/*
* Copyright 2000, International Business Machines Corporation and others.
* All Rights Reserved.
- *
+ *
* This software has been released under the terms of the IBM Public
* License. For details, see the LICENSE file in the top-level source
* directory or online at http://www.openafs.org/dl/license10.html
#include <afsconfig.h>
#include <afs/param.h>
-RCSID
- ("$Header$");
+#include <roken.h>
#include <afs/stds.h>
#include <string.h>
+#include <ctype.h>
#ifdef AFS_NT40_ENV
#include <fcntl.h>
#include <winsock2.h>
ovlentry_to_nvlentry(struct vldbentry *oentryp,
struct nvldbentry *nentryp)
{
- register int i;
+ int i;
memset(nentryp, 0, sizeof(struct nvldbentry));
strncpy(nentryp->name, oentryp->name, sizeof(nentryp->name));
for (i = 0; i < oentryp->nServers; i++) {
- nentryp->serverNumber[i] = oentryp->serverNumber[i];
+ bulkaddrs m_addrs;
+ ListAddrByAttributes m_attrs;
+ afs_int32 m_nentries;
+
+ m_attrs.Mask = VLADDR_IPADDR;
+ m_attrs.ipaddr = oentryp->serverNumber[i];
+ m_nentries = 0;
+ m_addrs.bulkaddrs_val = 0;
+ m_addrs.bulkaddrs_len = 0;
+ nentryp->serverNumber[i] = oentryp->serverNumber[i];
nentryp->serverPartition[i] = oentryp->serverPartition[i];
nentryp->serverFlags[i] = oentryp->serverFlags[i];
}
nentryp->flags = oentryp->flags;
}
+#if 0
+/* It is here for when we need it. Not currently used. */
static int
nvlentry_to_ovlentry(struct nvldbentry *nentryp,
struct vldbentry *oentryp)
{
- register int i;
+ int i;
memset(oentryp, 0, sizeof(struct vldbentry));
strncpy(oentryp->name, nentryp->name, sizeof(oentryp->name));
oentryp->flags = nentryp->flags;
return 0;
}
+#endif
+
+static void
+ovlentry_to_uvlentry(struct vldbentry *oentryp,
+ struct uvldbentry *uentryp)
+{
+ int i;
+
+ memset(uentryp, 0, sizeof(struct uvldbentry));
+ strncpy(uentryp->name, oentryp->name, sizeof(uentryp->name));
+ for (i = 0; i < oentryp->nServers; i++) {
+ afs_int32 vcode, m_uniq=0;
+ bulkaddrs m_addrs;
+ ListAddrByAttributes m_attrs;
+ afs_int32 m_nentries;
+
+ m_attrs.Mask = VLADDR_IPADDR;
+ m_attrs.ipaddr = oentryp->serverNumber[i];
+ m_nentries = 0;
+ m_addrs.bulkaddrs_val = 0;
+ m_addrs.bulkaddrs_len = 0;
+ vcode =
+ ubik_VL_GetAddrsU(cstruct, 0, &m_attrs,
+ &uentryp->serverNumber[i],
+ &m_uniq, &m_nentries,
+ &m_addrs);
+ uentryp->serverUnique[i] = oentryp->serverNumber[i];
+ uentryp->serverPartition[i] = oentryp->serverPartition[i];
+ uentryp->serverFlags[i] = oentryp->serverFlags[i];
+ }
+ uentryp->nServers = oentryp->nServers;
+ for (i = 0; i < MAXTYPES; i++)
+ uentryp->volumeId[i] = oentryp->volumeId[i];
+ uentryp->cloneId = oentryp->cloneId;
+ uentryp->flags = oentryp->flags;
+}
+
+static int
+uvlentry_to_ovlentry(struct uvldbentry *uentryp,
+ struct vldbentry *oentryp)
+{
+ int i;
+
+ memset(oentryp, 0, sizeof(struct vldbentry));
+ strncpy(oentryp->name, uentryp->name, sizeof(oentryp->name));
+ if (uentryp->nServers > OMAXNSERVERS) {
+ /*
+ * The alternative is to store OMAXSERVERS but it's always better
+ * to know what's going on...
+ */
+ return VL_BADSERVER;
+ }
+ for (i = 0; i < uentryp->nServers; i++) {
+ oentryp->serverNumber[i] = uentryp->serverUnique[i];
+ oentryp->serverPartition[i] = uentryp->serverPartition[i];
+ oentryp->serverFlags[i] = uentryp->serverFlags[i];
+ }
+ oentryp->nServers = i;
+ for (i = 0; i < MAXTYPES; i++)
+ oentryp->volumeId[i] = uentryp->volumeId[i];
+ oentryp->cloneId = uentryp->cloneId;
+ oentryp->flags = uentryp->flags;
+ return 0;
+}
+
+void
+nvlentry_to_uvlentry(struct nvldbentry *nentryp,
+ struct uvldbentry *uentryp)
+{
+ int i;
+
+ memset(uentryp, 0, sizeof(struct uvldbentry));
+ strncpy(uentryp->name, nentryp->name, sizeof(uentryp->name));
+ for (i = 0; i < nentryp->nServers; i++) {
+ afs_int32 vcode, m_uniq=0;
+ bulkaddrs m_addrs;
+ ListAddrByAttributes m_attrs;
+ afs_int32 m_nentries;
+
+ m_attrs.Mask = VLADDR_IPADDR;
+ m_attrs.ipaddr = nentryp->serverNumber[i];
+ m_nentries = 0;
+ m_addrs.bulkaddrs_val = 0;
+ m_addrs.bulkaddrs_len = 0;
+ vcode =
+ ubik_VL_GetAddrsU(cstruct, 0, &m_attrs,
+ &uentryp->serverNumber[i],
+ &m_uniq, &m_nentries,
+ &m_addrs);
+ uentryp->serverUnique[i] = nentryp->serverNumber[i];
+ uentryp->serverPartition[i] = nentryp->serverPartition[i];
+ uentryp->serverFlags[i] = nentryp->serverFlags[i];
+ }
+ uentryp->nServers = nentryp->nServers;
+ for (i = 0; i < MAXTYPES; i++)
+ uentryp->volumeId[i] = nentryp->volumeId[i];
+ uentryp->cloneId = nentryp->cloneId;
+ uentryp->flags = nentryp->flags;
+ uentryp->matchindex = nentryp->matchindex;
+}
+
+int
+uvlentry_to_nvlentry(struct uvldbentry *uentryp,
+ struct nvldbentry *nentryp)
+{
+ int i;
+
+ memset(nentryp, 0, sizeof(struct vldbentry));
+ strncpy(nentryp->name, uentryp->name, sizeof(nentryp->name));
+ if (uentryp->nServers > NMAXNSERVERS) {
+ /*
+ * The alternative is to store NMAXSERVERS but it's always better
+ * to know what's going on...
+ */
+ return VL_BADSERVER;
+ }
+ for (i = 0; i < uentryp->nServers; i++) {
+ nentryp->serverNumber[i] = uentryp->serverUnique[i];
+ nentryp->serverPartition[i] = uentryp->serverPartition[i];
+ nentryp->serverFlags[i] = uentryp->serverFlags[i];
+ }
+ nentryp->nServers = i;
+ for (i = 0; i < MAXTYPES; i++)
+ nentryp->volumeId[i] = uentryp->volumeId[i];
+ nentryp->cloneId = uentryp->cloneId;
+ nentryp->flags = uentryp->flags;
+ nentryp->matchindex = uentryp->matchindex;
+ return 0;
+}
-static int newvlserver = 0;
+enum _vlserver_type {
+ vltype_unknown = 0,
+ vltype_old = 1,
+ vltype_new = 2,
+ vltype_uuid = 3
+};
+
+static enum _vlserver_type newvlserver = vltype_unknown;
int
VLDB_CreateEntry(struct nvldbentry *entryp)
{
- struct vldbentry oentry;
- register int code;
+ int code;
+ struct uvldbentry uentry;
+
+ nvlentry_to_uvlentry(entryp, &uentry);
+ code = VLDB_CreateEntryU(&uentry);
+ if (!code)
+ code = uvlentry_to_nvlentry(&uentry, entryp);
+ return code;
+}
- if (newvlserver == 1) {
+int
+VLDB_CreateEntryU(struct uvldbentry *entryp)
+{
+ struct nvldbentry nentry;
+ int code;
+
+ if (newvlserver == vltype_old) {
+ struct vldbentry oentry;
tryold:
- code = nvlentry_to_ovlentry(entryp, &oentry);
+ code = uvlentry_to_ovlentry(entryp, &oentry);
if (code)
return code;
code = ubik_VL_CreateEntry(cstruct, 0, &oentry);
return code;
}
- code = ubik_VL_CreateEntryN(cstruct, 0, entryp);
- if (!newvlserver) {
- if (code == RXGEN_OPCODE) {
- newvlserver = 1; /* Doesn't support new interface */
- goto tryold;
- } else if (!code) {
- newvlserver = 2;
- }
+
+ code = uvlentry_to_nvlentry(entryp, &nentry);
+ if (code)
+ return code;
+ code = ubik_VL_CreateEntryN(cstruct, 0, &nentry);
+ if (code == RXGEN_OPCODE) {
+ newvlserver = vltype_old;
+ goto tryold;
}
return code;
}
int
VLDB_GetEntryByID(afs_uint32 volid, afs_int32 voltype, struct nvldbentry *entryp)
{
- struct vldbentry oentry;
- register int code;
+ int code;
+ struct uvldbentry uentry;
+
+ nvlentry_to_uvlentry(entryp, &uentry);
+ code = VLDB_GetEntryByIDU(volid, voltype, &uentry);
+ if (!code)
+ code = uvlentry_to_nvlentry(&uentry, entryp);
+ return code;
+}
+
+int
+VLDB_GetEntryByIDU(afs_uint32 volid, afs_int32 voltype, struct uvldbentry *entryp)
+{
+ struct nvldbentry nentry;
+ int code;
- if (newvlserver == 1) {
+ if (newvlserver == vltype_old) {
+ struct vldbentry oentry;
tryold:
code =
ubik_VL_GetEntryByID(cstruct, 0, volid, voltype, &oentry);
if (!code)
- ovlentry_to_nvlentry(&oentry, entryp);
+ ovlentry_to_uvlentry(&oentry, entryp);
return code;
}
- code = ubik_VL_GetEntryByIDN(cstruct, 0, volid, voltype, entryp);
- if (!newvlserver) {
- if (code == RXGEN_OPCODE) {
- newvlserver = 1; /* Doesn't support new interface */
- goto tryold;
- } else if (!code) {
- newvlserver = 2;
- }
+
+ code = ubik_VL_GetEntryByIDN(cstruct, 0, volid, voltype, &nentry);
+ if (code == RXGEN_OPCODE) {
+ newvlserver = vltype_old;
+ goto tryold;
}
+ if (!code)
+ nvlentry_to_uvlentry(&nentry, entryp);
return code;
}
int
VLDB_GetEntryByName(char *namep, struct nvldbentry *entryp)
{
- struct vldbentry oentry;
- register int code;
+ int code;
+ struct uvldbentry uentry;
- if (newvlserver == 1) {
+ nvlentry_to_uvlentry(entryp, &uentry);
+ code = VLDB_GetEntryByNameU(namep, &uentry);
+ if (!code)
+ code = uvlentry_to_nvlentry(&uentry, entryp);
+ return code;
+}
+
+int
+VLDB_GetEntryByNameU(char *namep, struct uvldbentry *entryp)
+{
+ int code;
+
+ if (newvlserver == vltype_old) {
+ struct vldbentry oentry;
tryold:
code = ubik_VL_GetEntryByNameO(cstruct, 0, namep, &oentry);
if (!code)
- ovlentry_to_nvlentry(&oentry, entryp);
+ ovlentry_to_uvlentry(&oentry, entryp);
return code;
}
- code = ubik_VL_GetEntryByNameN(cstruct, 0, namep, entryp);
- if (!newvlserver) {
+ if (newvlserver == vltype_new) {
+ struct nvldbentry nentry;
+ trynew:
+ code = ubik_VL_GetEntryByNameN(cstruct, 0, namep, &nentry);
+ if (code == RXGEN_OPCODE) {
+ newvlserver = vltype_old;
+ goto tryold;
+ }
+ if (!code)
+ nvlentry_to_uvlentry(&nentry, entryp);
+ }
+ code = ubik_VL_GetEntryByNameU(cstruct, 0, namep, entryp);
+ if (newvlserver == vltype_unknown) {
if (code == RXGEN_OPCODE) {
- newvlserver = 1; /* Doesn't support new interface */
- goto tryold;
+ newvlserver = vltype_new;
+ goto trynew;
} else if (!code) {
- newvlserver = 2;
+ newvlserver = vltype_uuid;
}
}
return code;
}
-int
-VLDB_ReplaceEntry(afs_uint32 volid, afs_int32 voltype, struct nvldbentry *entryp, afs_int32 releasetype)
+int
+VLDB_ReplaceEntry(afs_uint32 volid, afs_int32 voltype, struct nvldbentry *nentryp, afs_int32 releasetype)
{
- struct vldbentry oentry;
- register int code;
+ struct uvldbentry uentry;
+ int code;
- if (newvlserver == 1) {
+ nvlentry_to_uvlentry(nentryp, &uentry);
+ code = VLDB_ReplaceEntryU(volid, voltype, &uentry, releasetype);
+ if (!code)
+ code = uvlentry_to_nvlentry(&uentry, nentryp);
+
+ return code;
+}
+
+int
+VLDB_ReplaceEntryU(afs_uint32 volid, afs_int32 voltype, struct uvldbentry *entryp, afs_int32 releasetype)
+{
+ int code;
+ struct nvldbentry nentry;
+
+ if (newvlserver == vltype_old) {
+ struct vldbentry oentry;
tryold:
- code = nvlentry_to_ovlentry(entryp, &oentry);
+ code = uvlentry_to_ovlentry(entryp, &oentry);
if (code)
return code;
code =
- ubik_VL_ReplaceEntry(cstruct, 0, volid, voltype, &oentry,
- releasetype);
+ ubik_VL_ReplaceEntry(cstruct, 0, volid, voltype, &oentry, releasetype);
return code;
}
- code =
- ubik_VL_ReplaceEntryN(cstruct, 0, volid, voltype, entryp,
- releasetype);
- if (!newvlserver) {
- if (code == RXGEN_OPCODE) {
- newvlserver = 1; /* Doesn't support new interface */
- goto tryold;
- } else if (!code) {
- newvlserver = 2;
- }
+ code = uvlentry_to_nvlentry(entryp, &nentry);
+ if (code)
+ return code;
+ code = ubik_VL_ReplaceEntryN(cstruct, 0, volid, voltype, &nentry, releasetype);
+ if (code == RXGEN_OPCODE) {
+ newvlserver = vltype_old;
+ goto tryold;
}
return code;
}
+static void
+convertBulkToNBulk(bulkentries *bulk, nbulkentries *nbulk) {
+ int i;
+
+ if (bulk->bulkentries_len == 0)
+ return;
+
+ nbulk->nbulkentries_len = bulk->bulkentries_len;
+ nbulk->nbulkentries_val =
+ xdr_alloc(bulk->bulkentries_len * sizeof(struct nvldbentry));
+
+ for (i = 0; i < bulk->bulkentries_len; i++) {
+ ovlentry_to_nvlentry(&bulk->bulkentries_val[i],
+ &nbulk->nbulkentries_val[i]);
+ }
+}
+
+static void
+convertBulkToUBulk(bulkentries *bulk, ubulkentries *ubulk) {
+ int i;
+
+ if (bulk->bulkentries_len == 0)
+ return;
+
+ ubulk->ubulkentries_len = bulk->bulkentries_len;
+ ubulk->ubulkentries_val =
+ xdr_alloc(bulk->bulkentries_len * sizeof(struct uvldbentry));
+ for (i = 0; i < bulk->bulkentries_len; i++) {
+ ovlentry_to_uvlentry(&bulk->bulkentries_val[i],
+ &ubulk->ubulkentries_val[i]);
+ }
+}
+
+static void
+convertNBulkToUBulk(nbulkentries *nbulk, ubulkentries *ubulk) {
+ int i;
+
+ if (nbulk->nbulkentries_len == 0)
+ return;
+
+ ubulk->ubulkentries_len = nbulk->nbulkentries_len;
+ ubulk->ubulkentries_val =
+ xdr_alloc(nbulk->nbulkentries_len * sizeof(struct uvldbentry));
+ for (i = 0; i < nbulk->nbulkentries_len; i++) { /* process each entry */
+ nvlentry_to_uvlentry(&nbulk->nbulkentries_val[i],
+ &ubulk->ubulkentries_val[i]);
+ }
+}
int
VLDB_ListAttributes(VldbListByAttributes *attrp,
afs_int32 *entriesp,
nbulkentries *blkentriesp)
{
- bulkentries arrayEntries;
- register int code, i;
+ int code;
- if (newvlserver == 1) {
+ if (newvlserver == vltype_old) {
+ bulkentries arrayEntries;
tryold:
- memset(&arrayEntries, 0, sizeof(arrayEntries)); /*initialize to hint the stub to alloc space */
+ memset(&arrayEntries, 0, sizeof(arrayEntries));
code =
ubik_VL_ListAttributes(cstruct, 0, attrp, entriesp,
&arrayEntries);
- if (!code) {
- blkentriesp->nbulkentries_val =
- (nvldbentry *) malloc(*entriesp * sizeof(struct nvldbentry));
- for (i = 0; i < *entriesp; i++) { /* process each entry */
- ovlentry_to_nvlentry(&arrayEntries.bulkentries_val[i],
- &blkentriesp->nbulkentries_val[i]);
- }
- }
- if (arrayEntries.bulkentries_val)
- free(arrayEntries.bulkentries_val);
+
+ if (code)
+ return code;
+
+ /* Ensure the number of entries claimed matches the no. returned */
+ if (*entriesp < 0)
+ *entriesp = 0;
+ if (*entriesp > arrayEntries.bulkentries_len)
+ *entriesp = arrayEntries.bulkentries_len;
+
+ convertBulkToNBulk(&arrayEntries, blkentriesp);
+
+ xdr_free((xdrproc_t) xdr_bulkentries, &arrayEntries);
return code;
}
+
code =
- ubik_VL_ListAttributesN(cstruct, 0, attrp, entriesp,
- blkentriesp);
- if (!newvlserver) {
- if (code == RXGEN_OPCODE) {
- newvlserver = 1; /* Doesn't support new interface */
- goto tryold;
- } else if (!code) {
- newvlserver = 2;
- }
+ ubik_VL_ListAttributesN(cstruct, 0, attrp, entriesp, blkentriesp);
+ if (code == RXGEN_OPCODE) {
+ newvlserver = vltype_old; /* Doesn't support new interface */
+ goto tryold;
}
+
+ if (code)
+ return code;
+
+ /* Ensure the number of entries claimed matches the no. returned */
+ if (*entriesp < 0)
+ *entriesp = 0;
+ if (*entriesp > blkentriesp->nbulkentries_len)
+ *entriesp = blkentriesp->nbulkentries_len;
+
+ return code;
+}
+
+int
+VLDB_ListAttributesU(VldbListByAttributes *attrp,
+ afs_int32 *entriesp,
+ ubulkentries *blkentriesp)
+{
+ nbulkentries narrayEntries;
+ int code;
+
+ if (newvlserver == vltype_old) {
+ bulkentries arrayEntries;
+ tryold:
+ memset(&arrayEntries, 0, sizeof(arrayEntries));
+ code =
+ ubik_VL_ListAttributes(cstruct, 0, attrp, entriesp,
+ &arrayEntries);
+ if (code)
+ return code;
+
+ /* Ensure the number of entries claimed matches the no. returned */
+ if (*entriesp < 0)
+ *entriesp = 0;
+ if (*entriesp > arrayEntries.bulkentries_len)
+ *entriesp = arrayEntries.bulkentries_len;
+
+ convertBulkToUBulk(&arrayEntries, blkentriesp);
+
+ xdr_free((xdrproc_t) xdr_bulkentries, &arrayEntries);
+ return code;
+ }
+
+ memset(&narrayEntries, 0, sizeof(narrayEntries));
+ code =
+ ubik_VL_ListAttributesN(cstruct, 0, attrp, entriesp, &narrayEntries);
+ if (code == RXGEN_OPCODE) {
+ newvlserver = vltype_old; /* Doesn't support new interface */
+ goto tryold;
+ }
+ if (code)
+ return code;
+
+ /* Ensure the number of entries claimed matches the no. returned */
+ if (*entriesp < 0)
+ *entriesp = 0;
+ if (*entriesp > narrayEntries.nbulkentries_len)
+ *entriesp = narrayEntries.nbulkentries_len;
+
+ convertNBulkToUBulk(&narrayEntries, blkentriesp);
+
+ xdr_free((xdrproc_t) xdr_bulkentries, &narrayEntries);
return code;
}
nbulkentries *blkentriesp,
afs_int32 *nextindexp)
{
- afs_int32 code;
+ afs_int32 code = RXGEN_OPCODE;
- code =
- ubik_VL_ListAttributesN2(cstruct, 0, attrp, (name ? name : ""),
- thisindex, nentriesp, blkentriesp, nextindexp);
+ if (newvlserver != vltype_old) {
+ code =
+ ubik_VL_ListAttributesN2(cstruct, 0, attrp, (name ? name : ""),
+ thisindex, nentriesp, blkentriesp, nextindexp);
+ if (code)
+ return code;
+
+ /* Ensure the number of entries claimed matches the no. returned */
+ if (*nentriesp < 0)
+ *nentriesp = 0;
+ if (*nentriesp > blkentriesp->nbulkentries_len)
+ *nentriesp = blkentriesp->nbulkentries_len;
+ }
+ return code;
+}
+
+int
+VLDB_ListAttributesN2U(VldbListByAttributes *attrp,
+ char *name,
+ afs_int32 thisindex,
+ afs_int32 *nentriesp,
+ ubulkentries *blkentriesp,
+ afs_int32 *nextindexp)
+{
+ afs_int32 code = RXGEN_OPCODE;
+
+ if (newvlserver != vltype_old) {
+ nbulkentries narrayEntries;
+
+ memset(&narrayEntries, 0, sizeof(narrayEntries)); /*initialize to hint the stub to alloc space */
+ code =
+ ubik_VL_ListAttributesN2(cstruct, 0, attrp, (name ? name : ""),
+ thisindex, nentriesp, &narrayEntries, nextindexp);
+ if (code)
+ return code;
+
+ /* Ensure the number of entries claimed matches the no. returned */
+ if (*nentriesp < 0)
+ *nentriesp = 0;
+ if (*nentriesp > narrayEntries.nbulkentries_len)
+ *nentriesp = narrayEntries.nbulkentries_len;
+
+ convertNBulkToUBulk(&narrayEntries, blkentriesp);
+
+ xdr_free((xdrproc_t) xdr_bulkentries, &narrayEntries);
+ return code;
+ }
return code;
}
-static int vlserverv4 = -1;
struct cacheips {
- afs_int32 server;
+ afs_uint32 server;
afs_int32 count;
afs_uint32 addrs[16];
};
int cacheip_index = 0;
int
-VLDB_IsSameAddrs(afs_int32 serv1, afs_int32 serv2, afs_int32 *errorp)
+VLDB_IsSameAddrs(afs_uint32 serv1, afs_uint32 serv2, afs_int32 *errorp)
{
- register int code;
+ int code;
ListAddrByAttributes attrs;
bulkaddrs addrs;
- afs_uint32 *addrp, nentries, unique, i, j, f1, f2;
+ afs_uint32 *addrp, f1, f2;
+ afs_int32 i, j, unique, nentries;
afsUUID uuid;
static int initcache = 0;
if (serv1 == serv2)
return 1;
- if (vlserverv4 == 1) {
+ if (newvlserver == vltype_old ||
+ newvlserver == vltype_new) {
return 0;
}
if (!initcache) {
code =
ubik_VL_GetAddrsU(cstruct, 0, &attrs, &uuid, &unique, &nentries,
&addrs);
- if (vlserverv4 == -1) {
+ if (newvlserver == vltype_unknown) {
if (code == RXGEN_OPCODE) {
- vlserverv4 = 1; /* Doesn't support new interface */
+ newvlserver = vltype_new;
return 0;
} else if (!code) {
- vlserverv4 = 2;
+ newvlserver = vltype_uuid;
}
}
if (code == VL_NOENT)
Get the appropriate type of ubik client structure out from the system.
*/
afs_int32
-vsu_ClientInit(int noAuthFlag, char *confDir, char *cellName, afs_int32 sauth,
- struct ubik_client **uclientp, int (*secproc)())
+vsu_ClientInit(int noAuthFlag, const char *confDir, char *cellName, afs_int32 sauth,
+ struct ubik_client **uclientp,
+ int (*secproc)(struct rx_securityClass *, afs_int32))
{
- return ugen_ClientInit(noAuthFlag, confDir, cellName, sauth, uclientp,
+ return ugen_ClientInit(noAuthFlag, confDir, cellName, sauth, uclientp,
secproc, "vsu_ClientInit", vsu_rxkad_level,
VLDB_MAXSERVERS, AFSCONF_VLDBSERVICE, 90,
0, 0, USER_SERVICE_ID);
vsu_ExtractName(char rname[], char name[])
{
char sname[VOLSER_OLDMAXVOLNAME + 1];
- int total;
+ size_t total;
strncpy(sname, name, sizeof(sname));
sname[sizeof(sname) - 1] = '\0';
}
}
-
/* returns 0 if failed */
afs_uint32
vsu_GetVolumeID(char *astring, struct ubik_client *acstruct, afs_int32 *errp)
{
char volname[VOLSER_OLDMAXVOLNAME + 1];
- struct nvldbentry entry;
+ struct uvldbentry entry;
afs_int32 vcode = 0;
- int total;
+ size_t total;
*errp = 0;
char *end;
afs_uint32 result;
result = strtoul(astring, &end, 10);
- if (result != ULONG_MAX && *end == '\0')
+ if (result != UINT_MAX && *end == '\0')
return result;
}
/* It was not a volume number but something else */
total = strlen(astring);
vsu_ExtractName(volname, astring);
- vcode = VLDB_GetEntryByName(volname, &entry);
+ vcode = VLDB_GetEntryByNameU(volname, &entry);
if (!vcode) {
- if (!strcmp(&astring[total - 9], ".readonly"))
+ if ((total >= 9) && (!strcmp(&astring[total - 9], ".readonly")))
return entry.volumeId[ROVOL];
- else if ((!strcmp(&astring[total - 7], ".backup")))
+ else if ((total >= 7) && (!strcmp(&astring[total - 7], ".backup")))
return entry.volumeId[BACKVOL];
else
return (entry.volumeId[RWVOL]);