_FetchStatus: /* Update and store volume/vnode and parent vnodes back */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); ViceLog(2, ("SAFS_FetchStatus returns %d\n", errorCode)); return errorCode; } /*SAFSS_FetchStatus */ afs_int32 SRXAFS_BulkStatus(struct rx_call * acall, struct AFSCBFids * Fids, struct AFSBulkStats * OutStats, struct AFSCBs * CallBacks, struct AFSVolSync * Sync) { int i; afs_int32 nfiles; Vnode *targetptr = 0; /* pointer to vnode to fetch */ Vnode *parentwhentargetnotdir = 0; /* parent vnode if targetptr is a file */ Error errorCode = 0; /* return code to caller */ Volume *volptr = 0; /* pointer to the volume */ struct client *client = 0; /* pointer to the client data */ afs_int32 rights, anyrights; /* rights for this and any user */ struct AFSFid *tfid; /* file id we're dealing with now */ struct rx_connection *tcon = rx_ConnectionOf(acall); struct host *thost; struct client *t_client = NULL; /* tmp pointer to the client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_BULKSTATUS); ViceLog(1, ("SAFS_BulkStatus\n")); FS_LOCK; AFSCallStats.TotalCalls++; FS_UNLOCK; nfiles = Fids->AFSCBFids_len; /* # of files in here */ if (nfiles <= 0) { /* Sanity check */ errorCode = EINVAL; goto Audit_and_Return; } /* allocate space for return output parameters */ OutStats->AFSBulkStats_val = (struct AFSFetchStatus *) malloc(nfiles * sizeof(struct AFSFetchStatus)); if (!OutStats->AFSBulkStats_val) { ViceLogThenPanic(0, ("Failed malloc in SRXAFS_BulkStatus\n")); } OutStats->AFSBulkStats_len = nfiles; CallBacks->AFSCBs_val = (struct AFSCallBack *) malloc(nfiles * sizeof(struct AFSCallBack)); if (!CallBacks->AFSCBs_val) { ViceLogThenPanic(0, ("Failed malloc in SRXAFS_BulkStatus\n")); } CallBacks->AFSCBs_len = nfiles; if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_BulkStatus; tfid = Fids->AFSCBFids_val; for (i = 0; i < nfiles; i++, tfid++) { /* * Get volume/vnode for the fetched file; caller's rights to it * are also returned */ if ((errorCode = GetVolumePackage(acall, tfid, &volptr, &targetptr, DONTCHECK, &parentwhentargetnotdir, &client, READ_LOCK, &rights, &anyrights))) goto Bad_BulkStatus; rx_KeepAliveOn(acall); /* set volume synchronization information, but only once per call */ if (i == 0) SetVolumeSync(Sync, volptr); /* Are we allowed to fetch Fid's status? */ if (targetptr->disk.type != vDirectory) { if ((errorCode = Check_PermissionRights(targetptr, client, rights, CHK_FETCHSTATUS, 0))) { if (rx_GetCallAbortCode(acall) == errorCode) rx_SetCallAbortCode(acall, 0); goto Bad_BulkStatus; } } /* set OutStatus From the Fid */ GetStatus(targetptr, &OutStats->AFSBulkStats_val[i], rights, anyrights, parentwhentargetnotdir); /* If a r/w volume, also set the CallBack state */ if (VolumeWriteable(volptr)) SetCallBackStruct(AddBulkCallBack(client->host, tfid), &CallBacks->AFSCBs_val[i]); else { struct AFSFid myFid; memset(&myFid, 0, sizeof(struct AFSFid)); myFid.Volume = tfid->Volume; SetCallBackStruct(AddVolCallBack(client->host, &myFid), &CallBacks->AFSCBs_val[i]); } /* put back the file ID and volume */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); parentwhentargetnotdir = (Vnode *) 0; targetptr = (Vnode *) 0; volptr = (Volume *) 0; client = (struct client *)0; } Bad_BulkStatus: /* Update and store volume/vnode and parent vnodes back */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); errorCode = CallPostamble(tcon, errorCode, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, errorCode); Audit_and_Return: ViceLog(2, ("SAFS_BulkStatus returns %d\n", errorCode)); osi_auditU(acall, BulkFetchStatusEvent, errorCode, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FIDS, Fids, AUD_END); return errorCode; } /*SRXAFS_BulkStatus */ afs_int32 SRXAFS_InlineBulkStatus(struct rx_call * acall, struct AFSCBFids * Fids, struct AFSBulkStats * OutStats, struct AFSCBs * CallBacks, struct AFSVolSync * Sync) { int i; afs_int32 nfiles; Vnode *targetptr = 0; /* pointer to vnode to fetch */ Vnode *parentwhentargetnotdir = 0; /* parent vnode if targetptr is a file */ Error errorCode = 0; /* return code to caller */ Volume *volptr = 0; /* pointer to the volume */ struct client *client = 0; /* pointer to the client data */ afs_int32 rights, anyrights; /* rights for this and any user */ struct AFSFid *tfid; /* file id we're dealing with now */ struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ AFSFetchStatus *tstatus; int VolSync_set = 0; struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_BULKSTATUS); ViceLog(1, ("SAFS_InlineBulkStatus\n")); FS_LOCK; AFSCallStats.TotalCalls++; FS_UNLOCK; nfiles = Fids->AFSCBFids_len; /* # of files in here */ if (nfiles <= 0) { /* Sanity check */ errorCode = EINVAL; goto Audit_and_Return; } /* allocate space for return output parameters */ OutStats->AFSBulkStats_val = (struct AFSFetchStatus *) malloc(nfiles * sizeof(struct AFSFetchStatus)); if (!OutStats->AFSBulkStats_val) { ViceLogThenPanic(0, ("Failed malloc in SRXAFS_FetchStatus\n")); } OutStats->AFSBulkStats_len = nfiles; CallBacks->AFSCBs_val = (struct AFSCallBack *) malloc(nfiles * sizeof(struct AFSCallBack)); if (!CallBacks->AFSCBs_val) { ViceLogThenPanic(0, ("Failed malloc in SRXAFS_FetchStatus\n")); } CallBacks->AFSCBs_len = nfiles; /* Zero out return values to avoid leaking information on partial succes */ memset(OutStats->AFSBulkStats_val, 0, nfiles * sizeof(struct AFSFetchStatus)); memset(CallBacks->AFSCBs_val, 0, nfiles * sizeof(struct AFSCallBack)); memset(Sync, 0, sizeof(*Sync)); if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) { goto Bad_InlineBulkStatus; } tfid = Fids->AFSCBFids_val; for (i = 0; i < nfiles; i++, tfid++) { /* * Get volume/vnode for the fetched file; caller's rights to it * are also returned */ if ((errorCode = GetVolumePackage(acall, tfid, &volptr, &targetptr, DONTCHECK, &parentwhentargetnotdir, &client, READ_LOCK, &rights, &anyrights))) { tstatus = &OutStats->AFSBulkStats_val[i]; if (thost->hostFlags & HERRORTRANS) { tstatus->errorCode = sys_error_to_et(errorCode); } else { tstatus->errorCode = errorCode; } PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); parentwhentargetnotdir = (Vnode *) 0; targetptr = (Vnode *) 0; volptr = (Volume *) 0; client = (struct client *)0; continue; } rx_KeepAliveOn(acall); /* set volume synchronization information, but only once per call */ if (!VolSync_set) { SetVolumeSync(Sync, volptr); VolSync_set = 1; } /* Are we allowed to fetch Fid's status? */ if (targetptr->disk.type != vDirectory) { if ((errorCode = Check_PermissionRights(targetptr, client, rights, CHK_FETCHSTATUS, 0))) { tstatus = &OutStats->AFSBulkStats_val[i]; if (thost->hostFlags & HERRORTRANS) { tstatus->errorCode = sys_error_to_et(errorCode); } else { tstatus->errorCode = errorCode; } (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); parentwhentargetnotdir = (Vnode *) 0; targetptr = (Vnode *) 0; volptr = (Volume *) 0; client = (struct client *)0; continue; } } /* set OutStatus From the Fid */ GetStatus(targetptr, (struct AFSFetchStatus *)&OutStats->AFSBulkStats_val[i], rights, anyrights, parentwhentargetnotdir); /* If a r/w volume, also set the CallBack state */ if (VolumeWriteable(volptr)) SetCallBackStruct(AddBulkCallBack(client->host, tfid), &CallBacks->AFSCBs_val[i]); else { struct AFSFid myFid; memset(&myFid, 0, sizeof(struct AFSFid)); myFid.Volume = tfid->Volume; SetCallBackStruct(AddVolCallBack(client->host, &myFid), &CallBacks->AFSCBs_val[i]); } /* put back the file ID and volume */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); parentwhentargetnotdir = (Vnode *) 0; targetptr = (Vnode *) 0; volptr = (Volume *) 0; client = (struct client *)0; } errorCode = 0; Bad_InlineBulkStatus: /* Update and store volume/vnode and parent vnodes back */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); errorCode = CallPostamble(tcon, errorCode, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, errorCode); Audit_and_Return: ViceLog(2, ("SAFS_InlineBulkStatus returns %d\n", errorCode)); osi_auditU(acall, InlineBulkFetchStatusEvent, errorCode, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FIDS, Fids, AUD_END); return errorCode; } /*SRXAFS_InlineBulkStatus */ afs_int32 SRXAFS_FetchStatus(struct rx_call * acall, struct AFSFid * Fid, struct AFSFetchStatus * OutStatus, struct AFSCallBack * CallBack, struct AFSVolSync * Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_FETCHSTATUS); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_FetchStatus; code = SAFSS_FetchStatus(acall, Fid, OutStatus, CallBack, Sync); Bad_FetchStatus: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, FetchStatusEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, Fid, AUD_END); return code; } /*SRXAFS_FetchStatus */ static afs_int32 common_StoreData64(struct rx_call *acall, struct AFSFid *Fid, struct AFSStoreStatus *InStatus, afs_fsize_t Pos, afs_fsize_t Length, afs_fsize_t FileLength, struct AFSFetchStatus *OutStatus, struct AFSVolSync *Sync) { Vnode *targetptr = 0; /* pointer to input fid */ Vnode *parentwhentargetnotdir = 0; /* parent of Fid to get ACL */ Vnode tparentwhentargetnotdir; /* parent vnode for GetStatus */ Error errorCode = 0; /* return code for caller */ Error fileCode = 0; /* return code from vol package */ Volume *volptr = 0; /* pointer to the volume header */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client = NULL; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct rx_connection *tcon; struct host *thost; struct fsstats fsstats; afs_sfsize_t bytesToXfer; afs_sfsize_t bytesXferred; static int remainder = 0; ViceLog(1, ("StoreData: Fid = %u.%u.%u\n", Fid->Volume, Fid->Vnode, Fid->Unique)); fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_STOREDATA); FS_LOCK; AFSCallStats.StoreData++, AFSCallStats.TotalCalls++; FS_UNLOCK; if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_StoreData; /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(5, ("StoreData: Fid = %u.%u.%u, Host %s:%d, Id %d\n", Fid->Volume, Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); /* * Get associated volume/vnode for the stored file; caller's rights * are also returned */ if ((errorCode = GetVolumePackage(acall, Fid, &volptr, &targetptr, MustNOTBeDIR, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) { goto Bad_StoreData; } rx_KeepAliveOn(acall); /* set volume synchronization information */ SetVolumeSync(Sync, volptr); if (targetptr->disk.type == vSymlink) { /* Should we return a better error code here??? */ errorCode = EISDIR; goto Bad_StoreData; } /* Check if we're allowed to store the data */ if ((errorCode = Check_PermissionRights(targetptr, client, rights, CHK_STOREDATA, InStatus))) { goto Bad_StoreData; } /* * Drop the read lock on the parent directory after saving the parent * vnode information we need to pass to GetStatus */ if (parentwhentargetnotdir != NULL) { tparentwhentargetnotdir = *parentwhentargetnotdir; rx_KeepAliveOff(acall); VPutVnode(&fileCode, parentwhentargetnotdir); rx_KeepAliveOn(acall); osi_Assert(!fileCode || (fileCode == VSALVAGE)); parentwhentargetnotdir = NULL; } fsstats_StartXfer(&fsstats, FS_STATS_XFERIDX_STOREDATA); errorCode = StoreData_RXStyle(volptr, targetptr, Fid, client, acall, Pos, Length, FileLength, (InStatus->Mask & AFS_FSYNC), &bytesToXfer, &bytesXferred); fsstats_FinishXfer(&fsstats, errorCode, bytesToXfer, bytesXferred, &remainder); if (errorCode && (!targetptr->changed_newTime)) goto Bad_StoreData; rx_KeepAliveOff(acall); /* Update the status of the target's vnode */ Update_TargetVnodeStatus(targetptr, TVS_SDATA, client, InStatus, targetptr, volptr, 0); rx_KeepAliveOn(acall); /* Get the updated File's status back to the caller */ GetStatus(targetptr, OutStatus, rights, anyrights, &tparentwhentargetnotdir); Bad_StoreData: /* Update and store volume/vnode and parent vnodes back */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); ViceLog(2, ("SAFS_StoreData returns %d\n", errorCode)); errorCode = CallPostamble(tcon, errorCode, thost); fsstats_FinishOp(&fsstats, errorCode); osi_auditU(acall, StoreDataEvent, errorCode, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, Fid, AUD_END); return (errorCode); } /*common_StoreData64 */ afs_int32 SRXAFS_StoreData(struct rx_call * acall, struct AFSFid * Fid, struct AFSStoreStatus * InStatus, afs_uint32 Pos, afs_uint32 Length, afs_uint32 FileLength, struct AFSFetchStatus * OutStatus, struct AFSVolSync * Sync) { if (FileLength > 0x7fffffff || Pos > 0x7fffffff || (0x7fffffff - Pos) < Length) return EFBIG; return common_StoreData64(acall, Fid, InStatus, Pos, Length, FileLength, OutStatus, Sync); } /*SRXAFS_StoreData */ afs_int32 SRXAFS_StoreData64(struct rx_call * acall, struct AFSFid * Fid, struct AFSStoreStatus * InStatus, afs_uint64 Pos, afs_uint64 Length, afs_uint64 FileLength, struct AFSFetchStatus * OutStatus, struct AFSVolSync * Sync) { int code; afs_fsize_t tPos; afs_fsize_t tLength; afs_fsize_t tFileLength; tPos = (afs_fsize_t) Pos; tLength = (afs_fsize_t) Length; tFileLength = (afs_fsize_t) FileLength; code = common_StoreData64(acall, Fid, InStatus, tPos, tLength, tFileLength, OutStatus, Sync); return code; } afs_int32 SRXAFS_StoreACL(struct rx_call * acall, struct AFSFid * Fid, struct AFSOpaque * AccessList, struct AFSFetchStatus * OutStatus, struct AFSVolSync * Sync) { Vnode *targetptr = 0; /* pointer to input fid */ Vnode *parentwhentargetnotdir = 0; /* parent of Fid to get ACL */ Error errorCode = 0; /* return code for caller */ struct AFSStoreStatus InStatus; /* Input status for fid */ Volume *volptr = 0; /* pointer to the volume header */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_STOREACL); if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_StoreACL; /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_StoreACL, Fid = %u.%u.%u, ACL=%s, Host %s:%d, Id %d\n", Fid->Volume, Fid->Vnode, Fid->Unique, AccessList->AFSOpaque_val, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.StoreACL++, AFSCallStats.TotalCalls++; FS_UNLOCK; InStatus.Mask = 0; /* not storing any status */ /* * Get associated volume/vnode for the target dir; caller's rights * are also returned. */ if ((errorCode = GetVolumePackage(acall, Fid, &volptr, &targetptr, MustBeDIR, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) { goto Bad_StoreACL; } /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Check if we have permission to change the dir's ACL */ if ((errorCode = Check_PermissionRights(targetptr, client, rights, CHK_STOREACL, &InStatus))) { goto Bad_StoreACL; } /* Build and store the new Access List for the dir */ if ((errorCode = RXStore_AccessList(targetptr, AccessList))) { goto Bad_StoreACL; } targetptr->changed_newTime = 1; /* status change of directory */ /* convert the write lock to a read lock before breaking callbacks */ VVnodeWriteToRead(&errorCode, targetptr); osi_Assert(!errorCode || errorCode == VSALVAGE); rx_KeepAliveOn(acall); /* break call backs on the directory */ BreakCallBack(client->host, Fid, 0); /* Get the updated dir's status back to the caller */ GetStatus(targetptr, OutStatus, rights, anyrights, 0); Bad_StoreACL: /* Update and store volume/vnode and parent vnodes back */ PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); ViceLog(2, ("SAFS_StoreACL returns %d\n", errorCode)); errorCode = CallPostamble(tcon, errorCode, thost); fsstats_FinishOp(&fsstats, errorCode); osi_auditU(acall, StoreACLEvent, errorCode, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, Fid, AUD_ACL, AccessList->AFSOpaque_val, AUD_END); return errorCode; } /*SRXAFS_StoreACL */ /* * Note: This routine is called exclusively from SRXAFS_StoreStatus(), and * should be merged when possible. */ static afs_int32 SAFSS_StoreStatus(struct rx_call *acall, struct AFSFid *Fid, struct AFSStoreStatus *InStatus, struct AFSFetchStatus *OutStatus, struct AFSVolSync *Sync) { Vnode *targetptr = 0; /* pointer to input fid */ Vnode *parentwhentargetnotdir = 0; /* parent of Fid to get ACL */ Error errorCode = 0; /* return code for caller */ Volume *volptr = 0; /* pointer to the volume header */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client = NULL; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct rx_connection *tcon = rx_ConnectionOf(acall); /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_StoreStatus, Fid = %u.%u.%u, Host %s:%d, Id %d\n", Fid->Volume, Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.StoreStatus++, AFSCallStats.TotalCalls++; FS_UNLOCK; /* * Get volume/vnode for the target file; caller's rights to it are * also returned */ if ((errorCode = GetVolumePackage(acall, Fid, &volptr, &targetptr, DONTCHECK, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) { goto Bad_StoreStatus; } /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Check if the caller has proper permissions to store status to Fid */ if ((errorCode = Check_PermissionRights(targetptr, client, rights, CHK_STORESTATUS, InStatus))) { goto Bad_StoreStatus; } /* * Check for a symbolic link; we can't chmod these (otherwise could * change a symlink to a mt pt or vice versa) */ if (targetptr->disk.type == vSymlink && (InStatus->Mask & AFS_SETMODE)) { errorCode = EINVAL; goto Bad_StoreStatus; } /* Update the status of the target's vnode */ Update_TargetVnodeStatus(targetptr, TVS_SSTATUS, client, InStatus, (parentwhentargetnotdir ? parentwhentargetnotdir : targetptr), volptr, 0); rx_KeepAliveOn(acall); /* convert the write lock to a read lock before breaking callbacks */ VVnodeWriteToRead(&errorCode, targetptr); osi_Assert(!errorCode || errorCode == VSALVAGE); /* Break call backs on Fid */ BreakCallBack(client->host, Fid, 0); /* Return the updated status back to caller */ GetStatus(targetptr, OutStatus, rights, anyrights, parentwhentargetnotdir); Bad_StoreStatus: /* Update and store volume/vnode and parent vnodes back */ PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); ViceLog(2, ("SAFS_StoreStatus returns %d\n", errorCode)); return errorCode; } /*SAFSS_StoreStatus */ afs_int32 SRXAFS_StoreStatus(struct rx_call * acall, struct AFSFid * Fid, struct AFSStoreStatus * InStatus, struct AFSFetchStatus * OutStatus, struct AFSVolSync * Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_STORESTATUS); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_StoreStatus; code = SAFSS_StoreStatus(acall, Fid, InStatus, OutStatus, Sync); Bad_StoreStatus: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, StoreStatusEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, Fid, AUD_END); return code; } /*SRXAFS_StoreStatus */ /* * This routine is called exclusively by SRXAFS_RemoveFile(), and should be * merged in when possible. */ static afs_int32 SAFSS_RemoveFile(struct rx_call *acall, struct AFSFid *DirFid, char *Name, struct AFSFetchStatus *OutDirStatus, struct AFSVolSync *Sync) { Vnode *parentptr = 0; /* vnode of input Directory */ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */ Vnode *targetptr = 0; /* file to be deleted */ Volume *volptr = 0; /* pointer to the volume header */ AFSFid fileFid; /* area for Fid from the directory */ Error errorCode = 0; /* error code */ DirHandle dir; /* Handle for dir package I/O */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct rx_connection *tcon = rx_ConnectionOf(acall); FidZero(&dir); /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_RemoveFile %s, Did = %u.%u.%u, Host %s:%d, Id %d\n", Name, DirFid->Volume, DirFid->Vnode, DirFid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.RemoveFile++, AFSCallStats.TotalCalls++; FS_UNLOCK; /* * Get volume/vnode for the parent dir; caller's access rights are * also returned */ if ((errorCode = GetVolumePackage(acall, DirFid, &volptr, &parentptr, MustBeDIR, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) { goto Bad_RemoveFile; } /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Does the caller has delete (& write) access to the parent directory? */ if ((errorCode = CheckWriteMode(parentptr, rights, PRSFS_DELETE))) { goto Bad_RemoveFile; } /* Actually delete the desired file */ if ((errorCode = DeleteTarget(parentptr, volptr, &targetptr, &dir, &fileFid, Name, MustNOTBeDIR))) { goto Bad_RemoveFile; } /* Update the vnode status of the parent dir */ Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId, parentptr->disk.linkCount, client->InSameNetwork); rx_KeepAliveOn(acall); /* Return the updated parent dir's status back to caller */ GetStatus(parentptr, OutDirStatus, rights, anyrights, 0); /* Handle internal callback state for the parent and the deleted file */ if (targetptr->disk.linkCount == 0) { /* no references left, discard entry */ DeleteFileCallBacks(&fileFid); /* convert the parent lock to a read lock before breaking callbacks */ VVnodeWriteToRead(&errorCode, parentptr); osi_Assert(!errorCode || errorCode == VSALVAGE); } else { /* convert the parent lock to a read lock before breaking callbacks */ VVnodeWriteToRead(&errorCode, parentptr); osi_Assert(!errorCode || errorCode == VSALVAGE); /* convert the target lock to a read lock before breaking callbacks */ VVnodeWriteToRead(&errorCode, targetptr); osi_Assert(!errorCode || errorCode == VSALVAGE); /* tell all the file has changed */ BreakCallBack(client->host, &fileFid, 1); } /* break call back on the directory */ BreakCallBack(client->host, DirFid, 0); Bad_RemoveFile: /* Update and store volume/vnode and parent vnodes back */ PutVolumePackage(acall, parentwhentargetnotdir, targetptr, parentptr, volptr, &client); FidZap(&dir); ViceLog(2, ("SAFS_RemoveFile returns %d\n", errorCode)); return errorCode; } /*SAFSS_RemoveFile */ afs_int32 SRXAFS_RemoveFile(struct rx_call * acall, struct AFSFid * DirFid, char *Name, struct AFSFetchStatus * OutDirStatus, struct AFSVolSync * Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_REMOVEFILE); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_RemoveFile; code = SAFSS_RemoveFile(acall, DirFid, Name, OutDirStatus, Sync); Bad_RemoveFile: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, RemoveFileEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, DirFid, AUD_STR, Name, AUD_END); return code; } /*SRXAFS_RemoveFile */ /* * This routine is called exclusively from SRXAFS_CreateFile(), and should * be merged in when possible. */ static afs_int32 SAFSS_CreateFile(struct rx_call *acall, struct AFSFid *DirFid, char *Name, struct AFSStoreStatus *InStatus, struct AFSFid *OutFid, struct AFSFetchStatus *OutFidStatus, struct AFSFetchStatus *OutDirStatus, struct AFSCallBack *CallBack, struct AFSVolSync *Sync) { Vnode *parentptr = 0; /* vnode of input Directory */ Vnode *targetptr = 0; /* vnode of the new file */ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */ Volume *volptr = 0; /* pointer to the volume header */ Error errorCode = 0; /* error code */ DirHandle dir; /* Handle for dir package I/O */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct rx_connection *tcon = rx_ConnectionOf(acall); FidZero(&dir); /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_CreateFile %s, Did = %u.%u.%u, Host %s:%d, Id %d\n", Name, DirFid->Volume, DirFid->Vnode, DirFid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.CreateFile++, AFSCallStats.TotalCalls++; FS_UNLOCK; if (!FileNameOK(Name)) { errorCode = EINVAL; goto Bad_CreateFile; } /* * Get associated volume/vnode for the parent dir; caller long are * also returned */ if ((errorCode = GetVolumePackage(acall, DirFid, &volptr, &parentptr, MustBeDIR, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) { goto Bad_CreateFile; } /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Can we write (and insert) onto the parent directory? */ if ((errorCode = CheckWriteMode(parentptr, rights, PRSFS_INSERT))) { goto Bad_CreateFile; } /* get a new vnode for the file to be created and set it up */ if ((errorCode = Alloc_NewVnode(parentptr, &dir, volptr, &targetptr, Name, OutFid, vFile, nBlocks(0)))) goto Bad_CreateFile; /* update the status of the parent vnode */ Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId, parentptr->disk.linkCount, client->InSameNetwork); /* update the status of the new file's vnode */ Update_TargetVnodeStatus(targetptr, TVS_CFILE, client, InStatus, parentptr, volptr, 0); rx_KeepAliveOn(acall); /* set up the return status for the parent dir and the newly created file, and since the newly created file is owned by the creator, give it PRSFS_ADMINISTER to tell the client its the owner of the file */ GetStatus(targetptr, OutFidStatus, rights | PRSFS_ADMINISTER, anyrights, parentptr); GetStatus(parentptr, OutDirStatus, rights, anyrights, 0); /* convert the write lock to a read lock before breaking callbacks */ VVnodeWriteToRead(&errorCode, parentptr); osi_Assert(!errorCode || errorCode == VSALVAGE); /* break call back on parent dir */ BreakCallBack(client->host, DirFid, 0); /* Return a callback promise for the newly created file to the caller */ SetCallBackStruct(AddCallBack(client->host, OutFid), CallBack); Bad_CreateFile: /* Update and store volume/vnode and parent vnodes back */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, parentptr, volptr, &client); FidZap(&dir); ViceLog(2, ("SAFS_CreateFile returns %d\n", errorCode)); return errorCode; } /*SAFSS_CreateFile */ afs_int32 SRXAFS_CreateFile(struct rx_call * acall, struct AFSFid * DirFid, char *Name, struct AFSStoreStatus * InStatus, struct AFSFid * OutFid, struct AFSFetchStatus * OutFidStatus, struct AFSFetchStatus * OutDirStatus, struct AFSCallBack * CallBack, struct AFSVolSync * Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_CREATEFILE); memset(OutFid, 0, sizeof(struct AFSFid)); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_CreateFile; code = SAFSS_CreateFile(acall, DirFid, Name, InStatus, OutFid, OutFidStatus, OutDirStatus, CallBack, Sync); Bad_CreateFile: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, CreateFileEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, DirFid, AUD_STR, Name, AUD_FID, OutFid, AUD_END); return code; } /*SRXAFS_CreateFile */ /* * This routine is called exclusively from SRXAFS_Rename(), and should be * merged in when possible. */ static afs_int32 SAFSS_Rename(struct rx_call *acall, struct AFSFid *OldDirFid, char *OldName, struct AFSFid *NewDirFid, char *NewName, struct AFSFetchStatus *OutOldDirStatus, struct AFSFetchStatus *OutNewDirStatus, struct AFSVolSync *Sync) { Vnode *oldvptr = 0; /* vnode of the old Directory */ Vnode *newvptr = 0; /* vnode of the new Directory */ Vnode *fileptr = 0; /* vnode of the file to move */ Vnode *newfileptr = 0; /* vnode of the file to delete */ Vnode *testvptr = 0; /* used in directory tree walk */ Vnode *parent = 0; /* parent for use in SetAccessList */ Error errorCode = 0; /* error code */ Error fileCode = 0; /* used when writing Vnodes */ VnodeId testnode; /* used in directory tree walk */ AFSFid fileFid; /* Fid of file to move */ AFSFid newFileFid; /* Fid of new file */ DirHandle olddir; /* Handle for dir package I/O */ DirHandle newdir; /* Handle for dir package I/O */ DirHandle filedir; /* Handle for dir package I/O */ DirHandle newfiledir; /* Handle for dir package I/O */ Volume *volptr = 0; /* pointer to the volume header */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ afs_int32 newrights; /* rights for this user */ afs_int32 newanyrights; /* rights for any user */ int doDelete; /* deleted the rename target (ref count now 0) */ int code; int updatefile = 0; /* are we changing the renamed file? (we do this * if we need to update .. on a renamed dir) */ struct client *t_client; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct rx_connection *tcon = rx_ConnectionOf(acall); afs_ino_str_t stmp; FidZero(&olddir); FidZero(&newdir); FidZero(&filedir); FidZero(&newfiledir); /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_Rename %s to %s, Fid = %u.%u.%u to %u.%u.%u, Host %s:%d, Id %d\n", OldName, NewName, OldDirFid->Volume, OldDirFid->Vnode, OldDirFid->Unique, NewDirFid->Volume, NewDirFid->Vnode, NewDirFid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.Rename++, AFSCallStats.TotalCalls++; FS_UNLOCK; if (!FileNameOK(NewName)) { errorCode = EINVAL; goto Bad_Rename; } if (OldDirFid->Volume != NewDirFid->Volume) { DFlush(); errorCode = EXDEV; goto Bad_Rename; } if ((strcmp(OldName, ".") == 0) || (strcmp(OldName, "..") == 0) || (strcmp(NewName, ".") == 0) || (strcmp(NewName, "..") == 0) || (strlen(NewName) == 0) || (strlen(OldName) == 0)) { DFlush(); errorCode = EINVAL; goto Bad_Rename; } if (OldDirFid->Vnode <= NewDirFid->Vnode) { if ((errorCode = GetVolumePackage(acall, OldDirFid, &volptr, &oldvptr, MustBeDIR, &parent, &client, WRITE_LOCK, &rights, &anyrights))) { DFlush(); goto Bad_Rename; } if (OldDirFid->Vnode == NewDirFid->Vnode) { newvptr = oldvptr; newrights = rights, newanyrights = anyrights; } else if ((errorCode = GetVolumePackage(acall, NewDirFid, &volptr, &newvptr, MustBeDIR, &parent, &client, WRITE_LOCK, &newrights, &newanyrights))) { DFlush(); goto Bad_Rename; } } else { if ((errorCode = GetVolumePackage(acall, NewDirFid, &volptr, &newvptr, MustBeDIR, &parent, &client, WRITE_LOCK, &newrights, &newanyrights))) { DFlush(); goto Bad_Rename; } if ((errorCode = GetVolumePackage(acall, OldDirFid, &volptr, &oldvptr, MustBeDIR, &parent, &client, WRITE_LOCK, &rights, &anyrights))) { DFlush(); goto Bad_Rename; } } /* set volume synchronization information */ SetVolumeSync(Sync, volptr); if ((errorCode = CheckWriteMode(oldvptr, rights, PRSFS_DELETE))) { goto Bad_Rename; } if ((errorCode = CheckWriteMode(newvptr, newrights, PRSFS_INSERT))) { goto Bad_Rename; } if (CheckLength(volptr, oldvptr, -1) || CheckLength(volptr, newvptr, -1)) { VTakeOffline(volptr); errorCode = VSALVAGE; goto Bad_Rename; } /* The CopyOnWrite might return ENOSPC ( disk full). Even if the second * call to CopyOnWrite returns error, it is not necessary to revert back * the effects of the first call because the contents of the volume is * not modified, it is only replicated. */ if (oldvptr->disk.cloned) { ViceLog(25, ("Rename : calling CopyOnWrite on old dir\n")); if ((errorCode = CopyOnWrite(oldvptr, volptr, 0, MAXFSIZE))) goto Bad_Rename; } SetDirHandle(&olddir, oldvptr); if (newvptr->disk.cloned) { ViceLog(25, ("Rename : calling CopyOnWrite on new dir\n")); if ((errorCode = CopyOnWrite(newvptr, volptr, 0, MAXFSIZE))) goto Bad_Rename; } SetDirHandle(&newdir, newvptr); /* Lookup the file to delete its vnode */ if (afs_dir_Lookup(&olddir, OldName, &fileFid)) { errorCode = ENOENT; goto Bad_Rename; } if (fileFid.Vnode == oldvptr->vnodeNumber || fileFid.Vnode == newvptr->vnodeNumber) { errorCode = FSERR_ELOOP; goto Bad_Rename; } fileFid.Volume = V_id(volptr); fileptr = VGetVnode(&errorCode, volptr, fileFid.Vnode, WRITE_LOCK); if (errorCode != 0) { ViceLog(0, ("SAFSS_Rename(): Error in VGetVnode() for old file %s, code %d\n", OldName, errorCode)); VTakeOffline(volptr); goto Bad_Rename; } if (fileptr->disk.uniquifier != fileFid.Unique) { ViceLog(0, ("SAFSS_Rename(): Old file %s uniquifier mismatch\n", OldName)); VTakeOffline(volptr); errorCode = EIO; goto Bad_Rename; } if (fileptr->disk.type != vDirectory && oldvptr != newvptr && fileptr->disk.linkCount != 1) { /* * Hard links exist to this file - cannot move one of the links to * a new directory because of AFS restrictions (this is the same * reason that links cannot be made across directories, i.e. * access lists) */ errorCode = EXDEV; goto Bad_Rename; } /* Lookup the new file */ if (!(afs_dir_Lookup(&newdir, NewName, &newFileFid))) { if (readonlyServer) { errorCode = VREADONLY; goto Bad_Rename; } if (!(newrights & PRSFS_DELETE)) { errorCode = EACCES; goto Bad_Rename; } if (newFileFid.Vnode == oldvptr->vnodeNumber || newFileFid.Vnode == newvptr->vnodeNumber || newFileFid.Vnode == fileFid.Vnode) { errorCode = EINVAL; goto Bad_Rename; } newFileFid.Volume = V_id(volptr); newfileptr = VGetVnode(&errorCode, volptr, newFileFid.Vnode, WRITE_LOCK); if (errorCode != 0) { ViceLog(0, ("SAFSS_Rename(): Error in VGetVnode() for new file %s, code %d\n", NewName, errorCode)); VTakeOffline(volptr); goto Bad_Rename; } if (fileptr->disk.uniquifier != fileFid.Unique) { ViceLog(0, ("SAFSS_Rename(): New file %s uniquifier mismatch\n", NewName)); VTakeOffline(volptr); errorCode = EIO; goto Bad_Rename; } SetDirHandle(&newfiledir, newfileptr); /* Now check that we're moving directories over directories properly, etc. * return proper POSIX error codes: * if fileptr is a file and new is a dir: EISDIR. * if fileptr is a dir and new is a file: ENOTDIR. * Also, dir to be removed must be empty, of course. */ if (newfileptr->disk.type == vDirectory) { if (fileptr->disk.type != vDirectory) { errorCode = EISDIR; goto Bad_Rename; } if ((afs_dir_IsEmpty(&newfiledir))) { errorCode = EEXIST; goto Bad_Rename; } } else { if (fileptr->disk.type == vDirectory) { errorCode = ENOTDIR; goto Bad_Rename; } } } /* * ok - now we check that the old name is not above new name in the * directory structure. This is to prevent removing a subtree alltogether */ if ((oldvptr != newvptr) && (fileptr->disk.type == vDirectory)) { afs_int32 forpass = 0, vnum = 0, top = 0; for (testnode = newvptr->disk.parent; testnode != 0; forpass++) { if (testnode > vnum) vnum = testnode; if (forpass > vnum) { errorCode = FSERR_ELOOP; goto Bad_Rename; } if (testnode == oldvptr->vnodeNumber) { testnode = oldvptr->disk.parent; continue; } if ((testnode == fileptr->vnodeNumber) || (testnode == newvptr->vnodeNumber)) { errorCode = FSERR_ELOOP; goto Bad_Rename; } if ((newfileptr) && (testnode == newfileptr->vnodeNumber)) { errorCode = FSERR_ELOOP; goto Bad_Rename; } if (testnode == 1) top = 1; testvptr = VGetVnode(&errorCode, volptr, testnode, READ_LOCK); osi_Assert(errorCode == 0); testnode = testvptr->disk.parent; VPutVnode(&errorCode, testvptr); if ((top == 1) && (testnode != 0)) { VTakeOffline(volptr); ViceLog(0, ("Volume %u now offline, must be salvaged.\n", volptr->hashid)); errorCode = EIO; goto Bad_Rename; } osi_Assert(errorCode == 0); } } if (fileptr->disk.type == vDirectory) { SetDirHandle(&filedir, fileptr); if (oldvptr != newvptr) { /* we always need to update .. if we've moving fileptr to a * different directory */ updatefile = 1; } else { struct AFSFid unused; code = afs_dir_Lookup(&filedir, "..", &unused); if (code == ENOENT) { /* only update .. if it doesn't already exist */ updatefile = 1; } } } /* Do the CopyonWrite first before modifying anything else. Copying is * required when we have to change entries for .. */ if (updatefile && (fileptr->disk.cloned)) { ViceLog(25, ("Rename : calling CopyOnWrite on target dir\n")); if ((errorCode = CopyOnWrite(fileptr, volptr, 0, MAXFSIZE))) goto Bad_Rename; /* since copyonwrite would mean fileptr has a new handle, do it here */ FidZap(&filedir); SetDirHandle(&filedir, fileptr); } /* If the new name exists already, delete it and the file it points to */ doDelete = 0; if (newfileptr) { /* Delete NewName from its directory */ code = afs_dir_Delete(&newdir, NewName); osi_Assert(code == 0); /* Drop the link count */ newfileptr->disk.linkCount--; if (newfileptr->disk.linkCount == 0) { /* Link count 0 - delete */ afs_fsize_t newSize; VN_GET_LEN(newSize, newfileptr); VAdjustDiskUsage((Error *) & errorCode, volptr, (afs_sfsize_t) - nBlocks(newSize), 0); if (VN_GET_INO(newfileptr)) { IH_REALLYCLOSE(newfileptr->handle); errorCode = IH_DEC(V_linkHandle(volptr), VN_GET_INO(newfileptr), V_parentId(volptr)); IH_RELEASE(newfileptr->handle); if (errorCode == -1) { ViceLog(0, ("Del: inode=%s, name=%s, errno=%d\n", PrintInode(stmp, VN_GET_INO(newfileptr)), NewName, errno)); if ((errno != ENOENT) && (errno != EIO) && (errno != ENXIO)) ViceLog(0, ("Do we need to fsck?")); } } VN_SET_INO(newfileptr, (Inode) 0); newfileptr->delete = 1; /* Mark NewName vnode to delete */ doDelete = 1; } else { /* Link count did not drop to zero. * Mark NewName vnode as changed - updates stime. */ newfileptr->changed_newTime = 1; } } /* * If the create below fails, and the delete above worked, we have * removed the new name and not replaced it. This is not very likely, * but possible. We could try to put the old file back, but it is * highly unlikely that it would work since it would involve issuing * another create. */ if ((errorCode = afs_dir_Create(&newdir, NewName, &fileFid))) goto Bad_Rename; /* Delete the old name */ osi_Assert(afs_dir_Delete(&olddir, OldName) == 0); /* if the directory length changes, reflect it in the statistics */ Update_ParentVnodeStatus(oldvptr, volptr, &olddir, client->ViceId, oldvptr->disk.linkCount, client->InSameNetwork); Update_ParentVnodeStatus(newvptr, volptr, &newdir, client->ViceId, newvptr->disk.linkCount, client->InSameNetwork); if (oldvptr == newvptr) oldvptr->disk.dataVersion--; /* Since it was bumped by 2! */ if (fileptr->disk.parent != newvptr->vnodeNumber) { fileptr->disk.parent = newvptr->vnodeNumber; fileptr->changed_newTime = 1; } /* if we are dealing with a rename of a directory, and we need to * update the .. entry of that directory */ if (updatefile) { osi_Assert(!fileptr->disk.cloned); fileptr->changed_newTime = 1; /* status change of moved file */ /* fix .. to point to the correct place */ afs_dir_Delete(&filedir, ".."); /* No assert--some directories may be bad */ osi_Assert(afs_dir_Create(&filedir, "..", NewDirFid) == 0); fileptr->disk.dataVersion++; /* if the parent directories are different the link counts have to be */ /* changed due to .. in the renamed directory */ if (oldvptr != newvptr) { oldvptr->disk.linkCount--; newvptr->disk.linkCount++; } } /* set up return status */ GetStatus(oldvptr, OutOldDirStatus, rights, anyrights, 0); GetStatus(newvptr, OutNewDirStatus, newrights, newanyrights, 0); if (newfileptr && doDelete) { DeleteFileCallBacks(&newFileFid); /* no other references */ } DFlush(); /* convert the write locks to a read locks before breaking callbacks */ VVnodeWriteToRead(&errorCode, newvptr); osi_Assert(!errorCode || errorCode == VSALVAGE); if (oldvptr != newvptr) { VVnodeWriteToRead(&errorCode, oldvptr); osi_Assert(!errorCode || errorCode == VSALVAGE); } if (newfileptr && !doDelete) { /* convert the write lock to a read lock before breaking callbacks */ VVnodeWriteToRead(&errorCode, newfileptr); osi_Assert(!errorCode || errorCode == VSALVAGE); } rx_KeepAliveOn(acall); /* break call back on NewDirFid, OldDirFid, NewDirFid and newFileFid */ BreakCallBack(client->host, NewDirFid, 0); if (oldvptr != newvptr) { BreakCallBack(client->host, OldDirFid, 0); } if (updatefile) { /* if a dir moved, .. changed */ /* we do not give an AFSFetchStatus structure back to the * originating client, and the file's status has changed, so be * sure to send a callback break. In theory the client knows * enough to know that the callback could be broken implicitly, * but that may not be clear, and some client implementations * may not know to. */ BreakCallBack(client->host, &fileFid, 1); } if (newfileptr) { /* Note: it is not necessary to break the callback */ if (doDelete) DeleteFileCallBacks(&newFileFid); /* no other references */ else /* other's still exist (with wrong link count) */ BreakCallBack(client->host, &newFileFid, 1); } Bad_Rename: if (newfileptr) { rx_KeepAliveOff(acall); VPutVnode(&fileCode, newfileptr); osi_Assert(fileCode == 0); } (void)PutVolumePackage(acall, fileptr, (newvptr && newvptr != oldvptr ? newvptr : 0), oldvptr, volptr, &client); FidZap(&olddir); FidZap(&newdir); FidZap(&filedir); FidZap(&newfiledir); ViceLog(2, ("SAFS_Rename returns %d\n", errorCode)); return errorCode; } /*SAFSS_Rename */ afs_int32 SRXAFS_Rename(struct rx_call * acall, struct AFSFid * OldDirFid, char *OldName, struct AFSFid * NewDirFid, char *NewName, struct AFSFetchStatus * OutOldDirStatus, struct AFSFetchStatus * OutNewDirStatus, struct AFSVolSync * Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_RENAME); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_Rename; code = SAFSS_Rename(acall, OldDirFid, OldName, NewDirFid, NewName, OutOldDirStatus, OutNewDirStatus, Sync); Bad_Rename: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, RenameFileEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, OldDirFid, AUD_STR, OldName, AUD_FID, NewDirFid, AUD_STR, NewName, AUD_END); return code; } /*SRXAFS_Rename */ /* * This routine is called exclusively by SRXAFS_Symlink(), and should be * merged into it when possible. */ static afs_int32 SAFSS_Symlink(struct rx_call *acall, struct AFSFid *DirFid, char *Name, char *LinkContents, struct AFSStoreStatus *InStatus, struct AFSFid *OutFid, struct AFSFetchStatus *OutFidStatus, struct AFSFetchStatus *OutDirStatus, struct AFSVolSync *Sync) { Vnode *parentptr = 0; /* vnode of input Directory */ Vnode *targetptr = 0; /* vnode of the new link */ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */ Error errorCode = 0; /* error code */ afs_sfsize_t len; int code = 0; DirHandle dir; /* Handle for dir package I/O */ Volume *volptr = 0; /* pointer to the volume header */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ FdHandle_t *fdP; struct rx_connection *tcon = rx_ConnectionOf(acall); FidZero(&dir); /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_Symlink %s to %s, Did = %u.%u.%u, Host %s:%d, Id %d\n", Name, LinkContents, DirFid->Volume, DirFid->Vnode, DirFid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.Symlink++, AFSCallStats.TotalCalls++; FS_UNLOCK; if (!FileNameOK(Name)) { errorCode = EINVAL; goto Bad_SymLink; } /* * Get the vnode and volume for the parent dir along with the caller's * rights to it */ if ((errorCode = GetVolumePackage(acall, DirFid, &volptr, &parentptr, MustBeDIR, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) goto Bad_SymLink; /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Does the caller has insert (and write) access to the parent directory? */ if ((errorCode = CheckWriteMode(parentptr, rights, PRSFS_INSERT))) goto Bad_SymLink; /* * If we're creating a mount point (any x bits clear), we must have * administer access to the directory, too. Always allow sysadmins * to do this. */ if ((InStatus->Mask & AFS_SETMODE) && !(InStatus->UnixModeBits & 0111)) { if (readonlyServer) { errorCode = VREADONLY; goto Bad_SymLink; } /* * We have a mountpoint, 'cause we're trying to set the Unix mode * bits to something with some x bits missing (default mode bits * if AFS_SETMODE is false is 0777) */ if (VanillaUser(client) && !(rights & PRSFS_ADMINISTER)) { errorCode = EACCES; goto Bad_SymLink; } } /* get a new vnode for the symlink and set it up */ if ((errorCode = Alloc_NewVnode(parentptr, &dir, volptr, &targetptr, Name, OutFid, vSymlink, nBlocks(strlen((char *)LinkContents))))) { goto Bad_SymLink; } /* update the status of the parent vnode */ Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId, parentptr->disk.linkCount, client->InSameNetwork); /* update the status of the new symbolic link file vnode */ Update_TargetVnodeStatus(targetptr, TVS_SLINK, client, InStatus, parentptr, volptr, strlen((char *)LinkContents)); /* Write the contents of the symbolic link name into the target inode */ fdP = IH_OPEN(targetptr->handle); if (fdP == NULL) { (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, parentptr, volptr, &client); VTakeOffline(volptr); ViceLog(0, ("Volume %u now offline, must be salvaged.\n", volptr->hashid)); return EIO; } len = strlen((char *) LinkContents); code = (len == FDH_PWRITE(fdP, (char *) LinkContents, len, 0)) ? 0 : VDISKFULL; if (code) ViceLog(0, ("SAFSS_Symlink FDH_PWRITE failed for len=%d, Fid=%u.%d.%d\n", (int)len, OutFid->Volume, OutFid->Vnode, OutFid->Unique)); FDH_CLOSE(fdP); /* * Set up and return modified status for the parent dir and new symlink * to caller. */ GetStatus(targetptr, OutFidStatus, rights, anyrights, parentptr); GetStatus(parentptr, OutDirStatus, rights, anyrights, 0); /* convert the write lock to a read lock before breaking callbacks */ VVnodeWriteToRead(&errorCode, parentptr); osi_Assert(!errorCode || errorCode == VSALVAGE); rx_KeepAliveOn(acall); /* break call back on the parent dir */ BreakCallBack(client->host, DirFid, 0); Bad_SymLink: /* Write the all modified vnodes (parent, new files) and volume back */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, parentptr, volptr, &client); FidZap(&dir); ViceLog(2, ("SAFS_Symlink returns %d\n", errorCode)); return ( errorCode ? errorCode : code ); } /*SAFSS_Symlink */ afs_int32 SRXAFS_Symlink(struct rx_call *acall, /* Rx call */ struct AFSFid *DirFid, /* Parent dir's fid */ char *Name, /* File name to create */ char *LinkContents, /* Contents of the new created file */ struct AFSStoreStatus *InStatus, /* Input status for the new symbolic link */ struct AFSFid *OutFid, /* Fid for newly created symbolic link */ struct AFSFetchStatus *OutFidStatus, /* Output status for new symbolic link */ struct AFSFetchStatus *OutDirStatus, /* Output status for parent dir */ struct AFSVolSync *Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_SYMLINK); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_Symlink; code = SAFSS_Symlink(acall, DirFid, Name, LinkContents, InStatus, OutFid, OutFidStatus, OutDirStatus, Sync); Bad_Symlink: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, SymlinkEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, DirFid, AUD_STR, Name, AUD_FID, OutFid, AUD_STR, LinkContents, AUD_END); return code; } /*SRXAFS_Symlink */ /* * This routine is called exclusively by SRXAFS_Link(), and should be * merged into it when possible. */ static afs_int32 SAFSS_Link(struct rx_call *acall, struct AFSFid *DirFid, char *Name, struct AFSFid *ExistingFid, struct AFSFetchStatus *OutFidStatus, struct AFSFetchStatus *OutDirStatus, struct AFSVolSync *Sync) { Vnode *parentptr = 0; /* vnode of input Directory */ Vnode *targetptr = 0; /* vnode of the new file */ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */ Volume *volptr = 0; /* pointer to the volume header */ Error errorCode = 0; /* error code */ DirHandle dir; /* Handle for dir package I/O */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct rx_connection *tcon = rx_ConnectionOf(acall); FidZero(&dir); /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_Link %s, Did = %u.%u.%u, Fid = %u.%u.%u, Host %s:%d, Id %d\n", Name, DirFid->Volume, DirFid->Vnode, DirFid->Unique, ExistingFid->Volume, ExistingFid->Vnode, ExistingFid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.Link++, AFSCallStats.TotalCalls++; FS_UNLOCK; if (DirFid->Volume != ExistingFid->Volume) { errorCode = EXDEV; goto Bad_Link; } if (!FileNameOK(Name)) { errorCode = EINVAL; goto Bad_Link; } /* * Get the vnode and volume for the parent dir along with the caller's * rights to it */ if ((errorCode = GetVolumePackage(acall, DirFid, &volptr, &parentptr, MustBeDIR, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) { goto Bad_Link; } /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Can the caller insert into the parent directory? */ if ((errorCode = CheckWriteMode(parentptr, rights, PRSFS_INSERT))) { goto Bad_Link; } if (((DirFid->Vnode & 1) && (ExistingFid->Vnode & 1)) || (DirFid->Vnode == ExistingFid->Vnode)) { /* at present, */ /* AFS fileservers always have directory vnodes that are odd. */ errorCode = EISDIR; goto Bad_Link; } if (CheckLength(volptr, parentptr, -1)) { VTakeOffline(volptr); errorCode = VSALVAGE; goto Bad_Link; } /* get the file vnode */ if ((errorCode = CheckVnode(ExistingFid, &volptr, &targetptr, WRITE_LOCK))) { goto Bad_Link; } if (targetptr->disk.type != vFile) { errorCode = EISDIR; goto Bad_Link; } if (targetptr->disk.parent != DirFid->Vnode) { errorCode = EXDEV; goto Bad_Link; } if (parentptr->disk.cloned) { ViceLog(25, ("Link : calling CopyOnWrite on target dir\n")); if ((errorCode = CopyOnWrite(parentptr, volptr, 0, MAXFSIZE))) goto Bad_Link; /* disk full error */ } /* add the name to the directory */ SetDirHandle(&dir, parentptr); if ((errorCode = afs_dir_Create(&dir, Name, ExistingFid))) goto Bad_Link; DFlush(); /* update the status in the parent vnode */ /**WARNING** --> disk.author SHOULDN'T be modified???? */ Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId, parentptr->disk.linkCount, client->InSameNetwork); targetptr->disk.linkCount++; targetptr->disk.author = client->ViceId; targetptr->changed_newTime = 1; /* Status change of linked-to file */ /* set up return status */ GetStatus(targetptr, OutFidStatus, rights, anyrights, parentptr); GetStatus(parentptr, OutDirStatus, rights, anyrights, 0); /* convert the write locks to read locks before breaking callbacks */ VVnodeWriteToRead(&errorCode, targetptr); osi_Assert(!errorCode || errorCode == VSALVAGE); VVnodeWriteToRead(&errorCode, parentptr); osi_Assert(!errorCode || errorCode == VSALVAGE); rx_KeepAliveOn(acall); /* break call back on DirFid */ BreakCallBack(client->host, DirFid, 0); /* * We also need to break the callback for the file that is hard-linked since part * of its status (like linkcount) is changed */ BreakCallBack(client->host, ExistingFid, 0); Bad_Link: /* Write the all modified vnodes (parent, new files) and volume back */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, parentptr, volptr, &client); FidZap(&dir); ViceLog(2, ("SAFS_Link returns %d\n", errorCode)); return errorCode; } /*SAFSS_Link */ afs_int32 SRXAFS_Link(struct rx_call * acall, struct AFSFid * DirFid, char *Name, struct AFSFid * ExistingFid, struct AFSFetchStatus * OutFidStatus, struct AFSFetchStatus * OutDirStatus, struct AFSVolSync * Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_LINK); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_Link; code = SAFSS_Link(acall, DirFid, Name, ExistingFid, OutFidStatus, OutDirStatus, Sync); Bad_Link: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, LinkEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, DirFid, AUD_STR, Name, AUD_FID, ExistingFid, AUD_END); return code; } /*SRXAFS_Link */ /* * This routine is called exclusively by SRXAFS_MakeDir(), and should be * merged into it when possible. */ static afs_int32 SAFSS_MakeDir(struct rx_call *acall, struct AFSFid *DirFid, char *Name, struct AFSStoreStatus *InStatus, struct AFSFid *OutFid, struct AFSFetchStatus *OutFidStatus, struct AFSFetchStatus *OutDirStatus, struct AFSCallBack *CallBack, struct AFSVolSync *Sync) { Vnode *parentptr = 0; /* vnode of input Directory */ Vnode *targetptr = 0; /* vnode of the new file */ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */ Volume *volptr = 0; /* pointer to the volume header */ Error errorCode = 0; /* error code */ struct acl_accessList *newACL; /* Access list */ int newACLSize; /* Size of access list */ DirHandle dir; /* Handle for dir package I/O */ DirHandle parentdir; /* Handle for dir package I/O */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct rx_connection *tcon = rx_ConnectionOf(acall); FidZero(&dir); FidZero(&parentdir); /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_MakeDir %s, Did = %u.%u.%u, Host %s:%d, Id %d\n", Name, DirFid->Volume, DirFid->Vnode, DirFid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.MakeDir++, AFSCallStats.TotalCalls++; FS_UNLOCK; if (!FileNameOK(Name)) { errorCode = EINVAL; goto Bad_MakeDir; } /* * Get the vnode and volume for the parent dir along with the caller's * rights to it. */ if ((errorCode = GetVolumePackage(acall, DirFid, &volptr, &parentptr, MustBeDIR, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) { goto Bad_MakeDir; } /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Write access to the parent directory? */ #ifdef DIRCREATE_NEED_WRITE /* * requires w access for the user to create a directory. this * closes a loophole in the current security arrangement, since a * user with i access only can create a directory and get the * implcit a access that goes with dir ownership, and proceed to * subvert quota in the volume. */ if ((errorCode = CheckWriteMode(parentptr, rights, PRSFS_INSERT)) || (errorCode = CheckWriteMode(parentptr, rights, PRSFS_WRITE))) { #else if ((errorCode = CheckWriteMode(parentptr, rights, PRSFS_INSERT))) { #endif /* DIRCREATE_NEED_WRITE */ goto Bad_MakeDir; } #define EMPTYDIRBLOCKS 2 /* get a new vnode and set it up */ if ((errorCode = Alloc_NewVnode(parentptr, &parentdir, volptr, &targetptr, Name, OutFid, vDirectory, EMPTYDIRBLOCKS))) { goto Bad_MakeDir; } /* Update the status for the parent dir */ Update_ParentVnodeStatus(parentptr, volptr, &parentdir, client->ViceId, parentptr->disk.linkCount + 1, client->InSameNetwork); /* Point to target's ACL buffer and copy the parent's ACL contents to it */ osi_Assert((SetAccessList (&targetptr, &volptr, &newACL, &newACLSize, &parentwhentargetnotdir, (AFSFid *) 0, 0)) == 0); osi_Assert(parentwhentargetnotdir == 0); memcpy((char *)newACL, (char *)VVnodeACL(parentptr), VAclSize(parentptr)); /* update the status for the target vnode */ Update_TargetVnodeStatus(targetptr, TVS_MKDIR, client, InStatus, parentptr, volptr, 0); /* Actually create the New directory in the directory package */ SetDirHandle(&dir, targetptr); osi_Assert(!(afs_dir_MakeDir(&dir, (afs_int32 *)OutFid, (afs_int32 *)DirFid))); DFlush(); VN_SET_LEN(targetptr, (afs_fsize_t) afs_dir_Length(&dir)); /* set up return status */ GetStatus(targetptr, OutFidStatus, rights, anyrights, parentptr); GetStatus(parentptr, OutDirStatus, rights, anyrights, NULL); /* convert the write lock to a read lock before breaking callbacks */ VVnodeWriteToRead(&errorCode, parentptr); osi_Assert(!errorCode || errorCode == VSALVAGE); rx_KeepAliveOn(acall); /* break call back on DirFid */ BreakCallBack(client->host, DirFid, 0); /* Return a callback promise to caller */ SetCallBackStruct(AddCallBack(client->host, OutFid), CallBack); Bad_MakeDir: /* Write the all modified vnodes (parent, new files) and volume back */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, parentptr, volptr, &client); FidZap(&dir); FidZap(&parentdir); ViceLog(2, ("SAFS_MakeDir returns %d\n", errorCode)); return errorCode; } /*SAFSS_MakeDir */ afs_int32 SRXAFS_MakeDir(struct rx_call * acall, struct AFSFid * DirFid, char *Name, struct AFSStoreStatus * InStatus, struct AFSFid * OutFid, struct AFSFetchStatus * OutFidStatus, struct AFSFetchStatus * OutDirStatus, struct AFSCallBack * CallBack, struct AFSVolSync * Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_MAKEDIR); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_MakeDir; code = SAFSS_MakeDir(acall, DirFid, Name, InStatus, OutFid, OutFidStatus, OutDirStatus, CallBack, Sync); Bad_MakeDir: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, MakeDirEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, DirFid, AUD_STR, Name, AUD_FID, OutFid, AUD_END); return code; } /*SRXAFS_MakeDir */ /* * This routine is called exclusively by SRXAFS_RemoveDir(), and should be * merged into it when possible. */ static afs_int32 SAFSS_RemoveDir(struct rx_call *acall, struct AFSFid *DirFid, char *Name, struct AFSFetchStatus *OutDirStatus, struct AFSVolSync *Sync) { Vnode *parentptr = 0; /* vnode of input Directory */ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */ Vnode *targetptr = 0; /* file to be deleted */ AFSFid fileFid; /* area for Fid from the directory */ Error errorCode = 0; /* error code */ DirHandle dir; /* Handle for dir package I/O */ Volume *volptr = 0; /* pointer to the volume header */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct rx_connection *tcon = rx_ConnectionOf(acall); FidZero(&dir); /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_RemoveDir %s, Did = %u.%u.%u, Host %s:%d, Id %d\n", Name, DirFid->Volume, DirFid->Vnode, DirFid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.RemoveDir++, AFSCallStats.TotalCalls++; FS_UNLOCK; /* * Get the vnode and volume for the parent dir along with the caller's * rights to it */ if ((errorCode = GetVolumePackage(acall, DirFid, &volptr, &parentptr, MustBeDIR, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) { goto Bad_RemoveDir; } /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Does the caller has delete (&write) access to the parent dir? */ if ((errorCode = CheckWriteMode(parentptr, rights, PRSFS_DELETE))) { goto Bad_RemoveDir; } /* Do the actual delete of the desired (empty) directory, Name */ if ((errorCode = DeleteTarget(parentptr, volptr, &targetptr, &dir, &fileFid, Name, MustBeDIR))) { goto Bad_RemoveDir; } /* Update the status for the parent dir; link count is also adjusted */ Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId, parentptr->disk.linkCount - 1, client->InSameNetwork); /* Return to the caller the updated parent dir status */ GetStatus(parentptr, OutDirStatus, rights, anyrights, NULL); /* * Note: it is not necessary to break the callback on fileFid, since * refcount is now 0, so no one should be able to refer to the dir * any longer */ DeleteFileCallBacks(&fileFid); /* convert the write lock to a read lock before breaking callbacks */ VVnodeWriteToRead(&errorCode, parentptr); osi_Assert(!errorCode || errorCode == VSALVAGE); rx_KeepAliveOn(acall); /* break call back on DirFid and fileFid */ BreakCallBack(client->host, DirFid, 0); Bad_RemoveDir: /* Write the all modified vnodes (parent, new files) and volume back */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, parentptr, volptr, &client); FidZap(&dir); ViceLog(2, ("SAFS_RemoveDir returns %d\n", errorCode)); return errorCode; } /*SAFSS_RemoveDir */ afs_int32 SRXAFS_RemoveDir(struct rx_call * acall, struct AFSFid * DirFid, char *Name, struct AFSFetchStatus * OutDirStatus, struct AFSVolSync * Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_REMOVEDIR); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_RemoveDir; code = SAFSS_RemoveDir(acall, DirFid, Name, OutDirStatus, Sync); Bad_RemoveDir: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, RemoveDirEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, DirFid, AUD_STR, Name, AUD_END); return code; } /*SRXAFS_RemoveDir */ /* * This routine is called exclusively by SRXAFS_SetLock(), and should be * merged into it when possible. */ static afs_int32 SAFSS_SetLock(struct rx_call *acall, struct AFSFid *Fid, ViceLockType type, struct AFSVolSync *Sync) { Vnode *targetptr = 0; /* vnode of input file */ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */ Error errorCode = 0; /* error code */ Volume *volptr = 0; /* pointer to the volume header */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ static char *locktype[4] = { "LockRead", "LockWrite", "LockExtend", "LockRelease" }; struct rx_connection *tcon = rx_ConnectionOf(acall); if (type != LockRead && type != LockWrite) { errorCode = EINVAL; goto Bad_SetLock; } /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_SetLock type = %s Fid = %u.%u.%u, Host %s:%d, Id %d\n", locktype[(int)type], Fid->Volume, Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.SetLock++, AFSCallStats.TotalCalls++; FS_UNLOCK; /* * Get the vnode and volume for the desired file along with the caller's * rights to it */ if ((errorCode = GetVolumePackage(acall, Fid, &volptr, &targetptr, DONTCHECK, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) { goto Bad_SetLock; } /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Handle the particular type of set locking, type */ errorCode = HandleLocking(targetptr, client, rights, type); Bad_SetLock: /* Write the all modified vnodes (parent, new files) and volume back */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); if ((errorCode == VREADONLY) && (type == LockRead)) errorCode = 0; /* allow read locks on RO volumes without saving state */ ViceLog(2, ("SAFS_SetLock returns %d\n", errorCode)); return (errorCode); } /*SAFSS_SetLock */ afs_int32 SRXAFS_OldSetLock(struct rx_call * acall, struct AFSFid * Fid, ViceLockType type, struct AFSVolSync * Sync) { return SRXAFS_SetLock(acall, Fid, type, Sync); } /*SRXAFS_OldSetLock */ afs_int32 SRXAFS_SetLock(struct rx_call * acall, struct AFSFid * Fid, ViceLockType type, struct AFSVolSync * Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_SETLOCK); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_SetLock; code = SAFSS_SetLock(acall, Fid, type, Sync); Bad_SetLock: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, SetLockEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, Fid, AUD_LONG, type, AUD_END); return code; } /*SRXAFS_SetLock */ /* * This routine is called exclusively by SRXAFS_ExtendLock(), and should be * merged into it when possible. */ static afs_int32 SAFSS_ExtendLock(struct rx_call *acall, struct AFSFid *Fid, struct AFSVolSync *Sync) { Vnode *targetptr = 0; /* vnode of input file */ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */ Error errorCode = 0; /* error code */ Volume *volptr = 0; /* pointer to the volume header */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct rx_connection *tcon = rx_ConnectionOf(acall); /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_ExtendLock Fid = %u.%u.%u, Host %s:%d, Id %d\n", Fid->Volume, Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.ExtendLock++, AFSCallStats.TotalCalls++; FS_UNLOCK; /* * Get the vnode and volume for the desired file along with the caller's * rights to it */ if ((errorCode = GetVolumePackage(acall, Fid, &volptr, &targetptr, DONTCHECK, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) { goto Bad_ExtendLock; } /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Handle the actual lock extension */ errorCode = HandleLocking(targetptr, client, rights, LockExtend); Bad_ExtendLock: /* Put back file's vnode and volume */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); if (errorCode == VREADONLY) /* presumably, we already granted this lock */ errorCode = 0; /* under our generous policy re RO vols */ ViceLog(2, ("SAFS_ExtendLock returns %d\n", errorCode)); return (errorCode); } /*SAFSS_ExtendLock */ afs_int32 SRXAFS_OldExtendLock(struct rx_call * acall, struct AFSFid * Fid, struct AFSVolSync * Sync) { return SRXAFS_ExtendLock(acall, Fid, Sync); } /*SRXAFS_OldExtendLock */ afs_int32 SRXAFS_ExtendLock(struct rx_call * acall, struct AFSFid * Fid, struct AFSVolSync * Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_EXTENDLOCK); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_ExtendLock; code = SAFSS_ExtendLock(acall, Fid, Sync); Bad_ExtendLock: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, ExtendLockEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, Fid, AUD_END); return code; } /*SRXAFS_ExtendLock */ /* * This routine is called exclusively by SRXAFS_ReleaseLock(), and should be * merged into it when possible. */ static afs_int32 SAFSS_ReleaseLock(struct rx_call *acall, struct AFSFid *Fid, struct AFSVolSync *Sync) { Vnode *targetptr = 0; /* vnode of input file */ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */ Error errorCode = 0; /* error code */ Volume *volptr = 0; /* pointer to the volume header */ struct client *client = 0; /* pointer to client structure */ afs_int32 rights, anyrights; /* rights for this and any user */ struct client *t_client; /* tmp ptr to client data */ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ struct rx_connection *tcon = rx_ConnectionOf(acall); /* Get ptr to client data for user Id for logging */ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); logHostAddr.s_addr = rxr_HostOf(tcon); ViceLog(1, ("SAFS_ReleaseLock Fid = %u.%u.%u, Host %s:%d, Id %d\n", Fid->Volume, Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(tcon)), t_client->ViceId)); FS_LOCK; AFSCallStats.ReleaseLock++, AFSCallStats.TotalCalls++; FS_UNLOCK; /* * Get the vnode and volume for the desired file along with the caller's * rights to it */ if ((errorCode = GetVolumePackage(acall, Fid, &volptr, &targetptr, DONTCHECK, &parentwhentargetnotdir, &client, WRITE_LOCK, &rights, &anyrights))) { goto Bad_ReleaseLock; } /* set volume synchronization information */ SetVolumeSync(Sync, volptr); /* Handle the actual lock release */ if ((errorCode = HandleLocking(targetptr, client, rights, LockRelease))) goto Bad_ReleaseLock; /* if no more locks left, a callback would be triggered here */ if (targetptr->disk.lock.lockCount <= 0) { rx_KeepAliveOn(acall); /* convert the write lock to a read lock before breaking callbacks */ VVnodeWriteToRead(&errorCode, targetptr); osi_Assert(!errorCode || errorCode == VSALVAGE); BreakCallBack(client->host, Fid, 0); } Bad_ReleaseLock: /* Put back file's vnode and volume */ (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); if (errorCode == VREADONLY) /* presumably, we already granted this lock */ errorCode = 0; /* under our generous policy re RO vols */ ViceLog(2, ("SAFS_ReleaseLock returns %d\n", errorCode)); return (errorCode); } /*SAFSS_ReleaseLock */ afs_int32 SRXAFS_OldReleaseLock(struct rx_call * acall, struct AFSFid * Fid, struct AFSVolSync * Sync) { return SRXAFS_ReleaseLock(acall, Fid, Sync); } /*SRXAFS_OldReleaseLock */ afs_int32 SRXAFS_ReleaseLock(struct rx_call * acall, struct AFSFid * Fid, struct AFSVolSync * Sync) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_RELEASELOCK); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_ReleaseLock; code = SAFSS_ReleaseLock(acall, Fid, Sync); Bad_ReleaseLock: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, ReleaseLockEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_FID, Fid, AUD_END); return code; } /*SRXAFS_ReleaseLock */ void SetSystemStats(struct AFSStatistics *stats) { /* Fix this sometime soon.. */ /* Because hey, it's not like we have a network monitoring protocol... */ struct timeval time; /* this works on all system types */ FT_GetTimeOfDay(&time, 0); stats->CurrentTime = time.tv_sec; } /*SetSystemStats */ void SetAFSStats(struct AFSStatistics *stats) { extern afs_int32 StartTime, CurrentConnections; int seconds; FS_LOCK; stats->CurrentMsgNumber = 0; stats->OldestMsgNumber = 0; stats->StartTime = StartTime; stats->CurrentConnections = CurrentConnections; stats->TotalAFSCalls = AFSCallStats.TotalCalls; stats->TotalFetchs = AFSCallStats.FetchData + AFSCallStats.FetchACL + AFSCallStats.FetchStatus; stats->FetchDatas = AFSCallStats.FetchData; stats->FetchedBytes = AFSCallStats.TotalFetchedBytes; seconds = AFSCallStats.AccumFetchTime / 1000; if (seconds <= 0) seconds = 1; stats->FetchDataRate = AFSCallStats.TotalFetchedBytes / seconds; stats->TotalStores = AFSCallStats.StoreData + AFSCallStats.StoreACL + AFSCallStats.StoreStatus; stats->StoreDatas = AFSCallStats.StoreData; stats->StoredBytes = AFSCallStats.TotalStoredBytes; seconds = AFSCallStats.AccumStoreTime / 1000; if (seconds <= 0) seconds = 1; stats->StoreDataRate = AFSCallStats.TotalStoredBytes / seconds; #ifdef AFS_NT40_ENV stats->ProcessSize = -1; /* TODO: */ #else stats->ProcessSize = (afs_int32) ((long)sbrk(0) >> 10); #endif FS_UNLOCK; h_GetWorkStats((int *)&(stats->WorkStations), (int *)&(stats->ActiveWorkStations), (int *)0, (afs_int32) (FT_ApproxTime()) - (15 * 60)); } /*SetAFSStats */ /* Get disk related information from all AFS partitions. */ void SetVolumeStats(struct AFSStatistics *stats) { struct DiskPartition64 *part; int i = 0; for (part = DiskPartitionList; part && i < AFS_MSTATDISKS; part = part->next) { stats->Disks[i].TotalBlocks = RoundInt64ToInt31(part->totalUsable); stats->Disks[i].BlocksAvailable = RoundInt64ToInt31(part->free); memset(stats->Disks[i].Name, 0, AFS_DISKNAMESIZE); strncpy(stats->Disks[i].Name, part->name, AFS_DISKNAMESIZE); i++; } while (i < AFS_MSTATDISKS) { stats->Disks[i].TotalBlocks = -1; i++; } } /*SetVolumeStats */ afs_int32 SRXAFS_GetStatistics(struct rx_call *acall, struct ViceStatistics *Statistics) { afs_int32 code; struct rx_connection *tcon = rx_ConnectionOf(acall); struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_GETSTATISTICS); if ((code = CallPreamble(acall, NOTACTIVECALL, &tcon, &thost))) goto Bad_GetStatistics; ViceLog(1, ("SAFS_GetStatistics Received\n")); FS_LOCK; AFSCallStats.GetStatistics++, AFSCallStats.TotalCalls++; FS_UNLOCK; memset(Statistics, 0, sizeof(*Statistics)); SetAFSStats((struct AFSStatistics *)Statistics); SetVolumeStats((struct AFSStatistics *)Statistics); SetSystemStats((struct AFSStatistics *)Statistics); Bad_GetStatistics: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, GetStatisticsEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_END); return code; } /*SRXAFS_GetStatistics */ afs_int32 SRXAFS_GetStatistics64(struct rx_call *acall, afs_int32 statsVersion, ViceStatistics64 *Statistics) { extern afs_int32 StartTime, CurrentConnections; int seconds; afs_int32 code; struct rx_connection *tcon = rx_ConnectionOf(acall); struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct timeval time; struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_GETSTATISTICS); if ((code = CallPreamble(acall, NOTACTIVECALL, &tcon, &thost))) goto Bad_GetStatistics64; ViceLog(1, ("SAFS_GetStatistics64 Received\n")); Statistics->ViceStatistics64_val = malloc(statsVersion*sizeof(afs_int64)); Statistics->ViceStatistics64_len = statsVersion; FS_LOCK; AFSCallStats.GetStatistics++, AFSCallStats.TotalCalls++; Statistics->ViceStatistics64_val[STATS64_STARTTIME] = StartTime; Statistics->ViceStatistics64_val[STATS64_CURRENTCONNECTIONS] = CurrentConnections; Statistics->ViceStatistics64_val[STATS64_TOTALVICECALLS] = AFSCallStats.TotalCalls; Statistics->ViceStatistics64_val[STATS64_TOTALFETCHES] = AFSCallStats.FetchData + AFSCallStats.FetchACL + AFSCallStats.FetchStatus; Statistics->ViceStatistics64_val[STATS64_FETCHDATAS] = AFSCallStats.FetchData; Statistics->ViceStatistics64_val[STATS64_FETCHEDBYTES] = AFSCallStats.TotalFetchedBytes; seconds = AFSCallStats.AccumFetchTime / 1000; if (seconds <= 0) seconds = 1; Statistics->ViceStatistics64_val[STATS64_FETCHDATARATE] = AFSCallStats.TotalFetchedBytes / seconds; Statistics->ViceStatistics64_val[STATS64_TOTALSTORES] = AFSCallStats.StoreData + AFSCallStats.StoreACL + AFSCallStats.StoreStatus; Statistics->ViceStatistics64_val[STATS64_STOREDATAS] = AFSCallStats.StoreData; Statistics->ViceStatistics64_val[STATS64_STOREDBYTES] = AFSCallStats.TotalStoredBytes; seconds = AFSCallStats.AccumStoreTime / 1000; if (seconds <= 0) seconds = 1; Statistics->ViceStatistics64_val[STATS64_STOREDATARATE] = AFSCallStats.TotalStoredBytes / seconds; #ifdef AFS_NT40_ENV Statistics->ViceStatistics64_val[STATS64_PROCESSSIZE] = -1; #else Statistics->ViceStatistics64_val[STATS64_PROCESSSIZE] = (afs_int32) ((long)sbrk(0) >> 10); #endif FS_UNLOCK; h_GetWorkStats64(&(Statistics->ViceStatistics64_val[STATS64_WORKSTATIONS]), &(Statistics->ViceStatistics64_val[STATS64_ACTIVEWORKSTATIONS]), 0, (afs_int32) (FT_ApproxTime()) - (15 * 60)); /* this works on all system types */ FT_GetTimeOfDay(&time, 0); Statistics->ViceStatistics64_val[STATS64_CURRENTTIME] = time.tv_sec; Bad_GetStatistics64: code = CallPostamble(tcon, code, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, code); osi_auditU(acall, GetStatisticsEvent, code, AUD_ID, t_client ? t_client->ViceId : 0, AUD_END); return code; } /*SRXAFS_GetStatistics */ /*------------------------------------------------------------------------ * EXPORTED SRXAFS_XStatsVersion * * Description: * Routine called by the server-side RPC interface to implement * pulling out the xstat version number for the File Server. * * Arguments: * a_versionP : Ptr to the version number variable to set. * * Returns: * 0 (always) * * Environment: * Nothing interesting. * * Side Effects: * As advertised. *------------------------------------------------------------------------*/ afs_int32 SRXAFS_XStatsVersion(struct rx_call * a_call, afs_int32 * a_versionP) { /*SRXAFS_XStatsVersion */ struct client *t_client = NULL; /* tmp ptr to client data */ struct rx_connection *tcon = rx_ConnectionOf(a_call); struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_XSTATSVERSION); *a_versionP = AFS_XSTAT_VERSION; t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, 0); osi_auditU(a_call, XStatsVersionEvent, 0, AUD_ID, t_client ? t_client->ViceId : 0, AUD_END); return (0); } /*SRXAFS_XStatsVersion */ /*------------------------------------------------------------------------ * PRIVATE FillPerfValues * * Description: * Routine called to fill a regular performance data structure. * * Arguments: * a_perfP : Ptr to perf structure to fill * * Returns: * Nothing. * * Environment: * Various collections need this info, so the guts were put in * this separate routine. * * Side Effects: * As advertised. *------------------------------------------------------------------------*/ static void FillPerfValues(struct afs_PerfStats *a_perfP) { /*FillPerfValues */ int dir_Buffers; /*# buffers in use by dir package */ int dir_Calls; /*# read calls in dir package */ int dir_IOs; /*# I/O ops in dir package */ struct rx_statistics *stats; /* * Vnode cache section. */ a_perfP->vcache_L_Entries = VnodeClassInfo[vLarge].cacheSize; a_perfP->vcache_L_Allocs = VnodeClassInfo[vLarge].allocs; a_perfP->vcache_L_Gets = VnodeClassInfo[vLarge].gets; a_perfP->vcache_L_Reads = VnodeClassInfo[vLarge].reads; a_perfP->vcache_L_Writes = VnodeClassInfo[vLarge].writes; a_perfP->vcache_S_Entries = VnodeClassInfo[vSmall].cacheSize; a_perfP->vcache_S_Allocs = VnodeClassInfo[vSmall].allocs; a_perfP->vcache_S_Gets = VnodeClassInfo[vSmall].gets; a_perfP->vcache_S_Reads = VnodeClassInfo[vSmall].reads; a_perfP->vcache_S_Writes = VnodeClassInfo[vSmall].writes; a_perfP->vcache_H_Entries = VStats.hdr_cache_size; a_perfP->vcache_H_Gets = (int)VStats.hdr_gets; a_perfP->vcache_H_Replacements = (int)VStats.hdr_loads; /* * Directory section. */ DStat(&dir_Buffers, &dir_Calls, &dir_IOs); a_perfP->dir_Buffers = (afs_int32) dir_Buffers; a_perfP->dir_Calls = (afs_int32) dir_Calls; a_perfP->dir_IOs = (afs_int32) dir_IOs; /* * Rx section. */ stats = rx_GetStatistics(); a_perfP->rx_packetRequests = (afs_int32) stats->packetRequests; a_perfP->rx_noPackets_RcvClass = (afs_int32) stats->receivePktAllocFailures; a_perfP->rx_noPackets_SendClass = (afs_int32) stats->sendPktAllocFailures; a_perfP->rx_noPackets_SpecialClass = (afs_int32) stats->specialPktAllocFailures; a_perfP->rx_socketGreedy = (afs_int32) stats->socketGreedy; a_perfP->rx_bogusPacketOnRead = (afs_int32) stats->bogusPacketOnRead; a_perfP->rx_bogusHost = (afs_int32) stats->bogusHost; a_perfP->rx_noPacketOnRead = (afs_int32) stats->noPacketOnRead; a_perfP->rx_noPacketBuffersOnRead = (afs_int32) stats->noPacketBuffersOnRead; a_perfP->rx_selects = (afs_int32) stats->selects; a_perfP->rx_sendSelects = (afs_int32) stats->sendSelects; a_perfP->rx_packetsRead_RcvClass = (afs_int32) stats->packetsRead[RX_PACKET_CLASS_RECEIVE]; a_perfP->rx_packetsRead_SendClass = (afs_int32) stats->packetsRead[RX_PACKET_CLASS_SEND]; a_perfP->rx_packetsRead_SpecialClass = (afs_int32) stats->packetsRead[RX_PACKET_CLASS_SPECIAL]; a_perfP->rx_dataPacketsRead = (afs_int32) stats->dataPacketsRead; a_perfP->rx_ackPacketsRead = (afs_int32) stats->ackPacketsRead; a_perfP->rx_dupPacketsRead = (afs_int32) stats->dupPacketsRead; a_perfP->rx_spuriousPacketsRead = (afs_int32) stats->spuriousPacketsRead; a_perfP->rx_packetsSent_RcvClass = (afs_int32) stats->packetsSent[RX_PACKET_CLASS_RECEIVE]; a_perfP->rx_packetsSent_SendClass = (afs_int32) stats->packetsSent[RX_PACKET_CLASS_SEND]; a_perfP->rx_packetsSent_SpecialClass = (afs_int32) stats->packetsSent[RX_PACKET_CLASS_SPECIAL]; a_perfP->rx_ackPacketsSent = (afs_int32) stats->ackPacketsSent; a_perfP->rx_pingPacketsSent = (afs_int32) stats->pingPacketsSent; a_perfP->rx_abortPacketsSent = (afs_int32) stats->abortPacketsSent; a_perfP->rx_busyPacketsSent = (afs_int32) stats->busyPacketsSent; a_perfP->rx_dataPacketsSent = (afs_int32) stats->dataPacketsSent; a_perfP->rx_dataPacketsReSent = (afs_int32) stats->dataPacketsReSent; a_perfP->rx_dataPacketsPushed = (afs_int32) stats->dataPacketsPushed; a_perfP->rx_ignoreAckedPacket = (afs_int32) stats->ignoreAckedPacket; a_perfP->rx_totalRtt_Sec = (afs_int32) stats->totalRtt.sec; a_perfP->rx_totalRtt_Usec = (afs_int32) stats->totalRtt.usec; a_perfP->rx_minRtt_Sec = (afs_int32) stats->minRtt.sec; a_perfP->rx_minRtt_Usec = (afs_int32) stats->minRtt.usec; a_perfP->rx_maxRtt_Sec = (afs_int32) stats->maxRtt.sec; a_perfP->rx_maxRtt_Usec = (afs_int32) stats->maxRtt.usec; a_perfP->rx_nRttSamples = (afs_int32) stats->nRttSamples; a_perfP->rx_nServerConns = (afs_int32) stats->nServerConns; a_perfP->rx_nClientConns = (afs_int32) stats->nClientConns; a_perfP->rx_nPeerStructs = (afs_int32) stats->nPeerStructs; a_perfP->rx_nCallStructs = (afs_int32) stats->nCallStructs; a_perfP->rx_nFreeCallStructs = (afs_int32) stats->nFreeCallStructs; a_perfP->host_NumHostEntries = HTs; a_perfP->host_HostBlocks = HTBlocks; h_GetHostNetStats(&(a_perfP->host_NonDeletedHosts), &(a_perfP->host_HostsInSameNetOrSubnet), &(a_perfP->host_HostsInDiffSubnet), &(a_perfP->host_HostsInDiffNetwork)); a_perfP->host_NumClients = CEs; a_perfP->host_ClientBlocks = CEBlocks; a_perfP->sysname_ID = afs_perfstats.sysname_ID; a_perfP->rx_nBusies = (afs_int32) stats->nBusies; a_perfP->fs_nBusies = afs_perfstats.fs_nBusies; rx_FreeStatistics(&stats); } /*FillPerfValues */ /*------------------------------------------------------------------------ * EXPORTED SRXAFS_GetXStats * * Description: * Routine called by the server-side callback RPC interface to * implement getting the given data collection from the extended * File Server statistics. * * Arguments: * a_call : Ptr to Rx call on which this request came in. * a_clientVersionNum : Client version number. * a_opCode : Desired operation. * a_serverVersionNumP : Ptr to version number to set. * a_timeP : Ptr to time value (seconds) to set. * a_dataP : Ptr to variable array structure to return * stuff in. * * Returns: * 0 (always). * * Environment: * Nothing interesting. * * Side Effects: * As advertised. *------------------------------------------------------------------------*/ afs_int32 SRXAFS_GetXStats(struct rx_call *a_call, afs_int32 a_clientVersionNum, afs_int32 a_collectionNumber, afs_int32 * a_srvVersionNumP, afs_int32 * a_timeP, AFS_CollData * a_dataP) { /*SRXAFS_GetXStats */ int code; /*Return value */ afs_int32 *dataBuffP; /*Ptr to data to be returned */ afs_int32 dataBytes; /*Bytes in data buffer */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_GETXSTATS); /* * Record the time of day and the server version number. */ *a_srvVersionNumP = AFS_XSTAT_VERSION; *a_timeP = FT_ApproxTime(); /* * Stuff the appropriate data in there (assume victory) */ code = 0; ViceLog(1, ("Received GetXStats call for collection %d\n", a_collectionNumber)); #if 0 /* * We're not keeping stats, so just return successfully with * no data. */ a_dataP->AFS_CollData_len = 0; a_dataP->AFS_CollData_val = NULL; #endif /* 0 */ switch (a_collectionNumber) { case AFS_XSTATSCOLL_CALL_INFO: /* * Pass back all the call-count-related data. * * >>> We are forced to allocate a separate area in which to * >>> put this stuff in by the RPC stub generator, since it * >>> will be freed at the tail end of the server stub code. */ #if 0 /* * I don't think call-level stats are being collected yet * for the File Server. */ dataBytes = sizeof(struct afs_Stats); dataBuffP = (afs_int32 *) malloc(dataBytes); memcpy(dataBuffP, &afs_cmstats, dataBytes); a_dataP->AFS_CollData_len = dataBytes >> 2; a_dataP->AFS_CollData_val = dataBuffP; #else a_dataP->AFS_CollData_len = 0; a_dataP->AFS_CollData_val = NULL; #endif /* 0 */ break; case AFS_XSTATSCOLL_PERF_INFO: /* * Pass back all the regular performance-related data. * * >>> We are forced to allocate a separate area in which to * >>> put this stuff in by the RPC stub generator, since it * >>> will be freed at the tail end of the server stub code. */ afs_perfstats.numPerfCalls++; FillPerfValues(&afs_perfstats); /* * Don't overwrite the spares at the end. */ dataBytes = sizeof(struct afs_PerfStats); dataBuffP = (afs_int32 *) malloc(dataBytes); memcpy(dataBuffP, &afs_perfstats, dataBytes); a_dataP->AFS_CollData_len = dataBytes >> 2; a_dataP->AFS_CollData_val = dataBuffP; break; case AFS_XSTATSCOLL_FULL_PERF_INFO: /* * Pass back the full collection of performance-related data. * We have to stuff the basic, overall numbers in, but the * detailed numbers are kept in the structure already. * * >>> We are forced to allocate a separate area in which to * >>> put this stuff in by the RPC stub generator, since it * >>> will be freed at the tail end of the server stub code. */ afs_perfstats.numPerfCalls++; afs_FullPerfStats.overall.numPerfCalls = afs_perfstats.numPerfCalls; FillPerfValues(&afs_FullPerfStats.overall); /* * Don't overwrite the spares at the end. */ dataBytes = sizeof(struct fs_stats_FullPerfStats); dataBuffP = (afs_int32 *) malloc(dataBytes); memcpy(dataBuffP, &afs_FullPerfStats, dataBytes); a_dataP->AFS_CollData_len = dataBytes >> 2; a_dataP->AFS_CollData_val = dataBuffP; break; case AFS_XSTATSCOLL_CBSTATS: afs_perfstats.numPerfCalls++; dataBytes = sizeof(struct cbcounters); dataBuffP = (afs_int32 *) malloc(dataBytes); { extern struct cbcounters cbstuff; dataBuffP[0]=cbstuff.DeleteFiles; dataBuffP[1]=cbstuff.DeleteCallBacks; dataBuffP[2]=cbstuff.BreakCallBacks; dataBuffP[3]=cbstuff.AddCallBacks; dataBuffP[4]=cbstuff.GotSomeSpaces; dataBuffP[5]=cbstuff.DeleteAllCallBacks; dataBuffP[6]=cbstuff.nFEs; dataBuffP[7]=cbstuff.nCBs; dataBuffP[8]=cbstuff.nblks; dataBuffP[9]=cbstuff.CBsTimedOut; dataBuffP[10]=cbstuff.nbreakers; dataBuffP[11]=cbstuff.GSS1; dataBuffP[12]=cbstuff.GSS2; dataBuffP[13]=cbstuff.GSS3; dataBuffP[14]=cbstuff.GSS4; dataBuffP[15]=cbstuff.GSS5; } a_dataP->AFS_CollData_len = dataBytes >> 2; a_dataP->AFS_CollData_val = dataBuffP; break; default: /* * Illegal collection number. */ a_dataP->AFS_CollData_len = 0; a_dataP->AFS_CollData_val = NULL; code = 1; } /*Switch on collection number */ fsstats_FinishOp(&fsstats, code); return (code); } /*SRXAFS_GetXStats */ static afs_int32 common_GiveUpCallBacks(struct rx_call *acall, struct AFSCBFids *FidArray, struct AFSCBs *CallBackArray) { afs_int32 errorCode = 0; int i; struct client *client = 0; struct rx_connection *tcon; struct host *thost; struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_GIVEUPCALLBACKS); if (FidArray) ViceLog(1, ("SAFS_GiveUpCallBacks (Noffids=%d)\n", FidArray->AFSCBFids_len)); FS_LOCK; AFSCallStats.GiveUpCallBacks++, AFSCallStats.TotalCalls++; FS_UNLOCK; if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_GiveUpCallBacks; if (!FidArray && !CallBackArray) { ViceLog(1, ("SAFS_GiveUpAllCallBacks: host=%x\n", (rx_PeerOf(tcon) ? rx_HostOf(rx_PeerOf(tcon)) : 0))); errorCode = GetClient(tcon, &client); if (!errorCode) { H_LOCK; DeleteAllCallBacks_r(client->host, 1); H_UNLOCK; PutClient(&client); } } else { if (FidArray->AFSCBFids_len < CallBackArray->AFSCBs_len) { ViceLog(0, ("GiveUpCallBacks: #Fids %d < #CallBacks %d, host=%x\n", FidArray->AFSCBFids_len, CallBackArray->AFSCBs_len, (rx_PeerOf(tcon) ? rx_HostOf(rx_PeerOf(tcon)) : 0))); errorCode = EINVAL; goto Bad_GiveUpCallBacks; } errorCode = GetClient(tcon, &client); if (!errorCode) { for (i = 0; i < FidArray->AFSCBFids_len; i++) { struct AFSFid *fid = &(FidArray->AFSCBFids_val[i]); DeleteCallBack(client->host, fid); } PutClient(&client); } } Bad_GiveUpCallBacks: errorCode = CallPostamble(tcon, errorCode, thost); fsstats_FinishOp(&fsstats, errorCode); return errorCode; } /*common_GiveUpCallBacks */ afs_int32 SRXAFS_GiveUpCallBacks(struct rx_call * acall, struct AFSCBFids * FidArray, struct AFSCBs * CallBackArray) { return common_GiveUpCallBacks(acall, FidArray, CallBackArray); } /*SRXAFS_GiveUpCallBacks */ afs_int32 SRXAFS_GiveUpAllCallBacks(struct rx_call * acall) { return common_GiveUpCallBacks(acall, 0, 0); } /*SRXAFS_GiveUpAllCallBacks */ afs_int32 SRXAFS_NGetVolumeInfo(struct rx_call * acall, char *avolid, struct AFSVolumeInfo * avolinfo) { return (VNOVOL); /* XXX Obsolete routine XXX */ } /*SRXAFS_NGetVolumeInfo */ /* * Dummy routine. Should never be called (the cache manager should only * invoke this interface when communicating with a AFS/DFS Protocol * Translator). */ afs_int32 SRXAFS_Lookup(struct rx_call * call_p, struct AFSFid * afs_dfid_p, char *afs_name_p, struct AFSFid * afs_fid_p, struct AFSFetchStatus * afs_status_p, struct AFSFetchStatus * afs_dir_status_p, struct AFSCallBack * afs_callback_p, struct AFSVolSync * afs_sync_p) { return EINVAL; } afs_int32 SRXAFS_GetCapabilities(struct rx_call * acall, Capabilities * capabilities) { afs_int32 code; struct rx_connection *tcon; struct host *thost; afs_uint32 *dataBuffP; afs_int32 dataBytes; FS_LOCK; AFSCallStats.GetCapabilities++, AFSCallStats.TotalCalls++; afs_FullPerfStats.overall.fs_nGetCaps++; FS_UNLOCK; ViceLog(2, ("SAFS_GetCapabilties\n")); if ((code = CallPreamble(acall, NOTACTIVECALL, &tcon, &thost))) goto Bad_GetCaps; dataBytes = 1 * sizeof(afs_int32); dataBuffP = (afs_uint32 *) malloc(dataBytes); dataBuffP[0] = VICED_CAPABILITY_ERRORTRANS | VICED_CAPABILITY_WRITELOCKACL; dataBuffP[0] |= VICED_CAPABILITY_64BITFILES; if (saneacls) dataBuffP[0] |= VICED_CAPABILITY_SANEACLS; capabilities->Capabilities_len = dataBytes / sizeof(afs_int32); capabilities->Capabilities_val = dataBuffP; Bad_GetCaps: code = CallPostamble(tcon, code, thost); return 0; } afs_int32 SRXAFS_FlushCPS(struct rx_call * acall, struct ViceIds * vids, struct IPAddrs * addrs, afs_int32 spare1, afs_int32 * spare2, afs_int32 * spare3) { int i; afs_int32 nids, naddrs; afs_int32 *vd, *addr; Error errorCode = 0; /* return code to caller */ struct client *client = 0; ViceLog(1, ("SRXAFS_FlushCPS\n")); FS_LOCK; AFSCallStats.TotalCalls++; FS_UNLOCK; nids = vids->ViceIds_len; /* # of users in here */ naddrs = addrs->IPAddrs_len; /* # of hosts in here */ if (nids < 0 || naddrs < 0) { errorCode = EINVAL; goto Bad_FlushCPS; } vd = vids->ViceIds_val; for (i = 0; i < nids; i++, vd++) { if (!*vd) continue; client = h_ID2Client(*vd); /* returns write locked and refCounted, or NULL */ if (!client) continue; client->prfail = 2; /* Means re-eval client's cps */ #ifdef notdef if (client->tcon) { rx_SetRock(((struct rx_connection *)client->tcon), 0); } #endif if ((client->ViceId != ANONYMOUSID) && client->CPS.prlist_val) { free(client->CPS.prlist_val); client->CPS.prlist_val = NULL; client->CPS.prlist_len = 0; } ReleaseWriteLock(&client->lock); PutClient(&client); } addr = addrs->IPAddrs_val; for (i = 0; i < naddrs; i++, addr++) { if (*addr) h_flushhostcps(*addr, htons(7001)); } Bad_FlushCPS: ViceLog(2, ("SAFS_FlushCPS returns %d\n", errorCode)); return errorCode; } /*SRXAFS_FlushCPS */ /* worthless hack to let CS keep running ancient software */ static int afs_vtoi(char *aname) { afs_int32 temp; int tc; temp = 0; while ((tc = *aname++)) { if (tc > '9' || tc < '0') return 0; /* invalid name */ temp *= 10; temp += tc - '0'; } return temp; } /* * may get name or #, but must handle all weird cases (recognize readonly * or backup volumes by name or # */ static afs_int32 CopyVolumeEntry(char *aname, struct vldbentry *ave, struct VolumeInfo *av) { int i, j, vol; afs_int32 mask, whichType; afs_uint32 *serverHost, *typePtr; /* figure out what type we want if by name */ i = strlen(aname); if (i >= 8 && strcmp(aname + i - 7, ".backup") == 0) whichType = BACKVOL; else if (i >= 10 && strcmp(aname + i - 9, ".readonly") == 0) whichType = ROVOL; else whichType = RWVOL; vol = afs_vtoi(aname); if (vol == 0) vol = ave->volumeId[whichType]; /* * Now vol has volume # we're interested in. Next, figure out the type * of the volume by looking finding it in the vldb entry */ if ((ave->flags & VLF_RWEXISTS) && vol == ave->volumeId[RWVOL]) { mask = VLSF_RWVOL; whichType = RWVOL; } else if ((ave->flags & VLF_ROEXISTS) && vol == ave->volumeId[ROVOL]) { mask = VLSF_ROVOL; whichType = ROVOL; } else if ((ave->flags & VLF_BACKEXISTS) && vol == ave->volumeId[BACKVOL]) { mask = VLSF_RWVOL; /* backup always is on the same volume as parent */ whichType = BACKVOL; } else return EINVAL; /* error: can't find volume in vldb entry */ typePtr = &av->Type0; serverHost = &av->Server0; av->Vid = vol; av->Type = whichType; av->Type0 = av->Type1 = av->Type2 = av->Type3 = av->Type4 = 0; if (ave->flags & VLF_RWEXISTS) typePtr[RWVOL] = ave->volumeId[RWVOL]; if (ave->flags & VLF_ROEXISTS) typePtr[ROVOL] = ave->volumeId[ROVOL]; if (ave->flags & VLF_BACKEXISTS) typePtr[BACKVOL] = ave->volumeId[BACKVOL]; for (i = 0, j = 0; i < ave->nServers; i++) { if ((ave->serverFlags[i] & mask) == 0) continue; /* wrong volume */ serverHost[j] = ave->serverNumber[i]; j++; } av->ServerCount = j; if (j < 8) serverHost[j++] = 0; /* bogus 8, but compat only now */ return 0; } static afs_int32 TryLocalVLServer(char *avolid, struct VolumeInfo *avolinfo) { static struct rx_connection *vlConn = 0; static int down = 0; static afs_int32 lastDownTime = 0; struct vldbentry tve; struct rx_securityClass *vlSec; afs_int32 code; if (!vlConn) { vlSec = rxnull_NewClientSecurityObject(); vlConn = rx_NewConnection(htonl(0x7f000001), htons(7003), 52, vlSec, 0); rx_SetConnDeadTime(vlConn, 15); /* don't wait long */ } if (down && (FT_ApproxTime() < lastDownTime + 180)) { return 1; /* failure */ } code = VL_GetEntryByNameO(vlConn, avolid, &tve); if (code >= 0) down = 0; /* call worked */ if (code) { if (code < 0) { lastDownTime = FT_ApproxTime(); /* last time we tried an RPC */ down = 1; } return code; } /* otherwise convert to old format vldb entry */ code = CopyVolumeEntry(avolid, &tve, avolinfo); return code; } afs_int32 SRXAFS_GetVolumeInfo(struct rx_call * acall, char *avolid, struct VolumeInfo * avolinfo) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_GETVOLUMEINFO); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_GetVolumeInfo; FS_LOCK; AFSCallStats.GetVolumeInfo++, AFSCallStats.TotalCalls++; FS_UNLOCK; code = TryLocalVLServer(avolid, avolinfo); ViceLog(1, ("SAFS_GetVolumeInfo returns %d, Volume %u, type %x, servers %x %x %x %x...\n", code, avolinfo->Vid, avolinfo->Type, avolinfo->Server0, avolinfo->Server1, avolinfo->Server2, avolinfo->Server3)); avolinfo->Type4 = 0xabcd9999; /* tell us to try new vldb */ Bad_GetVolumeInfo: code = CallPostamble(tcon, code, thost); fsstats_FinishOp(&fsstats, code); return code; } /*SRXAFS_GetVolumeInfo */ afs_int32 SRXAFS_GetVolumeStatus(struct rx_call * acall, afs_int32 avolid, AFSFetchVolumeStatus * FetchVolStatus, char **Name, char **OfflineMsg, char **Motd) { Vnode *targetptr = 0; /* vnode of the new file */ Vnode *parentwhentargetnotdir = 0; /* vnode of parent */ Error errorCode = 0; /* error code */ Volume *volptr = 0; /* pointer to the volume header */ struct client *client = 0; /* pointer to client entry */ afs_int32 rights, anyrights; /* rights for this and any user */ AFSFid dummyFid; struct rx_connection *tcon; struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_GETVOLUMESTATUS); ViceLog(1, ("SAFS_GetVolumeStatus for volume %u\n", avolid)); if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_GetVolumeStatus; FS_LOCK; AFSCallStats.GetVolumeStatus++, AFSCallStats.TotalCalls++; FS_UNLOCK; if (avolid == 0) { errorCode = EINVAL; goto Bad_GetVolumeStatus; } dummyFid.Volume = avolid, dummyFid.Vnode = (afs_int32) ROOTVNODE, dummyFid.Unique = 1; if ((errorCode = GetVolumePackage(acall, &dummyFid, &volptr, &targetptr, MustBeDIR, &parentwhentargetnotdir, &client, READ_LOCK, &rights, &anyrights))) goto Bad_GetVolumeStatus; if ((VanillaUser(client)) && (!(rights & PRSFS_READ))) { errorCode = EACCES; goto Bad_GetVolumeStatus; } (void)RXGetVolumeStatus(FetchVolStatus, Name, OfflineMsg, Motd, volptr); Bad_GetVolumeStatus: (void)PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); ViceLog(2, ("SAFS_GetVolumeStatus returns %d\n", errorCode)); /* next is to guarantee out strings exist for stub */ if (*Name == 0) { *Name = (char *)malloc(1); **Name = 0; } if (*Motd == 0) { *Motd = (char *)malloc(1); **Motd = 0; } if (*OfflineMsg == 0) { *OfflineMsg = (char *)malloc(1); **OfflineMsg = 0; } errorCode = CallPostamble(tcon, errorCode, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, errorCode); osi_auditU(acall, GetVolumeStatusEvent, errorCode, AUD_ID, t_client ? t_client->ViceId : 0, AUD_LONG, avolid, AUD_STR, *Name, AUD_END); return (errorCode); } /*SRXAFS_GetVolumeStatus */ afs_int32 SRXAFS_SetVolumeStatus(struct rx_call * acall, afs_int32 avolid, AFSStoreVolumeStatus * StoreVolStatus, char *Name, char *OfflineMsg, char *Motd) { Vnode *targetptr = 0; /* vnode of the new file */ Vnode *parentwhentargetnotdir = 0; /* vnode of parent */ Error errorCode = 0; /* error code */ Volume *volptr = 0; /* pointer to the volume header */ struct client *client = 0; /* pointer to client entry */ afs_int32 rights, anyrights; /* rights for this and any user */ AFSFid dummyFid; struct rx_connection *tcon = rx_ConnectionOf(acall); struct host *thost; struct client *t_client = NULL; /* tmp ptr to client data */ struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_SETVOLUMESTATUS); ViceLog(1, ("SAFS_SetVolumeStatus for volume %u\n", avolid)); if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_SetVolumeStatus; FS_LOCK; AFSCallStats.SetVolumeStatus++, AFSCallStats.TotalCalls++; FS_UNLOCK; if (avolid == 0) { errorCode = EINVAL; goto Bad_SetVolumeStatus; } dummyFid.Volume = avolid, dummyFid.Vnode = (afs_int32) ROOTVNODE, dummyFid.Unique = 1; if ((errorCode = GetVolumePackage(acall, &dummyFid, &volptr, &targetptr, MustBeDIR, &parentwhentargetnotdir, &client, READ_LOCK, &rights, &anyrights))) goto Bad_SetVolumeStatus; if (readonlyServer) { errorCode = VREADONLY; goto Bad_SetVolumeStatus; } if (VanillaUser(client)) { errorCode = EACCES; goto Bad_SetVolumeStatus; } errorCode = RXUpdate_VolumeStatus(volptr, StoreVolStatus, Name, OfflineMsg, Motd); Bad_SetVolumeStatus: PutVolumePackage(acall, parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr, &client); ViceLog(2, ("SAFS_SetVolumeStatus returns %d\n", errorCode)); errorCode = CallPostamble(tcon, errorCode, thost); t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key); fsstats_FinishOp(&fsstats, errorCode); osi_auditU(acall, SetVolumeStatusEvent, errorCode, AUD_ID, t_client ? t_client->ViceId : 0, AUD_LONG, avolid, AUD_STR, Name, AUD_END); return (errorCode); } /*SRXAFS_SetVolumeStatus */ #define DEFAULTVOLUME "root.afs" afs_int32 SRXAFS_GetRootVolume(struct rx_call * acall, char **VolumeName) { #ifdef notdef int fd; int len; char *temp; struct rx_connection *tcon; struct host *thost; Error errorCode = 0; #endif struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_GETROOTVOLUME); return FSERR_EOPNOTSUPP; #ifdef notdef if (errorCode = CallPreamble(acall, ACTIVECALL, &tcon, &thost)) goto Bad_GetRootVolume; FS_LOCK; AFSCallStats.GetRootVolume++, AFSCallStats.TotalCalls++; FS_UNLOCK; temp = malloc(256); fd = afs_open(AFSDIR_SERVER_ROOTVOL_FILEPATH, O_RDONLY, 0666); if (fd <= 0) strcpy(temp, DEFAULTVOLUME); else { #if defined (AFS_AIX_ENV) || defined (AFS_HPUX_ENV) lockf(fd, F_LOCK, 0); #else flock(fd, LOCK_EX); #endif len = read(fd, temp, 256); #if defined (AFS_AIX_ENV) || defined (AFS_HPUX_ENV) lockf(fd, F_ULOCK, 0); #else flock(fd, LOCK_UN); #endif close(fd); if (temp[len - 1] == '\n') len--; temp[len] = '\0'; } *VolumeName = temp; /* freed by rx server-side stub */ Bad_GetRootVolume: errorCode = CallPostamble(tcon, errorCode, thost); fsstats_FinishOp(&fsstats, errorCode); return (errorCode); #endif /* notdef */ } /*SRXAFS_GetRootVolume */ /* still works because a struct CBS is the same as a struct AFSOpaque */ afs_int32 SRXAFS_CheckToken(struct rx_call * acall, afs_int32 AfsId, struct AFSOpaque * Token) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_CHECKTOKEN); if ((code = CallPreamble(acall, ACTIVECALL, &tcon, &thost))) goto Bad_CheckToken; code = FSERR_ECONNREFUSED; Bad_CheckToken: code = CallPostamble(tcon, code, thost); fsstats_FinishOp(&fsstats, code); return code; } /*SRXAFS_CheckToken */ afs_int32 SRXAFS_GetTime(struct rx_call * acall, afs_uint32 * Seconds, afs_uint32 * USeconds) { afs_int32 code; struct rx_connection *tcon; struct host *thost; struct timeval tpl; struct fsstats fsstats; fsstats_StartOp(&fsstats, FS_STATS_RPCIDX_GETTIME); if ((code = CallPreamble(acall, NOTACTIVECALL, &tcon, &thost))) goto Bad_GetTime; FS_LOCK; AFSCallStats.GetTime++, AFSCallStats.TotalCalls++; FS_UNLOCK; FT_GetTimeOfDay(&tpl, 0); *Seconds = tpl.tv_sec; *USeconds = tpl.tv_usec; ViceLog(2, ("SAFS_GetTime returns %u, %u\n", *Seconds, *USeconds)); Bad_GetTime: code = CallPostamble(tcon, code, thost); fsstats_FinishOp(&fsstats, code); return code; } /*SRXAFS_GetTime */ /* * FetchData_RXStyle * * Purpose: * Implement a client's data fetch using Rx. * * Arguments: * volptr : Ptr to the given volume's info. * targetptr : Pointer to the vnode involved. * Call : Ptr to the Rx call involved. * Pos : Offset within the file. * Len : Length in bytes to read; this value is bogus! * a_bytesToFetchP : Set to the number of bytes to be fetched from * the File Server. * a_bytesFetchedP : Set to the actual number of bytes fetched from * the File Server. */ static afs_int32 FetchData_RXStyle(Volume * volptr, Vnode * targetptr, struct rx_call * Call, afs_sfsize_t Pos, afs_sfsize_t Len, afs_int32 Int64Mode, afs_sfsize_t * a_bytesToFetchP, afs_sfsize_t * a_bytesFetchedP) { struct timeval StartTime, StopTime; /* used to calculate file transfer rates */ IHandle_t *ihP; FdHandle_t *fdP; #ifndef HAVE_PIOV char *tbuffer; #else /* HAVE_PIOV */ struct iovec tiov[RX_MAXIOVECS]; int tnio; #endif /* HAVE_PIOV */ afs_sfsize_t tlen; afs_int32 optSize; /* * Initialize the byte count arguments. */ (*a_bytesToFetchP) = 0; (*a_bytesFetchedP) = 0; ViceLog(25, ("FetchData_RXStyle: Pos %llu, Len %llu\n", (afs_uintmax_t) Pos, (afs_uintmax_t) Len)); if (!VN_GET_INO(targetptr)) { afs_int32 zero = htonl(0); /* * This is used for newly created files; we simply send 0 bytes * back to make the cache manager happy... */ if (Int64Mode) rx_Write(Call, (char *)&zero, sizeof(afs_int32)); /* send 0-length */ rx_Write(Call, (char *)&zero, sizeof(afs_int32)); /* send 0-length */ return (0); } FT_GetTimeOfDay(&StartTime, 0); ihP = targetptr->handle; fdP = IH_OPEN(ihP); if (fdP == NULL) { VTakeOffline(volptr); ViceLog(0, ("Volume %u now offline, must be salvaged.\n", volptr->hashid)); return EIO; } optSize = sendBufSize; tlen = FDH_SIZE(fdP); ViceLog(25, ("FetchData_RXStyle: file size %llu\n", (afs_uintmax_t) tlen)); if (tlen < 0) { FDH_CLOSE(fdP); VTakeOffline(volptr); ViceLog(0, ("Volume %u now offline, must be salvaged.\n", volptr->hashid)); return EIO; } if (CheckLength(volptr, targetptr, tlen)) { FDH_CLOSE(fdP); VTakeOffline(volptr); return VSALVAGE; } if (Pos > tlen) { Len = 0; } if (Pos + Len > tlen) /* get length we should send */ Len = ((tlen - Pos) < 0) ? 0 : tlen - Pos; { afs_int32 high, low; SplitOffsetOrSize(Len, high, low); osi_Assert(Int64Mode || (Len >= 0 && high == 0) || Len < 0); if (Int64Mode) { high = htonl(high); rx_Write(Call, (char *)&high, sizeof(afs_int32)); /* High order bits */ } low = htonl(low); rx_Write(Call, (char *)&low, sizeof(afs_int32)); /* send length on fetch */ } (*a_bytesToFetchP) = Len; #ifndef HAVE_PIOV tbuffer = AllocSendBuffer(); #endif /* HAVE_PIOV */ while (Len > 0) { size_t wlen; ssize_t nBytes; if (Len > optSize) wlen = optSize; else wlen = Len; #ifndef HAVE_PIOV nBytes = FDH_PREAD(fdP, tbuffer, wlen, Pos); if (nBytes != wlen) { FDH_CLOSE(fdP); FreeSendBuffer((struct afs_buffer *)tbuffer); VTakeOffline(volptr); ViceLog(0, ("Volume %u now offline, must be salvaged.\n", volptr->hashid)); return EIO; } nBytes = rx_Write(Call, tbuffer, wlen); #else /* HAVE_PIOV */ nBytes = rx_WritevAlloc(Call, tiov, &tnio, RX_MAXIOVECS, wlen); if (nBytes <= 0) { FDH_CLOSE(fdP); return EIO; } wlen = nBytes; nBytes = FDH_PREADV(fdP, tiov, tnio, Pos); if (nBytes != wlen) { FDH_CLOSE(fdP); VTakeOffline(volptr); ViceLog(0, ("Volume %u now offline, must be salvaged.\n", volptr->hashid)); return EIO; } nBytes = rx_Writev(Call, tiov, tnio, wlen); #endif /* HAVE_PIOV */ Pos += wlen; /* * Bump the number of bytes actually sent by the number from this * latest iteration */ (*a_bytesFetchedP) += nBytes; if (nBytes != wlen) { afs_int32 err; FDH_CLOSE(fdP); #ifndef HAVE_PIOV FreeSendBuffer((struct afs_buffer *)tbuffer); #endif /* HAVE_PIOV */ err = VIsGoingOffline(volptr); if (err) { return err; } return -31; } Len -= wlen; } #ifndef HAVE_PIOV FreeSendBuffer((struct afs_buffer *)tbuffer); #endif /* HAVE_PIOV */ FDH_CLOSE(fdP); FT_GetTimeOfDay(&StopTime, 0); /* Adjust all Fetch Data related stats */ FS_LOCK; if (AFSCallStats.TotalFetchedBytes > 2000000000) /* Reset if over 2 billion */ AFSCallStats.TotalFetchedBytes = AFSCallStats.AccumFetchTime = 0; AFSCallStats.AccumFetchTime += ((StopTime.tv_sec - StartTime.tv_sec) * 1000) + ((StopTime.tv_usec - StartTime.tv_usec) / 1000); { afs_fsize_t targLen; VN_GET_LEN(targLen, targetptr); AFSCallStats.TotalFetchedBytes += targLen; AFSCallStats.FetchSize1++; if (targLen < SIZE2) AFSCallStats.FetchSize2++; else if (targLen < SIZE3) AFSCallStats.FetchSize3++; else if (targLen < SIZE4) AFSCallStats.FetchSize4++; else AFSCallStats.FetchSize5++; } FS_UNLOCK; return (0); } /*FetchData_RXStyle */ static int GetLinkCountAndSize(Volume * vp, FdHandle_t * fdP, int *lc, afs_sfsize_t * size) { #ifdef AFS_NAMEI_ENV FdHandle_t *lhp; lhp = IH_OPEN(V_linkHandle(vp)); if (!lhp) return EIO; *lc = namei_GetLinkCount(lhp, fdP->fd_ih->ih_ino, 0, 0, 1); FDH_CLOSE(lhp); if (*lc < 0) return -1; *size = OS_SIZE(fdP->fd_fd); return (*size == -1) ? -1 : 0; #else struct afs_stat status; if (afs_fstat(fdP->fd_fd, &status) < 0) { return -1; } *lc = GetLinkCount(vp, &status); *size = status.st_size; return 0; #endif } /* * StoreData_RXStyle * * Purpose: * Implement a client's data store using Rx. * * Arguments: * volptr : Ptr to the given volume's info. * targetptr : Pointer to the vnode involved. * Call : Ptr to the Rx call involved. * Pos : Offset within the file. * Len : Length in bytes to store; this value is bogus! * a_bytesToStoreP : Set to the number of bytes to be stored to * the File Server. * a_bytesStoredP : Set to the actual number of bytes stored to * the File Server. */ afs_int32 StoreData_RXStyle(Volume * volptr, Vnode * targetptr, struct AFSFid * Fid, struct client * client, struct rx_call * Call, afs_fsize_t Pos, afs_fsize_t Length, afs_fsize_t FileLength, int sync, afs_sfsize_t * a_bytesToStoreP, afs_sfsize_t * a_bytesStoredP) { afs_sfsize_t bytesTransfered; /* number of bytes actually transfered */ struct timeval StartTime, StopTime; /* Used to measure how long the store takes */ Error errorCode = 0; /* Returned error code to caller */ #ifndef HAVE_PIOV char *tbuffer; /* data copying buffer */ #else /* HAVE_PIOV */ struct iovec tiov[RX_MAXIOVECS]; /* no data copying with iovec */ int tnio; /* temp for iovec size */ #endif /* HAVE_PIOV */ afs_sfsize_t tlen; /* temp for xfr length */ Inode tinode; /* inode for I/O */ afs_int32 optSize; /* optimal transfer size */ afs_sfsize_t DataLength = 0; /* size of inode */ afs_sfsize_t TruncatedLength; /* size after ftruncate */ afs_fsize_t NewLength; /* size after this store completes */ afs_sfsize_t adjustSize; /* bytes to call VAdjust... with */ int linkCount = 0; /* link count on inode */ ssize_t nBytes; FdHandle_t *fdP; struct in_addr logHostAddr; /* host ip holder for inet_ntoa */ afs_ino_str_t stmp; /* * Initialize the byte count arguments. */ (*a_bytesToStoreP) = 0; (*a_bytesStoredP) = 0; /* * We break the callbacks here so that the following signal will not * leave a window. */ BreakCallBack(client->host, Fid, 0); if (Pos == -1 || VN_GET_INO(targetptr) == 0) { /* the inode should have been created in Alloc_NewVnode */ logHostAddr.s_addr = rxr_HostOf(rx_ConnectionOf(Call)); ViceLog(0, ("StoreData_RXStyle : Inode non-existent Fid = %u.%u.%u, inode = %llu, Pos %llu Host %s:%d\n", Fid->Volume, Fid->Vnode, Fid->Unique, (afs_uintmax_t) VN_GET_INO(targetptr), (afs_uintmax_t) Pos, inet_ntoa(logHostAddr), ntohs(rxr_PortOf(rx_ConnectionOf(Call))))); return ENOENT; /* is this proper error code? */ } else { rx_KeepAliveOff(Call); /* * See if the file has several links (from other volumes). If it * does, then we have to make a copy before changing it to avoid *changing read-only clones of this dude */ ViceLog(25, ("StoreData_RXStyle : Opening inode %s\n", PrintInode(stmp, VN_GET_INO(targetptr)))); fdP = IH_OPEN(targetptr->handle); if (fdP == NULL) return ENOENT; if (GetLinkCountAndSize(volptr, fdP, &linkCount, &DataLength) < 0) { FDH_CLOSE(fdP); VTakeOffline(volptr); ViceLog(0, ("Volume %u now offline, must be salvaged.\n", volptr->hashid)); return EIO; } if (CheckLength(volptr, targetptr, DataLength)) { FDH_CLOSE(fdP); VTakeOffline(volptr); return VSALVAGE; } if (linkCount != 1) { afs_fsize_t size; ViceLog(25, ("StoreData_RXStyle : inode %s has more than onelink\n", PrintInode(stmp, VN_GET_INO(targetptr)))); /* other volumes share this data, better copy it first */ /* Adjust the disk block count by the creation of the new inode. * We call the special VDiskUsage so we don't adjust the volume's * quota since we don't want to penalyze the user for afs's internal * mechanisms (i.e. copy on write overhead.) Also the right size * of the disk will be recorded... */ FDH_CLOSE(fdP); VN_GET_LEN(size, targetptr); volptr->partition->flags &= ~PART_DONTUPDATE; VSetPartitionDiskUsage(volptr->partition); volptr->partition->flags |= PART_DONTUPDATE; if ((errorCode = VDiskUsage(volptr, nBlocks(size)))) { volptr->partition->flags &= ~PART_DONTUPDATE; return (errorCode); } ViceLog(25, ("StoreData : calling CopyOnWrite on target dir\n")); if ((errorCode = CopyOnWrite(targetptr, volptr, 0, MAXFSIZE))) { ViceLog(25, ("StoreData : CopyOnWrite failed\n")); volptr->partition->flags &= ~PART_DONTUPDATE; return (errorCode); } volptr->partition->flags &= ~PART_DONTUPDATE; VSetPartitionDiskUsage(volptr->partition); fdP = IH_OPEN(targetptr->handle); if (fdP == NULL) { ViceLog(25, ("StoreData : Reopen after CopyOnWrite failed\n")); return ENOENT; } } tinode = VN_GET_INO(targetptr); } if (!VALID_INO(tinode)) { VTakeOffline(volptr); ViceLog(0,("Volume %u now offline, must be salvaged.\n", volptr->hashid)); return EIO; } /* compute new file length */ NewLength = DataLength; if (FileLength < NewLength) /* simulate truncate */ NewLength = FileLength; TruncatedLength = NewLength; /* remember length after possible ftruncate */ if (Pos + Length > NewLength) NewLength = Pos + Length; /* and write */ /* adjust the disk block count by the difference in the files */ { afs_fsize_t targSize; VN_GET_LEN(targSize, targetptr); adjustSize = nBlocks(NewLength) - nBlocks(targSize); } if ((errorCode = AdjustDiskUsage(volptr, adjustSize, adjustSize - SpareComp(volptr)))) { FDH_CLOSE(fdP); return (errorCode); } /* can signal cache manager to proceed from close now */ /* this bit means that the locks are set and protections are OK */ rx_SetLocalStatus(Call, 1); FT_GetTimeOfDay(&StartTime, 0); optSize = sendBufSize; ViceLog(25, ("StoreData_RXStyle: Pos %llu, DataLength %llu, FileLength %llu, Length %llu\n", (afs_uintmax_t) Pos, (afs_uintmax_t) DataLength, (afs_uintmax_t) FileLength, (afs_uintmax_t) Length)); /* truncate the file iff it needs it (ftruncate is slow even when its a noop) */ if (FileLength < DataLength) FDH_TRUNC(fdP, FileLength); bytesTransfered = 0; #ifndef HAVE_PIOV tbuffer = AllocSendBuffer(); #endif /* HAVE_PIOV */ /* if length == 0, the loop below isn't going to do anything, including * extend the length of the inode, which it must do, since the file system * assumes that the inode length == vnode's file length. So, we extend * the file length manually if need be. Note that if file is bigger than * Pos+(Length==0), we dont' have to do anything, and certainly shouldn't * do what we're going to do below. */ if (Length == 0 && Pos > TruncatedLength) { /* Set the file's length; we've already done an lseek to the right * spot above. */ nBytes = FDH_PWRITE(fdP, &tlen, 1, Pos); if (nBytes != 1) { errorCode = -1; goto done; } errorCode = FDH_TRUNC(fdP, Pos); } else { /* have some data to copy */ (*a_bytesToStoreP) = Length; while (1) { int rlen; if (bytesTransfered >= Length) { errorCode = 0; break; } tlen = Length - bytesTransfered; /* how much more to do */ if (tlen > optSize) rlen = optSize; /* bound by buffer size */ else rlen = (int)tlen; #ifndef HAVE_PIOV errorCode = rx_Read(Call, tbuffer, rlen); #else /* HAVE_PIOV */ errorCode = rx_Readv(Call, tiov, &tnio, RX_MAXIOVECS, rlen); #endif /* HAVE_PIOV */ if (errorCode <= 0) { errorCode = -32; break; } (*a_bytesStoredP) += errorCode; rlen = errorCode; #ifndef HAVE_PIOV nBytes = FDH_PWRITE(fdP, tbuffer, rlen, Pos); #else /* HAVE_PIOV */ nBytes = FDH_PWRITEV(fdP, tiov, tnio, Pos); #endif /* HAVE_PIOV */ if (nBytes != rlen) { errorCode = VDISKFULL; break; } bytesTransfered += rlen; Pos += rlen; } } done: #ifndef HAVE_PIOV FreeSendBuffer((struct afs_buffer *)tbuffer); #endif /* HAVE_PIOV */ if (sync) { (void) FDH_SYNC(fdP); } if (errorCode) { Error tmp_errorCode = 0; afs_sfsize_t nfSize = FDH_SIZE(fdP); osi_Assert(nfSize >= 0); /* something went wrong: adjust size and return */ VN_SET_LEN(targetptr, nfSize); /* set new file size. */ /* changed_newTime is tested in StoreData to detemine if we * need to update the target vnode. */ targetptr->changed_newTime = 1; FDH_CLOSE(fdP); /* set disk usage to be correct */ VAdjustDiskUsage(&tmp_errorCode, volptr, (afs_sfsize_t) (nBlocks(nfSize) - nBlocks(NewLength)), 0); if (tmp_errorCode) { errorCode = tmp_errorCode; } return errorCode; } FDH_CLOSE(fdP); FT_GetTimeOfDay(&StopTime, 0); VN_SET_LEN(targetptr, NewLength); /* Update all StoreData related stats */ FS_LOCK; if (AFSCallStats.TotalStoredBytes > 2000000000) /* reset if over 2 billion */ AFSCallStats.TotalStoredBytes = AFSCallStats.AccumStoreTime = 0; AFSCallStats.StoreSize1++; /* Piggybacked data */ { afs_fsize_t targLen; VN_GET_LEN(targLen, targetptr); if (targLen < SIZE2) AFSCallStats.StoreSize2++; else if (targLen < SIZE3) AFSCallStats.StoreSize3++; else if (targLen < SIZE4) AFSCallStats.StoreSize4++; else AFSCallStats.StoreSize5++; } FS_UNLOCK; return (errorCode); } /*StoreData_RXStyle */ static int sys2et[512]; void init_sys_error_to_et(void) { memset(&sys2et, 0, sizeof(sys2et)); sys2et[EPERM] = UAEPERM; sys2et[ENOENT] = UAENOENT; sys2et[ESRCH] = UAESRCH; sys2et[EINTR] = UAEINTR; sys2et[EIO] = UAEIO; sys2et[ENXIO] = UAENXIO; sys2et[E2BIG] = UAE2BIG; sys2et[ENOEXEC] = UAENOEXEC; sys2et[EBADF] = UAEBADF; sys2et[ECHILD] = UAECHILD; sys2et[EAGAIN] = UAEAGAIN; sys2et[ENOMEM] = UAENOMEM; sys2et[EACCES] = UAEACCES; sys2et[EFAULT] = UAEFAULT; sys2et[ENOTBLK] = UAENOTBLK; sys2et[EBUSY] = UAEBUSY; sys2et[EEXIST] = UAEEXIST; sys2et[EXDEV] = UAEXDEV; sys2et[ENODEV] = UAENODEV; sys2et[ENOTDIR] = UAENOTDIR; sys2et[EISDIR] = UAEISDIR; sys2et[EINVAL] = UAEINVAL; sys2et[ENFILE] = UAENFILE; sys2et[EMFILE] = UAEMFILE; sys2et[ENOTTY] = UAENOTTY; sys2et[ETXTBSY] = UAETXTBSY; sys2et[EFBIG] = UAEFBIG; sys2et[ENOSPC] = UAENOSPC; sys2et[ESPIPE] = UAESPIPE; sys2et[EROFS] = UAEROFS; sys2et[EMLINK] = UAEMLINK; sys2et[EPIPE] = UAEPIPE; sys2et[EDOM] = UAEDOM; sys2et[ERANGE] = UAERANGE; sys2et[EDEADLK] = UAEDEADLK; sys2et[ENAMETOOLONG] = UAENAMETOOLONG; sys2et[ENOLCK] = UAENOLCK; sys2et[ENOSYS] = UAENOSYS; #if (ENOTEMPTY != EEXIST) sys2et[ENOTEMPTY] = UAENOTEMPTY; #endif sys2et[ELOOP] = UAELOOP; #if (EWOULDBLOCK != EAGAIN) sys2et[EWOULDBLOCK] = UAEWOULDBLOCK; #endif sys2et[ENOMSG] = UAENOMSG; sys2et[EIDRM] = UAEIDRM; sys2et[ECHRNG] = UAECHRNG; sys2et[EL2NSYNC] = UAEL2NSYNC; sys2et[EL3HLT] = UAEL3HLT; sys2et[EL3RST] = UAEL3RST; sys2et[ELNRNG] = UAELNRNG; sys2et[EUNATCH] = UAEUNATCH; sys2et[ENOCSI] = UAENOCSI; sys2et[EL2HLT] = UAEL2HLT; sys2et[EBADE] = UAEBADE; sys2et[EBADR] = UAEBADR; sys2et[EXFULL] = UAEXFULL; sys2et[ENOANO] = UAENOANO; sys2et[EBADRQC] = UAEBADRQC; sys2et[EBADSLT] = UAEBADSLT; sys2et[EDEADLK] = UAEDEADLK; sys2et[EBFONT] = UAEBFONT; sys2et[ENOSTR] = UAENOSTR; sys2et[ENODATA] = UAENODATA; sys2et[ETIME] = UAETIME; sys2et[ENOSR] = UAENOSR; sys2et[ENONET] = UAENONET; sys2et[ENOPKG] = UAENOPKG; sys2et[EREMOTE] = UAEREMOTE; sys2et[ENOLINK] = UAENOLINK; sys2et[EADV] = UAEADV; sys2et[ESRMNT] = UAESRMNT; sys2et[ECOMM] = UAECOMM; sys2et[EPROTO] = UAEPROTO; sys2et[EMULTIHOP] = UAEMULTIHOP; sys2et[EDOTDOT] = UAEDOTDOT; sys2et[EBADMSG] = UAEBADMSG; sys2et[EOVERFLOW] = UAEOVERFLOW; sys2et[ENOTUNIQ] = UAENOTUNIQ; sys2et[EBADFD] = UAEBADFD; sys2et[EREMCHG] = UAEREMCHG; sys2et[ELIBACC] = UAELIBACC; sys2et[ELIBBAD] = UAELIBBAD; sys2et[ELIBSCN] = UAELIBSCN; sys2et[ELIBMAX] = UAELIBMAX; sys2et[ELIBEXEC] = UAELIBEXEC; sys2et[EILSEQ] = UAEILSEQ; sys2et[ERESTART] = UAERESTART; sys2et[ESTRPIPE] = UAESTRPIPE; sys2et[EUSERS] = UAEUSERS; sys2et[ENOTSOCK] = UAENOTSOCK; sys2et[EDESTADDRREQ] = UAEDESTADDRREQ; sys2et[EMSGSIZE] = UAEMSGSIZE; sys2et[EPROTOTYPE] = UAEPROTOTYPE; sys2et[ENOPROTOOPT] = UAENOPROTOOPT; sys2et[EPROTONOSUPPORT] = UAEPROTONOSUPPORT; sys2et[ESOCKTNOSUPPORT] = UAESOCKTNOSUPPORT; sys2et[EOPNOTSUPP] = UAEOPNOTSUPP; sys2et[EPFNOSUPPORT] = UAEPFNOSUPPORT; sys2et[EAFNOSUPPORT] = UAEAFNOSUPPORT; sys2et[EADDRINUSE] = UAEADDRINUSE; sys2et[EADDRNOTAVAIL] = UAEADDRNOTAVAIL; sys2et[ENETDOWN] = UAENETDOWN; sys2et[ENETUNREACH] = UAENETUNREACH; sys2et[ENETRESET] = UAENETRESET; sys2et[ECONNABORTED] = UAECONNABORTED; sys2et[ECONNRESET] = UAECONNRESET; sys2et[ENOBUFS] = UAENOBUFS; sys2et[EISCONN] = UAEISCONN; sys2et[ENOTCONN] = UAENOTCONN; sys2et[ESHUTDOWN] = UAESHUTDOWN; sys2et[ETOOMANYREFS] = UAETOOMANYREFS; sys2et[ETIMEDOUT] = UAETIMEDOUT; sys2et[ECONNREFUSED] = UAECONNREFUSED; sys2et[EHOSTDOWN] = UAEHOSTDOWN; sys2et[EHOSTUNREACH] = UAEHOSTUNREACH; sys2et[EALREADY] = UAEALREADY; sys2et[EINPROGRESS] = UAEINPROGRESS; sys2et[ESTALE] = UAESTALE; sys2et[EUCLEAN] = UAEUCLEAN; sys2et[ENOTNAM] = UAENOTNAM; sys2et[ENAVAIL] = UAENAVAIL; sys2et[EISNAM] = UAEISNAM; sys2et[EREMOTEIO] = UAEREMOTEIO; sys2et[EDQUOT] = UAEDQUOT; sys2et[ENOMEDIUM] = UAENOMEDIUM; sys2et[EMEDIUMTYPE] = UAEMEDIUMTYPE; sys2et[EIO] = UAEIO; } /* NOTE: 2006-03-01 * SRXAFS_CallBackRxConnAddr should be re-written as follows: * - pass back the connection, client, and host from CallPreamble * - keep a ref on the client, which we don't now * - keep a hold on the host, which we already do * - pass the connection, client, and host down into SAFSS_*, and use * them instead of independently discovering them via rx_ConnectionOf * (safe) and rx_GetSpecific (not so safe) * The idea being that we decide what client and host we're going to use * when CallPreamble is called, and stay consistent throughout the call. * This change is too invasive for 1.4.1 but should be made in 1.5.x. */ afs_int32 SRXAFS_CallBackRxConnAddr (struct rx_call * acall, afs_int32 *addr) { Error errorCode = 0; struct rx_connection *tcon; struct host *tcallhost; #ifdef __EXPERIMENTAL_CALLBACK_CONN_MOVING struct host *thost; struct client *tclient; static struct rx_securityClass *sc = 0; int i,j; struct rx_connection *conn; #endif if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon, &tcallhost))) goto Bad_CallBackRxConnAddr1; #ifndef __EXPERIMENTAL_CALLBACK_CONN_MOVING errorCode = 1; #else H_LOCK; tclient = h_FindClient_r(tcon); if (!tclient) { errorCode = VBUSY; goto Bad_CallBackRxConnAddr; } thost = tclient->host; /* nothing more can be done */ if ( !thost->interface ) goto Bad_CallBackRxConnAddr; /* the only address is the primary interface */ /* can't change when there's only 1 address, anyway */ if ( thost->interface->numberOfInterfaces <= 1 ) goto Bad_CallBackRxConnAddr; /* initialise a security object only once */ if ( !sc ) sc = (struct rx_securityClass *) rxnull_NewClientSecurityObject(); for ( i=0; i < thost->interface->numberOfInterfaces; i++) { if ( *addr == thost->interface->addr[i] ) { break; } } if ( *addr != thost->interface->addr[i] ) goto Bad_CallBackRxConnAddr; conn = rx_NewConnection (thost->interface->addr[i], thost->port, 1, sc, 0); rx_SetConnDeadTime(conn, 2); rx_SetConnHardDeadTime(conn, AFS_HARDDEADTIME); H_UNLOCK; errorCode = RXAFSCB_Probe(conn); H_LOCK; if (!errorCode) { if ( thost->callback_rxcon ) rx_DestroyConnection(thost->callback_rxcon); thost->callback_rxcon = conn; thost->host = addr; rx_SetConnDeadTime(thost->callback_rxcon, 50); rx_SetConnHardDeadTime(thost->callback_rxcon, AFS_HARDDEADTIME); h_ReleaseClient_r(tclient); /* The hold on thost will be released by CallPostamble */ H_UNLOCK; errorCode = CallPostamble(tcon, errorCode, tcallhost); return errorCode; } else { rx_DestroyConnection(conn); } Bad_CallBackRxConnAddr: h_ReleaseClient_r(tclient); /* The hold on thost will be released by CallPostamble */ H_UNLOCK; #endif errorCode = CallPostamble(tcon, errorCode, tcallhost); Bad_CallBackRxConnAddr1: return errorCode; /* failure */ } afs_int32 sys_error_to_et(afs_int32 in) { if (in == 0) return 0; if (in < 0 || in > 511) return in; if ((in >= VICE_SPECIAL_ERRORS && in <= VIO) || in == VRESTRICTED) return in; if (sys2et[in] != 0) return sys2et[in]; return in; }