#include <afsconfig.h>
#include <afs/param.h>
-RCSID("$Header$");
+RCSID
+ ("$Header$");
#include <stdio.h>
#include <stdlib.h>
#include <errno.h>
#ifdef AFS_SGI_ENV
-#undef SHARED /* XXX */
+#undef SHARED /* XXX */
#endif
#ifdef AFS_NT40_ENV
#include <fcntl.h>
#include "viced_prototypes.h"
#include "viced.h"
#include "host.h"
+#include <afs/unified_afs.h>
#include <afs/audit.h>
#include <afs/afsutil.h>
+#include <afs/dir.h>
+
+extern void SetDirHandle(register DirHandle * dir, register Vnode * vnode);
+extern void FidZap(DirHandle * file);
+extern void FidZero(DirHandle * file);
#ifdef AFS_PTHREAD_ENV
pthread_mutex_t fileproc_glock_mutex;
#endif /* AFS_PTHREAD_ENV */
+#ifdef O_LARGEFILE
+#define afs_stat stat64
+#define afs_fstat fstat64
+#define afs_open open64
+#else /* !O_LARGEFILE */
+#define afs_stat stat
+#define afs_fstat fstat
+#define afs_open open
+#endif /* !O_LARGEFILE */
+
/* Useful local defines used by this module */
extern struct afsconf_dir *confDir;
extern afs_int32 dataVersionHigh;
-extern int SystemId;
+extern int SystemId;
static struct AFSCallStatistics AFSCallStats;
#if FS_STATS_DETAILED
struct fs_stats_FullPerfStats afs_FullPerfStats;
extern int AnonymousID;
#endif /* FS_STATS_DETAILED */
-#if TRANSARC_VOL_STATS
+#if OPENAFS_VOL_STATS
static const char nullString[] = "";
-#endif /* TRANSARC_VOL_STATS */
+#endif /* OPENAFS_VOL_STATS */
struct afs_FSStats {
afs_int32 NothingYet;
struct afs_FSStats afs_fsstats;
-void ResetDebug(), SetDebug(), Terminate();
+void ResetDebug(), SetDebug(), Terminate();
-int LogLevel = 0;
-int supported = 1;
-int Console = 0;
+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 int HTs, HTBlocks;
-afs_int32
-FetchData_RXStyle(Volume *volptr,
- Vnode *targetptr,
- register struct rx_call *Call,
- afs_size_t Pos,
- afs_size_t Len,
- afs_int32 Int64Mode,
+afs_int32 FetchData_RXStyle(Volume * volptr, Vnode * targetptr,
+ register struct rx_call *Call, afs_sfsize_t Pos,
+ afs_sfsize_t Len, afs_int32 Int64Mode,
#if FS_STATS_DETAILED
- afs_size_t *a_bytesToFetchP,
- afs_size_t *a_bytesFetchedP
-#endif /* FS_STATS_DETAILED */
- );
-
-afs_int32
-StoreData_RXStyle(Volume *volptr,
- Vnode *targetptr,
- struct AFSFid *Fid,
- struct client *client,
- register struct rx_call *Call,
- afs_offs_t Pos,
- afs_offs_t Length,
- afs_offs_t FileLength,
- int sync,
+ afs_sfsize_t * a_bytesToFetchP,
+ afs_sfsize_t * a_bytesFetchedP
+#endif /* FS_STATS_DETAILED */
+ );
+
+afs_int32 StoreData_RXStyle(Volume * volptr, Vnode * targetptr,
+ struct AFSFid *Fid, struct client *client,
+ register struct rx_call *Call, afs_fsize_t Pos,
+ afs_fsize_t Length, afs_fsize_t FileLength,
+ int sync,
#if FS_STATS_DETAILED
- afs_size_t *a_bytesToStoreP,
- afs_size_t *a_bytesStoredP
-#endif /* FS_STATS_DETAILED */
- );
+ afs_sfsize_t * a_bytesToStoreP,
+ afs_sfsize_t * a_bytesStoredP
+#endif /* FS_STATS_DETAILED */
+ );
#ifdef AFS_SGI_XFS_IOPS_ENV
#include <afs/xfsattrs.h>
-static int GetLinkCount(Volume *avp, struct stat *astat)
+static int
+GetLinkCount(Volume * avp, struct stat *astat)
{
if (!strcmp("xfs", astat->st_fstype)) {
return (astat->st_mode & AFS_XFS_MODE_LINK_MASK);
- }
- else
+ } else
return astat->st_nlink;
}
#else
#define GetLinkCount(V, S) (S)->st_nlink
#endif
-afs_int32 SpareComp(Volume *avolp)
+afs_int32
+SpareComp(Volume * avolp)
{
register afs_int32 temp;
- FS_LOCK
+ FS_LOCK;
if (PctSpare) {
temp = V_maxquota(avolp);
if (temp == 0) {
/* no matter; doesn't check in this case */
- FS_UNLOCK
+ FS_UNLOCK;
return 0;
}
temp = (temp * PctSpare) / 100;
- FS_UNLOCK
+ FS_UNLOCK;
return temp;
- }
- else {
- FS_UNLOCK
+ } else {
+ FS_UNLOCK;
return BlocksSpare;
}
-} /*SpareComp*/
-
+} /*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(register struct AFSVolSync *async,
- register Volume *avol)
+static void
+SetVolumeSync(register struct AFSVolSync *async, register Volume * avol)
{
- FS_LOCK
+ FS_LOCK;
/* date volume instance was created */
if (async) {
if (avol)
async->spare5 = 0;
async->spare6 = 0;
}
- FS_UNLOCK
-} /*SetVolumeSync*/
+ FS_UNLOCK;
+} /*SetVolumeSync */
/*
* 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(register struct rx_call *acall, int activecall,
- struct rx_connection **tconn)
+static int
+CallPreamble(register struct rx_call *acall, int activecall,
+ struct rx_connection **tconn)
{
struct host *thost;
struct client *tclient;
- int retry_flag=1;
+ int retry_flag = 1;
int code = 0;
char hoststr[16];
if (!tconn) {
- ViceLog (0, ("CallPreamble: unexpected null tconn!\n"));
+ ViceLog(0, ("CallPreamble: unexpected null tconn!\n"));
return -1;
}
*tconn = rx_ConnectionOf(acall);
- H_LOCK
-retry:
+ H_LOCK;
+ retry:
tclient = h_FindClient_r(*tconn);
if (tclient->prfail == 1) { /* couldn't get the CPS */
- if (!retry_flag) {
- h_ReleaseClient_r(tclient);
- 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"));
- H_UNLOCK
- code = pr_Initialize(2, AFSDIR_SERVER_ETC_DIRPATH, 0);
- H_LOCK
- if (code) {
- h_ReleaseClient_r(tclient);
- 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);
- goto retry;
+ if (!retry_flag) {
+ h_ReleaseClient_r(tclient);
+ 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"));
+ H_UNLOCK;
+ code = pr_Initialize(2, AFSDIR_SERVER_ETC_DIRPATH, 0);
+ H_LOCK;
+ if (code) {
+ h_ReleaseClient_r(tclient);
+ 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);
+ goto retry;
}
thost = tclient->host;
tclient->LastCall = thost->LastCall = FT_ApproxTime();
- if (activecall) /* For all but "GetTime" calls */
+ if (activecall) /* For all but "GetTime" calls */
thost->ActiveCall = thost->LastCall;
h_Lock_r(thost);
if (thost->hostFlags & HOSTDELETED) {
- ViceLog(3,("Discarded a packet for deleted host %s\n",afs_inet_ntoa_r(thost->host,hoststr)));
- 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 which IS UP. Possible network or routing failure.\n",
- afs_inet_ntoa_r(thost->host, hoststr)));
- 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 which IS UP. Possible network or routing failure.\n",
- afs_inet_ntoa_r(thost->host, hoststr)));
+ ViceLog(3,
+ ("Discarded a packet for deleted host %s\n",
+ afs_inet_ntoa_r(thost->host, hoststr)));
+ 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 which IS UP. Possible network or routing failure.\n",
+ afs_inet_ntoa_r(thost->host, hoststr)));
+ 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 which IS UP. Possible network or routing failure.\n",
+ afs_inet_ntoa_r(thost->host, hoststr)));
+ code = -1;
+ }
}
}
- }
} else {
- code = 0;
+ code = 0;
}
h_ReleaseClient_r(tclient);
h_Unlock_r(thost);
- H_UNLOCK
- return code;
+ H_UNLOCK;
+ return code;
-} /*CallPreamble*/
+} /*CallPreamble */
-static void CallPostamble(register struct rx_connection *aconn)
+static afs_int32
+CallPostamble(register struct rx_connection *aconn, afs_int32 ret)
{
struct host *thost;
struct client *tclient;
+ int translate = 0;
- H_LOCK
+ H_LOCK;
tclient = h_FindClient_r(aconn);
thost = tclient->host;
+ if (thost->hostFlags & HERRORTRANS)
+ translate = 1;
h_ReleaseClient_r(tclient);
h_Release_r(thost);
- H_UNLOCK
-
-} /*CallPostamble*/
+ H_UNLOCK;
+ return (translate ? sys_error_to_et(ret) : ret);
+} /*CallPostamble */
/*
* Returns the volume and vnode pointers associated with file Fid; the lock
* are incremented and they must be eventualy released.
*/
static afs_int32
-CheckVnode(AFSFid *fid, Volume **volptr, Vnode **vptr, int lock)
+CheckVnode(AFSFid * fid, Volume ** volptr, Vnode ** vptr, int lock)
{
int fileCode = 0;
int errorCode = -1;
- static struct timeval restartedat = {0,0};
+ static struct timeval restartedat = { 0, 0 };
- if (fid->Volume == 0 || fid->Vnode == 0) /* not: || fid->Unique == 0) */
- return(EINVAL);
+ if (fid->Volume == 0 || fid->Vnode == 0) /* not: || fid->Unique == 0) */
+ return (EINVAL);
if ((*volptr) == 0) {
- extern int VInit;
+ extern int VInit;
- while(1) {
- errorCode = 0;
- *volptr = VGetVolume(&errorCode, (afs_int32)fid->Volume);
- if (!errorCode) {
- 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. */
- TM_GetTimeOfDay(&restartedat, 0);
- return(busyonrst?VBUSY:VRESTARTING);
- }
- else {
- struct timeval now;
- TM_GetTimeOfDay(&now, 0);
- if ((now.tv_sec - restartedat.tv_sec) < (11*60)) {
- return(busyonrst?VBUSY:VRESTARTING);
+ while (1) {
+ errorCode = 0;
+ *volptr = VGetVolume(&errorCode, (afs_int32) fid->Volume);
+ if (!errorCode) {
+ assert(*volptr);
+ break;
}
- else {
- return (VRESTARTING);
+ 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. */
+ TM_GetTimeOfDay(&restartedat, 0);
+ if (busyonrst) {
+ FS_LOCK;
+ afs_perfstats.fs_nBusies++;
+ FS_UNLOCK;
+ }
+ return (busyonrst ? VBUSY : VRESTARTING);
+ } else {
+ struct timeval now;
+ TM_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 : VRESTARTING);
+ } else {
+ return (VRESTARTING);
+ }
+ }
}
- }
- }
- /* allow read operations on busy volume */
- else if(errorCode==VBUSY && lock==READ_LOCK) {
- errorCode=0;
- break;
+ /* allow read operations on busy volume */
+ else if (errorCode == VBUSY && lock == READ_LOCK) {
+ errorCode = 0;
+ break;
+ } else if (errorCode)
+ return (errorCode);
}
- else if (errorCode)
- return(errorCode);
- }
}
- assert (*volptr);
+ assert(*volptr);
/* get the vnode */
*vptr = VGetVnode(&errorCode, *volptr, fid->Vnode, lock);
if (errorCode)
- return(errorCode);
+ return (errorCode);
if ((*vptr)->disk.uniquifier != fid->Unique) {
VPutVnode(&fileCode, *vptr);
assert(fileCode == 0);
*vptr = 0;
- return(VNOVNODE); /* return the right error code, at least */
+ return (VNOVNODE); /* return the right error code, at least */
}
- return(0);
-} /*CheckVnode*/
+ return (0);
+} /*CheckVnode */
/*
* This routine returns the ACL associated with the targetptr. If the
* READ_LOCK mode.
*/
static afs_int32
-SetAccessList(Vnode **targetptr,
- Volume **volume,
- struct acl_accessList **ACL,
- int * ACLSize,
- Vnode **parent,
- AFSFid *Fid,
- int Lock)
+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 {
+ return (0);
+ } else {
assert(Fid != 0);
- while(1) {
+ while (1) {
VnodeId parentvnode;
int errorCode = 0;
-
+
parentvnode = (*targetptr)->disk.parent;
- VPutVnode(&errorCode,*targetptr);
+ VPutVnode(&errorCode, *targetptr);
*targetptr = 0;
- if (errorCode) return(errorCode);
+ if (errorCode)
+ return (errorCode);
*parent = VGetVnode(&errorCode, *volume, parentvnode, READ_LOCK);
- if (errorCode) return(errorCode);
+ if (errorCode)
+ return (errorCode);
*ACL = VVnodeACL(*parent);
*ACLSize = VAclSize(*parent);
if ((errorCode = CheckVnode(Fid, volume, targetptr, Lock)) != 0)
- return(errorCode);
+ return (errorCode);
if ((*targetptr)->disk.parent != parentvnode) {
VPutVnode(&errorCode, *parent);
*parent = 0;
- if (errorCode) return(errorCode);
+ if (errorCode)
+ return (errorCode);
} else
- return(0);
+ return (0);
}
}
-} /*SetAccessList*/
+} /*SetAccessList */
/*
* Compare the directory's ACL with the user's access rights in the client
* in rights and anyrights, respectively
*/
static afs_int32
-GetRights (struct client *client,
- struct acl_accessList *ACL,
- afs_int32 *rights,
- afs_int32 *anyrights)
+GetRights(struct client *client, struct acl_accessList *ACL,
+ afs_int32 * rights, afs_int32 * anyrights)
{
extern prlist SystemAnyUserCPS;
afs_int32 hrights = 0;
+#ifndef AFS_PTHREAD_ENV
int code;
+#endif
if (acl_CheckRights(ACL, &SystemAnyUserCPS, anyrights) != 0) {
- ViceLog(0,("CheckRights failed\n"));
+ ViceLog(0, ("CheckRights failed\n"));
*anyrights = 0;
}
*rights = 0;
+
+ ObtainWriteLock(&client->lock);
acl_CheckRights(ACL, &client->CPS, rights);
+ ReleaseWriteLock(&client->lock);
- /* 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 */
+ /* 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 */
#ifdef AFS_PTHREAD_ENV
pthread_cond_wait(&client->host->cond, &host_glock_mutex);
#else /* AFS_PTHREAD_ENV */
- if ((code=LWP_WaitProcess( &(client->host->hostFlags))) !=LWP_SUCCESS)
- ViceLog(0, ("LWP_WaitProcess returned %d\n", code));
+ if ((code =
+ LWP_WaitProcess(&(client->host->hostFlags))) != LWP_SUCCESS)
+ ViceLog(0, ("LWP_WaitProcess returned %d\n", code));
#endif /* AFS_PTHREAD_ENV */
}
if (client->host->hcps.prlist_len && !client->host->hcps.prlist_val) {
- ViceLog(0,("CheckRights: len=%d, for host=0x%x\n", client->host->hcps.prlist_len, client->host->host));
+ ViceLog(0,
+ ("CheckRights: len=%u, for host=0x%x\n",
+ client->host->hcps.prlist_len, client->host->host));
} else
acl_CheckRights(ACL, &client->host->hcps, &hrights);
- H_UNLOCK
+ H_UNLOCK;
/* Allow system:admin the rights given with the -implicit option */
if (acl_IsAMember(SystemId, &client->CPS))
- *rights |= implicitAdminRights;
+ *rights |= implicitAdminRights;
*rights |= hrights;
*anyrights |= hrights;
- return(0);
+ return (0);
-} /*GetRights*/
+} /*GetRights */
/*
* VanillaUser returns 1 (true) if the user is a vanilla user (i.e., not
VanillaUser(struct client *client)
{
if (acl_IsAMember(SystemId, &client->CPS))
- return(0); /* not a system administrator, then you're "vanilla" */
- return(1);
+ return (0); /* not a system administrator, then you're "vanilla" */
+ return (1);
-} /*VanillaUser*/
+} /*VanillaUser */
/*
* interface calls.
*/
static afs_int32
-GetVolumePackage(struct rx_connection *tcon,
- AFSFid *Fid,
- Volume **volptr,
- Vnode **targetptr,
- int chkforDir,
- Vnode **parent,
- struct client **client,
- int locktype,
- afs_int32 *rights,
- afs_int32 *anyrights)
+GetVolumePackage(struct rx_connection *tcon, 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 */
- int errorCode = 0; /* return code to caller */
+ struct acl_accessList *aCL; /* Internal access List */
+ int aCLSize; /* size of the access list */
+ int errorCode = 0; /* return code to caller */
if ((errorCode = CheckVnode(Fid, volptr, targetptr, locktype)))
- return(errorCode);
+ return (errorCode);
if (chkforDir) {
- if (chkforDir == MustNOTBeDIR && ((*targetptr)->disk.type == vDirectory))
- return(EISDIR);
- else if (chkforDir == MustBeDIR && ((*targetptr)->disk.type != vDirectory))
- return(ENOTDIR);
- }
- if ((errorCode = SetAccessList(targetptr, volptr, &aCL, &aCLSize, parent, (chkforDir == MustBeDIR ? (AFSFid *)0 : Fid), (chkforDir == MustBeDIR ? 0 : locktype))) != 0)
- return(errorCode);
- if (chkforDir == MustBeDIR) assert((*parent) == 0);
+ if (chkforDir == MustNOTBeDIR
+ && ((*targetptr)->disk.type == vDirectory))
+ return (EISDIR);
+ else if (chkforDir == MustBeDIR
+ && ((*targetptr)->disk.type != vDirectory))
+ return (ENOTDIR);
+ }
+ if ((errorCode =
+ SetAccessList(targetptr, volptr, &aCL, &aCLSize, parent,
+ (chkforDir == MustBeDIR ? (AFSFid *) 0 : Fid),
+ (chkforDir == MustBeDIR ? 0 : locktype))) != 0)
+ return (errorCode);
+ if (chkforDir == MustBeDIR)
+ assert((*parent) == 0);
if ((errorCode = GetClient(tcon, client)) != 0)
- return(errorCode);
+ return (errorCode);
if (!(*client))
- return(EINVAL);
+ return (EINVAL);
assert(GetRights(*client, aCL, rights, anyrights) == 0);
/* ok, if this is not a dir, set the PRSFS_ADMINISTER bit iff we're the owner */
if ((*targetptr)->disk.type != vDirectory) {
}
#ifdef ADMIN_IMPLICIT_LOOKUP
/* admins get automatic lookup on everything */
- if (!VanillaUser(*client)) (*rights) |= PRSFS_LOOKUP;
+ if (!VanillaUser(*client))
+ (*rights) |= PRSFS_LOOKUP;
#endif /* ADMIN_IMPLICIT_LOOKUP */
return errorCode;
-} /*GetVolumePackage*/
+} /*GetVolumePackage */
/*
* 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!
*/
-static afs_int32
-PutVolumePackage(Vnode *parentwhentargetnotdir,
- Vnode *targetptr,
- Vnode *parentptr,
- Volume *volptr)
+static void
+PutVolumePackage(Vnode * parentwhentargetnotdir, Vnode * targetptr,
+ Vnode * parentptr, Volume * volptr)
{
- int fileCode = 0; /* Error code returned by the volume package */
+ int fileCode = 0; /* Error code returned by the volume package */
if (parentwhentargetnotdir) {
VPutVnode(&fileCode, parentwhentargetnotdir);
if (volptr) {
VPutVolume(volptr);
}
-} /*PutVolumePackage*/
+} /*PutVolumePackage */
-static int VolumeOwner (register struct client *client,
- register Vnode *targetptr)
+static int
+VolumeOwner(register struct client *client, register Vnode * targetptr)
{
afs_int32 owner = V_owner(targetptr->volumePtr); /* get volume owner */
return (acl_IsAMember(owner, &client->CPS));
}
-} /*VolumeOwner*/
+} /*VolumeOwner */
-static int VolumeRootVnode (Vnode *targetptr)
+static int
+VolumeRootVnode(Vnode * targetptr)
{
- return ((targetptr->vnodeNumber == ROOTVNODE) &&
- (targetptr->disk.uniquifier == 1));
+ return ((targetptr->vnodeNumber == ROOTVNODE)
+ && (targetptr->disk.uniquifier == 1));
-} /*VolumeRootVnode*/
+} /*VolumeRootVnode */
/*
* Check if target file has the proper access permissions for the Fetch
* of the privilege XXX
*/
static afs_int32
-Check_PermissionRights(Vnode *targetptr,
- struct client *client,
- afs_int32 rights,
- int CallingRoutine,
- AFSStoreStatus *InStatus)
+Check_PermissionRights(Vnode * targetptr, struct client *client,
+ afs_int32 rights, int CallingRoutine,
+ AFSStoreStatus * InStatus)
{
int errorCode = 0;
#define OWNSp(client, target) ((client)->ViceId == (target)->disk.owner)
#define CHGRP(i,t) (((i)->Mask & AFS_SETGROUP) &&((i)->Group != (t)->disk.group))
if (CallingRoutine & CHK_FETCH) {
-#ifdef CMUCS
- if (VanillaUser(client))
-#else
- if (CallingRoutine == CHK_FETCHDATA || VanillaUser(client))
-#endif
- {
- if (targetptr->disk.type == vDirectory || targetptr->disk.type == vSymlink) {
- if ( !(rights & PRSFS_LOOKUP)
-#ifdef ADMIN_IMPLICIT_LOOKUP
+ 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 */
+ 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)))
- return(EACCES);
+ if (!(rights & PRSFS_READ)
+ && !(OWNSp(client, targetptr) && (rights & PRSFS_INSERT)))
+ return (EACCES);
}
- if (CallingRoutine == CHK_FETCHDATA && targetptr->disk.type == vFile)
+ if (CallingRoutine == CHK_FETCHDATA
+ && targetptr->disk.type == vFile)
#ifdef USE_GROUP_PERMS
- if (!OWNSp(client, targetptr) &&
- !acl_IsAMember(targetptr->disk.owner, &client->CPS)) {
- errorCode = (((GROUPREAD|GROUPEXEC) & targetptr->disk.modeBits)
- ? 0: EACCES);
+ if (!OWNSp(client, targetptr)
+ && !acl_IsAMember(targetptr->disk.owner, &client->CPS)) {
+ errorCode =
+ (((GROUPREAD | GROUPEXEC) & targetptr->disk.modeBits)
+ ? 0 : EACCES);
} else {
- errorCode =(((OWNERREAD|OWNEREXEC) & targetptr->disk.modeBits)
- ? 0: EACCES);
+ errorCode =
+ (((OWNERREAD | OWNEREXEC) & targetptr->disk.modeBits)
+ ? 0 : EACCES);
}
#else
/*
* 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);
+ 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 /* !VanillaUser(client) && !FetchData */ {
- osi_audit( PrivilegeEvent, 0, AUD_INT, (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 */
+ } 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_INT, (client ? client->ViceId : 0),
- AUD_INT, CallingRoutine, AUD_END);
- }
- } else {
- if (CallingRoutine != CHK_STOREDATA && !VanillaUser(client)) {
- osi_audit( PrivilegeEvent, 0, AUD_INT, (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 */
+ 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_INT, (client ? client->ViceId : 0),
- AUD_INT, CallingRoutine, AUD_END);
- }
- /* must be sysadmin to set suid/sgid bits */
- if ((InStatus->Mask & AFS_SETMODE) &&
+ 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) {
+ (InStatus->UnixModeBits & 0xc00) != 0) {
#else
- (InStatus->UnixModeBits & (S_ISUID|S_ISGID)) != 0) {
+ (InStatus->UnixModeBits & (S_ISUID | S_ISGID)) != 0) {
#endif
- if (readonlyServer)
- return(VREADONLY);
- if (VanillaUser(client))
- return(EACCES);
- else osi_audit( PrivSetID, 0, AUD_INT, (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 */
+ 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) &&
- !acl_IsAMember(targetptr->disk.owner,
- &client->CPS)) {
- errorCode = ((GROUPWRITE & targetptr->disk.modeBits)
- ? 0: EACCES);
+ if (!OWNSp(client, targetptr)
+ && !acl_IsAMember(targetptr->disk.owner,
+ &client->CPS)) {
+ errorCode =
+ ((GROUPWRITE & targetptr->disk.modeBits)
+ ? 0 : EACCES);
} else {
- errorCode = ((OWNERWRITE & targetptr->disk.modeBits)
- ? 0 : EACCES);
+ 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_INT, (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);
+ 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);
+ return (errorCode);
-} /*Check_PermissionRights*/
+} /*Check_PermissionRights */
/*
* structure
*/
static afs_int32
-RXFetch_AccessList(Vnode *targetptr,
- Vnode *parentwhentargetnotdir,
+RXFetch_AccessList(Vnode * targetptr, Vnode * parentwhentargetnotdir,
struct AFSOpaque *AccessList)
{
- char * eACL; /* External access list placeholder */
+ char *eACL; /* External access list placeholder */
- if (acl_Externalize((targetptr->disk.type == vDirectory ?
- VVnodeACL(targetptr) :
- VVnodeACL(parentwhentargetnotdir)), &eACL) != 0) {
+ if (acl_Externalize
+ ((targetptr->disk.type ==
+ vDirectory ? VVnodeACL(targetptr) :
+ VVnodeACL(parentwhentargetnotdir)), &eACL) != 0) {
return EIO;
}
- if ((strlen(eACL)+1) > AFSOPAQUEMAX) {
+ if ((strlen(eACL) + 1) > AFSOPAQUEMAX) {
acl_FreeExternalACL(&eACL);
- return(E2BIG);
+ return (E2BIG);
} else {
strcpy((char *)(AccessList->AFSOpaque_val), (char *)eACL);
- AccessList->AFSOpaque_len = strlen(eACL) +1;
+ AccessList->AFSOpaque_len = strlen(eACL) + 1;
}
acl_FreeExternalACL(&eACL);
- return(0);
+ return (0);
-} /*RXFetch_AccessList*/
+} /*RXFetch_AccessList */
/*
* the target dir's vnode storage.
*/
static afs_int32
-RXStore_AccessList(Vnode *targetptr, struct AFSOpaque *AccessList)
+RXStore_AccessList(Vnode * targetptr, struct AFSOpaque *AccessList)
{
- struct acl_accessList * newACL; /* PlaceHolder for new access list */
+ struct acl_accessList *newACL; /* PlaceHolder for new access list */
if (acl_Internalize(AccessList->AFSOpaque_val, &newACL) != 0)
- return(EINVAL);
+ return (EINVAL);
if ((newACL->size + 4) > VAclSize(targetptr))
- return(E2BIG);
- memcpy((char *) VVnodeACL(targetptr), (char *) newACL, (int)(newACL->size));
+ return (E2BIG);
+ memcpy((char *)VVnodeACL(targetptr), (char *)newACL, (int)(newACL->size));
acl_FreeACL(&newACL);
- return(0);
+ return (0);
-} /*RXStore_AccessList*/
+} /*RXStore_AccessList */
static afs_int32
-Fetch_AccessList(Vnode *targetptr, Vnode *parentwhentargetnotdir,
+Fetch_AccessList(Vnode * targetptr, Vnode * parentwhentargetnotdir,
struct AFSAccessList *AccessList)
{
- char * eACL; /* External access list placeholder */
+ char *eACL; /* External access list placeholder */
- assert(acl_Externalize((targetptr->disk.type == vDirectory ?
- VVnodeACL(targetptr) :
- VVnodeACL(parentwhentargetnotdir)), &eACL) == 0);
- if ((strlen(eACL)+1) > AccessList->MaxSeqLen) {
+ assert(acl_Externalize
+ ((targetptr->disk.type ==
+ vDirectory ? VVnodeACL(targetptr) :
+ VVnodeACL(parentwhentargetnotdir)), &eACL) == 0);
+ if ((strlen(eACL) + 1) > AccessList->MaxSeqLen) {
acl_FreeExternalACL(&eACL);
- return(E2BIG);
+ return (E2BIG);
} else {
strcpy((char *)(AccessList->SeqBody), (char *)eACL);
- AccessList->SeqLen = strlen(eACL) +1;
+ AccessList->SeqLen = strlen(eACL) + 1;
}
acl_FreeExternalACL(&eACL);
- return(0);
+ return (0);
-} /*Fetch_AccessList*/
+} /*Fetch_AccessList */
/*
* The Access List information is converted from its external form in the
* the target dir's vnode storage.
*/
static afs_int32
-Store_AccessList(Vnode *targetptr, struct AFSAccessList *AccessList)
+Store_AccessList(Vnode * targetptr, struct AFSAccessList *AccessList)
{
- struct acl_accessList * newACL; /* PlaceHolder for new access list */
+ struct acl_accessList *newACL; /* PlaceHolder for new access list */
if (acl_Internalize(AccessList->SeqBody, &newACL) != 0)
- return(EINVAL);
+ return (EINVAL);
if ((newACL->size + 4) > VAclSize(targetptr))
- return(E2BIG);
- memcpy((char *) VVnodeACL(targetptr), (char *) newACL, (int)(newACL->size));
+ return (E2BIG);
+ memcpy((char *)VVnodeACL(targetptr), (char *)newACL, (int)(newACL->size));
acl_FreeACL(&newACL);
- return(0);
+ return (0);
-} /*Store_AccessList*/
+} /*Store_AccessList */
/* In our current implementation, each successive data store (new file
* disk.inodeNumber and cloned)
*/
#define COPYBUFFSIZE 8192
-static int CopyOnWrite(Vnode *targetptr, Volume *volptr)
+static int
+CopyOnWrite(Vnode * targetptr, Volume * volptr)
{
- Inode ino, nearInode;
- int rdlen;
- int wrlen;
- register afs_size_t size;
+ Inode ino, nearInode;
+ int rdlen;
+ int wrlen;
+ register afs_fsize_t size;
register int length;
- int ifd, ofd;
- 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 */
+ 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? */
+ if (targetptr->disk.type == vDirectory)
+ DFlush(); /* just in case? */
VN_GET_LEN(size, targetptr);
buff = (char *)malloc(COPYBUFFSIZE);
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));
+ 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);
+ 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));
+ 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;
newFdP = IH_OPEN(newH);
assert(newFdP != NULL);
- while(size > 0) {
- if (size > COPYBUFFSIZE) { /* more than a buffer */
+ while (size > 0) {
+ if (size > COPYBUFFSIZE) { /* more than a buffer */
length = COPYBUFFSIZE;
size -= COPYBUFFSIZE;
} else {
- length = size;
+ length = (int)size;
size = 0;
}
- rdlen = FDH_READ(targFdP, buff, length);
+ rdlen = FDH_READ(targFdP, buff, length);
if (rdlen == length)
wrlen = FDH_WRITE(newFdP, buff, length);
else
* 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;
+ 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);
}
- else {
- 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, length,
- rdlen, wrlen, errno));
-#ifdef FAST_RESTART /* if running in no-salvage, don't core the server */
- ViceLog(0,("CopyOnWrite failed: taking volume offline\n"));
+ free(buff);
+ return ENOSPC;
+ } else {
+ 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, length, rdlen,
+ wrlen, errno));
+#ifdef FAST_RESTART /* if running in no-salvage, don't core the server */
+ ViceLog(0, ("CopyOnWrite failed: taking volume offline\n"));
#else /* Avoid further corruption and try to get a core. */
- assert(0);
+ assert(0);
#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;
- }
+ /* 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;
+ }
#ifndef AFS_PTHREAD_ENV
IOMGR_Poll();
#endif /* !AFS_PTHREAD_ENV */
}
FDH_REALLYCLOSE(targFdP);
rc = IH_DEC(V_linkHandle(volptr), VN_GET_INO(targetptr),
- V_parentId(volptr)) ;
+ V_parentId(volptr));
assert(!rc);
IH_RELEASE(targetptr->handle);
/* Internal change to vnode, no user level change to volume - def 5445 */
targetptr->changed_oldTime = 1;
free(buff);
- return 0; /* success */
-} /*CopyOnWrite*/
+ return 0; /* success */
+} /*CopyOnWrite */
/*
* SAFS_RemoveFile() or an empty dir when called from SAFS_rmdir()) from a
* given directory, parentptr.
*/
-int DT1=0, DT0=0;
+int DT1 = 0, DT0 = 0;
static afs_int32
-DeleteTarget(Vnode *parentptr,
- Volume *volptr,
- Vnode **targetptr,
- DirHandle *dir,
- AFSFid *fileFid,
- char *Name,
- int ChkForDir)
+DeleteTarget(Vnode * parentptr, Volume * volptr, Vnode ** targetptr,
+ DirHandle * dir, AFSFid * fileFid, char *Name, int ChkForDir)
{
- DirHandle childdir; /* Handle for dir package I/O */
+ DirHandle childdir; /* Handle for dir package I/O */
int errorCode = 0;
int code;
/* watch for invalid names */
if (!strcmp(Name, ".") || !strcmp(Name, ".."))
return (EINVAL);
- if (parentptr->disk.cloned)
- {
+ if (parentptr->disk.cloned) {
ViceLog(25, ("DeleteTarget : CopyOnWrite called\n"));
- if ((errorCode = CopyOnWrite(parentptr, volptr)))
- {
- ViceLog(20, ("DeleteTarget %s: CopyOnWrite failed %d\n",Name,errorCode));
- return errorCode;
+ if ((errorCode = CopyOnWrite(parentptr, volptr))) {
+ ViceLog(20,
+ ("DeleteTarget %s: CopyOnWrite failed %d\n", Name,
+ errorCode));
+ return errorCode;
}
}
/* check that the file is in the directory */
SetDirHandle(dir, parentptr);
if (Lookup(dir, Name, fileFid))
- return(ENOENT);
+ return (ENOENT);
fileFid->Volume = V_id(volptr);
/* just-in-case check for something causing deadlock */
if (fileFid->Vnode == parentptr->vnodeNumber)
- return(EINVAL);
+ return (EINVAL);
*targetptr = VGetVnode(&errorCode, volptr, fileFid->Vnode, WRITE_LOCK);
if (errorCode) {
}
if (ChkForDir == MustBeDIR) {
if ((*targetptr)->disk.type != vDirectory)
- return(ENOTDIR);
+ return (ENOTDIR);
} else if ((*targetptr)->disk.type == vDirectory)
- return(EISDIR);
-
- /*assert((*targetptr)->disk.uniquifier == fileFid->Unique);*/
+ return (EISDIR);
+
+ /*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 ) {
+ if ((*targetptr)->disk.uniquifier != fileFid->Unique) {
VTakeOffline(volptr);
errorCode = VSALVAGE;
return errorCode;
}
-
+
if (ChkForDir == MustBeDIR) {
SetDirHandle(&childdir, *targetptr);
if (IsEmpty(&childdir) != 0)
- return(EEXIST);
+ return (EEXIST);
DZap(&childdir);
(*targetptr)->delete = 1;
- } else if ((--(*targetptr)->disk.linkCount) == 0)
+ } 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));
+ 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(NULL, VN_GET_INO(*targetptr)),
- Name, errno));
-#ifdef AFS_DEC_ENV
- if ((errno != ENOENT) && (errno != EIO) && (errno != ENXIO))
-#else
- if (errno != ENOENT)
-#endif
- {
- ViceLog(0, ("Volume %u now offline, must be salvaged.\n",
- volptr->hashid));
- VTakeOffline(volptr);
+ ViceLog(0,
+ ("DT: inode=%s, name=%s, errno=%d\n",
+ PrintInode(NULL, VN_GET_INO(*targetptr)), Name,
+ errno));
+ if (errno != ENOENT)
+ {
+ ViceLog(0,
+ ("Volume %u now offline, must be salvaged.\n",
+ volptr->hashid));
+ VTakeOffline(volptr);
return (EIO);
- }
+ }
DT1++;
errorCode = 0;
}
}
- VN_SET_INO(*targetptr, (Inode)0);
+ VN_SET_INO(*targetptr, (Inode) 0);
{
- afs_size_t adjLength;
+ afs_fsize_t adjLength;
VN_GET_LEN(adjLength, *targetptr);
- VAdjustDiskUsage(&errorCode, volptr,
- -nBlocks(adjLength),
- (afs_size_t) 0);
+ VAdjustDiskUsage(&errorCode, volptr, -(int)nBlocks(adjLength), 0);
}
}
-
- (*targetptr)->changed_newTime = 1; /* Status change of deleted file/dir */
- code = Delete(dir,(char *) Name);
+ (*targetptr)->changed_newTime = 1; /* Status change of deleted file/dir */
+
+ code = Delete(dir, (char *)Name);
if (code) {
- ViceLog(0, ("Error %d deleting %s\n", code,
- (((*targetptr)->disk.type== Directory)?"directory":"file")));
- ViceLog(0, ("Volume %u now offline, must be salvaged.\n",
- volptr->hashid));
- VTakeOffline(volptr);
- if (!errorCode) errorCode = code;
+ ViceLog(0,
+ ("Error %d deleting %s\n", code,
+ (((*targetptr)->disk.type ==
+ Directory) ? "directory" : "file")));
+ ViceLog(0,
+ ("Volume %u now offline, must be salvaged.\n",
+ volptr->hashid));
+ VTakeOffline(volptr);
+ if (!errorCode)
+ errorCode = code;
}
DFlush();
- return(errorCode);
+ return (errorCode);
-} /*DeleteTarget*/
+} /*DeleteTarget */
/*
* been performed.
*/
static void
-Update_ParentVnodeStatus(Vnode *parentptr,
- Volume *volptr,
- DirHandle *dir,
- int author,
- int linkcount,
+Update_ParentVnodeStatus(Vnode * parentptr, Volume * volptr, DirHandle * dir,
+ int author, int linkcount,
#if FS_STATS_DETAILED
char a_inSameNetwork
-#endif /* FS_STATS_DETAILED */
- )
+#endif /* FS_STATS_DETAILED */
+ )
{
- afs_offs_t newlength; /* Holds new directory length */
- afs_offs_t parentLength;
+ afs_fsize_t newlength; /* Holds new directory length */
+ afs_fsize_t parentLength;
int errorCode;
#if FS_STATS_DETAILED
- Date currDate; /*Current date*/
- int writeIdx; /*Write index to bump*/
- int timeIdx; /*Authorship time index to bump*/
+ Date currDate; /*Current date */
+ int writeIdx; /*Write index to bump */
+ int timeIdx; /*Authorship time index to bump */
#endif /* FS_STATS_DETAILED */
parentptr->disk.dataVersion++;
- newlength = Length(dir);
+ newlength = (afs_fsize_t) 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
*/
VN_GET_LEN(parentLength, parentptr);
if (nBlocks(newlength) != nBlocks(parentLength)) {
- VAdjustDiskUsage(&errorCode, volptr,
+ VAdjustDiskUsage(&errorCode, volptr,
(nBlocks(newlength) - nBlocks(parentLength)),
(nBlocks(newlength) - nBlocks(parentLength)));
}
writeIdx = VOL_STATS_DIFF_NET;
V_stat_writes(volptr, writeIdx)++;
if (author != AnonymousID) {
- V_stat_writes(volptr, writeIdx+1)++;
+ V_stat_writes(volptr, writeIdx + 1)++;
}
/*
* 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);
+ 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 {
+ } else {
V_stat_dirDiffAuthor(volptr, timeIdx)++;
}
#endif /* FS_STATS_DETAILED */
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. */
+ parentptr->changed_newTime = 1; /* vnode changed, write it back. */
}
/* 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_size_t length)
+Update_TargetVnodeStatus(Vnode * targetptr, afs_uint32 Caller,
+ struct client *client, AFSStoreStatus * InStatus,
+ Vnode * parentptr, Volume * volptr,
+ afs_fsize_t length)
{
#if FS_STATS_DETAILED
- Date currDate; /*Current date*/
- int writeIdx; /*Write index to bump*/
- int timeIdx; /*Authorship time index to bump*/
+ Date currDate; /*Current date */
+ int writeIdx; /*Write index to bump */
+ int timeIdx; /*Authorship time index to bump */
#endif /* FS_STATS_DETAILED */
- if (Caller & (TVS_CFILE|TVS_SLINK|TVS_MKDIR)) { /* initialize new file */
+ 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.group = 0; save some cycles */
targetptr->disk.modeBits = 0777;
targetptr->disk.owner = client->ViceId;
- targetptr->disk.dataVersion = 0 ; /* consistent with the client */
+ targetptr->disk.dataVersion = 0; /* consistent with the client */
targetptr->disk.linkCount = (Caller & TVS_MKDIR ? 2 : 1);
/* the inode was created in Alloc_NewVnode() */
}
-
#if FS_STATS_DETAILED
/*
* Update file write stats for this volume. Note that the auth
writeIdx = VOL_STATS_DIFF_NET;
V_stat_writes(volptr, writeIdx)++;
if (client->ViceId != AnonymousID) {
- V_stat_writes(volptr, writeIdx+1)++;
+ V_stat_writes(volptr, writeIdx + 1)++;
}
/*
* 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);
+ 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)++;
}
- }
+ }
#endif /* FS_STATS_DETAILED */
if (!(Caller & TVS_SSTATUS))
- targetptr->disk.author = client->ViceId;
+ targetptr->disk.author = client->ViceId;
if (Caller & TVS_SDATA) {
- targetptr->disk.dataVersion++;
- if (VanillaUser(client))
- {
- targetptr->disk.modeBits &= ~04000; /* turn off suid for file. */
+ 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. */
+ targetptr->disk.modeBits &= ~02000; /* turn off sgid for file. */
#endif
}
}
/* 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());
+ } 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. */
+ 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. */
+ targetptr->disk.modeBits &= ~02000; /* turn off sgid for file. */
#endif
- }
+ }
targetptr->disk.owner = InStatus->Owner;
- if (VolumeRootVnode (targetptr)) {
+ if (VolumeRootVnode(targetptr)) {
Error errorCode = 0; /* what should be done with this? */
V_owner(targetptr->volumePtr) = InStatus->Owner;
int modebits = InStatus->UnixModeBits;
#define CREATE_SGUID_ADMIN_ONLY 1
#ifdef CREATE_SGUID_ADMIN_ONLY
- if (VanillaUser(client))
+ 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_INT, client->ViceId,
- AUD_INT, CHK_STOREDATA, AUD_END); break;
- case TVS_CFILE:
- case TVS_SSTATUS: osi_audit( PrivSetID, 0, AUD_INT, client->ViceId,
- AUD_INT, CHK_STORESTATUS, AUD_END); break;
- default: break;
- }
+ 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*/
+} /*Update_TargetVnodeStatus */
/*
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 */
+ CallBack->ExpirationTime = CallBackTime - FT_ApproxTime();
+ CallBack->CallBackVersion = CALLBACK_VERSION;
+ CallBack->CallBackType = CB_SHARED; /* The default for now */
-} /*SetCallBackStruct*/
+} /*SetCallBackStruct */
/*
* enough space before consuming some.
*/
static afs_int32
-AdjustDiskUsage(Volume *volptr, afs_size_t length, afs_size_t checkLength)
+AdjustDiskUsage(Volume * volptr, afs_sfsize_t length,
+ afs_sfsize_t checkLength)
{
int rc;
int nc;
VAdjustDiskUsage(&rc, volptr, length, checkLength);
if (rc) {
- VAdjustDiskUsage(&nc, volptr, -length, (afs_size_t) 0);
+ VAdjustDiskUsage(&nc, volptr, -length, 0);
if (rc == VOVERQUOTA) {
- ViceLog(2,("Volume %u (%s) is full\n",
- V_id(volptr), V_name(volptr)));
- return(rc);
+ 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,
+ ("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);
+ ViceLog(0, ("Got error return %d from VAdjustDiskUsage\n", rc));
+ return (rc);
}
- return(0);
+ return (0);
-} /*AdjustDiskUsage*/
+} /*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_size_t BlocksPreallocatedForVnode)
+Alloc_NewVnode(Vnode * parentptr, DirHandle * dir, Volume * volptr,
+ Vnode ** targetptr, char *Name, struct AFSFid *OutFid,
+ int FileType, afs_sfsize_t BlocksPreallocatedForVnode)
{
- int errorCode = 0; /* Error code returned back */
+ int errorCode = 0; /* Error code returned back */
int temp;
- Inode inode=0;
+ Inode inode = 0;
Inode nearInode; /* hint for inode allocation in solaris */
- if ((errorCode = AdjustDiskUsage(volptr, BlocksPreallocatedForVnode,
- BlocksPreallocatedForVnode))) {
- ViceLog(25, ("Insufficient space to allocate %d blocks\n",
- BlocksPreallocatedForVnode));
- return(errorCode);
+ if ((errorCode =
+ AdjustDiskUsage(volptr, BlocksPreallocatedForVnode,
+ BlocksPreallocatedForVnode))) {
+ ViceLog(25,
+ ("Insufficient space to allocate %lld blocks\n",
+ (afs_intmax_t) BlocksPreallocatedForVnode));
+ return (errorCode);
}
*targetptr = VAllocVnode(&errorCode, volptr, FileType);
if (errorCode != 0) {
- VAdjustDiskUsage(&temp, volptr, - BlocksPreallocatedForVnode,
- (afs_size_t) 0);
- return(errorCode);
+ 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 */
+ 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);
+ 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 : %d vnode = %d Failed to create inode: errno = %d\n",
- (*targetptr)->volumePtr->header->diskstuff.id,
- (*targetptr)->vnodeNumber,
- errno));
- VAdjustDiskUsage(&temp, volptr, -BlocksPreallocatedForVnode,
- (afs_size_t) 0);
- (*targetptr)->delete = 1; /* delete vnode */
- return ENOSPC;
+ 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)
- {
+ if (parentptr->disk.cloned) {
ViceLog(25, ("Alloc_NewVnode : CopyOnWrite called\n"));
- if ((errorCode = CopyOnWrite(parentptr, volptr))) /* disk full */
- {
- ViceLog(25, ("Alloc_NewVnode : CopyOnWrite failed\n"));
- /* delete the vnode previously allocated */
- (*targetptr)->delete = 1;
- VAdjustDiskUsage(&temp, volptr,
- -BlocksPreallocatedForVnode, (afs_size_t) 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(NULL, inode)));
- IH_RELEASE((*targetptr)->handle);
-
- return errorCode;
+ if ((errorCode = CopyOnWrite(parentptr, volptr))) { /* 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(NULL, inode)));
+ IH_RELEASE((*targetptr)->handle);
+
+ return errorCode;
}
}
-
+
/* add the name to the directory */
SetDirHandle(dir, parentptr);
- if ((errorCode = Create(dir,(char *)Name, OutFid))) {
+ if ((errorCode = Create(dir, (char *)Name, OutFid))) {
(*targetptr)->delete = 1;
- VAdjustDiskUsage(&temp, volptr, - BlocksPreallocatedForVnode,
- (afs_size_t) 0);
+ 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(NULL, inode)));
+ if (IH_DEC(V_linkHandle(volptr), inode, V_parentId(volptr)))
+ ViceLog(0,
+ ("Alloc_NewVnode: partition %s idec %s failed\n",
+ volptr->partition->name, PrintInode(NULL, inode)));
IH_RELEASE((*targetptr)->handle);
- return(errorCode);
+ return (errorCode);
}
DFlush();
- return(0);
+ return (0);
-} /*Alloc_NewVnode*/
+} /*Alloc_NewVnode */
/*
* SAFS_ReleaseLock)
*/
static afs_int32
-HandleLocking(Vnode *targetptr, afs_int32 rights, ViceLockType LockingType)
+HandleLocking(Vnode * targetptr, afs_int32 rights, ViceLockType LockingType)
{
- int Time; /* Used for time */
- int writeVnode = targetptr->changed_oldTime; /* save original status */
+ int Time; /* Used for time */
+ int writeVnode = targetptr->changed_oldTime; /* save original status */
/* Does the caller has Lock priviledges; root extends locks, however */
if (LockingType != LockExtend && !(rights & PRSFS_LOCK))
- return(EACCES);
- targetptr->changed_oldTime = 1; /* locking doesn't affect any time stamp */
+ return (EACCES);
+ 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 (targetptr->disk.lock.lockCount >= 0) {
- ++(targetptr->disk.lock.lockCount);
- targetptr->disk.lock.lockTime = Time;
- } else return(EAGAIN);
- } else {
- 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)
+ 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 (targetptr->disk.lock.lockCount >= 0) {
+ ++(targetptr->disk.lock.lockCount);
+ targetptr->disk.lock.lockTime = Time;
+ } else
+ return (EAGAIN);
+ } else {
+ if (targetptr->disk.lock.lockCount == 0) {
+ targetptr->disk.lock.lockCount = -1;
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*/
+ } 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)
+CheckWriteMode(Vnode * targetptr, afs_int32 rights, int Prfs_Mode)
{
if (readonlyServer)
- return(VREADONLY);
+ return (VREADONLY);
if (!(rights & Prfs_Mode))
- return(EACCES);
- if ((targetptr->disk.type != vDirectory) && (!(targetptr->disk.modeBits & OWNERWRITE)))
- return(EACCES);
- return(0);
+ return (EACCES);
+ if ((targetptr->disk.type != vDirectory)
+ && (!(targetptr->disk.modeBits & OWNERWRITE)))
+ return (EACCES);
+ return (0);
}
/*
* update, if applicable.
*/
static afs_int32
-RXUpdate_VolumeStatus(Volume *volptr, AFSStoreVolumeStatus* StoreVolStatus,
+RXUpdate_VolumeStatus(Volume * volptr, AFSStoreVolumeStatus * StoreVolStatus,
char *Name, char *OfflineMsg, char *Motd)
{
Error errorCode = 0;
if (strlen(Name) > 0) {
strcpy(V_name(volptr), Name);
}
-#if TRANSARC_VOL_STATS
+#if OPENAFS_VOL_STATS
/*
* We don't overwrite the motd field, since it's now being used
* for stats
}
#endif /* FS_STATS_DETAILED */
VUpdateVolume(&errorCode, volptr);
- return(errorCode);
+ return (errorCode);
-} /*RXUpdate_VolumeStatus*/
+} /*RXUpdate_VolumeStatus */
/* old interface */
static afs_int32
-Update_VolumeStatus(Volume *volptr, VolumeStatus *StoreVolStatus,
+Update_VolumeStatus(Volume * volptr, VolumeStatus * StoreVolStatus,
struct BBS *Name, struct BBS *OfflineMsg,
struct BBS *Motd)
{
strcpy(V_offlineMessage(volptr), OfflineMsg->SeqBody);
if (Name->SeqLen > 1)
strcpy(V_name(volptr), Name->SeqBody);
-#if TRANSARC_VOL_STATS
+#if OPENAFS_VOL_STATS
/*
* We don't overwrite the motd field, since it's now being used
* for stats
strcpy(V_motd(volptr), Motd->SeqBody);
#endif /* FS_STATS_DETAILED */
VUpdateVolume(&errorCode, volptr);
- return(errorCode);
+ return (errorCode);
-} /*Update_VolumeStatus*/
+} /*Update_VolumeStatus */
/*
* the volume status to the caller.
*/
static afs_int32
-GetVolumeStatus(VolumeStatus *status, struct BBS *name, struct BBS *offMsg,
- struct BBS *motd, Volume *volptr)
+GetVolumeStatus(VolumeStatus * status, struct BBS *name, struct BBS *offMsg,
+ struct BBS *motd, Volume * volptr)
{
status->Vid = V_id(volptr);
status->ParentId = V_parentId(volptr);
status->PartMaxBlocks = volptr->partition->totalUsable;
strncpy(name->SeqBody, V_name(volptr), (int)name->MaxSeqLen);
name->SeqLen = strlen(V_name(volptr)) + 1;
- if (name->SeqLen > name->MaxSeqLen) name->SeqLen = name -> MaxSeqLen;
+ if (name->SeqLen > name->MaxSeqLen)
+ name->SeqLen = name->MaxSeqLen;
strncpy(offMsg->SeqBody, V_offlineMessage(volptr), (int)name->MaxSeqLen);
offMsg->SeqLen = strlen(V_offlineMessage(volptr)) + 1;
if (offMsg->SeqLen > offMsg->MaxSeqLen)
- offMsg->SeqLen = offMsg -> MaxSeqLen;
+ offMsg->SeqLen = offMsg->MaxSeqLen;
#ifdef notdef
- /*Don't do anything with the motd field*/
+ /*Don't do anything with the motd field */
strncpy(motd->SeqBody, nullString, (int)offMsg->MaxSeqLen);
motd->SeqLen = strlen(nullString) + 1;
#endif
if (motd->SeqLen > motd->MaxSeqLen)
- motd->SeqLen = motd -> MaxSeqLen;
+ motd->SeqLen = motd->MaxSeqLen;
-} /*GetVolumeStatus*/
+} /*GetVolumeStatus */
static afs_int32
-RXGetVolumeStatus(AFSFetchVolumeStatus *status, char **name, char **offMsg,
- char **motd, Volume *volptr)
+RXGetVolumeStatus(AFSFetchVolumeStatus * status, char **name, char **offMsg,
+ char **motd, Volume * volptr)
{
int temp;
assert(0);
}
strcpy(*offMsg, V_offlineMessage(volptr));
-#if TRANSARC_VOL_STATS
+#if OPENAFS_VOL_STATS
*motd = malloc(1);
if (!*motd) {
ViceLog(0, ("Failed malloc in RXGetVolumeStatus\n"));
}
strcpy(*motd, V_motd(volptr));
#endif /* FS_STATS_DETAILED */
-
-} /*RXGetVolumeStatus*/
+ return 0;
+} /*RXGetVolumeStatus */
static afs_int32
i = strlen(aname);
if (i >= 4) {
/* watch for @sys on the right */
- if (strcmp(aname+i-4, "@sys") == 0) return 0;
+ if (strcmp(aname + i - 4, "@sys") == 0)
+ return 0;
}
while ((tc = *aname++)) {
- if (tc == '/') return 0; /* very bad character to encounter */
+ if (tc == '/')
+ return 0; /* very bad character to encounter */
}
- return 1; /* file name is ok */
+ return 1; /* file name is ok */
-} /*FileNameOK*/
+} /*FileNameOK */
/* Debugging tool to print Volume Statu's contents */
static void
-PrintVolumeStatus(VolumeStatus *status)
+PrintVolumeStatus(VolumeStatus * status)
{
- ViceLog(5,("Volume header contains:\n"));
- ViceLog(5,("Vid = %u, Parent = %u, Online = %d, InService = %d, Blessed = %d, NeedsSalvage = %d\n",
- status->Vid, status->ParentId, status->Online, status->InService,
- status->Blessed, status->NeedsSalvage));
- ViceLog(5,("MinQuota = %d, MaxQuota = %d\n", status->MinQuota, status->MaxQuota));
- ViceLog(5,("Type = %d, BlocksInUse = %d, PartBlocksAvail = %d, PartMaxBlocks = %d\n",
- status->Type, status->BlocksInUse, status->PartBlocksAvail, status->PartMaxBlocks));
-
-} /*PrintVolumeStatus*/
+ ViceLog(5, ("Volume header contains:\n"));
+ ViceLog(5,
+ ("Vid = %u, Parent = %u, Online = %d, InService = %d, Blessed = %d, NeedsSalvage = %d\n",
+ status->Vid, status->ParentId, status->Online, status->InService,
+ status->Blessed, status->NeedsSalvage));
+ ViceLog(5,
+ ("MinQuota = %d, MaxQuota = %d\n", status->MinQuota,
+ status->MaxQuota));
+ ViceLog(5,
+ ("Type = %d, BlocksInUse = %d, PartBlocksAvail = %d, PartMaxBlocks = %d\n",
+ status->Type, status->BlocksInUse, status->PartBlocksAvail,
+ status->PartMaxBlocks));
+
+} /*PrintVolumeStatus */
/*
* 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)
+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_ResidencyCmd (struct rx_call *acall, struct AFSFid *Fid,
- struct ResidencyCmdInputs *Inputs,
- struct ResidencyCmdOutputs *Outputs)
+afs_int32
+SRXAFS_ResidencyCmd(struct rx_call * acall, struct AFSFid * Fid,
+ struct ResidencyCmdInputs * Inputs,
+ struct ResidencyCmdOutputs * Outputs)
{
return EINVAL;
}
} *freeBufferList = 0;
static int afs_buffersAlloced = 0;
-static FreeSendBuffer(register struct afs_buffer *adata)
+static
+FreeSendBuffer(register struct afs_buffer *adata)
{
- FS_LOCK
+ FS_LOCK;
afs_buffersAlloced--;
adata->next = freeBufferList;
freeBufferList = adata;
- FS_UNLOCK
+ FS_UNLOCK;
return 0;
-} /*FreeSendBuffer*/
+} /*FreeSendBuffer */
/* allocate space for sender */
-static char *AllocSendBuffer()
+static char *
+AllocSendBuffer()
{
register struct afs_buffer *tp;
- FS_LOCK
+ FS_LOCK;
afs_buffersAlloced++;
if (!freeBufferList) {
char *tmp;
- FS_UNLOCK
-
+ FS_UNLOCK;
tmp = malloc(sendBufSize);
if (!tmp) {
ViceLog(0, ("Failed malloc in AllocSendBuffer\n"));
}
tp = freeBufferList;
freeBufferList = tp->next;
- FS_UNLOCK
- return (char *) tp;
+ FS_UNLOCK;
+ return (char *)tp;
-} /*AllocSendBuffer*/
+} /*AllocSendBuffer */
/*
* 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)
+static
+ void
+GetStatus(Vnode * targetptr, AFSFetchStatus * status, afs_int32 rights,
+ afs_int32 anyrights, Vnode * parentptr)
{
/* 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 */
+ 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)
else if (targetptr->disk.type == vSymlink)
status->FileType = SymbolicLink;
else
- status->FileType = Invalid; /*invalid type field */
+ status->FileType = Invalid; /*invalid type field */
status->LinkCount = targetptr->disk.linkCount;
- SET_STATUS_LEN(status, targetptr);
+ {
+ 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->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->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 = targetptr->disk.lock.lockCount;
status->errorCode = 0;
-} /*GetStatus*/
+} /*GetStatus */
static
-afs_int32 common_FetchData64 (struct rx_call *acall,
- struct AFSFid *Fid,
- afs_size_t Pos,
- afs_size_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 */
- int errorCode = 0; /* return code to caller */
- int fileCode = 0; /* return code from vol package */
- Volume * volptr = 0; /* pointer to the volume */
- struct client *client; /* pointer to the client data */
- struct rx_connection *tcon; /* the connection we're part of */
- 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 */
+ 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 */
+ int errorCode = 0; /* return code to caller */
+ int fileCode = 0; /* return code from vol package */
+ Volume *volptr = 0; /* pointer to the volume */
+ struct client *client; /* pointer to the client data */
+ struct rx_connection *tcon; /* the connection we're part of */
+ 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 */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct fs_stats_xferData *xferP; /* Ptr to this op's byte size struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval xferStartTime,
- xferStopTime; /* Start/stop times for xfer portion*/
- struct timeval elapsedTime; /* Transfer time */
- afs_size_t bytesToXfer; /* # bytes to xfer*/
- afs_size_t bytesXferred; /* # bytes actually xferred*/
- int readIdx; /* Index of read stats array to bump*/
- static afs_int32 tot_bytesXferred; /* shared access protected by FS_LOCK */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct fs_stats_xferData *xferP; /* Ptr to this op's byte size struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval xferStartTime, xferStopTime; /* Start/stop times for xfer portion */
+ struct timeval elapsedTime; /* Transfer time */
+ afs_sfsize_t bytesToXfer; /* # bytes to xfer */
+ afs_sfsize_t bytesXferred; /* # bytes actually xferred */
+ int readIdx; /* Index of read stats array to bump */
+ static afs_int32 tot_bytesXferred; /* shared access protected by FS_LOCK */
/*
* Set our stats pointers, remember when the RPC operation started, and
* tally the operation.
*/
- opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_FETCHDATA]);
+ opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_FETCHDATA]);
xferP = &(afs_FullPerfStats.det.xferOpTimes[FS_STATS_XFERIDX_FETCHDATA]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
- ViceLog(1,("SRXAFS_FetchData, Fid = %u.%d.%d\n",
- Fid->Volume, Fid->Vnode, Fid->Unique));
- FS_LOCK
+ 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))
+ FS_UNLOCK;
+ if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon)))
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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(5,("SRXAFS_FetchData, Fid = %u.%d.%d, Host %s, Id %d\n",
- Fid->Volume, Fid->Vnode, Fid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(5,
+ ("SRXAFS_FetchData, Fid = %u.%u.%u, Host %s, Id %d\n",
+ Fid->Volume, Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr),
+ t_client->ViceId));
/*
* Get volume/vnode for the fetched file; caller's access rights to
* it are also returned
*/
- if ((errorCode = GetVolumePackage(tcon, Fid, &volptr, &targetptr,
- DONTCHECK, &parentwhentargetnotdir,
- &client, READ_LOCK, &rights, &anyrights)))
+ if ((errorCode =
+ GetVolumePackage(tcon, 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
+ 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)++;
+ V_stat_reads(volptr, readIdx + 1)++;
}
- FS_UNLOCK
+ FS_UNLOCK;
#endif /* FS_STATS_DETAILED */
-
/* Check whether the caller has permission access to fetch the data */
- if ((errorCode = Check_PermissionRights(targetptr, client, rights,
- CHK_FETCHDATA, 0)))
+ if ((errorCode =
+ Check_PermissionRights(targetptr, client, rights, CHK_FETCHDATA, 0)))
goto Bad_FetchData;
/*
assert(!fileCode || (fileCode == VSALVAGE));
parentwhentargetnotdir = NULL;
}
-
#if FS_STATS_DETAILED
/*
* Remember when the data transfer started.
/* actually do the data transfer */
#if FS_STATS_DETAILED
- errorCode = FetchData_RXStyle(volptr, targetptr, acall,
- (afs_size_t) Pos, (afs_size_t) Len, type,
- &bytesToXfer, &bytesXferred);
+ errorCode =
+ FetchData_RXStyle(volptr, targetptr, acall, Pos, Len, type,
+ &bytesToXfer, &bytesXferred);
#else
- if ((errorCode = FetchData_RXStyle(volptr, targetptr, acall,
- (afs_size_t) Pos, (afs_size_t) Len,
- type)))
+ if ((errorCode =
+ FetchData_RXStyle(volptr, targetptr, acall, Pos, Len, type)))
goto Bad_FetchData;
#endif /* FS_STATS_DETAILED */
* operation failed, we jump to the appropriate point.
*/
TM_GetTimeOfDay(&xferStopTime, 0);
- FS_LOCK
+ FS_LOCK;
(xferP->numXfers)++;
if (!errorCode) {
(xferP->numSuccesses)++;
- /*
- * Bump the xfer sum by the number of bytes actually sent, NOT the
- * target number.
- */
+ /*
+ * Bump the xfer sum by the number of bytes actually sent, NOT the
+ * target number.
+ */
tot_bytesXferred += bytesXferred;
- (xferP->sumBytes) += (tot_bytesXferred >> 10);
+ (xferP->sumBytes) += (tot_bytesXferred >> 10);
tot_bytesXferred &= 0x3FF;
- if (bytesXferred < xferP->minBytes)
+ if (bytesXferred < xferP->minBytes)
xferP->minBytes = bytesXferred;
- if (bytesXferred > xferP->maxBytes)
+ if (bytesXferred > xferP->maxBytes)
xferP->maxBytes = bytesXferred;
- /*
- * Tally the size of the object. Note: we tally the actual size,
- * NOT the number of bytes that made it out over the wire.
- */
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET0)
+ /*
+ * Tally the size of the object. Note: we tally the actual size,
+ * NOT the number of bytes that made it out over the wire.
+ */
+ if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET0)
(xferP->count[0])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET1)
- (xferP->count[1])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET2)
- (xferP->count[2])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET3)
- (xferP->count[3])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET4)
- (xferP->count[4])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET5)
- (xferP->count[5])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET6)
- (xferP->count[6])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET7)
- (xferP->count[7])++;
- else
- (xferP->count[8])++;
-
- fs_stats_GetDiff(elapsedTime, xferStartTime, xferStopTime);
- fs_stats_AddTo((xferP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((xferP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (xferP->minTime))) {
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET1)
+ (xferP->count[1])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET2)
+ (xferP->count[2])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET3)
+ (xferP->count[3])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET4)
+ (xferP->count[4])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET5)
+ (xferP->count[5])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET6)
+ (xferP->count[6])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET7)
+ (xferP->count[7])++;
+ else
+ (xferP->count[8])++;
+
+ fs_stats_GetDiff(elapsedTime, xferStartTime, xferStopTime);
+ fs_stats_AddTo((xferP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((xferP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (xferP->minTime))) {
fs_stats_TimeAssign((xferP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (xferP->maxTime))) {
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (xferP->maxTime))) {
fs_stats_TimeAssign((xferP->maxTime), elapsedTime);
- }
- }
- FS_UNLOCK
+ }
+ }
+ FS_UNLOCK;
/*
* Finally, go off to tell our caller the bad news in case the
* fetch failed.
#endif /* FS_STATS_DETAILED */
/* write back the OutStatus from the target vnode */
- GetStatus(targetptr, OutStatus, rights, anyrights, &tparentwhentargetnotdir);
+ GetStatus(targetptr, OutStatus, rights, anyrights,
+ &tparentwhentargetnotdir);
/* 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);
- }
+ struct AFSFid myFid;
+ memset(&myFid, 0, sizeof(struct AFSFid));
+ myFid.Volume = Fid->Volume;
+ SetCallBackStruct(AddVolCallBack(client->host, &myFid), CallBack);
+ }
-Bad_FetchData:
+ Bad_FetchData:
/* Update and store volume/vnode and parent vnodes back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
- ViceLog(2, ("SRXAFS_FetchData returns %d\n", errorCode));
- CallPostamble(tcon);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
+ ViceLog(2, ("SRXAFS_FetchData returns %d\n", errorCode));
+ errorCode = CallPostamble(tcon, errorCode);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (errorCode == 0) {
- FS_LOCK
+ FS_LOCK;
(opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
- }
-
+ }
+ FS_UNLOCK;
+ }
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, FetchDataEvent, errorCode, AUD_FID, Fid, AUD_END);
- return(errorCode);
-
-} /*common_FetchData64*/
+ osi_auditU(acall, FetchDataEvent, errorCode,
+ AUD_ID, t_client ? t_client->ViceId : 0,
+ AUD_FID, Fid, AUD_END);
+ return (errorCode);
-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)
+} /*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)
{
- int code;
-
- code = common_FetchData64 (acall, Fid,
- (afs_size_t) Pos, (afs_size_t) Len,
- OutStatus,
- CallBack, Sync, 0);
- return code;
+ 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)
+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_size_t tPos, tLen;
+ afs_sfsize_t tPos, tLen;
#ifdef AFS_64BIT_ENV
#ifndef AFS_LARGEFILE_ENV
if (Pos + Len > 0x7fffffff)
- return E2BIG;
-#endif /* !AFS_LARGEFILE_ENV */
- tPos = Pos;
- tLen = Len;
+ return EFBIG;
+#endif /* !AFS_LARGEFILE_ENV */
+ tPos = (afs_sfsize_t) Pos;
+ tLen = (afs_sfsize_t) Len;
#else /* AFS_64BIT_ENV */
if (Pos.high || Len.high)
- return E2BIG;
+ return EFBIG;
tPos = Pos.low;
tLen = Len.low;
#endif /* AFS_64BIT_ENV */
- code = common_FetchData64 (acall, Fid, tPos, tLen, OutStatus,
- CallBack, Sync, 1);
+ 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)
+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 */
- int errorCode = 0; /* return error code to caller */
- Volume * volptr = 0; /* pointer to the volume */
- struct client *client; /* pointer to the client data */
- afs_int32 rights, anyrights; /* rights for this and any user */
+ Vnode *targetptr = 0; /* pointer to vnode to fetch */
+ Vnode *parentwhentargetnotdir = 0; /* parent vnode if targetptr is a file */
+ int errorCode = 0; /* return error code to caller */
+ Volume *volptr = 0; /* pointer to the volume */
+ struct client *client; /* pointer to the client data */
+ afs_int32 rights, anyrights; /* rights for this and any user */
struct rx_connection *tcon = rx_ConnectionOf(acall);
- struct client *t_client; /* tmp ptr to client data */
- struct in_addr logHostAddr; /* host ip holder for inet_ntoa */
+ struct client *t_client = NULL; /* tmp ptr to client data */
+ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_FETCHACL]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
- ViceLog(1, ("SAFS_FetchACL, Fid = %u.%d.%d\n",
- Fid->Volume, Fid->Vnode, Fid->Unique));
- FS_LOCK
+ ViceLog(1,
+ ("SAFS_FetchACL, Fid = %u.%u.%u\n", Fid->Volume, Fid->Vnode,
+ Fid->Unique));
+ FS_LOCK;
AFSCallStats.FetchACL++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon)))
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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(5, ("SAFS_FetchACL, Fid = %u.%d.%d, Host %s, Id %d\n",
- Fid->Volume, Fid->Vnode, Fid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(5,
+ ("SAFS_FetchACL, Fid = %u.%u.%u, Host %s, Id %d\n", Fid->Volume,
+ Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr),
+ t_client->ViceId));
AccessList->AFSOpaque_len = 0;
AccessList->AFSOpaque_val = malloc(AFSOPAQUEMAX);
* Get volume/vnode for the fetched file; caller's access rights to it
* are also returned
*/
- if ((errorCode = GetVolumePackage(tcon, Fid, &volptr, &targetptr,
- DONTCHECK, &parentwhentargetnotdir,
- &client, READ_LOCK, &rights, &anyrights)))
+ if ((errorCode =
+ GetVolumePackage(tcon, 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)))
+ 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)))
+ if ((errorCode =
+ RXFetch_AccessList(targetptr, parentwhentargetnotdir, AccessList)))
goto Bad_FetchACL;
/* Get OutStatus back From the target Vnode */
- GetStatus(targetptr, OutStatus, rights, anyrights, parentwhentargetnotdir);
+ GetStatus(targetptr, OutStatus, rights, anyrights,
+ parentwhentargetnotdir);
-Bad_FetchACL:
+ Bad_FetchACL:
/* Update and store volume/vnode and parent vnodes back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
- ViceLog(2, ("SAFS_FetchACL returns %d (ACL=%s)\n",
- errorCode, AccessList->AFSOpaque_val));
- CallPostamble(tcon);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
+ ViceLog(2,
+ ("SAFS_FetchACL returns %d (ACL=%s)\n", errorCode,
+ AccessList->AFSOpaque_val));
+ errorCode = CallPostamble(tcon, errorCode);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (errorCode == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
- }
-
+ }
+ FS_UNLOCK;
+ }
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, FetchACLEvent, errorCode, AUD_FID, Fid, AUD_END);
+ osi_auditU(acall, FetchACLEvent, errorCode,
+ AUD_ID, t_client ? t_client->ViceId : 0,
+ AUD_FID, Fid, AUD_END);
return errorCode;
-} /*SRXAFS_FetchACL*/
+} /*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)
+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 */
- int errorCode = 0; /* return code to caller */
- Volume * volptr = 0; /* pointer to the volume */
- struct client *client; /* pointer to the client data */
- 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 */
+ Vnode *targetptr = 0; /* pointer to vnode to fetch */
+ Vnode *parentwhentargetnotdir = 0; /* parent vnode if targetptr is a file */
+ int errorCode = 0; /* return code to caller */
+ Volume *volptr = 0; /* pointer to the volume */
+ struct client *client; /* 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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1, ("SAFS_FetchStatus, Fid = %u.%d.%d, Host %s, Id %d\n",
- Fid->Volume, Fid->Vnode, Fid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_FetchStatus, Fid = %u.%u.%u, Host %s, Id %d\n",
+ Fid->Volume, Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr),
+ t_client->ViceId));
+ FS_LOCK;
AFSCallStats.FetchStatus++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
/*
* Get volume/vnode for the fetched file; caller's rights to it are
* also returned
*/
- if ((errorCode = GetVolumePackage(tcon, Fid, &volptr, &targetptr,
- DONTCHECK, &parentwhentargetnotdir,
- &client, READ_LOCK, &rights, &anyrights)))
+ if ((errorCode =
+ GetVolumePackage(tcon, Fid, &volptr, &targetptr, DONTCHECK,
+ &parentwhentargetnotdir, &client, READ_LOCK,
+ &rights, &anyrights)))
goto Bad_FetchStatus;
/* set volume synchronization information */
/* 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;
- }
+ 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);
+ 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);
- }
+ struct AFSFid myFid;
+ memset(&myFid, 0, sizeof(struct AFSFid));
+ myFid.Volume = Fid->Volume;
+ SetCallBackStruct(AddVolCallBack(client->host, &myFid), CallBack);
+ }
-Bad_FetchStatus:
+ Bad_FetchStatus:
/* Update and store volume/vnode and parent vnodes back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
- ViceLog(2, ("SAFS_FetchStatus returns %d\n", errorCode));
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
+ ViceLog(2, ("SAFS_FetchStatus returns %d\n", errorCode));
return errorCode;
-} /*SAFSS_FetchStatus*/
+} /*SAFSS_FetchStatus */
-afs_int32 SRXAFS_BulkStatus(struct rx_call *acall,
- struct AFSCBFids *Fids,
- struct AFSBulkStats *OutStats,
- struct AFSCBs *CallBacks,
- struct AFSVolSync *Sync)
+afs_int32
+SRXAFS_BulkStatus(struct rx_call * acall, struct AFSCBFids * Fids,
+ struct AFSBulkStats * OutStats, struct AFSCBs * CallBacks,
+ struct AFSVolSync * Sync)
{
register int i;
afs_int32 nfiles;
- Vnode * targetptr = 0; /* pointer to vnode to fetch */
- Vnode * parentwhentargetnotdir = 0; /* parent vnode if targetptr is a file */
- int errorCode = 0; /* return code to caller */
- Volume * volptr = 0; /* pointer to the volume */
- struct client *client; /* pointer to the client data */
- afs_int32 rights, anyrights; /* rights for this and any user */
+ Vnode *targetptr = 0; /* pointer to vnode to fetch */
+ Vnode *parentwhentargetnotdir = 0; /* parent vnode if targetptr is a file */
+ int errorCode = 0; /* return code to caller */
+ Volume *volptr = 0; /* pointer to the volume */
+ struct client *client; /* pointer to the client data */
+ afs_int32 rights, anyrights; /* rights for this and any user */
register struct AFSFid *tfid; /* file id we're dealing with now */
struct rx_connection *tcon = rx_ConnectionOf(acall);
+ struct client *t_client = NULL; /* tmp pointer to the client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_BULKSTATUS]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
ViceLog(1, ("SAFS_BulkStatus\n"));
- FS_LOCK
+ FS_LOCK;
AFSCallStats.TotalCalls++;
- FS_UNLOCK
-
+ FS_UNLOCK;
nfiles = Fids->AFSCBFids_len; /* # of files in here */
- if (nfiles <= 0) { /* Sanity check */
+ if (nfiles <= 0) { /* Sanity check */
errorCode = EINVAL;
goto Audit_and_Return;
}
goto Bad_BulkStatus;
tfid = Fids->AFSCBFids_val;
- for (i=0; i<nfiles; i++, tfid++) {
+ 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(tcon, tfid, &volptr, &targetptr,
- DONTCHECK, &parentwhentargetnotdir, &client,
- READ_LOCK, &rights, &anyrights)))
- goto Bad_BulkStatus;
+ GetVolumePackage(tcon, tfid, &volptr, &targetptr, DONTCHECK,
+ &parentwhentargetnotdir, &client, READ_LOCK,
+ &rights, &anyrights)))
+ goto Bad_BulkStatus;
/* set volume synchronization information, but only once per call */
if (i == nfiles)
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)
+ 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);
+ 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),
+ 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 */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
parentwhentargetnotdir = (Vnode *) 0;
targetptr = (Vnode *) 0;
volptr = (Volume *) 0;
}
-Bad_BulkStatus:
+ Bad_BulkStatus:
/* Update and store volume/vnode and parent vnodes back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
- CallPostamble(tcon);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
+ errorCode = CallPostamble(tcon, errorCode);
+
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (errorCode == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
- }
-
+ }
+ FS_UNLOCK;
+ }
#endif /* FS_STATS_DETAILED */
-Audit_and_Return:
- ViceLog(2, ("SAFS_BulkStatus returns %d\n", errorCode));
- osi_auditU (acall, BulkFetchStatusEvent, errorCode, AUD_FIDS, Fids, AUD_END);
+ 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*/
+} /*SRXAFS_BulkStatus */
-afs_int32 SRXAFS_InlineBulkStatus(struct rx_call *acall,
- struct AFSCBFids *Fids,
- struct AFSBulkStats *OutStats,
- struct AFSCBs *CallBacks,
- struct AFSVolSync *Sync)
+afs_int32
+SRXAFS_InlineBulkStatus(struct rx_call * acall, struct AFSCBFids * Fids,
+ struct AFSBulkStats * OutStats,
+ struct AFSCBs * CallBacks, struct AFSVolSync * Sync)
{
register int i;
afs_int32 nfiles;
- Vnode * targetptr = 0; /* pointer to vnode to fetch */
- Vnode * parentwhentargetnotdir = 0; /* parent vnode if targetptr is a file */
- int errorCode = 0; /* return code to caller */
- Volume * volptr = 0; /* pointer to the volume */
- struct client *client; /* pointer to the client data */
- afs_int32 rights, anyrights; /* rights for this and any user */
+ Vnode *targetptr = 0; /* pointer to vnode to fetch */
+ Vnode *parentwhentargetnotdir = 0; /* parent vnode if targetptr is a file */
+ int errorCode = 0; /* return code to caller */
+ Volume *volptr = 0; /* pointer to the volume */
+ struct client *client; /* pointer to the client data */
+ afs_int32 rights, anyrights; /* rights for this and any user */
register struct AFSFid *tfid; /* file id we're dealing with now */
struct rx_connection *tcon;
+ struct client *t_client = NULL; /* tmp ptr to client data */
AFSFetchStatus *tstatus;
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_BULKSTATUS]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
ViceLog(1, ("SAFS_InlineBulkStatus\n"));
- FS_LOCK
+ FS_LOCK;
AFSCallStats.TotalCalls++;
- FS_UNLOCK
-
+ FS_UNLOCK;
nfiles = Fids->AFSCBFids_len; /* # of files in here */
- if (nfiles <= 0) { /* Sanity check */
+ if (nfiles <= 0) { /* Sanity check */
errorCode = EINVAL;
goto Audit_and_Return;
}
}
tfid = Fids->AFSCBFids_val;
- for (i=0; i<nfiles; i++, tfid++) {
+ 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(tcon, tfid, &volptr, &targetptr,
- DONTCHECK, &parentwhentargetnotdir, &client,
- READ_LOCK, &rights, &anyrights))) {
+ GetVolumePackage(tcon, tfid, &volptr, &targetptr, DONTCHECK,
+ &parentwhentargetnotdir, &client, READ_LOCK,
+ &rights, &anyrights))) {
tstatus = &OutStats->AFSBulkStats_val[i];
tstatus->errorCode = errorCode;
+ PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr);
parentwhentargetnotdir = (Vnode *) 0;
targetptr = (Vnode *) 0;
volptr = (Volume *) 0;
/* Are we allowed to fetch Fid's status? */
if (targetptr->disk.type != vDirectory) {
- if ((errorCode = Check_PermissionRights(targetptr, client, rights,
- CHK_FETCHSTATUS, 0))) {
+ if ((errorCode =
+ Check_PermissionRights(targetptr, client, rights,
+ CHK_FETCHSTATUS, 0))) {
tstatus = &OutStats->AFSBulkStats_val[i];
tstatus->errorCode = errorCode;
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr,
+ (Vnode *) 0, volptr);
parentwhentargetnotdir = (Vnode *) 0;
targetptr = (Vnode *) 0;
volptr = (Volume *) 0;
}
/* set OutStatus From the Fid */
- GetStatus(targetptr, (struct AFSFetchStatus *) &OutStats->AFSBulkStats_val[i],
- rights, anyrights, parentwhentargetnotdir);
+ 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),
+ 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 */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
parentwhentargetnotdir = (Vnode *) 0;
targetptr = (Vnode *) 0;
volptr = (Volume *) 0;
}
-Bad_InlineBulkStatus:
+ Bad_InlineBulkStatus:
/* Update and store volume/vnode and parent vnodes back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
- CallPostamble(tcon);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
+ errorCode = CallPostamble(tcon, errorCode);
+
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (errorCode == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
- }
-
+ }
+ FS_UNLOCK;
+ }
#endif /* FS_STATS_DETAILED */
-Audit_and_Return:
- ViceLog(2, ("SAFS_InlineBulkStatus returns %d\n", errorCode));
- osi_auditU (acall, InlineBulkFetchStatusEvent, errorCode, AUD_FIDS, Fids, AUD_END);
+ 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 0;
-} /*SRXAFS_InlineBulkStatus*/
+} /*SRXAFS_InlineBulkStatus */
-afs_int32 SRXAFS_FetchStatus (struct rx_call *acall,
- struct AFSFid *Fid,
- struct AFSFetchStatus *OutStatus,
- struct AFSCallBack *CallBack,
- struct AFSVolSync *Sync)
+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 client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_FETCHSTATUS]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_FetchStatus;
- code = SAFSS_FetchStatus (acall, Fid, OutStatus, CallBack, Sync);
+ code = SAFSS_FetchStatus(acall, Fid, OutStatus, CallBack, Sync);
-Bad_FetchStatus:
- CallPostamble(tcon);
+ Bad_FetchStatus:
+ code = CallPostamble(tcon, code);
+
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
- }
-
+ }
+ FS_UNLOCK;
+ }
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, FetchStatusEvent, code, AUD_FID, Fid, AUD_END);
+ osi_auditU(acall, FetchStatusEvent, code,
+ AUD_ID, t_client ? t_client->ViceId : 0,
+ AUD_FID, Fid, AUD_END);
return code;
-} /*SRXAFS_FetchStatus*/
+} /*SRXAFS_FetchStatus */
static
-afs_int32 common_StoreData64 (struct rx_call *acall,
- struct AFSFid *Fid,
- struct AFSStoreStatus *InStatus,
- afs_offs_t Pos,
- afs_offs_t Length,
- afs_offs_t FileLength,
- struct AFSFetchStatus *OutStatus,
- struct AFSVolSync *Sync)
+ 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 */
- int errorCode = 0; /* return code for caller */
- int fileCode = 0; /* return code from vol package */
- Volume * volptr = 0; /* pointer to the volume header */
- struct client * client; /* 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 */
+ Vnode *targetptr = 0; /* pointer to input fid */
+ Vnode *parentwhentargetnotdir = 0; /* parent of Fid to get ACL */
+ Vnode tparentwhentargetnotdir; /* parent vnode for GetStatus */
+ int errorCode = 0; /* return code for caller */
+ int fileCode = 0; /* return code from vol package */
+ Volume *volptr = 0; /* pointer to the volume header */
+ struct client *client; /* 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;
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct fs_stats_xferData *xferP; /* Ptr to this op's byte size struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval xferStartTime,
- xferStopTime; /* Start/stop times for xfer portion*/
- struct timeval elapsedTime; /* Transfer time */
- afs_size_t bytesToXfer; /* # bytes to xfer */
- afs_size_t bytesXferred; /* # bytes actually xfer */
- static afs_int32 tot_bytesXferred; /* shared access protected by FS_LOCK */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct fs_stats_xferData *xferP; /* Ptr to this op's byte size struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval xferStartTime, xferStopTime; /* Start/stop times for xfer portion */
+ struct timeval elapsedTime; /* Transfer time */
+ afs_sfsize_t bytesToXfer; /* # bytes to xfer */
+ afs_sfsize_t bytesXferred; /* # bytes actually xfer */
+ static afs_int32 tot_bytesXferred; /* shared access protected by FS_LOCK */
/*
* Set our stats pointers, remember when the RPC operation started, and
* tally the operation.
*/
- opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_STOREDATA]);
+ opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_STOREDATA]);
xferP = &(afs_FullPerfStats.det.xferOpTimes[FS_STATS_XFERIDX_STOREDATA]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
-
- ViceLog(1, ("StoreData: Fid = %u.%d.%d\n",
- Fid->Volume, Fid->Vnode, Fid->Unique));
+ FS_UNLOCK;
+ ViceLog(1,
+ ("StoreData: Fid = %u.%u.%u\n", Fid->Volume, Fid->Vnode,
+ Fid->Unique));
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
- FS_LOCK
+ FS_LOCK;
AFSCallStats.StoreData++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
-
+ FS_UNLOCK;
if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon)))
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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(5, ("StoreData: Fid = %u.%d.%d, Host %s, Id %d\n",
- Fid->Volume, Fid->Vnode, Fid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
-#ifdef AFS_LARGEFILE_ENV
- ViceLog(25, ("StoreData: Fid = %u.%d.%d, Host %s, Id %d, Pos (0X%x,0X%x), Len (0X%x,0X%x), FileLen (0X%x,0X%x)\n",
- Fid->Volume, Fid->Vnode, Fid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId,
- (unsigned) (Pos >> 32), (unsigned) (Pos & 0xffffffff),
- (unsigned) (Length >> 32), (unsigned) (Length & 0xffffffff),
- (unsigned) (FileLength >> 32), (unsigned) (FileLength & 0xffffffff)));
-#else /* !AFS_LARGEFILE_ENV */
- ViceLog(25, ("StoreData: Fid = %u.%d.%d, Host %s, Id %d, Pos 0X%x, Len 0X%x, FileLen 0X%x\n",
- Fid->Volume, Fid->Vnode, Fid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId,
- Pos,
- Length,
- FileLength));
-#endif /* !AFS_LARGEFILE_ENV */
-
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(5,
+ ("StoreData: Fid = %u.%u.%u, Host %s, Id %d\n", Fid->Volume,
+ Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr),
+ t_client->ViceId));
/*
* Get associated volume/vnode for the stored file; caller's rights
* are also returned
*/
- if ((errorCode = GetVolumePackage(tcon, Fid, &volptr, &targetptr,
- MustNOTBeDIR, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, Fid, &volptr, &targetptr, MustNOTBeDIR,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_StoreData;
}
}
/* Check if we're allowed to store the data */
- if ((errorCode = Check_PermissionRights(targetptr, client, rights,
- CHK_STOREDATA, InStatus))) {
+ if ((errorCode =
+ Check_PermissionRights(targetptr, client, rights, CHK_STOREDATA,
+ InStatus))) {
goto Bad_StoreData;
}
assert(!fileCode || (fileCode == VSALVAGE));
parentwhentargetnotdir = NULL;
}
-
-
-
#if FS_STATS_DETAILED
/*
* Remember when the data transfer started.
/* Do the actual storing of the data */
#if FS_STATS_DETAILED
- errorCode = StoreData_RXStyle(volptr, targetptr, Fid, client, acall,
- (afs_size_t) Pos, (afs_size_t) Length,
- (afs_size_t) FileLength,
- (InStatus->Mask & AFS_FSYNC),
- &bytesToXfer, &bytesXferred);
+ errorCode =
+ StoreData_RXStyle(volptr, targetptr, Fid, client, acall, Pos, Length,
+ FileLength, (InStatus->Mask & AFS_FSYNC),
+ &bytesToXfer, &bytesXferred);
#else
- errorCode = StoreData_RXStyle(volptr, targetptr, Fid, client,
- acall,
- (afs_size_t) Pos, (afs_size_t) Length,
- (afs_size_t) FileLength,
- (InStatus->Mask & AFS_FSYNC));
+ errorCode =
+ StoreData_RXStyle(volptr, targetptr, Fid, client, acall, Pos, Length,
+ FileLength, (InStatus->Mask & AFS_FSYNC));
if (errorCode && (!targetptr->changed_newTime))
- goto Bad_StoreData;
+ goto Bad_StoreData;
#endif /* FS_STATS_DETAILED */
#if FS_STATS_DETAILED
/*
* operation failed, we jump to the appropriate point.
*/
TM_GetTimeOfDay(&xferStopTime, 0);
- FS_LOCK
+ FS_LOCK;
(xferP->numXfers)++;
if (!errorCode) {
(xferP->numSuccesses)++;
- /*
- * Bump the xfer sum by the number of bytes actually sent, NOT the
- * target number.
- */
+ /*
+ * Bump the xfer sum by the number of bytes actually sent, NOT the
+ * target number.
+ */
tot_bytesXferred += bytesXferred;
- (xferP->sumBytes) += (tot_bytesXferred >> 10);
+ (xferP->sumBytes) += (tot_bytesXferred >> 10);
tot_bytesXferred &= 0x3FF;
- if (bytesXferred < xferP->minBytes)
+ if (bytesXferred < xferP->minBytes)
xferP->minBytes = bytesXferred;
- if (bytesXferred > xferP->maxBytes)
+ if (bytesXferred > xferP->maxBytes)
xferP->maxBytes = bytesXferred;
-
- /*
- * Tally the size of the object. Note: we tally the actual size,
- * NOT the number of bytes that made it out over the wire.
- */
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET0)
+
+ /*
+ * Tally the size of the object. Note: we tally the actual size,
+ * NOT the number of bytes that made it out over the wire.
+ */
+ if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET0)
(xferP->count[0])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET1)
- (xferP->count[1])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET2)
- (xferP->count[2])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET3)
- (xferP->count[3])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET4)
- (xferP->count[4])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET5)
- (xferP->count[5])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET6)
- (xferP->count[6])++;
- else
- if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET7)
- (xferP->count[7])++;
- else
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET1)
+ (xferP->count[1])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET2)
+ (xferP->count[2])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET3)
+ (xferP->count[3])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET4)
+ (xferP->count[4])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET5)
+ (xferP->count[5])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET6)
+ (xferP->count[6])++;
+ else if (bytesToXfer <= FS_STATS_MAXBYTES_BUCKET7)
+ (xferP->count[7])++;
+ else
(xferP->count[8])++;
-
- fs_stats_GetDiff(elapsedTime, xferStartTime, xferStopTime);
- fs_stats_AddTo((xferP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((xferP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (xferP->minTime))) {
+
+ fs_stats_GetDiff(elapsedTime, xferStartTime, xferStopTime);
+ fs_stats_AddTo((xferP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((xferP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (xferP->minTime))) {
fs_stats_TimeAssign((xferP->minTime), elapsedTime);
}
- if (fs_stats_TimeGreaterThan(elapsedTime, (xferP->maxTime))) {
+ if (fs_stats_TimeGreaterThan(elapsedTime, (xferP->maxTime))) {
fs_stats_TimeAssign((xferP->maxTime), elapsedTime);
- }
+ }
}
- FS_UNLOCK
-
+ FS_UNLOCK;
/*
* Finally, go off to tell our caller the bad news in case the
* store failed.
*/
if (errorCode && (!targetptr->changed_newTime))
- goto Bad_StoreData;
+ goto Bad_StoreData;
#endif /* FS_STATS_DETAILED */
/* Update the status of the target's vnode */
- Update_TargetVnodeStatus(targetptr, TVS_SDATA, client, InStatus, targetptr,
- volptr, (afs_size_t) 0);
+ Update_TargetVnodeStatus(targetptr, TVS_SDATA, client, InStatus,
+ targetptr, volptr, 0);
/* Get the updated File's status back to the caller */
- GetStatus(targetptr, OutStatus, rights, anyrights, &tparentwhentargetnotdir);
+ GetStatus(targetptr, OutStatus, rights, anyrights,
+ &tparentwhentargetnotdir);
-Bad_StoreData:
+ Bad_StoreData:
/* Update and store volume/vnode and parent vnodes back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
ViceLog(2, ("SAFS_StoreData returns %d\n", errorCode));
- CallPostamble(tcon);
+ errorCode = CallPostamble(tcon, errorCode);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (errorCode == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
+ FS_LOCK;
+ (opP->numSuccesses)++;
fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
- }
+ }
+ FS_UNLOCK;
+ }
#endif /* FS_STATS_DETAILED */
+ osi_auditU(acall, StoreDataEvent, errorCode,
+ AUD_ID, t_client ? t_client->ViceId : 0,
+ AUD_FID, Fid, AUD_END);
+ return (errorCode);
+} /*common_StoreData64 */
- osi_auditU (acall, StoreDataEvent, errorCode, 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)
+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)
{
- int code;
-
- code = common_StoreData64 (acall, Fid, InStatus, Pos, Length, FileLength,
- OutStatus, Sync);
- return code;
-
-} /*SRXAFS_StoreData*/
+ 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)
+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_offs_t tPos;
- afs_offs_t tLength;
- afs_offs_t tFileLength;
+ afs_fsize_t tPos;
+ afs_fsize_t tLength;
+ afs_fsize_t tFileLength;
#ifdef AFS_64BIT_ENV
#ifndef AFS_LARGEFILE_ENV
if (FileLength > 0x7fffffff)
- return E2BIG;
+ return EFBIG;
#endif /* !AFS_LARGEFILE_ENV */
- tPos = Pos;
- tLength = Length;
- tFileLength = FileLength;
+ tPos = (afs_fsize_t) Pos;
+ tLength = (afs_fsize_t) Length;
+ tFileLength = (afs_fsize_t) FileLength;
#else /* AFS_64BIT_ENV */
if (FileLength.high)
- return E2BIG;
+ return EFBIG;
tPos = Pos.low;
tLength = Length.low;
tFileLength = FileLength.low;
#endif /* AFS_64BIT_ENV */
- code = common_StoreData64 (acall, Fid, InStatus, tPos, tLength, tFileLength,
- OutStatus, Sync);
+ 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)
+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 */
- int errorCode = 0; /* return code for caller */
+ Vnode *targetptr = 0; /* pointer to input fid */
+ Vnode *parentwhentargetnotdir = 0; /* parent of Fid to get ACL */
+ int errorCode = 0; /* return code for caller */
struct AFSStoreStatus InStatus; /* Input status for fid */
- Volume * volptr = 0; /* pointer to the volume header */
- struct client * client; /* pointer to client structure */
- afs_int32 rights, anyrights; /* rights for this and any user */
+ Volume *volptr = 0; /* pointer to the volume header */
+ struct client *client; /* pointer to client structure */
+ afs_int32 rights, anyrights; /* rights for this and any user */
struct rx_connection *tcon;
- struct client *t_client; /* tmp ptr to client data */
- struct in_addr logHostAddr; /* host ip holder for inet_ntoa */
+ struct client *t_client = NULL; /* tmp ptr to client data */
+ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_STOREACL]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon)))
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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1, ("SAFS_StoreACL, Fid = %u.%d.%d, ACL=%s, Host %s, Id %d\n",
- Fid->Volume, Fid->Vnode, Fid->Unique, AccessList->AFSOpaque_val,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_StoreACL, Fid = %u.%u.%u, ACL=%s, Host %s, Id %d\n",
+ Fid->Volume, Fid->Vnode, Fid->Unique, AccessList->AFSOpaque_val,
+ inet_ntoa(logHostAddr), t_client->ViceId));
+ FS_LOCK;
AFSCallStats.StoreACL++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
-
- InStatus.Mask = 0; /* not storing any status */
+ 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(tcon, Fid, &volptr, &targetptr,
- MustBeDIR, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, Fid, &volptr, &targetptr, MustBeDIR,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_StoreACL;
}
SetVolumeSync(Sync, volptr);
/* Check if we have permission to change the dir's ACL */
- if ((errorCode = Check_PermissionRights(targetptr, client, rights,
- CHK_STOREACL, &InStatus))) {
+ if ((errorCode =
+ Check_PermissionRights(targetptr, client, rights, CHK_STOREACL,
+ &InStatus))) {
goto Bad_StoreACL;
}
if ((errorCode = RXStore_AccessList(targetptr, AccessList))) {
goto Bad_StoreACL;
}
-
- targetptr->changed_newTime = 1; /* status change of directory */
+
+ targetptr->changed_newTime = 1; /* status change of directory */
/* convert the write lock to a read lock before breaking callbacks */
VVnodeWriteToRead(&errorCode, targetptr);
/* Get the updated dir's status back to the caller */
GetStatus(targetptr, OutStatus, rights, anyrights, 0);
-Bad_StoreACL:
+ Bad_StoreACL:
/* Update and store volume/vnode and parent vnodes back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
- ViceLog(2, ("SAFS_StoreACL returns %d\n", errorCode));
- CallPostamble(tcon);
+ PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr);
+ ViceLog(2, ("SAFS_StoreACL returns %d\n", errorCode));
+ errorCode = CallPostamble(tcon, errorCode);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (errorCode == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, StoreACLEvent, errorCode, AUD_FID, Fid, AUD_END);
+ 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*/
+} /*SRXAFS_StoreACL */
/*
* 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)
-
+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 */
- int errorCode = 0; /* return code for caller */
- Volume * volptr = 0; /* pointer to the volume header */
- struct client * client; /* 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 */
+ Vnode *targetptr = 0; /* pointer to input fid */
+ Vnode *parentwhentargetnotdir = 0; /* parent of Fid to get ACL */
+ int errorCode = 0; /* return code for caller */
+ Volume *volptr = 0; /* pointer to the volume header */
+ struct client *client; /* 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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1, ("SAFS_StoreStatus, Fid = %u.%d.%d, Host %s, Id %d\n",
- Fid->Volume, Fid->Vnode, Fid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_StoreStatus, Fid = %u.%u.%u, Host %s, Id %d\n",
+ Fid->Volume, Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr),
+ t_client->ViceId));
+ FS_LOCK;
AFSCallStats.StoreStatus++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
/*
* Get volume/vnode for the target file; caller's rights to it are
* also returned
*/
- if ((errorCode = GetVolumePackage(tcon, Fid, &volptr, &targetptr,
- DONTCHECK, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, Fid, &volptr, &targetptr, DONTCHECK,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_StoreStatus;
}
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))) {
+ if ((errorCode =
+ Check_PermissionRights(targetptr, client, rights, CHK_STORESTATUS,
+ InStatus))) {
goto Bad_StoreStatus;
}
/*
/* Update the status of the target's vnode */
Update_TargetVnodeStatus(targetptr, TVS_SSTATUS, client, InStatus,
- (parentwhentargetnotdir ?
- parentwhentargetnotdir : targetptr), volptr,
- (afs_size_t)0);
+ (parentwhentargetnotdir ? parentwhentargetnotdir
+ : targetptr), volptr, 0);
/* convert the write lock to a read lock before breaking callbacks */
VVnodeWriteToRead(&errorCode, targetptr);
BreakCallBack(client->host, Fid, 0);
/* Return the updated status back to caller */
- GetStatus(targetptr, OutStatus, rights, anyrights, parentwhentargetnotdir);
+ GetStatus(targetptr, OutStatus, rights, anyrights,
+ parentwhentargetnotdir);
-Bad_StoreStatus:
+ Bad_StoreStatus:
/* Update and store volume/vnode and parent vnodes back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
+ PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr);
ViceLog(2, ("SAFS_StoreStatus returns %d\n", errorCode));
return errorCode;
-} /*SAFSS_StoreStatus*/
+} /*SAFSS_StoreStatus */
-afs_int32 SRXAFS_StoreStatus (struct rx_call *acall,
- struct AFSFid *Fid,
- struct AFSStoreStatus *InStatus,
- struct AFSFetchStatus *OutStatus,
- struct AFSVolSync *Sync)
+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 client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_STORESTATUS]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_StoreStatus;
- code = SAFSS_StoreStatus (acall, Fid, InStatus, OutStatus, Sync);
+ code = SAFSS_StoreStatus(acall, Fid, InStatus, OutStatus, Sync);
+
+ Bad_StoreStatus:
+ code = CallPostamble(tcon, code);
-Bad_StoreStatus:
- CallPostamble(tcon);
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, StoreStatusEvent, code, AUD_FID, Fid, AUD_END);
+ osi_auditU(acall, StoreStatusEvent, code,
+ AUD_ID, t_client ? t_client->ViceId : 0,
+ AUD_FID, Fid, AUD_END);
return code;
-} /*SRXAFS_StoreStatus*/
+} /*SRXAFS_StoreStatus */
/*
* merged in when possible.
*/
static afs_int32
-SAFSS_RemoveFile (struct rx_call *acall,
- struct AFSFid *DirFid,
- char *Name,
- struct AFSFetchStatus *OutDirStatus,
- struct AFSVolSync *Sync)
+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 */
- int errorCode = 0; /* error code */
- DirHandle dir; /* Handle for dir package I/O */
- struct client * client; /* 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 */
+ 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 */
+ int errorCode = 0; /* error code */
+ DirHandle dir; /* Handle for dir package I/O */
+ struct client *client; /* 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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1, ("SAFS_RemoveFile %s, Did = %u.%d.%d, Host %s, Id %d\n",
- Name, DirFid->Volume, DirFid->Vnode, DirFid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_RemoveFile %s, Did = %u.%u.%u, Host %s, Id %d\n", Name,
+ DirFid->Volume, DirFid->Vnode, DirFid->Unique,
+ inet_ntoa(logHostAddr), t_client->ViceId));
+ FS_LOCK;
AFSCallStats.RemoveFile++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
/*
* Get volume/vnode for the parent dir; caller's access rights are
* also returned
*/
- if ((errorCode = GetVolumePackage(tcon, DirFid, &volptr, &parentptr,
- MustBeDIR, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, DirFid, &volptr, &parentptr, MustBeDIR,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_RemoveFile;
}
/* set volume synchronization information */
}
/* Actually delete the desired file */
- if ((errorCode = DeleteTarget(parentptr, volptr, &targetptr, &dir,
- &fileFid, Name, MustNOTBeDIR))) {
+ if ((errorCode =
+ DeleteTarget(parentptr, volptr, &targetptr, &dir, &fileFid, Name,
+ MustNOTBeDIR))) {
goto Bad_RemoveFile;
}
/* Update the vnode status of the parent dir */
#if FS_STATS_DETAILED
Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId,
- parentptr->disk.linkCount, client->InSameNetwork);
+ parentptr->disk.linkCount,
+ client->InSameNetwork);
#else
Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId,
parentptr->disk.linkCount);
/* break call back on the directory */
BreakCallBack(client->host, DirFid, 0);
-Bad_RemoveFile:
+ Bad_RemoveFile:
/* Update and store volume/vnode and parent vnodes back */
PutVolumePackage(parentwhentargetnotdir, targetptr, parentptr, volptr);
FidZap(&dir);
- ViceLog(2, ("SAFS_RemoveFile returns %d\n", errorCode));
+ ViceLog(2, ("SAFS_RemoveFile returns %d\n", errorCode));
return errorCode;
-} /*SAFSS_RemoveFile*/
+} /*SAFSS_RemoveFile */
-afs_int32 SRXAFS_RemoveFile (struct rx_call *acall,
- struct AFSFid *DirFid,
- char *Name,
- struct AFSFetchStatus *OutDirStatus,
- struct AFSVolSync *Sync)
+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 client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_REMOVEFILE]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_RemoveFile;
- code = SAFSS_RemoveFile (acall, DirFid, Name, OutDirStatus, Sync);
+ code = SAFSS_RemoveFile(acall, DirFid, Name, OutDirStatus, Sync);
-Bad_RemoveFile:
- CallPostamble(tcon);
+ Bad_RemoveFile:
+ code = CallPostamble(tcon, code);
+
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, RemoveFileEvent, code, AUD_FID, DirFid, AUD_STR, Name, AUD_END);
+ 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*/
+} /*SRXAFS_RemoveFile */
/*
* 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)
+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 */
- int errorCode = 0; /* error code */
- DirHandle dir; /* Handle for dir package I/O */
- struct client * client; /* pointer to client structure */
+ 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 */
+ int errorCode = 0; /* error code */
+ DirHandle dir; /* Handle for dir package I/O */
+ struct client *client; /* 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 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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1, ("SAFS_CreateFile %s, Did = %u.%d.%d, Host %s, Id %d\n",
- Name, DirFid->Volume, DirFid->Vnode, DirFid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_CreateFile %s, Did = %u.%u.%u, Host %s, Id %d\n", Name,
+ DirFid->Volume, DirFid->Vnode, DirFid->Unique,
+ inet_ntoa(logHostAddr), t_client->ViceId));
+ FS_LOCK;
AFSCallStats.CreateFile++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
if (!FileNameOK(Name)) {
- errorCode = EINVAL;
- goto Bad_CreateFile;
+ errorCode = EINVAL;
+ goto Bad_CreateFile;
}
/*
* Get associated volume/vnode for the parent dir; caller long are
* also returned
*/
- if ((errorCode = GetVolumePackage(tcon, DirFid, &volptr, &parentptr,
- MustBeDIR, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, DirFid, &volptr, &parentptr, MustBeDIR,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_CreateFile;
}
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)))) {
+ if ((errorCode =
+ Alloc_NewVnode(parentptr, &dir, volptr, &targetptr, Name, OutFid,
+ vFile, nBlocks(0)))) {
goto Bad_CreateFile;
}
/* update the status of the parent vnode */
#if FS_STATS_DETAILED
Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId,
- parentptr->disk.linkCount, client->InSameNetwork);
+ parentptr->disk.linkCount,
+ client->InSameNetwork);
#else
Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId,
parentptr->disk.linkCount);
/* update the status of the new file's vnode */
Update_TargetVnodeStatus(targetptr, TVS_CFILE, client, InStatus,
- parentptr, volptr, (afs_size_t)0);
+ parentptr, volptr, 0);
- /* set up the return status for the parent dir and the newly created file */
- GetStatus(targetptr, OutFidStatus, rights, anyrights, parentptr);
+ /* 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);
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:
+ Bad_CreateFile:
/* Update and store volume/vnode and parent vnodes back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, parentptr, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, parentptr,
+ volptr);
FidZap(&dir);
- ViceLog(2, ("SAFS_CreateFile returns %d\n", errorCode));
+ ViceLog(2, ("SAFS_CreateFile returns %d\n", errorCode));
return errorCode;
-} /*SAFSS_CreateFile*/
+} /*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
+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 client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_CREATEFILE]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_CreateFile;
- code = SAFSS_CreateFile (acall, DirFid, Name, InStatus, OutFid,
- OutFidStatus, OutDirStatus, CallBack, Sync);
+ code =
+ SAFSS_CreateFile(acall, DirFid, Name, InStatus, OutFid, OutFidStatus,
+ OutDirStatus, CallBack, Sync);
+
+ Bad_CreateFile:
+ code = CallPostamble(tcon, code);
-Bad_CreateFile:
- CallPostamble(tcon);
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, CreateFileEvent, code, AUD_FID, DirFid, AUD_STR, Name, AUD_END);
+ osi_auditU(acall, CreateFileEvent, code,
+ AUD_ID, t_client ? t_client->ViceId : 0,
+ AUD_FID, DirFid, AUD_STR, Name, AUD_END);
return code;
-} /*SRXAFS_CreateFile*/
+} /*SRXAFS_CreateFile */
/*
* 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)
+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 */
- int errorCode = 0; /* error code */
- int fileCode = 0; /* used when writing Vnodes */
+ 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 */
+ int errorCode = 0; /* error code */
+ int 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 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; /* pointer to client structure */
+ Volume *volptr = 0; /* pointer to the volume header */
+ struct client *client; /* 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) */
+ 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;
- struct client *t_client; /* tmp ptr to client data */
- struct in_addr logHostAddr; /* host ip holder for inet_ntoa */
+ 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(&olddir);
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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1, ("SAFS_Rename %s to %s, Fid = %u.%d.%d to %u.%d.%d, Host %s, Id %d\n",
- OldName, NewName, OldDirFid->Volume, OldDirFid->Vnode,
- OldDirFid->Unique, NewDirFid->Volume, NewDirFid->Vnode,
- NewDirFid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_Rename %s to %s, Fid = %u.%u.%u to %u.%u.%u, Host %s, Id %d\n",
+ OldName, NewName, OldDirFid->Volume, OldDirFid->Vnode,
+ OldDirFid->Unique, NewDirFid->Volume, NewDirFid->Vnode,
+ NewDirFid->Unique, inet_ntoa(logHostAddr), t_client->ViceId));
+ FS_LOCK;
AFSCallStats.Rename++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
if (!FileNameOK(NewName)) {
errorCode = EINVAL;
goto Bad_Rename;
errorCode = EXDEV;
goto Bad_Rename;
}
- if ( (strcmp(OldName, ".") == 0) || (strcmp(OldName, "..") == 0) ||
- (strcmp(NewName, ".") == 0) || (strcmp(NewName, "..") == 0) ||
- (strlen(NewName) == 0) || (strlen(OldName) == 0) ) {
+ 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(tcon, OldDirFid, &volptr,
- &oldvptr, MustBeDIR, &parent,
- &client, WRITE_LOCK, &rights,
- &anyrights)) {
+ if ((errorCode =
+ GetVolumePackage(tcon, 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(tcon, NewDirFid, &volptr, &newvptr,
+ MustBeDIR, &parent, &client, WRITE_LOCK,
+ &newrights, &newanyrights))) {
+ DFlush();
+ goto Bad_Rename;
}
- else
- if ((errorCode = GetVolumePackage(tcon, NewDirFid, &volptr,
- &newvptr, MustBeDIR, &parent,
- &client, WRITE_LOCK, &newrights,
- &newanyrights))) {
- DFlush();
- goto Bad_Rename;
- }
- }
- else {
- if ((errorCode = GetVolumePackage(tcon, NewDirFid, &volptr,
- &newvptr, MustBeDIR, &parent,
- &client, WRITE_LOCK, &newrights,
- &newanyrights))) {
+ } else {
+ if ((errorCode =
+ GetVolumePackage(tcon, NewDirFid, &volptr, &newvptr, MustBeDIR,
+ &parent, &client, WRITE_LOCK, &newrights,
+ &newanyrights))) {
DFlush();
goto Bad_Rename;
}
- if ((errorCode = GetVolumePackage(tcon, OldDirFid, &volptr, &oldvptr,
- MustBeDIR, &parent, &client, WRITE_LOCK,
- &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, OldDirFid, &volptr, &oldvptr, MustBeDIR,
+ &parent, &client, WRITE_LOCK, &rights,
+ &anyrights))) {
DFlush();
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)
- {
+ * 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) ) )
- goto Bad_Rename;
+ if ((errorCode = CopyOnWrite(oldvptr, volptr)))
+ goto Bad_Rename;
}
SetDirHandle(&olddir, oldvptr);
- if (newvptr->disk.cloned)
- {
+ if (newvptr->disk.cloned) {
ViceLog(25, ("Rename : calling CopyOnWrite on new dir\n"));
- if ( ( errorCode = CopyOnWrite(newvptr, volptr) ) )
- goto Bad_Rename;
+ if ((errorCode = CopyOnWrite(newvptr, volptr)))
+ goto Bad_Rename;
}
SetDirHandle(&newdir, newvptr);
errorCode = ENOENT;
goto Bad_Rename;
}
- if (fileFid.Vnode == oldvptr->vnodeNumber ||
- fileFid.Vnode == newvptr->vnodeNumber) {
+ 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;
+ 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;
+ 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) {
+ 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
errorCode = EACCES;
goto Bad_Rename;
}
- if (newFileFid.Vnode == oldvptr->vnodeNumber ||
- newFileFid.Vnode == newvptr->vnodeNumber ||
- newFileFid.Vnode == fileFid.Vnode) {
+ 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;
- }
+ 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:
errorCode = EEXIST;
goto Bad_Rename;
}
- }
- else {
+ } else {
if (fileptr->disk.type == vDirectory) {
errorCode = ENOTDIR;
goto Bad_Rename;
* directory structure. This is to prevent removing a subtree alltogether
*/
if ((oldvptr != newvptr) && (fileptr->disk.type == vDirectory)) {
- for (testnode = newvptr->disk.parent; testnode != 0;) {
+ 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)) {
+ if ((testnode == fileptr->vnodeNumber)
+ || (testnode == newvptr->vnodeNumber)) {
errorCode = FSERR_ELOOP;
goto Bad_Rename;
}
errorCode = FSERR_ELOOP;
goto Bad_Rename;
}
+ if (testnode == 1) top = 1;
testvptr = VGetVnode(&errorCode, volptr, testnode, READ_LOCK);
assert(errorCode == 0);
testnode = testvptr->disk.parent;
VPutVnode(&errorCode, testvptr);
+ if ((top == 1) && (testnode != 0)) {
+ VTakeOffline(volptr);
+ errorCode = EIO;
+ goto Bad_Rename;
+ }
assert(errorCode == 0);
}
}
/* Do the CopyonWrite first before modifying anything else. Copying is
* required because we may have to change entries for ..
*/
- if ((fileptr->disk.type == vDirectory ) && (fileptr->disk.cloned) )
- {
+ if ((fileptr->disk.type == vDirectory) && (fileptr->disk.cloned)) {
ViceLog(25, ("Rename : calling CopyOnWrite on target dir\n"));
- if ( ( errorCode = CopyOnWrite(fileptr, volptr) ) )
- goto Bad_Rename;
+ if ((errorCode = CopyOnWrite(fileptr, volptr)))
+ goto Bad_Rename;
}
/* If the new name exists already, delete it and the file it points to */
doDelete = 0;
if (newfileptr) {
- /* Delete NewName from its directory */
- code = Delete(&newdir, NewName);
+ /* Delete NewName from its directory */
+ code = Delete(&newdir, NewName);
assert(code == 0);
/* Drop the link count */
newfileptr->disk.linkCount--;
- if (newfileptr->disk.linkCount == 0) { /* Link count 0 - delete */
- afs_size_t newSize;
+ if (newfileptr->disk.linkCount == 0) { /* Link count 0 - delete */
+ afs_fsize_t newSize;
VN_GET_LEN(newSize, newfileptr);
- VAdjustDiskUsage(&errorCode, volptr,
- -nBlocks(newSize), (afs_size_t) 0);
+ 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));
+ 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(NULL, VN_GET_INO(newfileptr)),
- NewName, errno));
- if ((errno != ENOENT) && (errno != EIO) && (errno != ENXIO))
+ ViceLog(0,
+ ("Del: inode=%s, name=%s, errno=%d\n",
+ PrintInode(NULL, 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 */
+ VN_SET_INO(newfileptr, (Inode) 0);
+ newfileptr->delete = 1; /* Mark NewName vnode to delete */
doDelete = 1;
} else {
/* Link count did not drop to zero.
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,
* highly unlikely that it would work since it would involve issuing
* another create.
*/
- if ((errorCode = Create(&newdir,(char *) NewName, &fileFid)))
+ if ((errorCode = Create(&newdir, (char *)NewName, &fileFid)))
goto Bad_Rename;
/* Delete the old name */
- assert(Delete(&olddir,(char *) OldName) == 0);
+ assert(Delete(&olddir, (char *)OldName) == 0);
/* if the directory length changes, reflect it in the statistics */
#if FS_STATS_DETAILED
newvptr->disk.linkCount);
#endif /* FS_STATS_DETAILED */
- if (oldvptr == newvptr)
- oldvptr->disk.dataVersion--; /* Since it was bumped by 2! */
+ if (oldvptr == newvptr)
+ oldvptr->disk.dataVersion--; /* Since it was bumped by 2! */
fileptr->disk.parent = newvptr->vnodeNumber;
- fileptr->changed_newTime = 1; /* status change of moved file */
+ fileptr->changed_newTime = 1; /* status change of moved file */
/* if we are dealing with a rename of a directory */
if (fileptr->disk.type == vDirectory) {
- assert(!fileptr->disk.cloned);
+ assert(!fileptr->disk.cloned);
SetDirHandle(&filedir, fileptr);
/* fix .. to point to the correct place */
- Delete(&filedir, ".."); /* No assert--some directories may be bad */
+ Delete(&filedir, ".."); /* No assert--some directories may be bad */
assert(Create(&filedir, "..", NewDirFid) == 0);
fileptr->disk.dataVersion++;
- /* if the parent directories are different the link counts have to be */
+ /* 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--;
BreakCallBack(client->host, NewDirFid, 0);
if (oldvptr != newvptr) {
BreakCallBack(client->host, OldDirFid, 0);
- if (fileptr->disk.type == vDirectory) /* if a dir moved, .. changed */
+ if (fileptr->disk.type == vDirectory) /* if a dir moved, .. changed */
BreakCallBack(client->host, &fileFid, 0);
}
if (newfileptr) {
BreakCallBack(client->host, &newFileFid, 1);
}
-Bad_Rename:
+ Bad_Rename:
if (newfileptr) {
VPutVnode(&fileCode, newfileptr);
assert(fileCode == 0);
}
- PutVolumePackage(fileptr, (newvptr && newvptr != oldvptr? newvptr : 0),
- oldvptr, volptr);
+ (void)PutVolumePackage(fileptr,
+ (newvptr
+ && newvptr != oldvptr ? newvptr : 0), oldvptr,
+ volptr);
FidZap(&olddir);
FidZap(&newdir);
FidZap(&filedir);
ViceLog(2, ("SAFS_Rename returns %d\n", errorCode));
return errorCode;
-} /*SAFSS_Rename*/
+} /*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
+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 client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_RENAME]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_Rename;
- code = SAFSS_Rename (acall, OldDirFid, OldName, NewDirFid, NewName,
- OutOldDirStatus, OutNewDirStatus, Sync);
+ code =
+ SAFSS_Rename(acall, OldDirFid, OldName, NewDirFid, NewName,
+ OutOldDirStatus, OutNewDirStatus, Sync);
+
+ Bad_Rename:
+ code = CallPostamble(tcon, code);
-Bad_Rename:
- CallPostamble(tcon);
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, RenameFileEvent, code, AUD_FID, OldDirFid, AUD_STR, OldName, AUD_FID, NewDirFid, AUD_STR, NewName, AUD_END);
+ 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*/
+} /*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)
-
+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 */
- int errorCode = 0; /* error code */
+ Vnode *parentptr = 0; /* vnode of input Directory */
+ Vnode *targetptr = 0; /* vnode of the new link */
+ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */
+ int errorCode = 0; /* error code */
int code = 0;
- DirHandle dir; /* Handle for dir package I/O */
- Volume * volptr = 0; /* pointer to the volume header */
- struct client * client; /* pointer to client structure */
- afs_int32 rights, anyrights, fd; /* 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 */
+ DirHandle dir; /* Handle for dir package I/O */
+ Volume *volptr = 0; /* pointer to the volume header */
+ struct client *client; /* 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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1, ("SAFS_Symlink %s to %s, Did = %u.%d.%d, Host %s, Id %d\n", Name,
- LinkContents, DirFid->Volume, DirFid->Vnode, DirFid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_Symlink %s to %s, Did = %u.%u.%u, Host %s, Id %d\n", Name,
+ LinkContents, DirFid->Volume, DirFid->Vnode, DirFid->Unique,
+ inet_ntoa(logHostAddr), t_client->ViceId));
+ FS_LOCK;
AFSCallStats.Symlink++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ 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(tcon, DirFid, &volptr, &parentptr,
- MustBeDIR, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, DirFid, &volptr, &parentptr, MustBeDIR,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_SymLink;
}
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))))) {
+ 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 */
#if FS_STATS_DETAILED
Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId,
- parentptr->disk.linkCount, client->InSameNetwork);
+ parentptr->disk.linkCount,
+ client->InSameNetwork);
#else
Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId,
parentptr->disk.linkCount);
#endif /* FS_STATS_DETAILED */
/* update the status of the new symbolic link file vnode */
- Update_TargetVnodeStatus(targetptr, TVS_SLINK, client, InStatus, parentptr,
- volptr, (afs_size_t)strlen((char *)LinkContents));
+ 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);
assert(fdP != NULL);
- assert(FDH_WRITE(fdP, (char *) LinkContents, strlen((char *) LinkContents)) == strlen((char *) LinkContents));
+ assert(FDH_WRITE(fdP, (char *)LinkContents, strlen((char *)LinkContents))
+ == strlen((char *)LinkContents));
FDH_CLOSE(fdP);
/*
* Set up and return modified status for the parent dir and new symlink
/* break call back on the parent dir */
BreakCallBack(client->host, DirFid, 0);
-Bad_SymLink:
+ Bad_SymLink:
/* Write the all modified vnodes (parent, new files) and volume back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, parentptr, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, parentptr,
+ volptr);
FidZap(&dir);
ViceLog(2, ("SAFS_Symlink returns %d\n", errorCode));
return errorCode;
-} /*SAFSS_Symlink*/
+} /*SAFSS_Symlink */
-afs_int32 SRXAFS_Symlink (acall, DirFid, Name, LinkContents, InStatus, OutFid, OutFidStatus, OutDirStatus, Sync)
- struct AFSVolSync *Sync;
- 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 */
+afs_int32
+SRXAFS_Symlink(acall, DirFid, Name, LinkContents, InStatus, OutFid,
+ OutFidStatus, OutDirStatus, Sync)
+ struct AFSVolSync *Sync;
+ 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 */
{
afs_int32 code;
struct rx_connection *tcon;
+ struct client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_SYMLINK]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_Symlink;
- code = SAFSS_Symlink (acall, DirFid, Name, LinkContents, InStatus, OutFid,
- OutFidStatus, OutDirStatus, Sync);
+ code =
+ SAFSS_Symlink(acall, DirFid, Name, LinkContents, InStatus, OutFid,
+ OutFidStatus, OutDirStatus, Sync);
+
+ Bad_Symlink:
+ code = CallPostamble(tcon, code);
-Bad_Symlink:
- CallPostamble(tcon);
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, SymlinkEvent, code, AUD_FID, DirFid, AUD_STR, Name, AUD_END);
+ 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*/
+} /*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)
+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 */
- int errorCode = 0; /* error code */
- DirHandle dir; /* Handle for dir package I/O */
- struct client * client; /* 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 */
+ 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 */
+ int errorCode = 0; /* error code */
+ DirHandle dir; /* Handle for dir package I/O */
+ struct client *client; /* 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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1, ("SAFS_Link %s, Did = %u.%d.%d, Fid = %u.%d.%d, Host %s, Id %d\n",
- Name, DirFid->Volume, DirFid->Vnode, DirFid->Unique,
- ExistingFid->Volume, ExistingFid->Vnode, ExistingFid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_Link %s, Did = %u.%u.%u, Fid = %u.%u.%u, Host %s, Id %d\n",
+ Name, DirFid->Volume, DirFid->Vnode, DirFid->Unique,
+ ExistingFid->Volume, ExistingFid->Vnode, ExistingFid->Unique,
+ inet_ntoa(logHostAddr), t_client->ViceId));
+ FS_LOCK;
AFSCallStats.Link++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
if (DirFid->Volume != ExistingFid->Volume) {
errorCode = EXDEV;
goto Bad_Link;
* Get the vnode and volume for the parent dir along with the caller's
* rights to it
*/
- if ((errorCode = GetVolumePackage(tcon, DirFid, &volptr, &parentptr,
- MustBeDIR, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, DirFid, &volptr, &parentptr, MustBeDIR,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_Link;
}
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 (((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;
}
/* get the file vnode */
- if ((errorCode = CheckVnode(ExistingFid, &volptr, &targetptr, WRITE_LOCK))) {
- goto Bad_Link;
+ if ((errorCode =
+ CheckVnode(ExistingFid, &volptr, &targetptr, WRITE_LOCK))) {
+ goto Bad_Link;
}
if (targetptr->disk.type != vFile) {
errorCode = EISDIR;
errorCode = EXDEV;
goto Bad_Link;
}
- if (parentptr->disk.cloned)
- {
+ if (parentptr->disk.cloned) {
ViceLog(25, ("Link : calling CopyOnWrite on target dir\n"));
- if ( ( errorCode = CopyOnWrite(parentptr, volptr)))
- goto Bad_Link; /* disk full error */
+ if ((errorCode = CopyOnWrite(parentptr, volptr)))
+ goto Bad_Link; /* disk full error */
}
/* add the name to the directory */
/**WARNING** --> disk.author SHOULDN'T be modified???? */
#if FS_STATS_DETAILED
Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId,
- parentptr->disk.linkCount, client->InSameNetwork);
+ parentptr->disk.linkCount,
+ client->InSameNetwork);
#else
Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId,
parentptr->disk.linkCount);
targetptr->disk.linkCount++;
targetptr->disk.author = client->ViceId;
- targetptr->changed_newTime = 1; /* Status change of linked-to file */
+ targetptr->changed_newTime = 1; /* Status change of linked-to file */
/* set up return status */
GetStatus(targetptr, OutFidStatus, rights, anyrights, parentptr);
assert(!errorCode || errorCode == VSALVAGE);
VVnodeWriteToRead(&errorCode, parentptr);
assert(!errorCode || errorCode == VSALVAGE);
-
+
/* break call back on DirFid */
BreakCallBack(client->host, DirFid, 0);
/*
*/
BreakCallBack(client->host, ExistingFid, 0);
-Bad_Link:
+ Bad_Link:
/* Write the all modified vnodes (parent, new files) and volume back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, parentptr, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, parentptr,
+ volptr);
FidZap(&dir);
ViceLog(2, ("SAFS_Link returns %d\n", errorCode));
return errorCode;
-} /*SAFSS_Link*/
+} /*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
+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 client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_LINK]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_Link;
- code = SAFSS_Link (acall, DirFid, Name, ExistingFid, OutFidStatus,
- OutDirStatus, Sync);
-
-Bad_Link:
- CallPostamble(tcon);
+ code =
+ SAFSS_Link(acall, DirFid, Name, ExistingFid, OutFidStatus,
+ OutDirStatus, Sync);
+
+ Bad_Link:
+ code = CallPostamble(tcon, code);
+
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, LinkEvent, code, AUD_FID, DirFid, AUD_STR, Name, AUD_FID, ExistingFid, AUD_END);
+ 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*/
+} /*SRXAFS_Link */
/*
* 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)
-
+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 */
- int 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; /* 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 */
+ 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 */
+ int 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; /* 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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1, ("SAFS_MakeDir %s, Did = %u.%d.%d, Host %s, Id %d\n",
- Name, DirFid->Volume, DirFid->Vnode, DirFid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
- AFSCallStats.MakeDir++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_MakeDir %s, Did = %u.%u.%u, Host %s, Id %d\n", Name,
+ DirFid->Volume, DirFid->Vnode, DirFid->Unique,
+ inet_ntoa(logHostAddr), 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(tcon, DirFid, &volptr, &parentptr,
- MustBeDIR, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, DirFid, &volptr, &parentptr, MustBeDIR,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_MakeDir;
}
-
+
/* set volume synchronization information */
SetVolumeSync(Sync, volptr);
* 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))
+ || (errorCode = CheckWriteMode(parentptr, rights, PRSFS_WRITE))) {
+#else
if ((errorCode = CheckWriteMode(parentptr, rights, PRSFS_INSERT))) {
-#endif /* DIRCREATE_NEED_WRITE */
+#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))) {
+ if ((errorCode =
+ Alloc_NewVnode(parentptr, &parentdir, volptr, &targetptr, Name,
+ OutFid, vDirectory, EMPTYDIRBLOCKS))) {
goto Bad_MakeDir;
}
/* Update the status for the parent dir */
#if FS_STATS_DETAILED
Update_ParentVnodeStatus(parentptr, volptr, &parentdir, client->ViceId,
- parentptr->disk.linkCount+1, client->InSameNetwork);
+ parentptr->disk.linkCount + 1,
+ client->InSameNetwork);
#else
Update_ParentVnodeStatus(parentptr, volptr, &parentdir, client->ViceId,
- parentptr->disk.linkCount+1);
+ parentptr->disk.linkCount + 1);
#endif /* FS_STATS_DETAILED */
/* Point to target's ACL buffer and copy the parent's ACL contents to it */
- assert((SetAccessList(&targetptr, &volptr, &newACL, &newACLSize,
- &parentwhentargetnotdir, (AFSFid *)0, 0)) == 0);
+ assert((SetAccessList
+ (&targetptr, &volptr, &newACL, &newACLSize,
+ &parentwhentargetnotdir, (AFSFid *) 0, 0)) == 0);
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, (afs_size_t)0);
+ parentptr, volptr, 0);
- /* Actually create the New directory in the directory package */
+ /* Actually create the New directory in the directory package */
SetDirHandle(&dir, targetptr);
assert(!(MakeDir(&dir, OutFid, DirFid)));
DFlush();
- VN_SET_LEN(targetptr, (afs_size_t) Length(&dir));
+ VN_SET_LEN(targetptr, (afs_fsize_t) Length(&dir));
/* set up return status */
GetStatus(targetptr, OutFidStatus, rights, anyrights, parentptr);
/* Return a callback promise to caller */
SetCallBackStruct(AddCallBack(client->host, OutFid), CallBack);
-Bad_MakeDir:
+ Bad_MakeDir:
/* Write the all modified vnodes (parent, new files) and volume back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, parentptr, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, parentptr,
+ volptr);
FidZap(&dir);
FidZap(&parentdir);
- ViceLog(2, ("SAFS_MakeDir returns %d\n", errorCode));
+ ViceLog(2, ("SAFS_MakeDir returns %d\n", errorCode));
return errorCode;
-} /*SAFSS_MakeDir*/
+} /*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
+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 client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_MAKEDIR]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_MakeDir;
- code = SAFSS_MakeDir (acall, DirFid, Name, InStatus, OutFid,
- OutFidStatus, OutDirStatus, CallBack, Sync);
-
-Bad_MakeDir:
- CallPostamble(tcon);
+ code =
+ SAFSS_MakeDir(acall, DirFid, Name, InStatus, OutFid, OutFidStatus,
+ OutDirStatus, CallBack, Sync);
+
+ Bad_MakeDir:
+ code = CallPostamble(tcon, code);
+
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, MakeDirEvent, code, AUD_FID, DirFid, AUD_STR, Name, AUD_END);
+ 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*/
+} /*SRXAFS_MakeDir */
/*
* 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)
-
+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 */
- int errorCode = 0; /* error code */
- DirHandle dir; /* Handle for dir package I/O */
- Volume * volptr = 0; /* pointer to the volume header */
- struct client * client; /* pointer to client structure */
- afs_int32 rights, anyrights; /* rights for this and any user */
+ 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 */
+ int errorCode = 0; /* error code */
+ DirHandle dir; /* Handle for dir package I/O */
+ Volume *volptr = 0; /* pointer to the volume header */
+ struct client *client; /* pointer to client structure */
+ afs_int32 rights, anyrights; /* rights for this and any user */
Vnode debugvnode1, debugvnode2;
- struct client *t_client; /* tmp ptr to client data */
- struct in_addr logHostAddr; /* host ip holder for inet_ntoa */
+ 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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1, ("SAFS_RemoveDir %s, Did = %u.%d.%d, Host %s, Id %d\n",
- Name, DirFid->Volume, DirFid->Vnode, DirFid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_RemoveDir %s, Did = %u.%u.%u, Host %s, Id %d\n", Name,
+ DirFid->Volume, DirFid->Vnode, DirFid->Unique,
+ inet_ntoa(logHostAddr), t_client->ViceId));
+ FS_LOCK;
AFSCallStats.RemoveDir++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
/*
* Get the vnode and volume for the parent dir along with the caller's
* rights to it
*/
- if ((errorCode = GetVolumePackage(tcon, DirFid, &volptr, &parentptr,
- MustBeDIR, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, DirFid, &volptr, &parentptr, MustBeDIR,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_RemoveDir;
}
debugvnode1 = *parentptr;
debugvnode2 = *parentptr;
/* Do the actual delete of the desired (empty) directory, Name */
- if ((errorCode = DeleteTarget(parentptr, volptr, &targetptr, &dir, &fileFid,
- Name, MustBeDIR))) {
+ 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 */
#if FS_STATS_DETAILED
Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId,
- parentptr->disk.linkCount-1, client->InSameNetwork);
+ parentptr->disk.linkCount - 1,
+ client->InSameNetwork);
#else
Update_ParentVnodeStatus(parentptr, volptr, &dir, client->ViceId,
- parentptr->disk.linkCount-1);
+ parentptr->disk.linkCount - 1);
#endif /* FS_STATS_DETAILED */
/* Return to the caller the updated parent dir status */
/* break call back on DirFid and fileFid */
BreakCallBack(client->host, DirFid, 0);
-Bad_RemoveDir:
+ Bad_RemoveDir:
/* Write the all modified vnodes (parent, new files) and volume back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, parentptr, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, parentptr,
+ volptr);
FidZap(&dir);
ViceLog(2, ("SAFS_RemoveDir returns %d\n", errorCode));
return errorCode;
-} /*SAFSS_RemoveDir*/
+} /*SAFSS_RemoveDir */
-afs_int32 SRXAFS_RemoveDir (struct rx_call *acall,
- struct AFSFid *DirFid,
- char *Name,
- struct AFSFetchStatus *OutDirStatus,
- struct AFSVolSync *Sync)
+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 client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_REMOVEDIR]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_RemoveDir;
- code = SAFSS_RemoveDir (acall, DirFid, Name, OutDirStatus, Sync);
-
-Bad_RemoveDir:
- CallPostamble(tcon);
+ code = SAFSS_RemoveDir(acall, DirFid, Name, OutDirStatus, Sync);
+
+ Bad_RemoveDir:
+ code = CallPostamble(tcon, code);
+
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, RemoveDirEvent, code, AUD_FID, DirFid, AUD_STR, Name, AUD_END);
+ 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*/
+} /*SRXAFS_RemoveDir */
/*
* merged into it when possible.
*/
static afs_int32
-SAFSS_SetLock (struct rx_call *acall,
- struct AFSFid *Fid,
- ViceLockType type,
- struct AFSVolSync *Sync)
+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 */
- int errorCode = 0; /* error code */
- Volume * volptr = 0; /* pointer to the volume header */
- struct client * client; /* 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[2] = {"LockRead","LockWrite"};
+ Vnode *targetptr = 0; /* vnode of input file */
+ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */
+ int errorCode = 0; /* error code */
+ Volume *volptr = 0; /* pointer to the volume header */
+ struct client *client; /* 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[2] = { "LockRead", "LockWrite" };
struct rx_connection *tcon = rx_ConnectionOf(acall);
if (type != LockRead && type != LockWrite) {
- errorCode = EINVAL;
+ 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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1,("SAFS_SetLock type = %s Fid = %u.%d.%d, Host %s, Id %d\n",
- locktype[(int)type], Fid->Volume, Fid->Vnode, Fid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_SetLock type = %s Fid = %u.%u.%u, Host %s, Id %d\n",
+ locktype[(int)type], Fid->Volume, Fid->Vnode, Fid->Unique,
+ inet_ntoa(logHostAddr), t_client->ViceId));
+ FS_LOCK;
AFSCallStats.SetLock++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
-
+ FS_UNLOCK;
/*
* Get the vnode and volume for the desired file along with the caller's
* rights to it
*/
- if ((errorCode = GetVolumePackage(tcon, Fid, &volptr, &targetptr,
- DONTCHECK, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, Fid, &volptr, &targetptr, DONTCHECK,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_SetLock;
}
/* Handle the particular type of set locking, type */
errorCode = HandleLocking(targetptr, rights, type);
-Bad_SetLock:
+ Bad_SetLock:
/* Write the all modified vnodes (parent, new files) and volume back */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
if ((errorCode == VREADONLY) && (type == LockRead))
- errorCode = 0; /* allow read locks on RO volumes without saving state */
+ errorCode = 0; /* allow read locks on RO volumes without saving state */
- ViceLog(2,("SAFS_SetLock returns %d\n", errorCode));
- return(errorCode);
+ ViceLog(2, ("SAFS_SetLock returns %d\n", errorCode));
+ return (errorCode);
-} /*SAFSS_SetLock*/
+} /*SAFSS_SetLock */
-afs_int32 SRXAFS_OldSetLock(struct rx_call *acall,
- struct AFSFid *Fid,
- ViceLockType type,
- struct AFSVolSync *Sync)
+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 */
-} /*SRXAFS_OldSetLock*/
-
-afs_int32 SRXAFS_SetLock (struct rx_call *acall,
- struct AFSFid *Fid,
- ViceLockType type,
- struct AFSVolSync *Sync)
+afs_int32
+SRXAFS_SetLock(struct rx_call * acall, struct AFSFid * Fid, ViceLockType type,
+ struct AFSVolSync * Sync)
{
afs_int32 code;
struct rx_connection *tcon;
+ struct client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_SETLOCK]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_SetLock;
- code = SAFSS_SetLock (acall, Fid, type, Sync);
-
-Bad_SetLock:
- CallPostamble(tcon);
-
-#if FS_STATS_DETAILED
- TM_GetTimeOfDay(&opStopTime, 0);
- if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
- }
-#endif /* FS_STATS_DETAILED */
-
- osi_auditU (acall, SetLockEvent, code, AUD_FID, Fid, AUD_LONG, type, AUD_END);
- return code;
+ code = SAFSS_SetLock(acall, Fid, type, Sync);
-} /*SRXAFS_SetLock*/
+ Bad_SetLock:
+ code = CallPostamble(tcon, code);
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
-/*
- * This routine is called exclusively by SRXAFS_ExtendLock(), and should be
+#if FS_STATS_DETAILED
+ TM_GetTimeOfDay(&opStopTime, 0);
+ if (code == 0) {
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
+ }
+#endif /* FS_STATS_DETAILED */
+
+ 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)
-
+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 */
- int errorCode = 0; /* error code */
- Volume * volptr = 0; /* pointer to the volume header */
- struct client * client; /* 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 */
+ Vnode *targetptr = 0; /* vnode of input file */
+ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */
+ int errorCode = 0; /* error code */
+ Volume *volptr = 0; /* pointer to the volume header */
+ struct client *client; /* 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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1,("SAFS_ExtendLock Fid = %u.%d.%d, Host %s, Id %d\n",
- Fid->Volume, Fid->Vnode, Fid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
- AFSCallStats.ExtendLock++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_ExtendLock Fid = %u.%u.%u, Host %s, Id %d\n", Fid->Volume,
+ Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr),
+ 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(tcon, Fid, &volptr, &targetptr,
- DONTCHECK, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, Fid, &volptr, &targetptr, DONTCHECK,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_ExtendLock;
}
/* Handle the actual lock extension */
errorCode = HandleLocking(targetptr, rights, LockExtend);
-Bad_ExtendLock:
+ Bad_ExtendLock:
/* Put back file's vnode and volume */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
- if ((errorCode == VREADONLY)) /* presumably, we already granted this lock */
- errorCode = 0; /* under our generous policy re RO vols */
+ 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);
+ ViceLog(2, ("SAFS_ExtendLock returns %d\n", errorCode));
+ return (errorCode);
-} /*SAFSS_ExtendLock*/
+} /*SAFSS_ExtendLock */
-afs_int32 SRXAFS_OldExtendLock (struct rx_call *acall,
- struct AFSFid *Fid,
- struct AFSVolSync *Sync)
+afs_int32
+SRXAFS_OldExtendLock(struct rx_call * acall, struct AFSFid * Fid,
+ struct AFSVolSync * Sync)
{
return SRXAFS_ExtendLock(acall, Fid, Sync);
+} /*SRXAFS_OldExtendLock */
-} /*SRXAFS_OldExtendLock*/
-
-afs_int32 SRXAFS_ExtendLock (struct rx_call *acall,
- struct AFSFid *Fid,
- struct AFSVolSync *Sync)
+afs_int32
+SRXAFS_ExtendLock(struct rx_call * acall, struct AFSFid * Fid,
+ struct AFSVolSync * Sync)
{
afs_int32 code;
struct rx_connection *tcon;
+ struct client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_EXTENDLOCK]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_ExtendLock;
- code = SAFSS_ExtendLock (acall, Fid, Sync);
+ code = SAFSS_ExtendLock(acall, Fid, Sync);
+
+ Bad_ExtendLock:
+ code = CallPostamble(tcon, code);
-Bad_ExtendLock:
- CallPostamble(tcon);
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, ExtendLockEvent, code, AUD_FID, Fid , AUD_END);
+ osi_auditU(acall, ExtendLockEvent, code,
+ AUD_ID, t_client ? t_client->ViceId : 0,
+ AUD_FID, Fid, AUD_END);
return code;
-} /*SRXAFS_ExtendLock*/
+} /*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)
-
+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 */
- int errorCode = 0; /* error code */
- Volume * volptr = 0; /* pointer to the volume header */
- struct client * client; /* 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 */
+ Vnode *targetptr = 0; /* vnode of input file */
+ Vnode *parentwhentargetnotdir = 0; /* parent for use in SetAccessList */
+ int errorCode = 0; /* error code */
+ Volume *volptr = 0; /* pointer to the volume header */
+ struct client *client; /* 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 = rx_HostOf(rx_PeerOf(tcon));
- ViceLog(1,("SAFS_ReleaseLock Fid = %u.%d.%d, Host %s, Id %d\n",
- Fid->Volume, Fid->Vnode, Fid->Unique,
- inet_ntoa(logHostAddr), t_client->ViceId));
- FS_LOCK
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+ logHostAddr.s_addr = rx_HostOf(rx_PeerOf(tcon));
+ ViceLog(1,
+ ("SAFS_ReleaseLock Fid = %u.%u.%u, Host %s, Id %d\n", Fid->Volume,
+ Fid->Vnode, Fid->Unique, inet_ntoa(logHostAddr),
+ t_client->ViceId));
+ FS_LOCK;
AFSCallStats.ReleaseLock++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
/*
* Get the vnode and volume for the desired file along with the caller's
* rights to it
*/
- if ((errorCode = GetVolumePackage(tcon, Fid, &volptr, &targetptr,
- DONTCHECK, &parentwhentargetnotdir,
- &client, WRITE_LOCK, &rights, &anyrights))) {
+ if ((errorCode =
+ GetVolumePackage(tcon, Fid, &volptr, &targetptr, DONTCHECK,
+ &parentwhentargetnotdir, &client, WRITE_LOCK,
+ &rights, &anyrights))) {
goto Bad_ReleaseLock;
}
BreakCallBack(client->host, Fid, 0);
}
-Bad_ReleaseLock:
+ Bad_ReleaseLock:
/* Put back file's vnode and volume */
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
- if ((errorCode == VREADONLY)) /* presumably, we already granted this lock */
- errorCode = 0; /* under our generous policy re RO vols */
+ 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);
+ ViceLog(2, ("SAFS_ReleaseLock returns %d\n", errorCode));
+ return (errorCode);
-} /*SAFSS_ReleaseLock*/
+} /*SAFSS_ReleaseLock */
-afs_int32 SRXAFS_OldReleaseLock (struct rx_call *acall,
- struct AFSFid *Fid,
- struct AFSVolSync *Sync)
+afs_int32
+SRXAFS_OldReleaseLock(struct rx_call * acall, struct AFSFid * Fid,
+ struct AFSVolSync * Sync)
{
return SRXAFS_ReleaseLock(acall, Fid, Sync);
-
-} /*SRXAFS_OldReleaseLock*/
+} /*SRXAFS_OldReleaseLock */
-afs_int32 SRXAFS_ReleaseLock (struct rx_call *acall,
- struct AFSFid *Fid,
- struct AFSVolSync *Sync)
+afs_int32
+SRXAFS_ReleaseLock(struct rx_call * acall, struct AFSFid * Fid,
+ struct AFSVolSync * Sync)
{
afs_int32 code;
struct rx_connection *tcon;
+ struct client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_RELEASELOCK]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_ReleaseLock;
- code = SAFSS_ReleaseLock (acall, Fid, Sync);
-
-Bad_ReleaseLock:
- CallPostamble(tcon);
+ code = SAFSS_ReleaseLock(acall, Fid, Sync);
+
+ Bad_ReleaseLock:
+ code = CallPostamble(tcon, code);
+
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, ReleaseLockEvent, code, AUD_FID, Fid , AUD_END);
+ osi_auditU(acall, ReleaseLockEvent, code,
+ AUD_ID, t_client ? t_client->ViceId : 0,
+ AUD_FID, Fid, AUD_END);
return code;
-} /*SRXAFS_ReleaseLock*/
+} /*SRXAFS_ReleaseLock */
-void SetSystemStats(struct AFSStatistics *stats)
+void
+SetSystemStats(struct AFSStatistics *stats)
{
- /* Fix this sometime soon.. */
- /* Because hey, it's not like we have a network monitoring protocol... */
- struct timeval time;
+ /* 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 */
TM_GetTimeOfDay(&time, 0);
stats->CurrentTime = time.tv_sec;
-} /*SetSystemStats*/
+} /*SetSystemStats */
-void SetAFSStats(struct AFSStatistics *stats)
+void
+SetAFSStats(struct AFSStatistics *stats)
{
extern afs_int32 StartTime, CurrentConnections;
- int seconds;
+ int seconds;
- FS_LOCK
+ 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->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;
+ 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;
+ seconds = AFSCallStats.AccumStoreTime / 1000;
+ if (seconds <= 0)
+ seconds = 1;
+ stats->StoreDataRate = AFSCallStats.TotalStoredBytes / seconds;
#ifdef AFS_NT40_ENV
- stats->ProcessSize = -1; /* TODO: */
+ stats->ProcessSize = -1; /* TODO: */
#else
- stats->ProcessSize = (afs_int32)((long) sbrk(0) >> 10);
+ 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));
+ FS_UNLOCK;
+ h_GetWorkStats((int *)&(stats->WorkStations),
+ (int *)&(stats->ActiveWorkStations), (int *)0,
+ (afs_int32) (FT_ApproxTime()) - (15 * 60));
-} /*SetAFSStats*/
+} /*SetAFSStats */
/* Get disk related information from all AFS partitions. */
-void SetVolumeStats(struct AFSStatistics *stats)
+void
+SetVolumeStats(struct AFSStatistics *stats)
{
- struct DiskPartition * part;
+ struct DiskPartition *part;
int i = 0;
- for (part = DiskPartitionList; part && i < AFS_MSTATDISKS; part = part->next) {
+ for (part = DiskPartitionList; part && i < AFS_MSTATDISKS;
+ part = part->next) {
stats->Disks[i].TotalBlocks = part->totalUsable;
stats->Disks[i].BlocksAvailable = part->free;
memset(stats->Disks[i].Name, 0, AFS_DISKNAMESIZE);
stats->Disks[i].TotalBlocks = -1;
i++;
}
-} /*SetVolumeStats*/
+} /*SetVolumeStats */
-afs_int32 SRXAFS_GetStatistics (struct rx_call *acall,
- struct ViceStatistics *Statistics)
+afs_int32
+SRXAFS_GetStatistics(struct rx_call *acall, struct ViceStatistics *Statistics)
{
afs_int32 code;
- struct rx_connection *tcon;
+ struct rx_connection *tcon = rx_ConnectionOf(acall);
+ struct client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_GETSTATISTICS]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
goto Bad_GetStatistics;
ViceLog(1, ("SAFS_GetStatistics Received\n"));
- FS_LOCK
+ FS_LOCK;
AFSCallStats.GetStatistics++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
memset(Statistics, 0, sizeof(*Statistics));
SetAFSStats((struct AFSStatistics *)Statistics);
SetVolumeStats((struct AFSStatistics *)Statistics);
SetSystemStats((struct AFSStatistics *)Statistics);
-
-Bad_GetStatistics:
- CallPostamble(tcon);
+
+ Bad_GetStatistics:
+ code = CallPostamble(tcon, code);
+
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
#endif /* FS_STATS_DETAILED */
+ osi_auditU(acall, GetStatisticsEvent, code,
+ AUD_ID, t_client ? t_client->ViceId : 0, AUD_END);
return code;
-
-} /*SRXAFS_GetStatistics*/
+} /*SRXAFS_GetStatistics */
/*------------------------------------------------------------------------
* As advertised.
*------------------------------------------------------------------------*/
-afs_int32 SRXAFS_XStatsVersion(struct rx_call *a_call, afs_int32 *a_versionP)
-{ /*SRXAFS_XStatsVersion*/
+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;
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_XSTATSVERSION]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
*a_versionP = AFS_XSTAT_VERSION;
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
+
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
fs_stats_TimeAssign((opP->maxTime), elapsedTime);
}
- FS_LOCK
+ FS_LOCK;
(opP->numSuccesses)++;
- FS_UNLOCK
+ FS_UNLOCK;
#endif /* FS_STATS_DETAILED */
- return(0);
-
-} /*SRXAFS_XStatsVersion*/
+ osi_auditU(a_call, XStatsVersionEvent, 0,
+ AUD_ID, t_client ? t_client->ViceId : 0, AUD_END);
+ return (0);
+} /*SRXAFS_XStatsVersion */
/*------------------------------------------------------------------------
* As advertised.
*------------------------------------------------------------------------*/
-static void FillPerfValues(struct afs_PerfStats *a_perfP)
-{ /*FillPerfValues*/
+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*/
+ 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 */
/*
* Vnode cache section.
a_perfP->vcache_H_Entries = VolumeCacheSize;
a_perfP->vcache_H_Gets = VolumeGets;
a_perfP->vcache_H_Replacements = VolumeReplacements;
-
+
/*
* 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_Calls = (afs_int32) dir_Calls;
a_perfP->dir_IOs = (afs_int32) dir_IOs;
-
+
/*
* Rx section.
*/
- a_perfP->rx_packetRequests =
- (afs_int32) rx_stats.packetRequests;
+ a_perfP->rx_packetRequests = (afs_int32) rx_stats.packetRequests;
a_perfP->rx_noPackets_RcvClass =
(afs_int32) rx_stats.receivePktAllocFailures;
a_perfP->rx_noPackets_SendClass =
(afs_int32) rx_stats.sendPktAllocFailures;
a_perfP->rx_noPackets_SpecialClass =
(afs_int32) rx_stats.specialPktAllocFailures;
- a_perfP->rx_socketGreedy =
- (afs_int32) rx_stats.socketGreedy;
- a_perfP->rx_bogusPacketOnRead =
- (afs_int32) rx_stats.bogusPacketOnRead;
- a_perfP->rx_bogusHost =
- (afs_int32) rx_stats.bogusHost;
- a_perfP->rx_noPacketOnRead =
- (afs_int32) rx_stats.noPacketOnRead;
+ a_perfP->rx_socketGreedy = (afs_int32) rx_stats.socketGreedy;
+ a_perfP->rx_bogusPacketOnRead = (afs_int32) rx_stats.bogusPacketOnRead;
+ a_perfP->rx_bogusHost = (afs_int32) rx_stats.bogusHost;
+ a_perfP->rx_noPacketOnRead = (afs_int32) rx_stats.noPacketOnRead;
a_perfP->rx_noPacketBuffersOnRead =
(afs_int32) rx_stats.noPacketBuffersOnRead;
- a_perfP->rx_selects =
- (afs_int32) rx_stats.selects;
- a_perfP->rx_sendSelects =
- (afs_int32) rx_stats.sendSelects;
+ a_perfP->rx_selects = (afs_int32) rx_stats.selects;
+ a_perfP->rx_sendSelects = (afs_int32) rx_stats.sendSelects;
a_perfP->rx_packetsRead_RcvClass =
(afs_int32) rx_stats.packetsRead[RX_PACKET_CLASS_RECEIVE];
a_perfP->rx_packetsRead_SendClass =
(afs_int32) rx_stats.packetsRead[RX_PACKET_CLASS_SEND];
a_perfP->rx_packetsRead_SpecialClass =
(afs_int32) rx_stats.packetsRead[RX_PACKET_CLASS_SPECIAL];
- a_perfP->rx_dataPacketsRead =
- (afs_int32) rx_stats.dataPacketsRead;
- a_perfP->rx_ackPacketsRead =
- (afs_int32) rx_stats.ackPacketsRead;
- a_perfP->rx_dupPacketsRead =
- (afs_int32) rx_stats.dupPacketsRead;
+ a_perfP->rx_dataPacketsRead = (afs_int32) rx_stats.dataPacketsRead;
+ a_perfP->rx_ackPacketsRead = (afs_int32) rx_stats.ackPacketsRead;
+ a_perfP->rx_dupPacketsRead = (afs_int32) rx_stats.dupPacketsRead;
a_perfP->rx_spuriousPacketsRead =
(afs_int32) rx_stats.spuriousPacketsRead;
a_perfP->rx_packetsSent_RcvClass =
(afs_int32) rx_stats.packetsSent[RX_PACKET_CLASS_SEND];
a_perfP->rx_packetsSent_SpecialClass =
(afs_int32) rx_stats.packetsSent[RX_PACKET_CLASS_SPECIAL];
- a_perfP->rx_ackPacketsSent =
- (afs_int32) rx_stats.ackPacketsSent;
- a_perfP->rx_pingPacketsSent =
- (afs_int32) rx_stats.pingPacketsSent;
- a_perfP->rx_abortPacketsSent =
- (afs_int32) rx_stats.abortPacketsSent;
- a_perfP->rx_busyPacketsSent =
- (afs_int32) rx_stats.busyPacketsSent;
- a_perfP->rx_dataPacketsSent =
- (afs_int32) rx_stats.dataPacketsSent;
- a_perfP->rx_dataPacketsReSent =
- (afs_int32) rx_stats.dataPacketsReSent;
- a_perfP->rx_dataPacketsPushed =
- (afs_int32) rx_stats.dataPacketsPushed;
- a_perfP->rx_ignoreAckedPacket =
- (afs_int32) rx_stats.ignoreAckedPacket;
- a_perfP->rx_totalRtt_Sec =
- (afs_int32) rx_stats.totalRtt.sec;
- a_perfP->rx_totalRtt_Usec =
- (afs_int32) rx_stats.totalRtt.usec;
- a_perfP->rx_minRtt_Sec =
- (afs_int32) rx_stats.minRtt.sec;
- a_perfP->rx_minRtt_Usec =
- (afs_int32) rx_stats.minRtt.usec;
- a_perfP->rx_maxRtt_Sec =
- (afs_int32) rx_stats.maxRtt.sec;
- a_perfP->rx_maxRtt_Usec =
- (afs_int32) rx_stats.maxRtt.usec;
- a_perfP->rx_nRttSamples =
- (afs_int32) rx_stats.nRttSamples;
- a_perfP->rx_nServerConns =
- (afs_int32) rx_stats.nServerConns;
- a_perfP->rx_nClientConns =
- (afs_int32) rx_stats.nClientConns;
- a_perfP->rx_nPeerStructs =
- (afs_int32) rx_stats.nPeerStructs;
- a_perfP->rx_nCallStructs =
- (afs_int32) rx_stats.nCallStructs;
- a_perfP->rx_nFreeCallStructs =
- (afs_int32) rx_stats.nFreeCallStructs;
-
+ a_perfP->rx_ackPacketsSent = (afs_int32) rx_stats.ackPacketsSent;
+ a_perfP->rx_pingPacketsSent = (afs_int32) rx_stats.pingPacketsSent;
+ a_perfP->rx_abortPacketsSent = (afs_int32) rx_stats.abortPacketsSent;
+ a_perfP->rx_busyPacketsSent = (afs_int32) rx_stats.busyPacketsSent;
+ a_perfP->rx_dataPacketsSent = (afs_int32) rx_stats.dataPacketsSent;
+ a_perfP->rx_dataPacketsReSent = (afs_int32) rx_stats.dataPacketsReSent;
+ a_perfP->rx_dataPacketsPushed = (afs_int32) rx_stats.dataPacketsPushed;
+ a_perfP->rx_ignoreAckedPacket = (afs_int32) rx_stats.ignoreAckedPacket;
+ a_perfP->rx_totalRtt_Sec = (afs_int32) rx_stats.totalRtt.sec;
+ a_perfP->rx_totalRtt_Usec = (afs_int32) rx_stats.totalRtt.usec;
+ a_perfP->rx_minRtt_Sec = (afs_int32) rx_stats.minRtt.sec;
+ a_perfP->rx_minRtt_Usec = (afs_int32) rx_stats.minRtt.usec;
+ a_perfP->rx_maxRtt_Sec = (afs_int32) rx_stats.maxRtt.sec;
+ a_perfP->rx_maxRtt_Usec = (afs_int32) rx_stats.maxRtt.usec;
+ a_perfP->rx_nRttSamples = (afs_int32) rx_stats.nRttSamples;
+ a_perfP->rx_nServerConns = (afs_int32) rx_stats.nServerConns;
+ a_perfP->rx_nClientConns = (afs_int32) rx_stats.nClientConns;
+ a_perfP->rx_nPeerStructs = (afs_int32) rx_stats.nPeerStructs;
+ a_perfP->rx_nCallStructs = (afs_int32) rx_stats.nCallStructs;
+ a_perfP->rx_nFreeCallStructs = (afs_int32) rx_stats.nFreeCallStructs;
+
a_perfP->host_NumHostEntries = HTs;
a_perfP->host_HostBlocks = HTBlocks;
h_GetHostNetStats(&(a_perfP->host_NonDeletedHosts),
&(a_perfP->host_HostsInDiffNetwork));
a_perfP->host_NumClients = CEs;
a_perfP->host_ClientBlocks = CEBlocks;
-
- a_perfP->sysname_ID = afs_perfstats.sysname_ID;
-} /*FillPerfValues*/
+ a_perfP->sysname_ID = afs_perfstats.sysname_ID;
+ a_perfP->rx_nBusies = (afs_int32) rx_stats.nBusies;
+ a_perfP->fs_nBusies = afs_perfstats.fs_nBusies;
+} /*FillPerfValues */
/*------------------------------------------------------------------------
* 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*/
-
- register int code; /*Return value*/
- afs_int32 *dataBuffP; /*Ptr to data to be returned*/
- afs_int32 dataBytes; /*Bytes in data buffer*/
+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 */
+
+ register int code; /*Return value */
+ afs_int32 *dataBuffP; /*Ptr to data to be returned */
+ afs_int32 dataBytes; /*Bytes in data buffer */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_GETXSTATS]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
*/
code = 0;
- ViceLog(1, ("Received GetXStats call for collection %d\n", a_collectionNumber));
+ ViceLog(1,
+ ("Received GetXStats call for collection %d\n",
+ a_collectionNumber));
#if 0
/*
a_dataP->AFS_CollData_val = NULL;
#endif /* 0 */
- switch(a_collectionNumber) {
- case AFS_XSTATSCOLL_CALL_INFO:
+ switch (a_collectionNumber) {
+ case AFS_XSTATSCOLL_CALL_INFO:
/*
* Pass back all the call-count-related data.
*
* for the File Server.
*/
dataBytes = sizeof(struct afs_Stats);
- dataBuffP = (afs_int32 *)malloc(dataBytes);
+ dataBuffP = (afs_int32 *) malloc(dataBytes);
memcpy(dataBuffP, &afs_cmstats, dataBytes);
- a_dataP->AFS_CollData_len = dataBytes>>2;
+ a_dataP->AFS_CollData_len = dataBytes >> 2;
a_dataP->AFS_CollData_val = dataBuffP;
#else
a_dataP->AFS_CollData_len = 0;
#endif /* 0 */
break;
- case AFS_XSTATSCOLL_PERF_INFO:
+ case AFS_XSTATSCOLL_PERF_INFO:
/*
* Pass back all the regular performance-related data.
*
*/
dataBytes = sizeof(struct afs_PerfStats);
- dataBuffP = (afs_int32 *)osi_Alloc(dataBytes);
+ dataBuffP = (afs_int32 *) malloc(dataBytes);
memcpy(dataBuffP, &afs_perfstats, dataBytes);
- a_dataP->AFS_CollData_len = dataBytes>>2;
+ a_dataP->AFS_CollData_len = dataBytes >> 2;
a_dataP->AFS_CollData_val = dataBuffP;
break;
- case AFS_XSTATSCOLL_FULL_PERF_INFO:
+ 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
*/
dataBytes = sizeof(struct fs_stats_FullPerfStats);
- dataBuffP = (afs_int32 *)osi_Alloc(dataBytes);
+ dataBuffP = (afs_int32 *) malloc(dataBytes);
memcpy(dataBuffP, &afs_FullPerfStats, dataBytes);
- a_dataP->AFS_CollData_len = dataBytes>>2;
+ a_dataP->AFS_CollData_len = dataBytes >> 2;
a_dataP->AFS_CollData_val = dataBuffP;
#endif
break;
- default:
+ default:
/*
* Illegal collection number.
*/
a_dataP->AFS_CollData_len = 0;
a_dataP->AFS_CollData_val = NULL;
code = 1;
- } /*Switch on collection number*/
+ } /*Switch on collection number */
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- return(code);
+ return (code);
-} /*SRXAFS_GetXStats*/
+} /*SRXAFS_GetXStats */
-afs_int32 SRXAFS_GiveUpCallBacks (struct rx_call *acall,
- struct AFSCBFids *FidArray,
- struct AFSCBs *CallBackArray)
+static afs_int32
+common_GiveUpCallBacks(struct rx_call *acall, struct AFSCBFids *FidArray,
+ struct AFSCBs *CallBackArray)
{
- afs_int32 errorCode;
+ afs_int32 errorCode = 0;
register int i;
struct client *client;
struct rx_connection *tcon;
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
- opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_GIVEUPCALLBACKS]);
- FS_LOCK
+ opP =
+ &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_GIVEUPCALLBACKS]);
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
- ViceLog(1, ("SAFS_GiveUpCallBacks (Noffids=%d)\n", FidArray->AFSCBFids_len));
- FS_LOCK
+ if (FidArray)
+ ViceLog(1,
+ ("SAFS_GiveUpCallBacks (Noffids=%d)\n",
+ FidArray->AFSCBFids_len));
+
+ FS_LOCK;
AFSCallStats.GiveUpCallBacks++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_GiveUpCallBacks;
- if (FidArray->AFSCBFids_len < CallBackArray->AFSCBs_len) {
- ViceLog(0, ("GiveUpCallBacks: #Fids %d < #CallBacks %d, host=%x\n",
- FidArray->AFSCBFids_len, CallBackArray->AFSCBs_len,
- (tcon->peer ? tcon->peer->host : 0)));
- errorCode = EINVAL;
- goto Bad_GiveUpCallBacks;
- }
+ if (!FidArray && !CallBackArray) {
+ ViceLog(1,
+ ("SAFS_GiveUpAllCallBacks: host=%x\n",
+ (tcon->peer ? tcon->peer->host : 0)));
+ errorCode = GetClient(tcon, &client);
+ if (!errorCode)
+ DeleteAllCallBacks_r(client->host, 1);
+ } else {
+ if (FidArray->AFSCBFids_len < CallBackArray->AFSCBs_len) {
+ ViceLog(0,
+ ("GiveUpCallBacks: #Fids %d < #CallBacks %d, host=%x\n",
+ FidArray->AFSCBFids_len, CallBackArray->AFSCBs_len,
+ (tcon->peer ? tcon->peer->host : 0)));
+ errorCode = EINVAL;
+ goto Bad_GiveUpCallBacks;
+ }
- errorCode = GetClient(tcon, &client);
- if (!errorCode) {
- for (i=0; i < FidArray->AFSCBFids_len; i++) {
- register struct AFSFid *fid = &(FidArray->AFSCBFids_val[i]);
- DeleteCallBack(client->host, fid);
- }
+ errorCode = GetClient(tcon, &client);
+ if (!errorCode) {
+ for (i = 0; i < FidArray->AFSCBFids_len; i++) {
+ register struct AFSFid *fid = &(FidArray->AFSCBFids_val[i]);
+ DeleteCallBack(client->host, fid);
+ }
+ }
}
-Bad_GiveUpCallBacks:
- CallPostamble(tcon);
+ Bad_GiveUpCallBacks:
+ errorCode = CallPostamble(tcon, errorCode);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (errorCode == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
#endif /* FS_STATS_DETAILED */
-out:
return errorCode;
-} /*SRXAFS_GiveUpCallBacks*/
+} /*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)
+afs_int32
+SRXAFS_NGetVolumeInfo(struct rx_call * acall, char *avolid,
+ struct AFSVolumeInfo * avolinfo)
{
- return(VNOVOL); /* XXX Obsolete routine XXX */
+ return (VNOVOL); /* XXX Obsolete routine XXX */
-} /*SRXAFS_NGetVolumeInfo*/
+} /*SRXAFS_NGetVolumeInfo */
/*
* 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)
+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_FlushCPS(struct rx_call *acall,
- struct ViceIds *vids,
- struct IPAddrs *addrs,
- afs_int32 spare1,
- afs_int32 *spare2,
- afs_int32 *spare3)
+afs_int32
+SRXAFS_GetCapabilities(struct rx_call * acall, Capabilities * capabilities)
+{
+ afs_int32 *dataBuffP;
+ afs_int32 dataBytes;
+
+ dataBytes = 1 * sizeof(afs_int32);
+ dataBuffP = (afs_int32 *) malloc(dataBytes);
+ dataBuffP[0] = CAPABILITY_ERRORTRANS;
+ capabilities->Capabilities_len = dataBytes / sizeof(afs_int32);
+ capabilities->Capabilities_val = dataBuffP;
+
+ 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;
- int errorCode = 0; /* return code to caller */
+ int errorCode = 0; /* return code to caller */
struct client *client;
struct rx_connection *tcon = rx_ConnectionOf(acall);
ViceLog(1, ("SRXAFS_FlushCPS\n"));
- FS_LOCK
+ FS_LOCK;
AFSCallStats.TotalCalls++;
- FS_UNLOCK
+ FS_UNLOCK;
nids = vids->ViceIds_len; /* # of users in here */
naddrs = addrs->IPAddrs_len; /* # of hosts in here */
if (nids < 0 || naddrs < 0) {
}
vd = vids->ViceIds_val;
- for (i=0; i<nids; i++, vd++) {
- if (!*vd)
- continue;
- client = h_ID2Client(*vd); /* returns client locked, or NULL */
- if (!client)
- continue;
-
- BoostSharedLock(&client->lock);
- client->prfail = 2; /* Means re-eval client's cps */
+ for (i = 0; i < nids; i++, vd++) {
+ if (!*vd)
+ continue;
+ client = h_ID2Client(*vd); /* returns client write locked, 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);
- }
+ 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);
+ 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);
}
addr = addrs->IPAddrs_val;
- for (i=0; i<naddrs; i++, addr++) {
- if (*addr)
- h_flushhostcps(*addr, 7001);
+ for (i = 0; i < naddrs; i++, addr++) {
+ if (*addr)
+ h_flushhostcps(*addr, htons(7001));
}
-Bad_FlushCPS:
- ViceLog(2, ("SAFS_FlushCPS returns %d\n", errorCode));
+ Bad_FlushCPS:
+ ViceLog(2, ("SAFS_FlushCPS returns %d\n", errorCode));
return errorCode;
-} /*SRXAFS_FlushCPS */
+} /*SRXAFS_FlushCPS */
/* worthless hack to let CS keep running ancient software */
-static int afs_vtoi(register char *aname)
+static int
+afs_vtoi(register char *aname)
{
register afs_int32 temp;
register int tc;
temp = 0;
- while((tc = *aname++)) {
- if (tc > '9' || tc < '0') return 0; /* invalid name */
+ while ((tc = *aname++)) {
+ if (tc > '9' || tc < '0')
+ return 0; /* invalid name */
temp *= 10;
temp += tc - '0';
}
* may get name or #, but must handle all weird cases (recognize readonly
* or backup volumes by name or #
*/
-static afs_int32 CopyVolumeEntry(char *aname,register struct vldbentry *ave,
- register struct VolumeInfo *av)
+static afs_int32
+CopyVolumeEntry(char *aname, register struct vldbentry *ave,
+ register struct VolumeInfo *av)
{
register 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)
+ if (i >= 8 && strcmp(aname + i - 7, ".backup") == 0)
whichType = BACKVOL;
- else if (i >= 10 && strcmp(aname+i-9, ".readonly")==0)
+ else if (i >= 10 && strcmp(aname + i - 9, ".readonly") == 0)
whichType = ROVOL;
- else whichType = RWVOL;
-
+ else
+ whichType = RWVOL;
+
vol = afs_vtoi(aname);
- if (vol == 0) vol = ave->volumeId[whichType];
-
+ 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]) {
+ if ((ave->flags & VLF_RWEXISTS) && vol == ave->volumeId[RWVOL]) {
mask = VLSF_RWVOL;
whichType = RWVOL;
- }
- else if ((ave->flags&VLF_ROEXISTS) && vol == ave->volumeId[ROVOL]) {
+ } 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 */
+ } 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 */
-
+ } 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 */
+ 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 */
+ if (j < 8)
+ serverHost[j++] = 0; /* bogus 8, but compat only now */
return 0;
}
-static afs_int32 TryLocalVLServer(char *avolid, struct VolumeInfo *avolinfo)
+static afs_int32
+TryLocalVLServer(char *avolid, struct VolumeInfo *avolinfo)
{
static struct rx_connection *vlConn = 0;
static int down = 0;
if (!vlConn) {
vlSec = rxnull_NewClientSecurityObject();
- vlConn = rx_NewConnection(htonl(0x7f000001), htons(7003), 52, vlSec, 0);
+ 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 */
+ return 1; /* failure */
}
code = VL_GetEntryByNameO(vlConn, avolid, &tve);
- if (code >= 0) down = 0; /* call worked */
+ if (code >= 0)
+ down = 0; /* call worked */
if (code) {
if (code < 0) {
- lastDownTime = FT_ApproxTime(); /* last time we tried an RPC */
+ lastDownTime = FT_ApproxTime(); /* last time we tried an RPC */
down = 1;
}
return code;
-afs_int32 SRXAFS_GetVolumeInfo (struct rx_call *acall,
- char *avolid,
- struct VolumeInfo *avolinfo)
+afs_int32
+SRXAFS_GetVolumeInfo(struct rx_call * acall, char *avolid,
+ struct VolumeInfo * avolinfo)
{
afs_int32 code;
struct rx_connection *tcon;
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_GETVOLUMEINFO]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_GetVolumeInfo;
- FS_LOCK
+ FS_LOCK;
AFSCallStats.GetVolumeInfo++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
-
+ 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 */
+ 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:
- CallPostamble(tcon);
+ Bad_GetVolumeInfo:
+ code = CallPostamble(tcon, code);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
return code;
-} /*SRXAFS_GetVolumeInfo*/
+} /*SRXAFS_GetVolumeInfo */
-afs_int32 SRXAFS_GetVolumeStatus(struct rx_call *acall,
- afs_int32 avolid,
- AFSFetchVolumeStatus *FetchVolStatus,
- char **Name,
- char **OfflineMsg,
- char **Motd)
+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 */
- int errorCode = 0; /* error code */
- Volume * volptr = 0; /* pointer to the volume header */
- struct client * client; /* pointer to client entry */
- afs_int32 rights, anyrights; /* rights for this and any user */
- AFSFid dummyFid;
+ Vnode *targetptr = 0; /* vnode of the new file */
+ Vnode *parentwhentargetnotdir = 0; /* vnode of parent */
+ int errorCode = 0; /* error code */
+ Volume *volptr = 0; /* pointer to the volume header */
+ struct client *client; /* pointer to client entry */
+ afs_int32 rights, anyrights; /* rights for this and any user */
+ AFSFid dummyFid;
struct rx_connection *tcon;
+ struct client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
- opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_GETVOLUMESTATUS]);
- FS_LOCK
+ opP =
+ &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_GETVOLUMESTATUS]);
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
- ViceLog(1,("SAFS_GetVolumeStatus for volume %u\n", avolid));
+ ViceLog(1, ("SAFS_GetVolumeStatus for volume %u\n", avolid));
if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_GetVolumeStatus;
- FS_LOCK
+ FS_LOCK;
AFSCallStats.GetVolumeStatus++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
-
+ FS_UNLOCK;
if (avolid == 0) {
errorCode = EINVAL;
goto Bad_GetVolumeStatus;
}
- dummyFid.Volume = avolid, dummyFid.Vnode = (afs_int32)ROOTVNODE, dummyFid.Unique = 1;
+ dummyFid.Volume = avolid, dummyFid.Vnode =
+ (afs_int32) ROOTVNODE, dummyFid.Unique = 1;
- if ((errorCode = GetVolumePackage(tcon, &dummyFid, &volptr, &targetptr,
- MustBeDIR, &parentwhentargetnotdir,
- &client, READ_LOCK, &rights, &anyrights)))
+ if ((errorCode =
+ GetVolumePackage(tcon, &dummyFid, &volptr, &targetptr, MustBeDIR,
+ &parentwhentargetnotdir, &client, READ_LOCK,
+ &rights, &anyrights)))
goto Bad_GetVolumeStatus;
if ((VanillaUser(client)) && (!(rights & PRSFS_READ))) {
errorCode = EACCES;
goto Bad_GetVolumeStatus;
}
- RXGetVolumeStatus(FetchVolStatus, Name, OfflineMsg, Motd, volptr);
+ (void)RXGetVolumeStatus(FetchVolStatus, Name, OfflineMsg, Motd, volptr);
-Bad_GetVolumeStatus:
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
- ViceLog(2,("SAFS_GetVolumeStatus returns %d\n",errorCode));
+ Bad_GetVolumeStatus:
+ (void)PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0,
+ volptr);
+ 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;}
- CallPostamble(tcon);
+ 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);
+
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (errorCode == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- return(errorCode);
-} /*SRXAFS_GetVolumeStatus*/
+ 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)
+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 */
- int errorCode = 0; /* error code */
- Volume * volptr = 0; /* pointer to the volume header */
- struct client * client; /* pointer to client entry */
- afs_int32 rights, anyrights; /* rights for this and any user */
- AFSFid dummyFid;
+ Vnode *targetptr = 0; /* vnode of the new file */
+ Vnode *parentwhentargetnotdir = 0; /* vnode of parent */
+ int errorCode = 0; /* error code */
+ Volume *volptr = 0; /* pointer to the volume header */
+ struct client *client; /* pointer to client entry */
+ afs_int32 rights, anyrights; /* rights for this and any user */
+ AFSFid dummyFid;
struct rx_connection *tcon = rx_ConnectionOf(acall);
+ struct client *t_client = NULL; /* tmp ptr to client data */
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
- opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_SETVOLUMESTATUS]);
- FS_LOCK
+ opP =
+ &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_SETVOLUMESTATUS]);
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
- ViceLog(1,("SAFS_SetVolumeStatus for volume %u\n", avolid));
+ ViceLog(1, ("SAFS_SetVolumeStatus for volume %u\n", avolid));
if ((errorCode = CallPreamble(acall, ACTIVECALL, &tcon)))
goto Bad_SetVolumeStatus;
- FS_LOCK
+ FS_LOCK;
AFSCallStats.SetVolumeStatus++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
-
+ FS_UNLOCK;
if (avolid == 0) {
errorCode = EINVAL;
goto Bad_SetVolumeStatus;
}
- dummyFid.Volume = avolid, dummyFid.Vnode = (afs_int32)ROOTVNODE, dummyFid.Unique = 1;
+ dummyFid.Volume = avolid, dummyFid.Vnode =
+ (afs_int32) ROOTVNODE, dummyFid.Unique = 1;
- if ((errorCode = GetVolumePackage(tcon, &dummyFid, &volptr, &targetptr,
- MustBeDIR, &parentwhentargetnotdir,
- &client, READ_LOCK, &rights, &anyrights)))
+ if ((errorCode =
+ GetVolumePackage(tcon, &dummyFid, &volptr, &targetptr, MustBeDIR,
+ &parentwhentargetnotdir, &client, READ_LOCK,
+ &rights, &anyrights)))
goto Bad_SetVolumeStatus;
if (readonlyServer) {
goto Bad_SetVolumeStatus;
}
- errorCode = RXUpdate_VolumeStatus(volptr, StoreVolStatus, Name,
- OfflineMsg, Motd);
+ errorCode =
+ RXUpdate_VolumeStatus(volptr, StoreVolStatus, Name, OfflineMsg, Motd);
- Bad_SetVolumeStatus:
- PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *)0, volptr);
- ViceLog(2,("SAFS_SetVolumeStatus returns %d\n",errorCode));
- CallPostamble(tcon);
+ Bad_SetVolumeStatus:
+ PutVolumePackage(parentwhentargetnotdir, targetptr, (Vnode *) 0, volptr);
+ ViceLog(2, ("SAFS_SetVolumeStatus returns %d\n", errorCode));
+ errorCode = CallPostamble(tcon, errorCode);
+
+ t_client = (struct client *)rx_GetSpecific(tcon, rxcon_client_key);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (errorCode == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
- osi_auditU (acall, SetVolumeStatusEvent, errorCode, AUD_LONG, avolid, AUD_STR, Name, AUD_END);
- return(errorCode);
-
-} /*SRXAFS_SetVolumeStatus*/
+ 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)
+afs_int32
+SRXAFS_GetRootVolume(struct rx_call * acall, char **VolumeName)
{
+#ifdef notdef
int fd;
int len;
char *temp;
- int errorCode = 0; /* error code */
struct rx_connection *tcon;
+#endif
+ int errorCode = 0;
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime; /* Start time for RPC op */
+#ifdef notdef
+ struct timeval opStopTime;
+ struct timeval elapsedTime; /* Transfer time */
+#endif
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_GETROOTVOLUME]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
#ifdef notdef
if (errorCode = CallPreamble(acall, ACTIVECALL, &tcon))
goto Bad_GetRootVolume;
- FS_LOCK
+ FS_LOCK;
AFSCallStats.GetRootVolume++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
-
+ FS_UNLOCK;
temp = malloc(256);
- fd = open(AFSDIR_SERVER_ROOTVOL_FILEPATH, O_RDONLY, 0666);
+ fd = afs_open(AFSDIR_SERVER_ROOTVOL_FILEPATH, O_RDONLY, 0666);
if (fd <= 0)
strcpy(temp, DEFAULTVOLUME);
else {
flock(fd, LOCK_UN);
#endif
close(fd);
- if (temp[len-1] == '\n') len--;
+ if (temp[len - 1] == '\n')
+ len--;
temp[len] = '\0';
}
- *VolumeName = temp; /* freed by rx server-side stub */
+ *VolumeName = temp; /* freed by rx server-side stub */
-Bad_GetRootVolume:
- CallPostamble(tcon);
+ Bad_GetRootVolume:
+ errorCode = CallPostamble(tcon, errorCode);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (errorCode == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
#endif /* FS_STATS_DETAILED */
- return(errorCode);
-#endif /* notdef */
+ return (errorCode);
+#endif /* notdef */
-} /*SRXAFS_GetRootVolume*/
+} /*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
+SRXAFS_CheckToken(struct rx_call * acall, afs_int32 AfsId,
+ struct AFSOpaque * Token)
{
afs_int32 code;
struct rx_connection *tcon;
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_CHECKTOKEN]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
goto Bad_CheckToken;
code = FSERR_ECONNREFUSED;
-
-Bad_CheckToken:
- CallPostamble(tcon);
+
+ Bad_CheckToken:
+ code = CallPostamble(tcon, code);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
return code;
-} /*SRXAFS_CheckToken*/
+} /*SRXAFS_CheckToken */
-afs_int32 SRXAFS_GetTime (struct rx_call *acall,
- afs_uint32 *Seconds,
- afs_uint32 *USeconds)
+afs_int32
+SRXAFS_GetTime(struct rx_call * acall, afs_uint32 * Seconds,
+ afs_uint32 * USeconds)
{
afs_int32 code;
struct rx_connection *tcon;
struct timeval tpl;
#if FS_STATS_DETAILED
- struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
- struct timeval opStartTime,
- opStopTime; /* Start/stop times for RPC op*/
- struct timeval elapsedTime; /* Transfer time */
+ struct fs_stats_opTimingData *opP; /* Ptr to this op's timing struct */
+ struct timeval opStartTime, opStopTime; /* Start/stop times for RPC op */
+ struct timeval elapsedTime; /* Transfer time */
/*
* Set our stats pointer, remember when the RPC operation started, and
* tally the operation.
*/
opP = &(afs_FullPerfStats.det.rpcOpTimes[FS_STATS_RPCIDX_GETTIME]);
- FS_LOCK
+ FS_LOCK;
(opP->numOps)++;
- FS_UNLOCK
+ FS_UNLOCK;
TM_GetTimeOfDay(&opStartTime, 0);
#endif /* FS_STATS_DETAILED */
if ((code = CallPreamble(acall, NOTACTIVECALL, &tcon)))
goto Bad_GetTime;
- FS_LOCK
+ FS_LOCK;
AFSCallStats.GetTime++, AFSCallStats.TotalCalls++;
- FS_UNLOCK
-
+ FS_UNLOCK;
TM_GetTimeOfDay(&tpl, 0);
*Seconds = tpl.tv_sec;
*USeconds = tpl.tv_usec;
- ViceLog(2, ("SAFS_GetTime returns %d, %d\n", *Seconds, *USeconds));
-
-Bad_GetTime:
- CallPostamble(tcon);
+ ViceLog(2, ("SAFS_GetTime returns %u, %u\n", *Seconds, *USeconds));
+
+ Bad_GetTime:
+ code = CallPostamble(tcon, code);
#if FS_STATS_DETAILED
TM_GetTimeOfDay(&opStopTime, 0);
fs_stats_GetDiff(elapsedTime, opStartTime, opStopTime);
if (code == 0) {
- FS_LOCK
- (opP->numSuccesses)++;
- fs_stats_AddTo((opP->sumTime), elapsedTime);
- fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
- if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
- fs_stats_TimeAssign((opP->minTime), elapsedTime);
- }
- if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
- fs_stats_TimeAssign((opP->maxTime), elapsedTime);
- }
- FS_UNLOCK
+ FS_LOCK;
+ (opP->numSuccesses)++;
+ fs_stats_AddTo((opP->sumTime), elapsedTime);
+ fs_stats_SquareAddTo((opP->sqrTime), elapsedTime);
+ if (fs_stats_TimeLessThan(elapsedTime, (opP->minTime))) {
+ fs_stats_TimeAssign((opP->minTime), elapsedTime);
+ }
+ if (fs_stats_TimeGreaterThan(elapsedTime, (opP->maxTime))) {
+ fs_stats_TimeAssign((opP->maxTime), elapsedTime);
+ }
+ FS_UNLOCK;
}
-
#endif /* FS_STATS_DETAILED */
return code;
-} /*SRXAFS_GetTime*/
+} /*SRXAFS_GetTime */
/*
*/
afs_int32
-FetchData_RXStyle(Volume *volptr,
- Vnode *targetptr,
- register struct rx_call *Call,
- afs_size_t Pos,
- afs_size_t Len,
- afs_int32 Int64Mode,
+FetchData_RXStyle(Volume * volptr, Vnode * targetptr,
+ register struct rx_call * Call, afs_sfsize_t Pos,
+ afs_sfsize_t Len, afs_int32 Int64Mode,
#if FS_STATS_DETAILED
- afs_size_t *a_bytesToFetchP,
- afs_size_t *a_bytesFetchedP
-#endif /* FS_STATS_DETAILED */
- )
+ afs_sfsize_t * a_bytesToFetchP,
+ afs_sfsize_t * a_bytesFetchedP
+#endif /* FS_STATS_DETAILED */
+ )
{
- struct timeval StartTime, StopTime; /* used to calculate file transfer rates */
- int errorCode = 0; /* Returned error code to caller */
- int code;
+ struct timeval StartTime, StopTime; /* used to calculate file transfer rates */
+ int errorCode = 0; /* Returned error code to caller */
IHandle_t *ihP;
FdHandle_t *fdP;
#ifdef AFS_NT40_ENV
struct iovec tiov[RX_MAXIOVECS];
int tnio;
#endif /* AFS_NT40_ENV */
- afs_size_t tlen;
+ afs_sfsize_t tlen;
afs_int32 optSize;
- struct stat tstat;
-#ifdef AFS_AIX_ENV
- struct statfs tstatfs;
-#endif
#if FS_STATS_DETAILED
/*
(*a_bytesFetchedP) = 0;
#endif /* FS_STATS_DETAILED */
-#ifdef AFS_LARGEFILE_ENV
- ViceLog(25, ("FetchData_RXStyle: Pos (0X%x,0X%x), Len (0X%x,0X%x)\n",
- (unsigned) (Pos >> 32), (unsigned) (Pos & 0xffffffff),
- (unsigned) (Len >> 32), (unsigned) (Len & 0xffffffff)));
-#else /* !AFS_LARGEFILE_ENV */
- ViceLog(25, ("FetchData_RXStyle: Pos 0X%x, Len 0X%x\n",
- (unsigned) Pos,
- (unsigned) Len));
-#endif /* !AFS_LARGEFILE_ENV */
+
+ 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);
+ 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 */
+ 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);
}
TM_GetTimeOfDay(&StartTime, 0);
ihP = targetptr->handle;
fdP = IH_OPEN(ihP);
- if (fdP == NULL) return EIO;
+ if (fdP == NULL)
+ return EIO;
optSize = sendBufSize;
tlen = FDH_SIZE(fdP);
-#ifdef AFS_LARGEFILE_ENV
- ViceLog( 25, ("FetchData_RXStyle: file size (0X%x,0X%x)\n",
- (unsigned) (tlen >> 32), (unsigned) (tlen & 0xffffffff)));
-#else /* !AFS_LARGEFILE_ENV */
- ViceLog( 25, ("FetchData_RXStyle: file size 0X%x\n",
- (unsigned) tlen));
-#endif /* !AFS_LARGEFILE_ENV */
+ ViceLog(25,
+ ("FetchData_RXStyle: file size %llu\n", (afs_uintmax_t) tlen));
if (tlen < 0) {
FDH_CLOSE(fdP);
return EIO;
}
+ if (Pos > tlen) {
+ Len = 0;
+ }
- if (Pos + Len > tlen) Len = tlen - Pos; /* get length we should send */
- FDH_SEEK(fdP, Pos, 0);
+ if (Pos + Len > tlen)
+ Len = tlen - Pos; /* get length we should send */
+ (void)FDH_SEEK(fdP, Pos, 0);
{
- afs_int32 high, low;
+ afs_int32 high, low;
SplitOffsetOrSize(Len, high, low);
- assert(Int64Mode || high==0);
+ assert(Int64Mode || (Len >= 0 && high == 0) || Len < 0);
if (Int64Mode) {
high = htonl(high);
- rx_Write(Call, (char *)&high, sizeof(afs_int32)); /* High order bits */
+ 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 */
tbuffer = AllocSendBuffer();
#endif /* AFS_NT40_ENV */
while (Len > 0) {
- if (Len > optSize) tlen = optSize;
- else tlen = Len;
+ int wlen;
+ if (Len > optSize)
+ wlen = optSize;
+ else
+ wlen = (int)Len;
#ifdef AFS_NT40_ENV
- errorCode = FDH_READ(fdP, tbuffer, tlen);
- if (errorCode != tlen) {
+ errorCode = FDH_READ(fdP, tbuffer, wlen);
+ if (errorCode != wlen) {
FDH_CLOSE(fdP);
- FreeSendBuffer((struct afs_buffer *) tbuffer);
+ FreeSendBuffer((struct afs_buffer *)tbuffer);
return EIO;
}
- errorCode = rx_Write(Call, tbuffer, tlen);
+ errorCode = rx_Write(Call, tbuffer, wlen);
#else /* AFS_NT40_ENV */
- errorCode = rx_WritevAlloc(Call, tiov, &tnio, RX_MAXIOVECS, tlen);
+ errorCode = rx_WritevAlloc(Call, tiov, &tnio, RX_MAXIOVECS, wlen);
if (errorCode <= 0) {
FDH_CLOSE(fdP);
return EIO;
}
- tlen = errorCode;
+ wlen = errorCode;
errorCode = FDH_READV(fdP, tiov, tnio);
- if (errorCode != tlen) {
+ if (errorCode != wlen) {
FDH_CLOSE(fdP);
return EIO;
}
- errorCode = rx_Writev(Call, tiov, tnio, tlen);
+ errorCode = rx_Writev(Call, tiov, tnio, wlen);
#endif /* AFS_NT40_ENV */
#if FS_STATS_DETAILED
/*
- * Bump the number of bytes actually sent by the number from this
- * latest iteration
- */
+ * Bump the number of bytes actually sent by the number from this
+ * latest iteration
+ */
(*a_bytesFetchedP) += errorCode;
#endif /* FS_STATS_DETAILED */
- if (errorCode != tlen) {
+ if (errorCode != wlen) {
FDH_CLOSE(fdP);
#ifdef AFS_NT40_ENV
- FreeSendBuffer((struct afs_buffer *) tbuffer);
+ FreeSendBuffer((struct afs_buffer *)tbuffer);
#endif /* AFS_NT40_ENV */
return -31;
}
- Len -= tlen;
+ Len -= wlen;
}
#ifdef AFS_NT40_ENV
- FreeSendBuffer((struct afs_buffer *) tbuffer);
+ FreeSendBuffer((struct afs_buffer *)tbuffer);
#endif /* AFS_NT40_ENV */
FDH_CLOSE(fdP);
TM_GetTimeOfDay(&StopTime, 0);
/* Adjust all Fetch Data related stats */
- FS_LOCK
- if (AFSCallStats.TotalFetchedBytes > 2000000000) /* Reset if over 2 billion */
+ 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);
+ AFSCallStats.AccumFetchTime +=
+ ((StopTime.tv_sec - StartTime.tv_sec) * 1000) +
+ ((StopTime.tv_usec - StartTime.tv_usec) / 1000);
{
- afs_size_t targLen;
+ afs_fsize_t targLen;
VN_GET_LEN(targLen, targetptr);
AFSCallStats.TotalFetchedBytes += targLen;
AFSCallStats.FetchSize1++;
if (targLen < SIZE2)
- AFSCallStats.FetchSize2++;
+ AFSCallStats.FetchSize2++;
else if (targLen < SIZE3)
AFSCallStats.FetchSize3++;
else if (targLen < SIZE4)
- AFSCallStats.FetchSize4++;
+ AFSCallStats.FetchSize4++;
else
AFSCallStats.FetchSize5++;
}
- FS_UNLOCK
+ FS_UNLOCK;
return (0);
-} /*FetchData_RXStyle*/
+} /*FetchData_RXStyle */
-static int GetLinkCountAndSize(Volume *vp, FdHandle_t *fdP, int *lc, afs_size_t *size)
+static int
+GetLinkCountAndSize(Volume * vp, FdHandle_t * fdP, int *lc,
+ afs_sfsize_t * size)
{
#ifdef AFS_NAMEI_ENV
FdHandle_t *lhp;
*lc = namei_GetLinkCount(lhp, fdP->fd_ih->ih_ino, 0);
#endif
FDH_CLOSE(lhp);
- if (*lc < 0 )
+ if (*lc < 0)
return -1;
*size = OS_SIZE(fdP->fd_fd);
return (*size == -1) ? -1 : 0;
#else
- struct stat status;
+ struct afs_stat status;
- if (fstat(fdP->fd_fd, &status)<0) {
+ if (afs_fstat(fdP->fd_fd, &status) < 0) {
return -1;
}
*lc = GetLinkCount(vp, &status);
*size = status.st_size;
return 0;
-#endif
+#endif
}
/*
* endif
*/
afs_int32
-StoreData_RXStyle(Volume *volptr,
- Vnode *targetptr,
- struct AFSFid *Fid,
- struct client *client,
- register struct rx_call *Call,
- afs_offs_t Pos,
- afs_offs_t Length,
- afs_offs_t FileLength,
+StoreData_RXStyle(Volume * volptr, Vnode * targetptr, struct AFSFid * Fid,
+ struct client * client, register struct rx_call * Call,
+ afs_fsize_t Pos, afs_fsize_t Length, afs_fsize_t FileLength,
int sync,
#if FS_STATS_DETAILED
- afs_size_t *a_bytesToStoreP,
- afs_size_t *a_bytesStoredP
-#endif /* FS_STATS_DETAILED */
- )
+ afs_sfsize_t * a_bytesToStoreP,
+ afs_sfsize_t * a_bytesStoredP
+#endif /* FS_STATS_DETAILED */
+ )
{
- afs_size_t bytesTransfered; /* number of bytes actually transfered */
+ afs_sfsize_t bytesTransfered; /* number of bytes actually transfered */
struct timeval StartTime, StopTime; /* Used to measure how long the store takes */
- int errorCode = 0; /* Returned error code to caller */
+ int errorCode = 0; /* Returned error code to caller */
#ifdef AFS_NT40_ENV
- register char *tbuffer; /* data copying buffer */
+ register char *tbuffer; /* data copying buffer */
#else /* AFS_NT40_ENV */
- struct iovec tiov[RX_MAXIOVECS]; /* no data copying with iovec */
- int tnio; /* temp for iovec size */
+ struct iovec tiov[RX_MAXIOVECS]; /* no data copying with iovec */
+ int tnio; /* temp for iovec size */
#endif /* AFS_NT40_ENV */
- afs_size_t tlen; /* temp for xfr length */
- Inode tinode; /* inode for I/O */
- afs_size_t optSize; /* optimal transfer size */
- afs_size_t DataLength; /* size of inode */
- afs_size_t TruncatedLength; /* size after ftruncate */
- afs_offs_t NewLength; /* size after this store completes */
- afs_size_t adjustSize; /* bytes to call VAdjust... with */
- int linkCount; /* link count on inode */
- int code;
+ afs_sfsize_t tlen; /* temp for xfr length */
+ Inode tinode; /* inode for I/O */
+ afs_int32 optSize; /* optimal transfer size */
+ afs_sfsize_t DataLength; /* 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; /* link count on inode */
FdHandle_t *fdP;
- struct in_addr logHostAddr; /* host ip holder for inet_ntoa */
+ struct in_addr logHostAddr; /* host ip holder for inet_ntoa */
#if FS_STATS_DETAILED
/*
* Initialize the byte count arguments.
*/
(*a_bytesToStoreP) = 0;
- (*a_bytesStoredP) = 0;
+ (*a_bytesStoredP) = 0;
#endif /* FS_STATS_DETAILED */
/*
if (Pos == -1 || VN_GET_INO(targetptr) == 0) {
/* the inode should have been created in Alloc_NewVnode */
logHostAddr.s_addr = rx_HostOf(rx_PeerOf(rx_ConnectionOf(Call)));
- ViceLog(0, ("StoreData_RXStyle : Inode non-existent Fid = %u.%d.%d, inode = %d, Pos %d Host %s\n",
- Fid->Volume, Fid->Vnode, Fid->Unique,
- VN_GET_INO(targetptr), Pos, inet_ntoa(logHostAddr) ));
- return ENOENT; /* is this proper error code? */
- }
- else {
+ ViceLog(0,
+ ("StoreData_RXStyle : Inode non-existent Fid = %u.%u.%u, inode = %llu, Pos %llu Host %s\n",
+ Fid->Volume, Fid->Vnode, Fid->Unique,
+ (afs_uintmax_t) VN_GET_INO(targetptr), (afs_uintmax_t) Pos,
+ inet_ntoa(logHostAddr)));
+ return ENOENT; /* is this proper error code? */
+ } else {
/*
* 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(NULL, VN_GET_INO(targetptr))));
+ ViceLog(25,
+ ("StoreData_RXStyle : Opening inode %s\n",
+ PrintInode(NULL, VN_GET_INO(targetptr))));
fdP = IH_OPEN(targetptr->handle);
- if (fdP == NULL)
+ if (fdP == NULL)
return ENOENT;
- if (GetLinkCountAndSize(volptr, fdP, &linkCount,
- &DataLength)<0) {
+ if (GetLinkCountAndSize(volptr, fdP, &linkCount, &DataLength) < 0) {
FDH_CLOSE(fdP);
return EIO;
}
-
+
if (linkCount != 1) {
- afs_size_t size;
- ViceLog(25, ("StoreData_RXStyle : inode %s has more than onelink\n",
- PrintInode(NULL, VN_GET_INO(targetptr))));
+ afs_fsize_t size;
+ ViceLog(25,
+ ("StoreData_RXStyle : inode %s has more than onelink\n",
+ PrintInode(NULL, 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.
volptr->partition->flags |= PART_DONTUPDATE;
if ((errorCode = VDiskUsage(volptr, nBlocks(size)))) {
volptr->partition->flags &= ~PART_DONTUPDATE;
- return(errorCode);
+ return (errorCode);
}
ViceLog(25, ("StoreData : calling CopyOnWrite on target dir\n"));
- if ((errorCode = CopyOnWrite(targetptr, volptr)))
- {
- ViceLog(25, ("StoreData : CopyOnWrite failed\n"));
- volptr->partition->flags &= ~PART_DONTUPDATE;
+ if ((errorCode = CopyOnWrite(targetptr, volptr))) {
+ 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"));
+ if (fdP == NULL) {
+ ViceLog(25,
+ ("StoreData : Reopen after CopyOnWrite failed\n"));
return ENOENT;
}
}
NewLength = DataLength;
if (FileLength < NewLength)
/* simulate truncate */
- NewLength = FileLength;
- TruncatedLength = NewLength; /* remember length after possible ftruncate */
+ NewLength = FileLength;
+ TruncatedLength = NewLength; /* remember length after possible ftruncate */
if (Pos + Length > NewLength)
- NewLength = Pos+Length; /* and write */
+ NewLength = Pos + Length; /* and write */
/* adjust the disk block count by the difference in the files */
{
- afs_size_t targSize;
+ afs_fsize_t targSize;
VN_GET_LEN(targSize, targetptr);
adjustSize = nBlocks(NewLength) - nBlocks(targSize);
}
- if((errorCode = AdjustDiskUsage(volptr, adjustSize,
- adjustSize - SpareComp(volptr)))) {
+ if ((errorCode =
+ AdjustDiskUsage(volptr, adjustSize,
+ adjustSize - SpareComp(volptr)))) {
FDH_CLOSE(fdP);
- return(errorCode);
+ return (errorCode);
}
/* can signal cache manager to proceed from close now */
TM_GetTimeOfDay(&StartTime, 0);
optSize = sendBufSize;
-
-#ifdef AFS_LARGEFILE_ENV
- ViceLog(25, ("StoreData_RXStyle: Pos (0X%x,0X%x), DataLength (0X%x,0X%x), FileLength (0X%x,0X%x), Length (0X%x,0X%x)\n",
- (unsigned) (Pos >> 32), (unsigned) (Pos & 0xffffffff),
- (unsigned) (DataLength >> 32), (unsigned) (DataLength & 0xffffffff),
- (unsigned) (FileLength >> 32), (unsigned) (FileLength & 0xffffffff),
- (unsigned) (Length >> 32), (unsigned) (Length & 0xffffffff)));
-#else /* !AFS_LARGEFILE_ENV */
- ViceLog(25, ("StoreData_RXStyle: Pos 0X%x, DataLength 0X%x, FileLength 0X%x, Length 0X%x\n",
- (unsigned) Pos,
- (unsigned) DataLength,
- (unsigned) FileLength,
- (unsigned) Length));
-#endif /* !AFS_LARGEFILE_ENV */
+ 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);
- if (Pos > 0) FDH_SEEK(fdP, Pos, 0);
+ if (FileLength < DataLength)
+ FDH_TRUNC(fdP, FileLength);
+ if (Pos > 0)
+ FDH_SEEK(fdP, Pos, 0);
bytesTransfered = 0;
#ifdef AFS_NT40_ENV
tbuffer = AllocSendBuffer();
* spot above.
*/
errorCode = FDH_WRITE(fdP, &tlen, 1);
- if (errorCode != 1) goto done;
+ if (errorCode != 1)
+ goto done;
errorCode = FDH_TRUNC(fdP, Pos);
- }
- else {
+ } else {
/* have some data to copy */
#if FS_STATS_DETAILED
(*a_bytesToStoreP) = Length;
#endif /* FS_STATS_DETAILED */
while (1) {
+ int rlen;
if (bytesTransfered >= Length) {
errorCode = 0;
break;
}
- tlen = Length - bytesTransfered; /* how much more to do */
- if (tlen > optSize) tlen = optSize; /* bound by buffer size */
+ tlen = Length - bytesTransfered; /* how much more to do */
+ if (tlen > optSize)
+ rlen = optSize; /* bound by buffer size */
+ else
+ rlen = (int)tlen;
#ifdef AFS_NT40_ENV
- errorCode = rx_Read(Call, tbuffer, tlen);
+ errorCode = rx_Read(Call, tbuffer, rlen);
#else /* AFS_NT40_ENV */
- errorCode = rx_Readv(Call, tiov, &tnio, RX_MAXIOVECS, tlen);
+ errorCode = rx_Readv(Call, tiov, &tnio, RX_MAXIOVECS, rlen);
#endif /* AFS_NT40_ENV */
#if FS_STATS_DETAILED
(*a_bytesStoredP) += errorCode;
errorCode = -32;
break;
}
- tlen = errorCode;
+ rlen = errorCode;
#ifdef AFS_NT40_ENV
- errorCode = FDH_WRITE(fdP, tbuffer, tlen);
+ errorCode = FDH_WRITE(fdP, tbuffer, rlen);
#else /* AFS_NT40_ENV */
errorCode = FDH_WRITEV(fdP, tiov, tnio);
#endif /* AFS_NT40_ENV */
- if (errorCode != tlen) {
+ if (errorCode != rlen) {
errorCode = VDISKFULL;
break;
}
- bytesTransfered += tlen;
+ bytesTransfered += rlen;
}
}
done:
#ifdef AFS_NT40_ENV
- FreeSendBuffer((struct afs_buffer *) tbuffer);
+ FreeSendBuffer((struct afs_buffer *)tbuffer);
#endif /* AFS_NT40_ENV */
if (sync) {
- FDH_SYNC(fdP);
+ FDH_SYNC(fdP);
}
if (errorCode) {
- afs_size_t nfSize = FDH_SIZE(fdP);
+ afs_fsize_t nfSize = (afs_fsize_t) FDH_SIZE(fdP);
/* something went wrong: adjust size and return */
- VN_SET_LEN(targetptr, nfSize); /* set new file size. */
+ 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.
*/
FDH_CLOSE(fdP);
/* set disk usage to be correct */
VAdjustDiskUsage(&errorCode, volptr,
- (afs_size_t)(nBlocks(nfSize) - nBlocks(NewLength)),
- (afs_size_t) 0);
+ (afs_sfsize_t) (nBlocks(nfSize) -
+ nBlocks(NewLength)), 0);
return errorCode;
}
FDH_CLOSE(fdP);
VN_SET_LEN(targetptr, NewLength);
/* Update all StoreData related stats */
- FS_LOCK
- if (AFSCallStats.TotalStoredBytes > 2000000000) /* reset if over 2 billion */
+ FS_LOCK;
+ if (AFSCallStats.TotalStoredBytes > 2000000000) /* reset if over 2 billion */
AFSCallStats.TotalStoredBytes = AFSCallStats.AccumStoreTime = 0;
- AFSCallStats.StoreSize1++; /* Piggybacked data */
+ AFSCallStats.StoreSize1++; /* Piggybacked data */
{
- afs_size_t targLen;
+ afs_fsize_t targLen;
VN_GET_LEN(targLen, targetptr);
if (targLen < SIZE2)
AFSCallStats.StoreSize2++;
else
AFSCallStats.StoreSize5++;
}
- FS_UNLOCK
- return(errorCode);
+ FS_UNLOCK;
+ return (errorCode);
-} /*StoreData_RXStyle*/
+} /*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;
+ sys2et[ENOTEMPTY] = UAENOTEMPTY;
+ sys2et[ELOOP] = UAELOOP;
+ sys2et[EWOULDBLOCK] = UAEWOULDBLOCK;
+ 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;
+}
+
+afs_int32
+SRXAFS_CallBackRxConnAddr (struct rx_call * acall, afs_int32 *addr)
+{
+ Error errorCode = 0;
+ struct host *thost;
+ struct client *tclient;
+ static struct rx_securityClass *sc = 0;
+ int i,j;
+ struct rx_connection *tcon;
+ struct rx_connection *conn;
+
+ if (errorCode = CallPreamble(acall, ACTIVECALL, &tcon))
+ goto Bad_CallBackRxConnAddr1;
+
+#ifndef __EXPERIMENTAL_CALLBACK_CONN_MOVING
+ errorCode = 1;
+#else
+ H_LOCK;
+ tclient = h_FindClient_r(tcon);
+ thost = tclient->host;
+
+ /* nothing more can be done */
+ if ( !thost->interface )
+ goto Bad_CallBackRxConnAddr;
+
+ assert(thost->interface->numberOfInterfaces > 0 );
+
+ /* 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_UNLOCK;
+ errorCode = CallPostamble(tcon, errorCode);
+ return errorCode;
+ } else {
+ rx_DestroyConnection(conn);
+ }
+ Bad_CallBackRxConnAddr:
+ H_UNLOCK;
+#endif
+
+ errorCode = CallPostamble(tcon, errorCode);
+ 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 (sys2et[in] != 0)
+ return sys2et[in];
+ return in;
+}