/*
* 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 <sys/types.h>
-#include <stdio.h>
#include <lock.h>
#include <afs/afsutil.h>
#include <ubik.h>
#include <rx/xdr.h>
#include <rx/rx.h>
-#ifdef AFS_NT40_ENV
-#include <winsock2.h>
-#else
-#include <netinet/in.h>
-#endif
-#ifdef HAVE_STRING_H
-#include <string.h>
-#else
-#ifdef HAVE_STRINGS_H
-#include <strings.h>
-#endif
-#endif
+#include <rx/rxkad.h>
#include <afs/keys.h>
+#include <afs/cellconfig.h>
+
#include "vlserver.h"
+#include "vlserver_internal.h"
#include "afs/audit.h"
-#ifndef AFS_NT40_ENV
-#include <unistd.h>
+
+#ifdef HAVE_POSIX_REGEX /* use POSIX regexp library */
+#include <regex.h>
#endif
extern int smallMem;
-extern extent_mod;
+extern int extent_mod;
extern struct afsconf_dir *vldb_confdir;
extern struct ubik_dbase *VL_dbase;
-struct vlheader cheader; /* kept in network byte order */
-extern afs_uint32 HostAddress[]; /* host addresses kept in host byte order */
int maxnservers;
-struct extentaddr *ex_addr[VL_MAX_ADDREXTBLKS] = { 0, 0, 0, 0 };
-static char rxinfo_str[128]; /* Need rxinfo string to be non-local */
-#define ABORT(c) { errorcode = (c); goto abort; }
+#define ABORT(c) do { \
+ errorcode = (c); \
+ goto abort; \
+} while (0)
#undef END
-#define END(c) { errorcode = (c); goto end; }
+#define END(c) do { \
+ errorcode = (c); \
+ goto end; \
+} while (0)
#define VLDBALLOCLIMIT 10000
#define VLDBALLOCINCR 2048
-static int put_attributeentry();
-static int put_nattributeentry();
-static int RemoveEntry();
-static ReleaseEntry();
-static int check_vldbentry();
-static int check_nvldbentry();
-static int vldbentry_to_vlentry();
-static int nvldbentry_to_vlentry();
-static get_vldbupdateentry();
-static int repsite_exists();
-static repsite_compress();
-static vlentry_to_vldbentry();
-static vlentry_to_nvldbentry();
-static vlentry_to_uvldbentry();
-static int InvalidVolname();
-static int InvalidVoltype();
-static int InvalidOperation();
-static int InvalidReleasetype();
-static int IpAddrToRelAddr();
-static int ChangeIPAddr();
-
-char *
-rxinfo(rxcall)
- struct rx_call *rxcall;
+static int put_attributeentry(struct vl_ctx *ctx,
+ struct vldbentry **, struct vldbentry **,
+ struct vldbentry **, bulkentries *,
+ struct nvlentry *, afs_int32 *, afs_int32 *);
+static int put_nattributeentry(struct vl_ctx *ctx,
+ struct nvldbentry **, struct nvldbentry **,
+ struct nvldbentry **, nbulkentries *,
+ struct nvlentry *, afs_int32, afs_int32,
+ afs_int32 *, afs_int32 *);
+static int RemoveEntry(struct vl_ctx *ctx, afs_int32 entryptr,
+ struct nvlentry *tentry);
+static void ReleaseEntry(struct nvlentry *tentry, afs_int32 releasetype);
+static int check_vldbentry(struct vldbentry *aentry);
+static int check_nvldbentry(struct nvldbentry *aentry);
+static int vldbentry_to_vlentry(struct vl_ctx *ctx,
+ struct vldbentry *VldbEntry,
+ struct nvlentry *VlEntry);
+static int nvldbentry_to_vlentry(struct vl_ctx *ctx,
+ struct nvldbentry *VldbEntry,
+ struct nvlentry *VlEntry);
+static int get_vldbupdateentry(struct vl_ctx *ctx, afs_int32 blockindex,
+ struct VldbUpdateEntry *updateentry,
+ struct nvlentry *VlEntry);
+static int repsite_exists(struct nvlentry *VlEntry, int server, int partition);
+static void repsite_compress(struct nvlentry *VlEntry, int offset);
+static void vlentry_to_vldbentry(struct vl_ctx *ctx,
+ struct nvlentry *VlEntry,
+ struct vldbentry *VldbEntry);
+static void vlentry_to_nvldbentry(struct vl_ctx *ctx,
+ struct nvlentry *VlEntry,
+ struct nvldbentry *VldbEntry);
+static void vlentry_to_uvldbentry(struct vl_ctx *ctx,
+ struct nvlentry *VlEntry,
+ struct uvldbentry *VldbEntry);
+static int InvalidVolname(char *volname);
+static int InvalidVoltype(afs_int32 voltype);
+static int InvalidOperation(afs_int32 voloper);
+static int InvalidReleasetype(afs_int32 releasetype);
+static int IpAddrToRelAddr(struct vl_ctx *ctx, afs_uint32 ipaddr, int create);
+static int ChangeIPAddr(struct vl_ctx *ctx, afs_uint32 ipaddr1,
+ afs_uint32 ipaddr2);
+
+#define AFS_RXINFO_LEN 128
+static char *
+rxinfo(char * str, struct rx_call *rxcall)
{
int code;
- register struct rx_connection *tconn;
- char tname[64];
- char tinst[64];
- char tcell[64];
+ struct rx_connection *tconn;
+ char tname[64] = "";
+ char tinst[64] = "";
+ char tcell[64] = "";
afs_uint32 exp;
struct in_addr hostAddr;
rxkad_GetServerInfo(rxcall->conn, NULL, &exp, tname, tinst, tcell,
NULL);
if (!code)
- sprintf(rxinfo_str, "%s %s", inet_ntoa(hostAddr), tname);
+ sprintf(str, "%s %s%s%s%s%s", inet_ntoa(hostAddr), tname,
+ (tinst[0] == '\0') ? "" : ".",
+ (tinst[0] == '\0') ? "" : tinst,
+ (tcell[0] == '\0') ? "" : "@",
+ (tcell[0] == '\0') ? "" : tcell);
else
- sprintf(rxinfo_str, "%s noauth", inet_ntoa(hostAddr));
- return (rxinfo_str);
+ sprintf(str, "%s noauth", inet_ntoa(hostAddr));
+ return (str);
}
/* This is called to initialize the database, set the appropriate locks and make sure that the vldb header is valid */
int
-Init_VLdbase(trans, locktype, this_op)
- struct ubik_trans **trans;
- int locktype; /* indicate read or write transaction */
- int this_op;
+Init_VLdbase(struct vl_ctx *ctx,
+ int locktype, /* indicate read or write transaction */
+ int this_op)
{
int errorcode = 0, pass, wl;
for (pass = 1; pass <= 3; pass++) {
if (pass == 2) { /* take write lock to rebuild the db */
- errorcode = ubik_BeginTrans(VL_dbase, UBIK_WRITETRANS, trans);
+ errorcode = ubik_BeginTrans(VL_dbase, UBIK_WRITETRANS, &ctx->trans);
wl = 1;
} else if (locktype == LOCKREAD) {
errorcode =
- ubik_BeginTransReadAny(VL_dbase, UBIK_READTRANS, trans);
+ ubik_BeginTransReadAnyWrite(VL_dbase, UBIK_READTRANS, &ctx->trans);
wl = 0;
} else {
- errorcode = ubik_BeginTrans(VL_dbase, UBIK_WRITETRANS, trans);
+ errorcode = ubik_BeginTrans(VL_dbase, UBIK_WRITETRANS, &ctx->trans);
wl = 1;
}
if (errorcode)
return errorcode;
- errorcode = ubik_SetLock(*trans, 1, 1, locktype);
+ errorcode = ubik_SetLock(ctx->trans, 1, 1, locktype);
if (errorcode) {
COUNT_ABO;
- ubik_AbortTrans(*trans);
+ ubik_AbortTrans(ctx->trans);
return errorcode;
}
/* check that dbase is initialized and setup cheader */
/* 2nd pass we try to rebuild the header */
- errorcode = CheckInit(*trans, ((pass == 2) ? 1 : 0));
+ errorcode = CheckInit(ctx->trans, ((pass == 2) ? 1 : 0));
if (!errorcode && wl && extent_mod)
- errorcode = readExtents(*trans); /* Fix the mh extent blocks */
+ errorcode = readExtents(ctx->trans); /* Fix the mh extent blocks */
if (errorcode) {
COUNT_ABO;
- ubik_AbortTrans(*trans);
+ ubik_AbortTrans(ctx->trans);
/* Only rebuld if the database is empty */
/* Exit if can't rebuild */
if ((pass == 1) && (errorcode != VL_EMPTY))
return errorcode;
} else { /* No errorcode */
if (pass == 2) {
- ubik_EndTrans(*trans); /* Rebuilt db. End trans, then retake original lock */
+ ubik_EndTrans(ctx->trans); /* Rebuilt db. End trans, then retake original lock */
} else {
break; /* didn't rebuild and successful - exit */
}
}
}
+ if (errorcode == 0) {
+ errorcode = vlsetcache(ctx, locktype);
+ }
return errorcode;
}
-/* Create a new vldb entry; both new volume id and name must be unique (non-existant in vldb). */
+/* Create a new vldb entry; both new volume id and name must be unique
+ * (non-existant in vldb).
+ */
afs_int32
-SVL_CreateEntry(rxcall, newentry)
- struct rx_call *rxcall;
- struct vldbentry *newentry;
+SVL_CreateEntry(struct rx_call *rxcall, struct vldbentry *newentry)
{
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
afs_int32 errorcode, blockindex;
struct nvlentry tentry;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLCREATEENTRY);
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL)) {
/* Do some validity tests on new entry */
if ((errorcode = check_vldbentry(newentry))
- || (errorcode = Init_VLdbase(&trans, LOCKWRITE, this_op)))
+ || (errorcode = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
goto end;
VLog(1,
("OCreate Volume %d %s\n", newentry->volumeId[RWVOL],
- rxinfo(rxcall)));
- /* XXX shouldn't we check to see if the r/o volume is duplicated? */
- if (newentry->volumeId[RWVOL]
- && FindByID(trans, newentry->volumeId[RWVOL], RWVOL, &tentry, &errorcode)) { /* entry already exists, we fail */
+ rxinfo(rxstr, rxcall)));
+ if (EntryIDExists(&ctx, newentry->volumeId, MAXTYPES, &errorcode)) {
+ /* at least one of the specified IDs already exists; we fail */
errorcode = VL_IDEXIST;
goto abort;
} else if (errorcode) {
/* Is this following check (by volume name) necessary?? */
/* If entry already exists, we fail */
- if (FindByName(trans, newentry->name, &tentry, &errorcode)) {
+ if (FindByName(&ctx, newentry->name, &tentry, &errorcode)) {
errorcode = VL_NAMEEXIST;
goto abort;
} else if (errorcode) {
goto abort;
}
- blockindex = AllocBlock(trans, &tentry);
+ blockindex = AllocBlock(&ctx, &tentry);
if (blockindex == 0) {
errorcode = VL_CREATEFAIL;
goto abort;
memset(&tentry, 0, sizeof(struct nvlentry));
/* Convert to its internal representation; both in host byte order */
- if (errorcode = vldbentry_to_vlentry(trans, newentry, &tentry)) {
- FreeBlock(trans, blockindex);
+ if ((errorcode = vldbentry_to_vlentry(&ctx, newentry, &tentry))) {
+ FreeBlock(&ctx, blockindex);
goto abort;
}
/* Actually insert the entry in vldb */
- errorcode = ThreadVLentry(trans, blockindex, &tentry);
+ errorcode = ThreadVLentry(&ctx, blockindex, &tentry);
if (errorcode) {
- FreeBlock(trans, blockindex);
+ FreeBlock(&ctx, blockindex);
goto abort;
} else {
- errorcode = ubik_EndTrans(trans);
+ errorcode = ubik_EndTrans(ctx.trans);
goto end;
}
abort:
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
end:
osi_auditU(rxcall, VLCreateEntryEvent, errorcode, AUD_STR,
afs_int32
-SVL_CreateEntryN(rxcall, newentry)
- struct rx_call *rxcall;
- struct nvldbentry *newentry;
+SVL_CreateEntryN(struct rx_call *rxcall, struct nvldbentry *newentry)
{
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
afs_int32 errorcode, blockindex;
struct nvlentry tentry;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLCREATEENTRYN);
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL)) {
/* Do some validity tests on new entry */
if ((errorcode = check_nvldbentry(newentry))
- || (errorcode = Init_VLdbase(&trans, LOCKWRITE, this_op)))
+ || (errorcode = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
goto end;
VLog(1,
("Create Volume %d %s\n", newentry->volumeId[RWVOL],
- rxinfo(rxcall)));
- /* XXX shouldn't we check to see if the r/o volume is duplicated? */
- if (newentry->volumeId[RWVOL]
- && FindByID(trans, newentry->volumeId[RWVOL], RWVOL, &tentry, &errorcode)) { /* entry already exists, we fail */
+ rxinfo(rxstr, rxcall)));
+ if (EntryIDExists(&ctx, newentry->volumeId, MAXTYPES, &errorcode)) {
+ /* at least one of the specified IDs already exists; we fail */
errorcode = VL_IDEXIST;
goto abort;
} else if (errorcode) {
/* Is this following check (by volume name) necessary?? */
/* If entry already exists, we fail */
- if (FindByName(trans, newentry->name, &tentry, &errorcode)) {
+ if (FindByName(&ctx, newentry->name, &tentry, &errorcode)) {
errorcode = VL_NAMEEXIST;
goto abort;
} else if (errorcode) {
goto abort;
}
- blockindex = AllocBlock(trans, &tentry);
+ blockindex = AllocBlock(&ctx, &tentry);
if (blockindex == 0) {
errorcode = VL_CREATEFAIL;
goto abort;
memset(&tentry, 0, sizeof(struct nvlentry));
/* Convert to its internal representation; both in host byte order */
- if (errorcode = nvldbentry_to_vlentry(trans, newentry, &tentry)) {
- FreeBlock(trans, blockindex);
+ if ((errorcode = nvldbentry_to_vlentry(&ctx, newentry, &tentry))) {
+ FreeBlock(&ctx, blockindex);
goto abort;
}
/* Actually insert the entry in vldb */
- errorcode = ThreadVLentry(trans, blockindex, &tentry);
+ errorcode = ThreadVLentry(&ctx, blockindex, &tentry);
if (errorcode) {
- FreeBlock(trans, blockindex);
+ FreeBlock(&ctx, blockindex);
goto abort;
} else {
- errorcode = ubik_EndTrans(trans);
+ errorcode = ubik_EndTrans(ctx.trans);
goto end;
}
abort:
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
end:
osi_auditU(rxcall, VLCreateEntryEvent, errorcode, AUD_STR,
afs_int32
-SVL_ChangeAddr(rxcall, ip1, ip2)
- struct rx_call *rxcall;
- afs_int32 ip1, ip2;
+SVL_ChangeAddr(struct rx_call *rxcall, afs_uint32 ip1, afs_uint32 ip2)
{
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
afs_int32 errorcode;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLCHANGEADDR);
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL)) {
goto end;
}
- if (errorcode = Init_VLdbase(&trans, LOCKWRITE, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
goto end;
- VLog(1, ("Change Addr %d -> %d %s\n", ip1, ip2, rxinfo(rxcall)));
- if (errorcode = ChangeIPAddr(ip1, ip2, trans))
+ VLog(1, ("Change Addr %u -> %u %s\n", ip1, ip2, rxinfo(rxstr, rxcall)));
+ if ((errorcode = ChangeIPAddr(&ctx, ip1, ip2)))
goto abort;
else {
- errorcode = ubik_EndTrans(trans);
+ errorcode = ubik_EndTrans(ctx.trans);
goto end;
}
abort:
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
end:
osi_auditU(rxcall, VLChangeAddrEvent, errorcode, AUD_LONG, ip1, AUD_LONG,
/* Delete a vldb entry given the volume id. */
afs_int32
-SVL_DeleteEntry(rxcall, volid, voltype)
- struct rx_call *rxcall;
- afs_int32 volid;
- afs_int32 voltype;
+SVL_DeleteEntry(struct rx_call *rxcall, afs_uint32 volid, afs_int32 voltype)
{
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
afs_int32 blockindex, errorcode;
struct nvlentry tentry;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLDELETEENTRY);
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL))
if ((voltype != -1) && (InvalidVoltype(voltype)))
END(VL_BADVOLTYPE);
- if (errorcode = Init_VLdbase(&trans, LOCKWRITE, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
goto end;
- VLog(1, ("Delete Volume %d %s\n", volid, rxinfo(rxcall)));
- blockindex = FindByID(trans, volid, voltype, &tentry, &errorcode);
+ VLog(1, ("Delete Volume %u %s\n", volid, rxinfo(rxstr, rxcall)));
+ blockindex = FindByID(&ctx, volid, voltype, &tentry, &errorcode);
if (blockindex == 0) { /* volid not found */
if (!errorcode)
errorcode = VL_NOENT;
if (tentry.flags & VLDELETED) { /* Already deleted; return */
ABORT(VL_ENTDELETED);
}
- if (errorcode = RemoveEntry(trans, blockindex, &tentry)) {
+ if ((errorcode = RemoveEntry(&ctx, blockindex, &tentry))) {
goto abort;
}
- errorcode = (ubik_EndTrans(trans));
+ errorcode = (ubik_EndTrans(ctx.trans));
goto end;
abort:
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
end:
osi_auditU(rxcall, VLDeleteEntryEvent, errorcode, AUD_LONG, volid,
/* Get a vldb entry given its volume id; make sure it's not a deleted entry. */
-GetEntryByID(rxcall, volid, voltype, aentry, new, this_op)
- struct rx_call *rxcall;
- afs_int32 volid;
- afs_int32 voltype, new, this_op;
- char *aentry; /* entry data copied here */
+int
+GetEntryByID(struct rx_call *rxcall,
+ afs_uint32 volid,
+ afs_int32 voltype,
+ char *aentry, /* entry data copied here */
+ afs_int32 new,
+ afs_int32 this_op)
{
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
afs_int32 blockindex, errorcode;
struct nvlentry tentry;
+ char rxstr[AFS_RXINFO_LEN];
if ((voltype != -1) && (InvalidVoltype(voltype)))
return VL_BADVOLTYPE;
- if (errorcode = Init_VLdbase(&trans, LOCKREAD, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op)))
return errorcode;
- VLog(5, ("GetVolumeByID %d (%d) %s\n", volid, new, rxinfo(rxcall)));
- blockindex = FindByID(trans, volid, voltype, &tentry, &errorcode);
+ VLog(5, ("GetVolumeByID %u (%d) %s\n", volid, new,
+ rxinfo(rxstr, rxcall)));
+ blockindex = FindByID(&ctx, volid, voltype, &tentry, &errorcode);
if (blockindex == 0) { /* entry not found */
if (!errorcode)
errorcode = VL_NOENT;
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return errorcode;
}
if (tentry.flags & VLDELETED) { /* Entry is deleted! */
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_ENTDELETED;
}
/* Convert from the internal to external form */
if (new == 1)
- vlentry_to_nvldbentry(&tentry, (struct nvldbentry *)aentry);
+ vlentry_to_nvldbentry(&ctx, &tentry, (struct nvldbentry *)aentry);
else if (new == 2)
- vlentry_to_uvldbentry(&tentry, (struct uvldbentry *)aentry);
+ vlentry_to_uvldbentry(&ctx, &tentry, (struct uvldbentry *)aentry);
else
- vlentry_to_vldbentry(&tentry, (struct vldbentry *)aentry);
- return (ubik_EndTrans(trans));
+ vlentry_to_vldbentry(&ctx, &tentry, (struct vldbentry *)aentry);
+ return (ubik_EndTrans(ctx.trans));
}
afs_int32
-SVL_GetEntryByID(rxcall, volid, voltype, aentry)
- struct rx_call *rxcall;
- afs_int32 volid, voltype;
- vldbentry *aentry; /* entry data copied here */
+SVL_GetEntryByID(struct rx_call *rxcall,
+ afs_uint32 volid,
+ afs_int32 voltype,
+ vldbentry *aentry) /* entry data copied here */
{
COUNT_REQ(VLGETENTRYBYID);
return (GetEntryByID(rxcall, volid, voltype, (char *)aentry, 0, this_op));
}
afs_int32
-SVL_GetEntryByIDN(rxcall, volid, voltype, aentry)
- struct rx_call *rxcall;
- afs_int32 volid, voltype;
- nvldbentry *aentry; /* entry data copied here */
+SVL_GetEntryByIDN(struct rx_call *rxcall,
+ afs_uint32 volid,
+ afs_int32 voltype,
+ nvldbentry *aentry) /* entry data copied here */
{
COUNT_REQ(VLGETENTRYBYIDN);
return (GetEntryByID(rxcall, volid, voltype, (char *)aentry, 1, this_op));
}
afs_int32
-SVL_GetEntryByIDU(rxcall, volid, voltype, aentry)
- struct rx_call *rxcall;
- afs_int32 volid, voltype;
- uvldbentry *aentry; /* entry data copied here */
+SVL_GetEntryByIDU(struct rx_call *rxcall,
+ afs_uint32 volid,
+ afs_int32 voltype,
+ uvldbentry *aentry) /* entry data copied here */
{
COUNT_REQ(VLGETENTRYBYIDU);
return (GetEntryByID(rxcall, volid, voltype, (char *)aentry, 2, this_op));
-/* returns true if the id is a decimal integer, in which case we interpret it
- as an id. make the cache manager much simpler */
+/* returns true if the id is a decimal integer, in which case we interpret
+ * it as an id. make the cache manager much simpler */
static int
-NameIsId(aname)
- register char *aname;
+NameIsId(char *aname)
{
- register int tc;
- while (tc = *aname++) {
+ int tc;
+ while ((tc = *aname++)) {
if (tc > '9' || tc < '0')
return 0;
}
return 1;
}
-/* Get a vldb entry given the volume's name; of course, very similar to VLGetEntryByID() above. */
-GetEntryByName(rxcall, volname, aentry, new, this_op)
- struct rx_call *rxcall;
- char *volname;
- char *aentry; /* entry data copied here */
- int new, this_op;
+/* Get a vldb entry given the volume's name; of course, very similar to
+ * VLGetEntryByID() above. */
+afs_int32
+GetEntryByName(struct rx_call *rxcall,
+ char *volname,
+ char *aentry, /* entry data copied here */
+ int new,
+ int this_op)
{
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
afs_int32 blockindex, errorcode;
struct nvlentry tentry;
+ char rxstr[AFS_RXINFO_LEN];
if (NameIsId(volname)) {
return GetEntryByID(rxcall, atoi(volname), -1, aentry, new, this_op);
}
if (InvalidVolname(volname))
return VL_BADNAME;
- if (errorcode = Init_VLdbase(&trans, LOCKREAD, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op)))
return errorcode;
- VLog(5, ("GetVolumeByName %s (%d) %s\n", volname, new, rxinfo(rxcall)));
- blockindex = FindByName(trans, volname, &tentry, &errorcode);
+ VLog(5, ("GetVolumeByName %s (%d) %s\n", volname, new, rxinfo(rxstr, rxcall)));
+ blockindex = FindByName(&ctx, volname, &tentry, &errorcode);
if (blockindex == 0) { /* entry not found */
if (!errorcode)
errorcode = VL_NOENT;
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return errorcode;
}
if (tentry.flags & VLDELETED) { /* Entry is deleted */
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_ENTDELETED;
}
/* Convert to external entry representation */
if (new == 1)
- vlentry_to_nvldbentry(&tentry, (struct nvldbentry *)aentry);
+ vlentry_to_nvldbentry(&ctx, &tentry, (struct nvldbentry *)aentry);
else if (new == 2)
- vlentry_to_uvldbentry(&tentry, (struct uvldbentry *)aentry);
+ vlentry_to_uvldbentry(&ctx, &tentry, (struct uvldbentry *)aentry);
else
- vlentry_to_vldbentry(&tentry, (struct vldbentry *)aentry);
- return (ubik_EndTrans(trans));
+ vlentry_to_vldbentry(&ctx, &tentry, (struct vldbentry *)aentry);
+ return (ubik_EndTrans(ctx.trans));
}
afs_int32
-SVL_GetEntryByNameO(rxcall, volname, aentry)
- struct rx_call *rxcall;
- char *volname;
- struct vldbentry *aentry; /* entry data copied here */
+SVL_GetEntryByNameO(struct rx_call *rxcall,
+ char *volname,
+ struct vldbentry *aentry) /* entry data copied here */
{
COUNT_REQ(VLGETENTRYBYNAME);
return (GetEntryByName(rxcall, volname, (char *)aentry, 0, this_op));
afs_int32
-SVL_GetEntryByNameN(rxcall, volname, aentry)
- struct rx_call *rxcall;
- char *volname;
- struct nvldbentry *aentry; /* entry data copied here */
+SVL_GetEntryByNameN(struct rx_call *rxcall,
+ char *volname,
+ struct nvldbentry *aentry) /* entry data copied here */
{
COUNT_REQ(VLGETENTRYBYNAMEN);
return (GetEntryByName(rxcall, volname, (char *)aentry, 1, this_op));
}
afs_int32
-SVL_GetEntryByNameU(rxcall, volname, aentry)
- struct rx_call *rxcall;
- char *volname;
- struct uvldbentry *aentry; /* entry data copied here */
+SVL_GetEntryByNameU(struct rx_call *rxcall,
+ char *volname,
+ struct uvldbentry *aentry) /* entry data copied here */
{
COUNT_REQ(VLGETENTRYBYNAMEU);
return (GetEntryByName(rxcall, volname, (char *)aentry, 2, this_op));
/* Get the current value of the maximum volume id and bump the volume id counter by Maxvolidbump. */
afs_int32
-SVL_GetNewVolumeId(rxcall, Maxvolidbump, newvolumeid)
- struct rx_call *rxcall;
- afs_int32 Maxvolidbump;
- afs_int32 *newvolumeid;
+SVL_GetNewVolumeId(struct rx_call *rxcall, afs_uint32 Maxvolidbump,
+ afs_uint32 *newvolumeid)
{
- register afs_int32 errorcode, maxvolumeid;
- struct ubik_trans *trans;
+ afs_int32 errorcode;
+ afs_uint32 maxvolumeid;
+ struct vl_ctx ctx;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLGETNEWVOLUMEID);
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL))
if (Maxvolidbump < 0 || Maxvolidbump > MAXBUMPCOUNT)
END(VL_BADVOLIDBUMP);
- if (errorcode = Init_VLdbase(&trans, LOCKWRITE, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
goto end;
- *newvolumeid = maxvolumeid = ntohl(cheader.vital_header.MaxVolumeId);
+ *newvolumeid = maxvolumeid = NextUnusedID(&ctx,
+ ntohl(ctx.cheader->vital_header.MaxVolumeId), Maxvolidbump, &errorcode);
+ if (errorcode) {
+ goto abort;
+ }
+
maxvolumeid += Maxvolidbump;
- VLog(1, ("GetNewVolid newmax=%d %s\n", maxvolumeid, rxinfo(rxcall)));
- cheader.vital_header.MaxVolumeId = htonl(maxvolumeid);
- if (write_vital_vlheader(trans)) {
+ VLog(1, ("GetNewVolid newmax=%u %s\n", maxvolumeid, rxinfo(rxstr, rxcall)));
+ ctx.cheader->vital_header.MaxVolumeId = htonl(maxvolumeid);
+ if (write_vital_vlheader(&ctx)) {
ABORT(VL_IO);
}
- errorcode = (ubik_EndTrans(trans));
+ errorcode = (ubik_EndTrans(ctx.trans));
goto end;
abort:
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
end:
osi_auditU(rxcall, VLGetNewVolumeIdEvent, errorcode, AUD_END);
* VLUpdateEntry) is done. */
afs_int32
-SVL_ReplaceEntry(rxcall, volid, voltype, newentry, releasetype)
- struct rx_call *rxcall;
- afs_int32 volid;
- afs_int32 voltype;
- struct vldbentry *newentry;
- afs_int32 releasetype;
+SVL_ReplaceEntry(struct rx_call *rxcall, afs_uint32 volid, afs_int32 voltype,
+ struct vldbentry *newentry, afs_int32 releasetype)
{
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
afs_int32 blockindex, errorcode, typeindex;
int hashnewname;
int hashVol[MAXTYPES];
struct nvlentry tentry;
+ afs_uint32 checkids[MAXTYPES];
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLREPLACEENTRY);
for (typeindex = 0; typeindex < MAXTYPES; typeindex++)
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL))
END(VL_PERM);
- if (errorcode = check_vldbentry(newentry))
+ if ((errorcode = check_vldbentry(newentry)))
goto end;
if (voltype != -1 && InvalidVoltype(voltype))
if (releasetype && InvalidReleasetype(releasetype))
END(VL_BADRELLOCKTYPE);
- if (errorcode = Init_VLdbase(&trans, LOCKWRITE, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
goto end;
- VLog(1, ("OReplace Volume %d %s\n", volid, rxinfo(rxcall)));
+ VLog(1, ("OReplace Volume %u %s\n", volid, rxinfo(rxstr, rxcall)));
/* find vlentry we're changing */
- blockindex = FindByID(trans, volid, voltype, &tentry, &errorcode);
+ blockindex = FindByID(&ctx, volid, voltype, &tentry, &errorcode);
if (blockindex == 0) { /* entry not found */
if (!errorcode)
errorcode = VL_NOENT;
ABORT(VL_BADENTRY);
}
+ /* make sure none of the IDs we are changing to are already in use */
+ memset(&checkids, 0, sizeof(checkids));
+ for (typeindex = ROVOL; typeindex < MAXTYPES; typeindex++) {
+ if (tentry.volumeId[typeindex] != newentry->volumeId[typeindex]) {
+ checkids[typeindex] = newentry->volumeId[typeindex];
+ }
+ }
+ if (EntryIDExists(&ctx, checkids, MAXTYPES, &errorcode)) {
+ ABORT(VL_IDEXIST);
+ } else if (errorcode) {
+ goto abort;
+ }
+
+ /* make sure the name we're changing to doesn't already exist */
+ if (strcmp(newentry->name, tentry.name)) {
+ struct nvlentry tmp_entry;
+ if (FindByName(&ctx, newentry->name, &tmp_entry, &errorcode)) {
+ ABORT(VL_NAMEEXIST);
+ } else if (errorcode) {
+ goto abort;
+ }
+ }
+
/* unhash volid entries if they're disappearing or changing.
* Remember if we need to hash in the new value (we don't have to
* rehash if volid stays same */
for (typeindex = ROVOL; typeindex <= BACKVOL; typeindex++) {
if (tentry.volumeId[typeindex] != newentry->volumeId[typeindex]) {
if (tentry.volumeId[typeindex])
- if (errorcode =
- UnhashVolid(trans, typeindex, blockindex, &tentry)) {
+ if ((errorcode =
+ UnhashVolid(&ctx, typeindex, blockindex, &tentry))) {
goto abort;
}
/* we must rehash new id if the id is different and the ID is nonzero */
/* Rehash volname if it changes */
if (strcmp(newentry->name, tentry.name)) { /* Name changes; redo hashing */
- if (errorcode = UnhashVolname(trans, blockindex, &tentry)) {
+ if ((errorcode = UnhashVolname(&ctx, blockindex, &tentry))) {
goto abort;
}
hashnewname = 1;
/* after this, tentry is new entry, not old one. vldbentry_to_vlentry
* doesn't touch hash chains */
- if (errorcode = vldbentry_to_vlentry(trans, newentry, &tentry)) {
+ if ((errorcode = vldbentry_to_vlentry(&ctx, newentry, &tentry))) {
goto abort;
}
for (typeindex = ROVOL; typeindex <= BACKVOL; typeindex++) {
if (hashVol[typeindex] && tentry.volumeId[typeindex]) {
- if (errorcode = HashVolid(trans, typeindex, blockindex, &tentry)) {
+ if ((errorcode = HashVolid(&ctx, typeindex, blockindex, &tentry))) {
goto abort;
}
}
}
if (hashnewname)
- HashVolname(trans, blockindex, &tentry);
+ HashVolname(&ctx, blockindex, &tentry);
if (releasetype)
ReleaseEntry(&tentry, releasetype); /* Unlock entry if necessary */
- if (vlentrywrite(trans, blockindex, &tentry, sizeof(tentry))) {
+ if (vlentrywrite(ctx.trans, blockindex, &tentry, sizeof(tentry))) {
ABORT(VL_IO);
}
- END(ubik_EndTrans(trans));
+ END(ubik_EndTrans(ctx.trans));
abort:
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
end:
osi_auditU(rxcall, VLReplaceVLEntryEvent, errorcode, AUD_LONG, volid,
}
afs_int32
-SVL_ReplaceEntryN(rxcall, volid, voltype, newentry, releasetype)
- struct rx_call *rxcall;
- afs_int32 volid;
- afs_int32 voltype;
- struct nvldbentry *newentry;
- afs_int32 releasetype;
+SVL_ReplaceEntryN(struct rx_call *rxcall, afs_uint32 volid, afs_int32 voltype,
+ struct nvldbentry *newentry, afs_int32 releasetype)
{
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
afs_int32 blockindex, errorcode, typeindex;
int hashnewname;
int hashVol[MAXTYPES];
struct nvlentry tentry;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLREPLACEENTRYN);
for (typeindex = 0; typeindex < MAXTYPES; typeindex++)
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL))
END(VL_PERM);
- if (errorcode = check_nvldbentry(newentry))
+ if ((errorcode = check_nvldbentry(newentry)))
goto end;
if (voltype != -1 && InvalidVoltype(voltype))
if (releasetype && InvalidReleasetype(releasetype))
END(VL_BADRELLOCKTYPE);
- if (errorcode = Init_VLdbase(&trans, LOCKWRITE, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
goto end;
- VLog(1, ("Replace Volume %d %s\n", volid, rxinfo(rxcall)));
+ VLog(1, ("Replace Volume %u %s\n", volid, rxinfo(rxstr, rxcall)));
/* find vlentry we're changing */
- blockindex = FindByID(trans, volid, voltype, &tentry, &errorcode);
+ blockindex = FindByID(&ctx, volid, voltype, &tentry, &errorcode);
if (blockindex == 0) { /* entry not found */
if (!errorcode)
errorcode = VL_NOENT;
for (typeindex = ROVOL; typeindex <= BACKVOL; typeindex++) {
if (tentry.volumeId[typeindex] != newentry->volumeId[typeindex]) {
if (tentry.volumeId[typeindex])
- if (errorcode =
- UnhashVolid(trans, typeindex, blockindex, &tentry)) {
+ if ((errorcode =
+ UnhashVolid(&ctx, typeindex, blockindex, &tentry))) {
goto abort;
}
/* we must rehash new id if the id is different and the ID is nonzero */
/* Rehash volname if it changes */
if (strcmp(newentry->name, tentry.name)) { /* Name changes; redo hashing */
- if (errorcode = UnhashVolname(trans, blockindex, &tentry)) {
+ if ((errorcode = UnhashVolname(&ctx, blockindex, &tentry))) {
goto abort;
}
hashnewname = 1;
/* after this, tentry is new entry, not old one. vldbentry_to_vlentry
* doesn't touch hash chains */
- if (errorcode = nvldbentry_to_vlentry(trans, newentry, &tentry)) {
+ if ((errorcode = nvldbentry_to_vlentry(&ctx, newentry, &tentry))) {
goto abort;
}
for (typeindex = ROVOL; typeindex <= BACKVOL; typeindex++) {
if (hashVol[typeindex] && tentry.volumeId[typeindex]) {
- if (errorcode = HashVolid(trans, typeindex, blockindex, &tentry)) {
+ if ((errorcode = HashVolid(&ctx, typeindex, blockindex, &tentry))) {
goto abort;
}
}
}
if (hashnewname)
- HashVolname(trans, blockindex, &tentry);
+ HashVolname(&ctx, blockindex, &tentry);
if (releasetype)
ReleaseEntry(&tentry, releasetype); /* Unlock entry if necessary */
- if (vlentrywrite(trans, blockindex, &tentry, sizeof(tentry))) {
+ if (vlentrywrite(ctx.trans, blockindex, &tentry, sizeof(tentry))) {
ABORT(VL_IO);
}
- END(ubik_EndTrans(trans));
+ END(ubik_EndTrans(ctx.trans));
abort:
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
end:
osi_auditU(rxcall, VLReplaceVLEntryEvent, errorcode, AUD_LONG, volid,
}
-/* Update a vldb entry (accessed thru its volume id). Almost all of the entry's fields can be modified in a single call by setting the appropriate bits in the Mask field in VldbUpdateentry. */
-/* this routine may never have been tested; use replace entry instead unless you're brave */
+/* Update a vldb entry (accessed thru its volume id). Almost all of the
+ * entry's fields can be modified in a single call by setting the
+ * appropriate bits in the Mask field in VldbUpdateentry. */
+/* this routine may never have been tested; use replace entry instead
+ * unless you're brave */
afs_int32
-SVL_UpdateEntry(rxcall, volid, voltype, updateentry, releasetype)
- struct rx_call *rxcall;
- afs_int32 volid;
- afs_int32 voltype;
- afs_int32 releasetype;
- struct VldbUpdateEntry *updateentry; /* Update entry copied here */
+SVL_UpdateEntry(struct rx_call *rxcall,
+ afs_uint32 volid,
+ afs_int32 voltype,
+ struct VldbUpdateEntry *updateentry, /* Update entry copied here */
+ afs_int32 releasetype)
{
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
afs_int32 blockindex, errorcode;
struct nvlentry tentry;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLUPDATEENTRY);
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL))
END(VL_BADVOLTYPE);
if (releasetype && InvalidReleasetype(releasetype))
END(VL_BADRELLOCKTYPE);
- if (errorcode = Init_VLdbase(&trans, LOCKWRITE, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
goto end;
- VLog(1, ("Update Volume %d %s\n", volid, rxinfo(rxcall)));
- blockindex = FindByID(trans, volid, voltype, &tentry, &errorcode);
+ VLog(1, ("Update Volume %u %s\n", volid, rxinfo(rxstr, rxcall)));
+ blockindex = FindByID(&ctx, volid, voltype, &tentry, &errorcode);
if (blockindex == 0) { /* entry not found */
if (!errorcode)
errorcode = VL_NOENT;
}
/* Do the actual updating of the entry, tentry. */
- if (errorcode =
- get_vldbupdateentry(trans, blockindex, updateentry, &tentry)) {
+ if ((errorcode =
+ get_vldbupdateentry(&ctx, blockindex, updateentry, &tentry))) {
goto abort;
}
if (releasetype)
ReleaseEntry(&tentry, releasetype); /* Unlock entry if necessary */
- if (vlentrywrite(trans, blockindex, &tentry, sizeof(tentry))) {
+ if (vlentrywrite(ctx.trans, blockindex, &tentry, sizeof(tentry))) {
ABORT(VL_IO);
}
- END(ubik_EndTrans(trans));
+ END(ubik_EndTrans(ctx.trans));
abort:
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
end:
osi_auditU(rxcall, VLUpdateEntryEvent, errorcode, AUD_LONG, volid,
afs_int32
-SVL_UpdateEntryByName(rxcall, volname, updateentry, releasetype)
- struct rx_call *rxcall;
- char *volname;
- afs_int32 releasetype;
- struct VldbUpdateEntry *updateentry; /* Update entry copied here */
+SVL_UpdateEntryByName(struct rx_call *rxcall,
+ char *volname,
+ struct VldbUpdateEntry *updateentry, /* Update entry copied here */
+ afs_int32 releasetype)
{
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
afs_int32 blockindex, errorcode;
struct nvlentry tentry;
END(VL_PERM);
if (releasetype && InvalidReleasetype(releasetype))
END(VL_BADRELLOCKTYPE);
- if (errorcode = Init_VLdbase(&trans, LOCKWRITE, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
goto end;
- blockindex = FindByName(trans, volname, &tentry, &errorcode);
+ blockindex = FindByName(&ctx, volname, &tentry, &errorcode);
if (blockindex == 0) { /* entry not found */
if (!errorcode)
errorcode = VL_NOENT;
}
/* Do the actual updating of the entry, tentry. */
- if (errorcode =
- get_vldbupdateentry(trans, blockindex, updateentry, &tentry)) {
+ if ((errorcode =
+ get_vldbupdateentry(&ctx, blockindex, updateentry, &tentry))) {
goto abort;
}
if (releasetype)
ReleaseEntry(&tentry, releasetype); /* Unlock entry if necessary */
- if (vlentrywrite(trans, blockindex, &tentry, sizeof(tentry))) {
+ if (vlentrywrite(ctx.trans, blockindex, &tentry, sizeof(tentry))) {
ABORT(VL_IO);
}
- END(ubik_EndTrans(trans));
+ END(ubik_EndTrans(ctx.trans));
abort:
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
end:
osi_auditU(rxcall, VLUpdateEntryEvent, errorcode, AUD_LONG, -1, AUD_END);
/* Set a lock to the vldb entry for volid (of type voltype if not -1). */
afs_int32
-SVL_SetLock(rxcall, volid, voltype, voloper)
- struct rx_call *rxcall;
- afs_int32 volid;
- afs_int32 voltype;
- afs_int32 voloper;
+SVL_SetLock(struct rx_call *rxcall, afs_uint32 volid, afs_int32 voltype,
+ afs_int32 voloper)
{
afs_int32 timestamp, blockindex, errorcode;
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
struct nvlentry tentry;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLSETLOCK);
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL))
END(VL_BADVOLTYPE);
if (InvalidOperation(voloper))
END(VL_BADVOLOPER);
- if (errorcode = Init_VLdbase(&trans, LOCKWRITE, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
goto end;
- VLog(1, ("SetLock Volume %d %s\n", volid, rxinfo(rxcall)));
- blockindex = FindByID(trans, volid, voltype, &tentry, &errorcode);
+ VLog(1, ("SetLock Volume %u %s\n", volid, rxinfo(rxstr, rxcall)));
+ blockindex = FindByID(&ctx, volid, voltype, &tentry, &errorcode);
if (blockindex == NULLO) {
if (!errorcode)
errorcode = VL_NOENT;
tentry.flags &= ~VLOP_ALLOPERS; /* Clear any possible older operation bit */
tentry.flags |= voloper;
- if (vlentrywrite(trans, blockindex, &tentry, sizeof(tentry))) {
+ if (vlentrywrite(ctx.trans, blockindex, &tentry, sizeof(tentry))) {
ABORT(VL_IO);
}
- END(ubik_EndTrans(trans));
+ END(ubik_EndTrans(ctx.trans));
abort:
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
end:
osi_auditU(rxcall, VLSetLockEvent, errorcode, AUD_LONG, volid, AUD_END);
* the lock time stamp. */
afs_int32
-SVL_ReleaseLock(rxcall, volid, voltype, releasetype)
- struct rx_call *rxcall;
- afs_int32 volid;
- afs_int32 voltype;
- afs_int32 releasetype;
+SVL_ReleaseLock(struct rx_call *rxcall, afs_uint32 volid, afs_int32 voltype,
+ afs_int32 releasetype)
{
afs_int32 blockindex, errorcode;
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
struct nvlentry tentry;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLRELEASELOCK);
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL))
END(VL_BADVOLTYPE);
if (releasetype && InvalidReleasetype(releasetype))
END(VL_BADRELLOCKTYPE);
- if (errorcode = Init_VLdbase(&trans, LOCKWRITE, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
goto end;
- VLog(1, ("ReleaseLock Volume %d %s\n", volid, rxinfo(rxcall)));
- blockindex = FindByID(trans, volid, voltype, &tentry, &errorcode);
+ VLog(1, ("ReleaseLock Volume %u %s\n", volid, rxinfo(rxstr, rxcall)));
+ blockindex = FindByID(&ctx, volid, voltype, &tentry, &errorcode);
if (blockindex == NULLO) {
if (!errorcode)
errorcode = VL_NOENT;
}
if (releasetype)
ReleaseEntry(&tentry, releasetype); /* Unlock the appropriate fields */
- if (vlentrywrite(trans, blockindex, &tentry, sizeof(tentry))) {
+ if (vlentrywrite(ctx.trans, blockindex, &tentry, sizeof(tentry))) {
ABORT(VL_IO);
}
- END(ubik_EndTrans(trans));
+ END(ubik_EndTrans(ctx.trans));
abort:
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
end:
osi_auditU(rxcall, VLReleaseLockEvent, errorcode, AUD_LONG, volid,
}
-/* ListEntry returns a single vldb entry, aentry, with offset previous_index; the remaining parameters (i.e. next_index) are used so that sequential calls to this routine will get the next (all) vldb entries. */
+/* ListEntry returns a single vldb entry, aentry, with offset previous_index;
+ * the remaining parameters (i.e. next_index) are used so that sequential
+ * calls to this routine will get the next (all) vldb entries.
+ */
afs_int32
-SVL_ListEntry(rxcall, previous_index, count, next_index, aentry)
- struct rx_call *rxcall;
- afs_int32 previous_index;
- afs_int32 *count;
- afs_int32 *next_index;
- struct vldbentry *aentry;
+SVL_ListEntry(struct rx_call *rxcall, afs_int32 previous_index,
+ afs_int32 *count, afs_int32 *next_index,
+ struct vldbentry *aentry)
{
int errorcode;
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
struct nvlentry tentry;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLLISTENTRY);
- if (errorcode = Init_VLdbase(&trans, LOCKREAD, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op)))
return errorcode;
- VLog(25, ("OListEntry index=%d %s\n", previous_index, rxinfo(rxcall)));
- *next_index = NextEntry(trans, previous_index, &tentry, count);
+ VLog(25, ("OListEntry index=%d %s\n", previous_index,
+ rxinfo(rxstr, rxcall)));
+ *next_index = NextEntry(&ctx, previous_index, &tentry, count);
if (*next_index)
- vlentry_to_vldbentry(&tentry, aentry);
- return (ubik_EndTrans(trans));
+ vlentry_to_vldbentry(&ctx, &tentry, aentry);
+ return (ubik_EndTrans(ctx.trans));
}
-/* ListEntry returns a single vldb entry, aentry, with offset previous_index; the remaining parameters (i.e. next_index) are used so that sequential calls to this routine will get the next (all) vldb entries. */
+/* ListEntry returns a single vldb entry, aentry, with offset previous_index;
+ * the remaining parameters (i.e. next_index) are used so that sequential
+ * calls to this routine will get the next (all) vldb entries.
+ */
afs_int32
-SVL_ListEntryN(rxcall, previous_index, count, next_index, aentry)
- struct rx_call *rxcall;
- afs_int32 previous_index;
- afs_int32 *count;
- afs_int32 *next_index;
- struct nvldbentry *aentry;
+SVL_ListEntryN(struct rx_call *rxcall, afs_int32 previous_index,
+ afs_int32 *count, afs_int32 *next_index,
+ struct nvldbentry *aentry)
{
int errorcode;
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
struct nvlentry tentry;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLLISTENTRYN);
- if (errorcode = Init_VLdbase(&trans, LOCKREAD, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op)))
return errorcode;
- VLog(25, ("ListEntry index=%d %s\n", previous_index, rxinfo(rxcall)));
- *next_index = NextEntry(trans, previous_index, &tentry, count);
+ VLog(25, ("ListEntry index=%d %s\n", previous_index, rxinfo(rxstr, rxcall)));
+ *next_index = NextEntry(&ctx, previous_index, &tentry, count);
if (*next_index)
- vlentry_to_nvldbentry(&tentry, aentry);
- return (ubik_EndTrans(trans));
+ vlentry_to_nvldbentry(&ctx, &tentry, aentry);
+ return (ubik_EndTrans(ctx.trans));
}
-/* Retrieves in vldbentries all vldb entries that match the specified attributes (by server number, partition, volume type, and flag); if volume id is specified then the associated list for that entry is returned. CAUTION: This could be a very expensive call since in most cases sequential search of all vldb entries is performed. */
+/* Retrieves in vldbentries all vldb entries that match the specified
+ * attributes (by server number, partition, volume type, and flag); if volume
+ * id is specified then the associated list for that entry is returned.
+ * CAUTION: This could be a very expensive call since in most cases
+ * sequential search of all vldb entries is performed.
+ */
afs_int32
-SVL_ListAttributes(rxcall, attributes, nentries, vldbentries)
- struct rx_call *rxcall;
- struct VldbListByAttributes *attributes;
- afs_int32 *nentries;
- bulkentries *vldbentries;
+SVL_ListAttributes(struct rx_call *rxcall,
+ struct VldbListByAttributes *attributes,
+ afs_int32 *nentries,
+ bulkentries *vldbentries)
{
int errorcode, allocCount = 0;
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
struct nvlentry tentry;
struct vldbentry *Vldbentry = 0, *VldbentryFirst = 0, *VldbentryLast = 0;
int pollcount = 0;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLLISTATTRIBUTES);
vldbentries->bulkentries_val = 0;
vldbentries->bulkentries_len = *nentries = 0;
- if (errorcode = Init_VLdbase(&trans, LOCKREAD, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op)))
return errorcode;
allocCount = VLDBALLOCCOUNT;
Vldbentry = VldbentryFirst = vldbentries->bulkentries_val =
(vldbentry *) malloc(allocCount * sizeof(vldbentry));
if (Vldbentry == NULL) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOMEM;
}
VldbentryLast = VldbentryFirst + allocCount;
- /* Handle the attribute by volume id totally separate of the rest (thus additional Mask values are ignored if VLLIST_VOLUMEID is set!) */
+ /* Handle the attribute by volume id totally separate of the rest
+ * (thus additional Mask values are ignored if VLLIST_VOLUMEID is set!) */
if (attributes->Mask & VLLIST_VOLUMEID) {
afs_int32 blockindex;
blockindex =
- FindByID(trans, attributes->volumeid, -1, &tentry, &errorcode);
+ FindByID(&ctx, attributes->volumeid, -1, &tentry, &errorcode);
if (blockindex == 0) {
if (!errorcode)
errorcode = VL_NOENT;
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
if (vldbentries->bulkentries_val)
free((char *)vldbentries->bulkentries_val);
vldbentries->bulkentries_val = 0;
vldbentries->bulkentries_len = 0;
return errorcode;
}
- if (errorcode =
- put_attributeentry(&Vldbentry, &VldbentryFirst, &VldbentryLast,
- vldbentries, &tentry, nentries, &allocCount)) {
+ if ((errorcode =
+ put_attributeentry(&ctx, &Vldbentry, &VldbentryFirst, &VldbentryLast,
+ vldbentries, &tentry, nentries, &allocCount))) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
if (vldbentries->bulkentries_val)
free((char *)vldbentries->bulkentries_val);
vldbentries->bulkentries_val = 0;
return VL_SIZEEXCEEDED;
}
} else {
- afs_int32 nextblockindex = 0, count = 0, k, match = 0;
- while (nextblockindex =
- NextEntry(trans, nextblockindex, &tentry, &count)) {
+ afs_int32 nextblockindex = 0, count = 0, k = 0, match = 0;
+ while ((nextblockindex =
+ NextEntry(&ctx, nextblockindex, &tentry, &count))) {
if (++pollcount > 50) {
+#ifndef AFS_PTHREAD_ENV
IOMGR_Poll();
+#endif
pollcount = 0;
}
match = 0;
if (attributes->Mask & VLLIST_SERVER) {
int serverindex;
if ((serverindex =
- IpAddrToRelAddr(attributes->server,
- (struct ubik_trans *)0)) == -1)
+ IpAddrToRelAddr(&ctx, attributes->server, 0)) == -1)
continue;
for (k = 0; k < OMAXNSERVERS; k++) {
if (tentry.serverNumber[k] == BADSERVERID)
if (!(tentry.flags & attributes->flag))
continue;
}
- if (errorcode =
- put_attributeentry(&Vldbentry, &VldbentryFirst,
+ if ((errorcode =
+ put_attributeentry(&ctx, &Vldbentry, &VldbentryFirst,
&VldbentryLast, vldbentries, &tentry,
- nentries, &allocCount)) {
+ nentries, &allocCount))) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
if (vldbentries->bulkentries_val)
free((char *)vldbentries->bulkentries_val);
vldbentries->bulkentries_val = 0;
sizeof(vldbentry));
if (vldbentries->bulkentries_val == NULL) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOMEM;
}
}
VLog(5,
("ListAttrs nentries=%d %s\n", vldbentries->bulkentries_len,
- rxinfo(rxcall)));
- return (ubik_EndTrans(trans));
+ rxinfo(rxstr, rxcall)));
+ return (ubik_EndTrans(ctx.trans));
}
afs_int32
-SVL_ListAttributesN(rxcall, attributes, nentries, vldbentries)
- struct rx_call *rxcall;
- struct VldbListByAttributes *attributes;
- afs_int32 *nentries;
- nbulkentries *vldbentries;
+SVL_ListAttributesN(struct rx_call *rxcall,
+ struct VldbListByAttributes *attributes,
+ afs_int32 *nentries,
+ nbulkentries *vldbentries)
{
int errorcode, allocCount = 0;
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
struct nvlentry tentry;
struct nvldbentry *Vldbentry = 0, *VldbentryFirst = 0, *VldbentryLast = 0;
int pollcount = 0;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLLISTATTRIBUTESN);
vldbentries->nbulkentries_val = 0;
vldbentries->nbulkentries_len = *nentries = 0;
- if (errorcode = Init_VLdbase(&trans, LOCKREAD, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op)))
return errorcode;
allocCount = VLDBALLOCCOUNT;
Vldbentry = VldbentryFirst = vldbentries->nbulkentries_val =
(nvldbentry *) malloc(allocCount * sizeof(nvldbentry));
if (Vldbentry == NULL) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOMEM;
}
VldbentryLast = VldbentryFirst + allocCount;
- /* Handle the attribute by volume id totally separate of the rest (thus additional Mask values are ignored if VLLIST_VOLUMEID is set!) */
+ /* Handle the attribute by volume id totally separate of the rest
+ * (thus additional Mask values are ignored if VLLIST_VOLUMEID is set!) */
if (attributes->Mask & VLLIST_VOLUMEID) {
afs_int32 blockindex;
blockindex =
- FindByID(trans, attributes->volumeid, -1, &tentry, &errorcode);
+ FindByID(&ctx, attributes->volumeid, -1, &tentry, &errorcode);
if (blockindex == 0) {
if (!errorcode)
errorcode = VL_NOENT;
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
if (vldbentries->nbulkentries_val)
free((char *)vldbentries->nbulkentries_val);
vldbentries->nbulkentries_val = 0;
vldbentries->nbulkentries_len = 0;
return errorcode;
}
- if (errorcode =
- put_nattributeentry(&Vldbentry, &VldbentryFirst, &VldbentryLast,
+ if ((errorcode =
+ put_nattributeentry(&ctx, &Vldbentry, &VldbentryFirst, &VldbentryLast,
vldbentries, &tentry, 0, 0, nentries,
- &allocCount)) {
+ &allocCount))) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
if (vldbentries->nbulkentries_val)
free((char *)vldbentries->nbulkentries_val);
vldbentries->nbulkentries_val = 0;
return VL_SIZEEXCEEDED;
}
} else {
- afs_int32 nextblockindex = 0, count = 0, k, match = 0;
- while (nextblockindex =
- NextEntry(trans, nextblockindex, &tentry, &count)) {
+ afs_int32 nextblockindex = 0, count = 0, k = 0, match = 0;
+ while ((nextblockindex =
+ NextEntry(&ctx, nextblockindex, &tentry, &count))) {
if (++pollcount > 50) {
+#ifndef AFS_PTHREAD_ENV
IOMGR_Poll();
+#endif
pollcount = 0;
}
if (attributes->Mask & VLLIST_SERVER) {
int serverindex;
if ((serverindex =
- IpAddrToRelAddr(attributes->server,
- (struct ubik_trans *)0)) == -1)
+ IpAddrToRelAddr(&ctx, attributes->server, 0)) == -1)
continue;
for (k = 0; k < NMAXNSERVERS; k++) {
if (tentry.serverNumber[k] == BADSERVERID)
if (!(tentry.flags & attributes->flag))
continue;
}
- if (errorcode =
- put_nattributeentry(&Vldbentry, &VldbentryFirst,
+ if ((errorcode =
+ put_nattributeentry(&ctx, &Vldbentry, &VldbentryFirst,
&VldbentryLast, vldbentries, &tentry, 0,
- 0, nentries, &allocCount)) {
+ 0, nentries, &allocCount))) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
if (vldbentries->nbulkentries_val)
free((char *)vldbentries->nbulkentries_val);
vldbentries->nbulkentries_val = 0;
sizeof(nvldbentry));
if (vldbentries->nbulkentries_val == NULL) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOMEM;
}
}
VLog(5,
("NListAttrs nentries=%d %s\n", vldbentries->nbulkentries_len,
- rxinfo(rxcall)));
- return (ubik_EndTrans(trans));
+ rxinfo(rxstr, rxcall)));
+ return (ubik_EndTrans(ctx.trans));
}
afs_int32
-SVL_ListAttributesN2(rxcall, attributes, name, startindex, nentries,
- vldbentries, nextstartindex)
- struct rx_call *rxcall;
- struct VldbListByAttributes *attributes;
- char *name; /* Wildcarded volume name */
- afs_int32 startindex;
- afs_int32 *nentries;
- nbulkentries *vldbentries;
- afs_int32 *nextstartindex;
+SVL_ListAttributesN2(struct rx_call *rxcall,
+ struct VldbListByAttributes *attributes,
+ char *name, /* Wildcarded volume name */
+ afs_int32 startindex,
+ afs_int32 *nentries,
+ nbulkentries *vldbentries,
+ afs_int32 *nextstartindex)
{
int errorcode = 0, maxCount = VLDBALLOCCOUNT;
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
struct nvlentry tentry;
struct nvldbentry *Vldbentry = 0, *VldbentryFirst = 0, *VldbentryLast = 0;
- afs_int32 blockindex = 0, count = 0, k, match, matchindex;
+ afs_int32 blockindex = 0, count = 0, k, match;
+ afs_int32 matchindex = 0;
int serverindex = -1; /* no server found */
int findserver = 0, findpartition = 0, findflag = 0, findname = 0;
- char *t;
int pollcount = 0;
- int namematchRWBK, namematchRO, thismatch, matchtype;
- char volumename[VL_MAXNAMELEN];
+ int namematchRWBK, namematchRO, thismatch;
+ int matchtype = 0;
+ char volumename[VL_MAXNAMELEN+2]; /* regex anchors */
+ char rxstr[AFS_RXINFO_LEN];
+#ifdef HAVE_POSIX_REGEX
+ regex_t re;
+ int need_regfree = 0;
+#else
+ char *t;
+#endif
COUNT_REQ(VLLISTATTRIBUTESN2);
vldbentries->nbulkentries_val = 0;
*nentries = 0;
*nextstartindex = -1;
- errorcode = Init_VLdbase(&trans, LOCKREAD, this_op);
+ errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op);
if (errorcode)
return errorcode;
(nvldbentry *) malloc(maxCount * sizeof(nvldbentry));
if (Vldbentry == NULL) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOMEM;
}
*/
if (attributes->Mask & VLLIST_VOLUMEID) {
blockindex =
- FindByID(trans, attributes->volumeid, -1, &tentry, &errorcode);
+ FindByID(&ctx, attributes->volumeid, -1, &tentry, &errorcode);
if (blockindex == 0) {
if (!errorcode)
errorcode = VL_NOENT;
} else {
errorcode =
- put_nattributeentry(&Vldbentry, &VldbentryFirst,
+ put_nattributeentry(&ctx, &Vldbentry, &VldbentryFirst,
&VldbentryLast, vldbentries, &tentry, 0,
0, nentries, &maxCount);
if (errorcode)
/* Get the server index for matching server address */
if (attributes->Mask & VLLIST_SERVER) {
serverindex =
- IpAddrToRelAddr(attributes->server, (struct ubik_trans *)0);
+ IpAddrToRelAddr(&ctx, attributes->server, 0);
if (serverindex == -1)
goto done;
findserver = 1;
findflag = ((attributes->Mask & VLLIST_FLAG) ? 1 : 0);
if (name && (strcmp(name, ".*") != 0) && (strcmp(name, "") != 0)) {
sprintf(volumename, "^%s$", name);
+#ifdef HAVE_POSIX_REGEX
+ if (regcomp(&re, volumename, REG_NOSUB) != 0) {
+ errorcode = VL_BADNAME;
+ goto done;
+ }
+ need_regfree = 1;
+#else
t = (char *)re_comp(volumename);
if (t) {
errorcode = VL_BADNAME;
goto done;
}
+#endif
findname = 1;
}
/* Read each entry and see if it is the one we want */
blockindex = startindex;
- while (blockindex = NextEntry(trans, blockindex, &tentry, &count)) {
+ while ((blockindex = NextEntry(&ctx, blockindex, &tentry, &count))) {
if (++pollcount > 50) {
+#ifndef AFS_PTHREAD_ENV
IOMGR_Poll();
+#endif
pollcount = 0;
}
if (tentry.flags & VLF_RWEXISTS) {
if (findname) {
sprintf(volumename, "%s", tentry.name);
+#ifdef HAVE_POSIX_REGEX
+ if (regexec(&re, volumename, 0, NULL, 0) == 0) {
+ thismatch = VLSF_RWVOL;
+ }
+#else
if (re_exec(volumename)) {
thismatch = VLSF_RWVOL;
}
+#endif
} else {
thismatch = VLSF_RWVOL;
}
if (!thismatch && (tentry.flags & VLF_BACKEXISTS)) {
if (findname) {
sprintf(volumename, "%s.backup", tentry.name);
+#ifdef HAVE_POSIX_REGEX
+ if (regexec(&re, volumename, 0, NULL, 0) == 0) {
+ thismatch = VLSF_BACKVOL;
+ }
+#else
if (re_exec(volumename)) {
thismatch = VLSF_BACKVOL;
}
+#endif
} else {
thismatch = VLSF_BACKVOL;
}
namematchRWBK = (thismatch ? 1 : 2);
}
- /* Match with the RO volume name. Compare once and
+ /* Match with the RO volume name. Compare once and
* remember results in namematchRO. Note that this will
* pick up entries marked NEWREPSITEs and DONTUSE.
*/
} else {
sprintf(volumename, "%s.readonly",
tentry.name);
+#ifdef HAVE_POSIX_REGEX
+ if (regexec(&re, volumename, 0, NULL, 0) == 0) {
+ thismatch = VLSF_ROVOL;
+ }
+#else
if (re_exec(volumename))
thismatch = VLSF_ROVOL;
+#endif
}
} else {
thismatch = VLSF_ROVOL;
/* Passed all the tests. Take it */
if (match) {
errorcode =
- put_nattributeentry(&Vldbentry, &VldbentryFirst,
+ put_nattributeentry(&ctx, &Vldbentry, &VldbentryFirst,
&VldbentryLast, vldbentries, &tentry,
matchtype, matchindex, nentries,
&maxCount);
}
done:
+#ifdef HAVE_POSIX_REGEX
+ if (need_regfree)
+ regfree(&re);
+#endif
+
if (errorcode) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
if (vldbentries->nbulkentries_val)
free((char *)vldbentries->nbulkentries_val);
vldbentries->nbulkentries_val = 0;
} else {
VLog(5,
("N2ListAttrs nentries=%d %s\n", vldbentries->nbulkentries_len,
- rxinfo(rxcall)));
- return (ubik_EndTrans(trans));
+ rxinfo(rxstr, rxcall)));
+ return (ubik_EndTrans(ctx.trans));
}
}
* cases sequential search of all vldb entries is performed.
*/
afs_int32
-SVL_LinkedList(rxcall, attributes, nentries, vldbentries)
- struct rx_call *rxcall;
- struct VldbListByAttributes *attributes;
- afs_int32 *nentries;
- vldb_list *vldbentries;
+SVL_LinkedList(struct rx_call *rxcall,
+ struct VldbListByAttributes *attributes,
+ afs_int32 *nentries,
+ vldb_list *vldbentries)
{
int errorcode;
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
struct nvlentry tentry;
vldblist vllist, *vllistptr;
- afs_int32 blockindex, count, k, match;
+ afs_int32 blockindex, count, match;
+ afs_int32 k = 0;
int serverindex;
int pollcount = 0;
COUNT_REQ(VLLINKEDLIST);
- if (errorcode = Init_VLdbase(&trans, LOCKREAD, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op)))
return errorcode;
*nentries = 0;
/* List by volumeid */
if (attributes->Mask & VLLIST_VOLUMEID) {
blockindex =
- FindByID(trans, attributes->volumeid, -1, &tentry, &errorcode);
+ FindByID(&ctx, attributes->volumeid, -1, &tentry, &errorcode);
if (!blockindex) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return (errorcode ? errorcode : VL_NOENT);
}
vllist = (single_vldbentry *) malloc(sizeof(single_vldbentry));
if (vllist == NULL) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOMEM;
}
- vlentry_to_vldbentry(&tentry, &vllist->VldbEntry);
+ vlentry_to_vldbentry(&ctx, &tentry, &vllist->VldbEntry);
vllist->next_vldb = NULL;
*vllistptr = vllist; /* Thread onto list */
/* Search by server, partition, and flags */
else {
- for (blockindex = NextEntry(trans, 0, &tentry, &count); blockindex;
- blockindex = NextEntry(trans, blockindex, &tentry, &count)) {
+ for (blockindex = NextEntry(&ctx, 0, &tentry, &count); blockindex;
+ blockindex = NextEntry(&ctx, blockindex, &tentry, &count)) {
match = 0;
if (++pollcount > 50) {
+#ifndef AFS_PTHREAD_ENV
IOMGR_Poll();
+#endif
pollcount = 0;
}
/* Does this volume exist on the desired server */
if (attributes->Mask & VLLIST_SERVER) {
serverindex =
- IpAddrToRelAddr(attributes->server,
- (struct ubik_trans *)0);
+ IpAddrToRelAddr(&ctx, attributes->server, 0);
if (serverindex == -1)
continue;
for (k = 0; k < OMAXNSERVERS; k++) {
vllist = (single_vldbentry *) malloc(sizeof(single_vldbentry));
if (vllist == NULL) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOMEM;
}
- vlentry_to_vldbentry(&tentry, &vllist->VldbEntry);
+ vlentry_to_vldbentry(&ctx, &tentry, &vllist->VldbEntry);
vllist->next_vldb = NULL;
*vllistptr = vllist; /* Thread onto list */
(*nentries)++;
if (smallMem && (*nentries >= VLDBALLOCCOUNT)) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_SIZEEXCEEDED;
}
}
}
*vllistptr = NULL;
- return (ubik_EndTrans(trans));
+ return (ubik_EndTrans(ctx.trans));
}
afs_int32
-SVL_LinkedListN(rxcall, attributes, nentries, vldbentries)
- struct rx_call *rxcall;
- struct VldbListByAttributes *attributes;
- afs_int32 *nentries;
- nvldb_list *vldbentries;
+SVL_LinkedListN(struct rx_call *rxcall,
+ struct VldbListByAttributes *attributes,
+ afs_int32 *nentries,
+ nvldb_list *vldbentries)
{
int errorcode;
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
struct nvlentry tentry;
nvldblist vllist, *vllistptr;
- afs_int32 blockindex, count, k, match;
+ afs_int32 blockindex, count, match;
+ afs_int32 k = 0;
int serverindex;
int pollcount = 0;
COUNT_REQ(VLLINKEDLISTN);
- if (errorcode = Init_VLdbase(&trans, LOCKREAD, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op)))
return errorcode;
*nentries = 0;
/* List by volumeid */
if (attributes->Mask & VLLIST_VOLUMEID) {
blockindex =
- FindByID(trans, attributes->volumeid, -1, &tentry, &errorcode);
+ FindByID(&ctx, attributes->volumeid, -1, &tentry, &errorcode);
if (!blockindex) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return (errorcode ? errorcode : VL_NOENT);
}
vllist = (single_nvldbentry *) malloc(sizeof(single_nvldbentry));
if (vllist == NULL) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOMEM;
}
- vlentry_to_nvldbentry(&tentry, &vllist->VldbEntry);
+ vlentry_to_nvldbentry(&ctx, &tentry, &vllist->VldbEntry);
vllist->next_vldb = NULL;
*vllistptr = vllist; /* Thread onto list */
/* Search by server, partition, and flags */
else {
- for (blockindex = NextEntry(trans, 0, &tentry, &count); blockindex;
- blockindex = NextEntry(trans, blockindex, &tentry, &count)) {
+ for (blockindex = NextEntry(&ctx, 0, &tentry, &count); blockindex;
+ blockindex = NextEntry(&ctx, blockindex, &tentry, &count)) {
match = 0;
if (++pollcount > 50) {
+#ifndef AFS_PTHREAD_ENV
IOMGR_Poll();
+#endif
pollcount = 0;
}
/* Does this volume exist on the desired server */
if (attributes->Mask & VLLIST_SERVER) {
serverindex =
- IpAddrToRelAddr(attributes->server,
- (struct ubik_trans *)0);
+ IpAddrToRelAddr(&ctx, attributes->server, 0);
if (serverindex == -1)
continue;
for (k = 0; k < NMAXNSERVERS; k++) {
vllist = (single_nvldbentry *) malloc(sizeof(single_nvldbentry));
if (vllist == NULL) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOMEM;
}
- vlentry_to_nvldbentry(&tentry, &vllist->VldbEntry);
+ vlentry_to_nvldbentry(&ctx, &tentry, &vllist->VldbEntry);
vllist->next_vldb = NULL;
*vllistptr = vllist; /* Thread onto list */
(*nentries)++;
if (smallMem && (*nentries >= VLDBALLOCCOUNT)) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_SIZEEXCEEDED;
}
}
}
*vllistptr = NULL;
- return (ubik_EndTrans(trans));
+ return (ubik_EndTrans(ctx.trans));
}
-/* Get back vldb header statistics (allocs, frees, maxvolumeid, totalentries, etc) and dynamic statistics (number of requests and/or aborts per remote procedure call, etc) */
+/* Get back vldb header statistics (allocs, frees, maxvolumeid,
+ * totalentries, etc) and dynamic statistics (number of requests and/or
+ * aborts per remote procedure call, etc)
+ */
afs_int32
-SVL_GetStats(rxcall, stats, vital_header)
- struct rx_call *rxcall;
- vldstats *stats;
- vital_vlheader *vital_header;
+SVL_GetStats(struct rx_call *rxcall,
+ vldstats *stats,
+ vital_vlheader *vital_header)
{
- register afs_int32 errorcode;
- struct ubik_trans *trans;
+ afs_int32 errorcode;
+ struct vl_ctx ctx;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLGETSTATS);
#ifdef notdef
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL)) /* Must be in 'UserList' to use */
return VL_PERM;
#endif
- if (errorcode = Init_VLdbase(&trans, LOCKREAD, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op)))
return errorcode;
- VLog(5, ("GetStats %\n", rxinfo(rxcall)));
- memcpy((char *)vital_header, (char *)&cheader.vital_header,
+ VLog(5, ("GetStats %s\n", rxinfo(rxstr, rxcall)));
+ memcpy((char *)vital_header, (char *)&ctx.cheader->vital_header,
sizeof(vital_vlheader));
memcpy((char *)stats, (char *)&dynamic_statistics, sizeof(vldstats));
- return (ubik_EndTrans(trans));
+ return (ubik_EndTrans(ctx.trans));
}
/* Get the list of file server addresses from the VLDB. Currently it's pretty
* through the VLDB, but that's life.
*/
afs_int32
-SVL_GetAddrs(rxcall, Handle, spare2, spare3, nentries, addrsp)
- struct rx_call *rxcall;
- afs_int32 Handle, spare2;
- struct VLCallBack *spare3;
- afs_int32 *nentries;
- bulkaddrs *addrsp;
+SVL_GetAddrs(struct rx_call *rxcall,
+ afs_int32 Handle,
+ afs_int32 spare2,
+ struct VLCallBack *spare3,
+ afs_int32 *nentries,
+ bulkaddrs *addrsp)
{
- register afs_int32 errorcode;
- struct ubik_trans *trans;
+ afs_int32 errorcode;
+ struct vl_ctx ctx;
int nservers, i;
afs_uint32 *taddrp;
addrsp->bulkaddrs_val = 0;
memset(spare3, 0, sizeof(struct VLCallBack));
- if (errorcode = Init_VLdbase(&trans, LOCKREAD, this_op))
+ if ((errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op)))
return errorcode;
VLog(5, ("GetAddrs\n"));
if (!taddrp) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOMEM;
}
for (i = 0; i <= MAXSERVERID; i++) {
- if (*taddrp = ntohl(cheader.IpMappedAddr[i])) {
+ if ((*taddrp = ntohl(ctx.cheader->IpMappedAddr[i]))) {
taddrp++;
nservers++;
}
}
addrsp->bulkaddrs_len = *nentries = nservers;
- return (ubik_EndTrans(trans));
+ return (ubik_EndTrans(ctx.trans));
}
-#define PADDR(addr) printf("%d.%d.%d.%d", (addr>>24)&0xff, (addr>>16)&0xff, (addr>>8) &0xff, addr&0xff);
+#define PADDR(addr) VLog(0,("%d.%d.%d.%d", (addr>>24)&0xff, (addr>>16)&0xff, (addr>>8) &0xff, addr&0xff));
afs_int32
-SVL_RegisterAddrs(rxcall, uuidp, spare1, addrsp)
- struct rx_call *rxcall;
- afsUUID *uuidp;
- afs_int32 spare1;
- bulkaddrs *addrsp;
+SVL_RegisterAddrs(struct rx_call *rxcall, afsUUID *uuidp, afs_int32 spare1,
+ bulkaddrs *addrsp)
{
afs_int32 code;
- struct ubik_trans *trans;
+ struct vl_ctx ctx;
int cnt, h, i, j, k, m, base, index;
struct extentaddr *exp = 0, *tex;
afsUUID tuuid;
afs_uint32 addrs[VL_MAXIPADDRS_PERMH];
afs_int32 fbase;
int count, willChangeEntry, foundUuidEntry, willReplaceCnt;
- int WillReplaceEntry, WillChange[MAXSERVERID + 1], FoundUuid,
- ReplaceEntry;
+ int WillReplaceEntry, WillChange[MAXSERVERID + 1];
+ int FoundUuid = 0;
+ int ReplaceEntry = 0;
int srvidx, mhidx;
COUNT_REQ(VLREGADDR);
if (!afsconf_SuperUser(vldb_confdir, rxcall, NULL))
return (VL_PERM);
- if (code = Init_VLdbase(&trans, LOCKWRITE, this_op))
+ if ((code = Init_VLdbase(&ctx, LOCKWRITE, this_op)))
return code;
/* Eliminate duplicates from IP address list */
}
}
if (cnt <= 0) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_INDEXERANGE;
}
for (srvidx = 0; srvidx <= MAXSERVERID; srvidx++) {
willChangeEntry = 0;
WillReplaceEntry = 1;
- if ((HostAddress[srvidx] & 0xff000000) == 0xff000000) {
+ if ((ctx.hostaddress[srvidx] & 0xff000000) == 0xff000000) {
/* The server is registered as a multihomed */
- base = (HostAddress[srvidx] >> 16) & 0xff;
- index = HostAddress[srvidx] & 0x0000ffff;
+ base = (ctx.hostaddress[srvidx] >> 16) & 0xff;
+ index = ctx.hostaddress[srvidx] & 0x0000ffff;
if (base >= VL_MAX_ADDREXTBLKS) {
VLog(0,
("Internal error: Multihome extent base is too large. Base %d index %d\n",
base, index));
continue;
}
- if (!ex_addr[base]) {
+ if (!ctx.ex_addr[base]) {
VLog(0,
("Internal error: Multihome extent does not exist. Base %d\n",
base));
}
/* See if the addresses to register will change this server entry */
- exp = &ex_addr[base][index];
+ exp = &ctx.ex_addr[base][index];
tuuid = exp->ex_hostuuid;
afs_ntohuuid(&tuuid);
if (afs_uuid_equal(uuidp, &tuuid)) {
* See if the addresses to register will replace this server entry.
*/
for (k = 0; k < cnt; k++) {
- if (HostAddress[srvidx] == addrs[k]) {
+ if (ctx.hostaddress[srvidx] == addrs[k]) {
willChangeEntry = 1;
WillChange[count] = srvidx;
WillReplaceEntry = 1;
|| (!foundUuidEntry && (count > 1))) {
VLog(0,
("The following fileserver is being registered in the VLDB:\n"));
- printf(" [");
+ VLog(0, (" ["));
for (k = 0; k < cnt; k++) {
if (k > 0)
- printf(" ");
+ VLog(0,(" "));
PADDR(addrs[k]);
}
- printf("]\n");
+ VLog(0,("]\n"));
if (foundUuidEntry) {
- printf
- (" It would have replaced the existing VLDB server entry:\n");
- printf(" entry %d: [", FoundUuid);
- base = (HostAddress[FoundUuid] >> 16) & 0xff;
- index = HostAddress[FoundUuid] & 0x0000ffff;
- exp = &ex_addr[base][index];
+ VLog(0,
+ (" It would have replaced the existing VLDB server entry:\n"));
+ VLog(0, (" entry %d: [", FoundUuid));
+ base = (ctx.hostaddress[FoundUuid] >> 16) & 0xff;
+ index = ctx.hostaddress[FoundUuid] & 0x0000ffff;
+ exp = &ctx.ex_addr[base][index];
for (mhidx = 0; mhidx < VL_MAXIPADDRS_PERMH; mhidx++) {
if (!exp->ex_addrs[mhidx])
continue;
if (mhidx > 0)
- printf(" ");
+ VLog(0,(" "));
PADDR(ntohl(exp->ex_addrs[mhidx]));
}
- printf("]\n");
+ VLog(0, ("]\n"));
}
if (count == 1)
- printf(" Yet another VLDB server entry exists:\n");
+ VLog(0, (" Yet another VLDB server entry exists:\n"));
else
- printf(" Yet other VLDB server entries exist:\n");
+ VLog(0, (" Yet other VLDB server entries exist:\n"));
for (j = 0; j < count; j++) {
srvidx = WillChange[j];
- printf(" entry %d: ", srvidx);
- if ((HostAddress[srvidx] & 0xff000000) == 0xff000000) {
- printf("[");
- base = (HostAddress[srvidx] >> 16) & 0xff;
- index = HostAddress[srvidx] & 0x0000ffff;
- exp = &ex_addr[base][index];
+ VLog(0, (" entry %d: ", srvidx));
+ if ((ctx.hostaddress[srvidx] & 0xff000000) == 0xff000000) {
+ VLog(0, ("["));
+ base = (ctx.hostaddress[srvidx] >> 16) & 0xff;
+ index = ctx.hostaddress[srvidx] & 0x0000ffff;
+ exp = &ctx.ex_addr[base][index];
for (mhidx = 0; mhidx < VL_MAXIPADDRS_PERMH; mhidx++) {
if (!exp->ex_addrs[mhidx])
continue;
if (mhidx > 0)
- printf(" ");
+ VLog(0, (" "));
PADDR(ntohl(exp->ex_addrs[mhidx]));
}
- printf("]");
+ VLog(0, ("]"));
} else {
- PADDR(HostAddress[srvidx]);
+ PADDR(ctx.hostaddress[srvidx]);
}
- printf("\n");
+ VLog(0, ("\n"));
}
if (count == 1)
- printf(" You must 'vos changeaddr' this other server entry\n");
+ VLog(0, (" You must 'vos changeaddr' this other server entry\n"));
else
- printf
- (" You must 'vos changeaddr' these other server entries\n");
+ VLog(0,
+ (" You must 'vos changeaddr' these other server entries\n"));
if (foundUuidEntry)
- printf
- (" and/or remove the sysid file from the registering fileserver\n");
- printf(" before the fileserver can be registered in the VLDB.\n");
+ VLog(0,
+ (" and/or remove the sysid file from the registering fileserver\n"));
+ VLog(0, (" before the fileserver can be registered in the VLDB.\n"));
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_MULTIPADDR;
}
/* Found the entry with same uuid. See if we need to change it */
int change = 0;
- fbase = (HostAddress[FoundUuid] >> 16) & 0xff;
- index = HostAddress[FoundUuid] & 0x0000ffff;
- exp = &ex_addr[fbase][index];
+ fbase = (ctx.hostaddress[FoundUuid] >> 16) & 0xff;
+ index = ctx.hostaddress[FoundUuid] & 0x0000ffff;
+ exp = &ctx.ex_addr[fbase][index];
/* Determine if the entry has changed */
for (k = 0; ((k < cnt) && !change); k++) {
change = 1;
}
if (!change) {
- return (ubik_EndTrans(trans));
+ return (ubik_EndTrans(ctx.trans));
}
}
VLog(0, ("The following fileserver is being registered in the VLDB:\n"));
- printf(" [");
+ VLog(0, (" ["));
for (k = 0; k < cnt; k++) {
if (k > 0)
- printf(" ");
+ VLog(0, (" "));
PADDR(addrs[k]);
}
- printf("]\n");
+ VLog(0, ("]\n"));
if (foundUuidEntry) {
- printf
- (" It will replace the following existing entry in the VLDB (same uuid):\n");
- printf(" entry %d: [", FoundUuid);
+ VLog(0,
+ (" It will replace the following existing entry in the VLDB (same uuid):\n"));
+ VLog(0, (" entry %d: [", FoundUuid));
for (k = 0; k < VL_MAXIPADDRS_PERMH; k++) {
if (exp->ex_addrs[k] == 0)
continue;
if (k > 0)
- printf(" ");
+ VLog(0, (" "));
PADDR(ntohl(exp->ex_addrs[k]));
}
- printf("]\n");
+ VLog(0, ("]\n"));
} else if (willReplaceCnt || (count == 1)) {
/* If we are not replacing an entry and there is only one entry to change,
* then we will replace that entry.
}
/* Have an entry that needs to be replaced */
- if ((HostAddress[ReplaceEntry] & 0xff000000) == 0xff000000) {
- fbase = (HostAddress[ReplaceEntry] >> 16) & 0xff;
- index = HostAddress[ReplaceEntry] & 0x0000ffff;
- exp = &ex_addr[fbase][index];
-
- printf
- (" It will replace the following existing entry in the VLDB (new uuid):\n");
- printf(" entry %d: [", ReplaceEntry);
+ if ((ctx.hostaddress[ReplaceEntry] & 0xff000000) == 0xff000000) {
+ fbase = (ctx.hostaddress[ReplaceEntry] >> 16) & 0xff;
+ index = ctx.hostaddress[ReplaceEntry] & 0x0000ffff;
+ exp = &ctx.ex_addr[fbase][index];
+
+ VLog(0,
+ (" It will replace the following existing entry in the VLDB (new uuid):\n"));
+ VLog(0, (" entry %d: [", ReplaceEntry));
for (k = 0; k < VL_MAXIPADDRS_PERMH; k++) {
if (exp->ex_addrs[k] == 0)
continue;
if (k > 0)
- printf(" ");
+ VLog(0, (" "));
PADDR(ntohl(exp->ex_addrs[k]));
}
- printf("]\n");
+ VLog(0, ("]\n"));
} else {
- /* Not a mh entry. So we have to create a new mh entry and
- * put it on the ReplaceEntry slot of the HostAddress array.
+ /* Not a mh entry. So we have to create a new mh entry and
+ * put it on the ReplaceEntry slot of the ctx.hostaddress array.
*/
- printf(" It will replace existing entry %d, ", ReplaceEntry);
- PADDR(HostAddress[ReplaceEntry]);
- printf(", in the VLDB (new uuid):\n");
+ VLog(0, (" It will replace existing entry %d, ", ReplaceEntry));
+ PADDR(ctx.hostaddress[ReplaceEntry]);
+ VLog(0,(", in the VLDB (new uuid):\n"));
code =
- FindExtentBlock(trans, uuidp, 1, ReplaceEntry, &exp, &fbase);
+ FindExtentBlock(&ctx, uuidp, 1, ReplaceEntry, &exp, &fbase);
if (code || !exp) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return (code ? code : VL_IO);
}
}
} else {
/* There is no entry for this server, must create a new mh entry as
- * well as use a new slot of the HostAddress array.
+ * well as use a new slot of the ctx.hostaddress array.
*/
- printf(" It will create a new entry in the VLDB.\n");
- code = FindExtentBlock(trans, uuidp, 1, -1, &exp, &fbase);
+ VLog(0, (" It will create a new entry in the VLDB.\n"));
+ code = FindExtentBlock(&ctx, uuidp, 1, -1, &exp, &fbase);
if (code || !exp) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return (code ? code : VL_IO);
}
}
/* Write the new mh entry out */
if (vlwrite
- (trans,
- DOFFSET(ntohl(ex_addr[0]->ex_contaddrs[fbase]),
- (char *)ex_addr[fbase], (char *)exp), (char *)exp,
+ (ctx.trans,
+ DOFFSET(ntohl(ctx.ex_addr[0]->ex_contaddrs[fbase]),
+ (char *)ctx.ex_addr[fbase], (char *)exp), (char *)exp,
sizeof(*exp))) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_IO;
}
- /* Remove any common addresses from other mh entres. We know these entries
+ /* Remove any common addresses from other mh entres. We know these entries
* are being changed and not replaced so they are mh entries.
*/
m = 0;
if (willReplaceCnt && (WillChange[i] == ReplaceEntry))
continue;
- base = (HostAddress[WillChange[i]] >> 16) & 0xff;
- index = HostAddress[WillChange[i]] & 0x0000ffff;
- tex = &ex_addr[fbase][index];
+ base = (ctx.hostaddress[WillChange[i]] >> 16) & 0xff;
+ index = ctx.hostaddress[WillChange[i]] & 0x0000ffff;
+ tex = &ctx.ex_addr[fbase][index];
if (++m == 1)
- printf
- (" The following existing entries in the VLDB will be updated:\n");
+ VLog(0,
+ (" The following existing entries in the VLDB will be updated:\n"));
- printf(" entry %d: [", WillChange[i]);
+ VLog(0, (" entry %d: [", WillChange[i]));
for (h = j = 0; j < VL_MAXIPADDRS_PERMH; j++) {
if (tex->ex_addrs[j]) {
if (j > 0)
for (j = h; j < VL_MAXIPADDRS_PERMH; j++) {
tex->ex_addrs[j] = 0; /* zero rest of mh entry */
}
- printf("]\n");
+ VLog(0, ("]\n"));
/* Write out the modified mh entry */
tex->ex_uniquifier = htonl(ntohl(tex->ex_uniquifier) + 1);
doff =
- DOFFSET(ntohl(ex_addr[0]->ex_contaddrs[base]),
- (char *)ex_addr[base], (char *)tex);
- if (vlwrite(trans, doff, (char *)tex, sizeof(*tex))) {
- ubik_AbortTrans(trans);
+ DOFFSET(ntohl(ctx.ex_addr[0]->ex_contaddrs[base]),
+ (char *)ctx.ex_addr[base], (char *)tex);
+ if (vlwrite(ctx.trans, doff, (char *)tex, sizeof(*tex))) {
+ ubik_AbortTrans(ctx.trans);
return VL_IO;
}
}
- return (ubik_EndTrans(trans));
+ return (ubik_EndTrans(ctx.trans));
}
afs_int32
-SVL_GetAddrsU(rxcall, attributes, uuidpo, uniquifier, nentries, addrsp)
- struct rx_call *rxcall;
- struct ListAddrByAttributes *attributes;
- afsUUID *uuidpo;
- afs_int32 *uniquifier, *nentries;
- bulkaddrs *addrsp;
+SVL_GetAddrsU(struct rx_call *rxcall,
+ struct ListAddrByAttributes *attributes,
+ afsUUID *uuidpo,
+ afs_int32 *uniquifier,
+ afs_int32 *nentries,
+ bulkaddrs *addrsp)
{
- register afs_int32 errorcode, index = -1, offset;
- struct ubik_trans *trans;
+ afs_int32 errorcode, index = -1, offset;
+ struct vl_ctx ctx;
int nservers, i, j, base = 0;
struct extentaddr *exp = 0;
afsUUID tuuid;
afs_uint32 *taddrp, taddr;
+ char rxstr[AFS_RXINFO_LEN];
COUNT_REQ(VLGETADDRSU);
addrsp->bulkaddrs_len = *nentries = 0;
addrsp->bulkaddrs_val = 0;
- VLog(5, ("GetAddrsU %s\n", rxinfo(rxcall)));
- if (errorcode = Init_VLdbase(&trans, LOCKREAD, this_op))
+ VLog(5, ("GetAddrsU %s\n", rxinfo(rxstr, rxcall)));
+ if ((errorcode = Init_VLdbase(&ctx, LOCKREAD, this_op)))
return errorcode;
if (attributes->Mask & VLADDR_IPADDR) {
if (attributes->Mask & (VLADDR_INDEX | VLADDR_UUID)) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_BADMASK;
}
for (base = 0; base < VL_MAX_ADDREXTBLKS; base++) {
- if (!ex_addr[base])
+ if (!ctx.ex_addr[base])
break;
for (i = 1; i < VL_MHSRV_PERBLK; i++) {
- exp = &ex_addr[base][i];
+ exp = &ctx.ex_addr[base][i];
tuuid = exp->ex_hostuuid;
afs_ntohuuid(&tuuid);
if (afs_uuid_is_nil(&tuuid))
break;
}
if (base >= VL_MAX_ADDREXTBLKS) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOENT;
}
} else if (attributes->Mask & VLADDR_INDEX) {
if (attributes->Mask & (VLADDR_IPADDR | VLADDR_UUID)) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_BADMASK;
}
index = attributes->index;
if (index < 1 || index >= (VL_MAX_ADDREXTBLKS * VL_MHSRV_PERBLK)) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_INDEXERANGE;
}
base = index / VL_MHSRV_PERBLK;
offset = index % VL_MHSRV_PERBLK;
if (offset == 0) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOENT;
}
- if (!ex_addr[base]) {
- ubik_AbortTrans(trans);
+ if (!ctx.ex_addr[base]) {
+ ubik_AbortTrans(ctx.trans);
return VL_INDEXERANGE;
}
- exp = &ex_addr[base][offset];
+ exp = &ctx.ex_addr[base][offset];
} else if (attributes->Mask & VLADDR_UUID) {
if (attributes->Mask & (VLADDR_IPADDR | VLADDR_INDEX)) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_BADMASK;
}
- if (!ex_addr[0]) { /* mh servers probably aren't setup on this vldb */
- ubik_AbortTrans(trans);
+ if (!ctx.ex_addr[0]) { /* mh servers probably aren't setup on this vldb */
+ ubik_AbortTrans(ctx.trans);
return VL_NOENT;
}
- if (errorcode =
- FindExtentBlock(trans, &attributes->uuid, 0, -1, &exp, &base)) {
- ubik_AbortTrans(trans);
+ if ((errorcode =
+ FindExtentBlock(&ctx, &attributes->uuid, 0, -1, &exp, &base))) {
+ ubik_AbortTrans(ctx.trans);
return errorcode;
}
} else {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_BADMASK;
}
if (exp == NULL) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOENT;
}
addrsp->bulkaddrs_val = taddrp =
nservers = *nentries = addrsp->bulkaddrs_len = 0;
if (!taddrp) {
COUNT_ABO;
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOMEM;
}
tuuid = exp->ex_hostuuid;
afs_ntohuuid(&tuuid);
if (afs_uuid_is_nil(&tuuid)) {
- ubik_AbortTrans(trans);
+ ubik_AbortTrans(ctx.trans);
return VL_NOENT;
}
if (uuidpo)
}
}
addrsp->bulkaddrs_len = *nentries = nservers;
- return (ubik_EndTrans(trans));
+ return (ubik_EndTrans(ctx.trans));
}
/* ============> End of Exported vldb RPC functions <============= */
/* Routine that copies the given vldb entry to the output buffer, vldbentries. */
static int
-put_attributeentry(Vldbentry, VldbentryFirst, VldbentryLast, vldbentries,
- entry, nentries, alloccnt)
- struct vldbentry **Vldbentry, **VldbentryFirst, **VldbentryLast;
- bulkentries *vldbentries;
- struct nvlentry *entry;
- afs_int32 *nentries, *alloccnt;
+put_attributeentry(struct vl_ctx *ctx,
+ struct vldbentry **Vldbentry,
+ struct vldbentry **VldbentryFirst,
+ struct vldbentry **VldbentryLast,
+ bulkentries *vldbentries,
+ struct nvlentry *entry,
+ afs_int32 *nentries,
+ afs_int32 *alloccnt)
{
vldbentry *reall;
afs_int32 allo;
return VL_SIZEEXCEEDED; /* no growing if smallMem defined */
/* Allocate another set of memory; each time allocate twice as
- * many blocks as the last time. When we reach VLDBALLOCLIMIT,
+ * many blocks as the last time. When we reach VLDBALLOCLIMIT,
* then grow in increments of VLDBALLOCINCR.
*/
allo = (*alloccnt > VLDBALLOCLIMIT) ? VLDBALLOCINCR : *alloccnt;
*VldbentryLast = *Vldbentry + allo;
*alloccnt += allo;
}
- vlentry_to_vldbentry(entry, *Vldbentry);
+ vlentry_to_vldbentry(ctx, entry, *Vldbentry);
(*Vldbentry)++;
(*nentries)++;
vldbentries->bulkentries_len++;
}
static int
-put_nattributeentry(Vldbentry, VldbentryFirst, VldbentryLast, vldbentries,
- entry, matchtype, matchindex, nentries, alloccnt)
- struct nvldbentry **Vldbentry, **VldbentryFirst, **VldbentryLast;
- nbulkentries *vldbentries;
- struct nvlentry *entry;
- afs_int32 matchtype, matchindex, *nentries, *alloccnt;
+put_nattributeentry(struct vl_ctx *ctx,
+ struct nvldbentry **Vldbentry,
+ struct nvldbentry **VldbentryFirst,
+ struct nvldbentry **VldbentryLast,
+ nbulkentries *vldbentries,
+ struct nvlentry *entry,
+ afs_int32 matchtype,
+ afs_int32 matchindex,
+ afs_int32 *nentries,
+ afs_int32 *alloccnt)
{
nvldbentry *reall;
afs_int32 allo;
return VL_SIZEEXCEEDED; /* no growing if smallMem defined */
/* Allocate another set of memory; each time allocate twice as
- * many blocks as the last time. When we reach VLDBALLOCLIMIT,
+ * many blocks as the last time. When we reach VLDBALLOCLIMIT,
* then grow in increments of VLDBALLOCINCR.
*/
allo = (*alloccnt > VLDBALLOCLIMIT) ? VLDBALLOCINCR : *alloccnt;
*VldbentryLast = *Vldbentry + allo;
*alloccnt += allo;
}
- vlentry_to_nvldbentry(entry, *Vldbentry);
+ vlentry_to_nvldbentry(ctx, entry, *Vldbentry);
(*Vldbentry)->matchindex = (matchtype << 16) + matchindex;
(*Vldbentry)++;
(*nentries)++;
/* Common code to actually remove a vldb entry from the database. */
static int
-RemoveEntry(trans, entryptr, tentry)
- struct ubik_trans *trans;
- afs_int32 entryptr;
- struct nvlentry *tentry;
+RemoveEntry(struct vl_ctx *ctx, afs_int32 entryptr,
+ struct nvlentry *tentry)
{
- register int errorcode;
+ int errorcode;
- if (errorcode = UnthreadVLentry(trans, entryptr, tentry))
+ if ((errorcode = UnthreadVLentry(ctx, entryptr, tentry)))
return errorcode;
- if (errorcode = FreeBlock(trans, entryptr))
+ if ((errorcode = FreeBlock(ctx, entryptr)))
return errorcode;
return 0;
}
-static
-ReleaseEntry(tentry, releasetype)
- struct nvlentry *tentry;
- afs_int32 releasetype;
+static void
+ReleaseEntry(struct nvlentry *tentry, afs_int32 releasetype)
{
if (releasetype & LOCKREL_TIMESTAMP)
tentry->LockTimestamp = 0;
}
-/* Verify that the incoming vldb entry is valid; multi type of error codes are returned. */
+/* Verify that the incoming vldb entry is valid; multi type of error codes
+ * are returned. */
static int
-check_vldbentry(aentry)
- struct vldbentry *aentry;
+check_vldbentry(struct vldbentry *aentry)
{
afs_int32 i;
}
static int
-check_nvldbentry(aentry)
- struct nvldbentry *aentry;
+check_nvldbentry(struct nvldbentry *aentry)
{
afs_int32 i;
/* Convert from the external vldb entry representation to its internal
(more compact) form. This call should not change the hash chains! */
static int
-vldbentry_to_vlentry(atrans, VldbEntry, VlEntry)
- struct ubik_trans *atrans;
- struct vldbentry *VldbEntry;
- struct nvlentry *VlEntry;
+vldbentry_to_vlentry(struct vl_ctx *ctx,
+ struct vldbentry *VldbEntry,
+ struct nvlentry *VlEntry)
{
int i, serverindex;
if (strcmp(VlEntry->name, VldbEntry->name))
strncpy(VlEntry->name, VldbEntry->name, sizeof(VlEntry->name));
for (i = 0; i < VldbEntry->nServers; i++) {
- serverindex = IpAddrToRelAddr(VldbEntry->serverNumber[i], atrans);
+ serverindex = IpAddrToRelAddr(ctx, VldbEntry->serverNumber[i], 1);
if (serverindex == -1)
return VL_BADSERVER;
VlEntry->serverNumber[i] = serverindex;
}
static int
-nvldbentry_to_vlentry(atrans, VldbEntry, VlEntry)
- struct ubik_trans *atrans;
- struct nvldbentry *VldbEntry;
- struct nvlentry *VlEntry;
+nvldbentry_to_vlentry(struct vl_ctx *ctx,
+ struct nvldbentry *VldbEntry,
+ struct nvlentry *VlEntry)
{
int i, serverindex;
if (strcmp(VlEntry->name, VldbEntry->name))
strncpy(VlEntry->name, VldbEntry->name, sizeof(VlEntry->name));
for (i = 0; i < VldbEntry->nServers; i++) {
- serverindex = IpAddrToRelAddr(VldbEntry->serverNumber[i], atrans);
+ serverindex = IpAddrToRelAddr(ctx, VldbEntry->serverNumber[i], 1);
if (serverindex == -1)
return VL_BADSERVER;
VlEntry->serverNumber[i] = serverindex;
}
-/* Update the vldb entry with the new fields as indicated by the value of the Mask entry in the updateentry structure. All necessary validation checks are performed. */
-static
-get_vldbupdateentry(trans, blockindex, updateentry, VlEntry)
- struct ubik_trans *trans;
- afs_int32 blockindex;
- struct VldbUpdateEntry *updateentry;
- struct nvlentry *VlEntry;
+/* Update the vldb entry with the new fields as indicated by the value of
+ * the Mask entry in the updateentry structure. All necessary validation
+ * checks are performed.
+ */
+static int
+get_vldbupdateentry(struct vl_ctx *ctx,
+ afs_int32 blockindex,
+ struct VldbUpdateEntry *updateentry,
+ struct nvlentry *VlEntry)
{
int i, j, errorcode, serverindex;
+ afs_uint32 checkids[MAXTYPES];
+
+ /* check if any specified new IDs are already present in the db. Do
+ * this check before doing anything else, so we don't get a half-
+ * updated entry. */
+ memset(&checkids, 0, sizeof(checkids));
+ if (updateentry->Mask & VLUPDATE_RWID) {
+ checkids[RWVOL] = updateentry->spares3; /* rw id */
+ }
+ if (updateentry->Mask & VLUPDATE_READONLYID) {
+ checkids[ROVOL] = updateentry->ReadOnlyId;
+ }
+ if (updateentry->Mask & VLUPDATE_BACKUPID) {
+ checkids[BACKVOL] = updateentry->BackupId;
+ }
+
+ if (EntryIDExists(ctx, checkids, MAXTYPES, &errorcode)) {
+ return VL_IDEXIST;
+ } else if (errorcode) {
+ return errorcode;
+ }
if (updateentry->Mask & VLUPDATE_VOLUMENAME) {
+ struct nvlentry tentry;
+
if (InvalidVolname(updateentry->name))
return VL_BADNAME;
- if (errorcode = UnhashVolname(trans, blockindex, VlEntry))
+
+ if (FindByName(ctx, updateentry->name, &tentry, &errorcode)) {
+ return VL_NAMEEXIST;
+ } else if (errorcode) {
+ return errorcode;
+ }
+
+ if ((errorcode = UnhashVolname(ctx, blockindex, VlEntry)))
return errorcode;
strncpy(VlEntry->name, updateentry->name, sizeof(VlEntry->name));
- HashVolname(trans, blockindex, VlEntry);
+ HashVolname(ctx, blockindex, VlEntry);
}
if (updateentry->Mask & VLUPDATE_VOLNAMEHASH) {
- if (errorcode = UnhashVolname(trans, blockindex, VlEntry)) {
+ if ((errorcode = UnhashVolname(ctx, blockindex, VlEntry))) {
if (errorcode != VL_NOENT)
return errorcode;
}
- HashVolname(trans, blockindex, VlEntry);
+ HashVolname(ctx, blockindex, VlEntry);
}
if (updateentry->Mask & VLUPDATE_FLAGS) {
VlEntry->cloneId = updateentry->cloneId;
}
if (updateentry->Mask & VLUPDATE_RWID) {
- if (errorcode = UnhashVolid(trans, RWVOL, blockindex, VlEntry)) {
+ if ((errorcode = UnhashVolid(ctx, RWVOL, blockindex, VlEntry))) {
if (errorcode != VL_NOENT)
return errorcode;
}
VlEntry->volumeId[RWVOL] = updateentry->spares3; /* rw id */
- if (errorcode = HashVolid(trans, RWVOL, blockindex, VlEntry))
+ if ((errorcode = HashVolid(ctx, RWVOL, blockindex, VlEntry)))
return errorcode;
}
if (updateentry->Mask & VLUPDATE_READONLYID) {
- if (errorcode = UnhashVolid(trans, ROVOL, blockindex, VlEntry)) {
+ if ((errorcode = UnhashVolid(ctx, ROVOL, blockindex, VlEntry))) {
if (errorcode != VL_NOENT)
return errorcode;
}
VlEntry->volumeId[ROVOL] = updateentry->ReadOnlyId;
- if (errorcode = HashVolid(trans, ROVOL, blockindex, VlEntry))
+ if ((errorcode = HashVolid(ctx, ROVOL, blockindex, VlEntry)))
return errorcode;
}
if (updateentry->Mask & VLUPDATE_BACKUPID) {
- if (errorcode = UnhashVolid(trans, BACKVOL, blockindex, VlEntry)) {
+ if ((errorcode = UnhashVolid(ctx, BACKVOL, blockindex, VlEntry))) {
if (errorcode != VL_NOENT)
return errorcode;
}
VlEntry->volumeId[BACKVOL] = updateentry->BackupId;
- if (errorcode = HashVolid(trans, BACKVOL, blockindex, VlEntry))
+ if ((errorcode = HashVolid(ctx, BACKVOL, blockindex, VlEntry)))
return errorcode;
}
if (updateentry->Mask & VLUPDATE_REPSITES) {
if (updateentry->RepsitesMask[i] & VLUPDATE_REPS_DELETE) {
if ((j =
repsite_exists(VlEntry,
- IpAddrToRelAddr(updateentry->
+ IpAddrToRelAddr(ctx, updateentry->
RepsitesTargetServer[i],
- trans),
+ 1),
updateentry->RepsitesTargetPart[i])) !=
-1)
repsite_compress(VlEntry, j);
return VL_BADPARTITION;
if (repsite_exists
(VlEntry,
- IpAddrToRelAddr(updateentry->RepsitesNewServer[i],
- trans),
+ IpAddrToRelAddr(ctx, updateentry->RepsitesNewServer[i], 1),
updateentry->RepsitesNewPart[i]) != -1)
return VL_DUPREPSERVER;
for (j = 0;
if (j >= OMAXNSERVERS)
return VL_REPSFULL;
if ((serverindex =
- IpAddrToRelAddr(updateentry->RepsitesNewServer[i],
- trans)) == -1)
+ IpAddrToRelAddr(ctx, updateentry->RepsitesNewServer[i],
+ 1)) == -1)
return VL_BADSERVER;
VlEntry->serverNumber[j] = serverindex;
VlEntry->serverPartition[j] = updateentry->RepsitesNewPart[i];
return VL_BADSERVER; */
if ((j =
repsite_exists(VlEntry,
- IpAddrToRelAddr(updateentry->
+ IpAddrToRelAddr(ctx, updateentry->
RepsitesTargetServer[i],
- trans),
+ 1),
updateentry->RepsitesTargetPart[i])) !=
-1) {
VlEntry->serverNumber[j] =
- IpAddrToRelAddr(updateentry->RepsitesNewServer[i],
- trans);
+ IpAddrToRelAddr(ctx, updateentry->RepsitesNewServer[i],
+ 1);
} else
return VL_NOREPSERVER;
}
return VL_BADPARTITION;
if ((j =
repsite_exists(VlEntry,
- IpAddrToRelAddr(updateentry->
+ IpAddrToRelAddr(ctx, updateentry->
RepsitesTargetServer[i],
- trans),
+ 1),
updateentry->RepsitesTargetPart[i])) !=
-1)
VlEntry->serverPartition[j] =
if (updateentry->RepsitesMask[i] & VLUPDATE_REPS_MODFLAG) {
if ((j =
repsite_exists(VlEntry,
- IpAddrToRelAddr(updateentry->
+ IpAddrToRelAddr(ctx, updateentry->
RepsitesTargetServer[i],
- trans),
+ 1),
updateentry->RepsitesTargetPart[i])) !=
-1) {
if (updateentry->RepsitesNewFlags[i] < 0
}
-/* Check if the specified [server,partition] entry is found in the vldb entry's repsite table; it's offset in the table is returned, if it's present there. */
+/* Check if the specified [server,partition] entry is found in the vldb
+ * entry's repsite table; it's offset in the table is returned, if it's
+ * present there. */
static int
-repsite_exists(VlEntry, server, partition)
- struct nvlentry *VlEntry;
- int server, partition;
+repsite_exists(struct nvlentry *VlEntry, int server, int partition)
{
int i;
-/* Repsite table compression: used when deleting a repsite entry so that all active repsite entries are on the top of the table. */
-static
-repsite_compress(VlEntry, offset)
- struct nvlentry *VlEntry;
- int offset;
+/* Repsite table compression: used when deleting a repsite entry so that
+ * all active repsite entries are on the top of the table. */
+static void
+repsite_compress(struct nvlentry *VlEntry, int offset)
{
int repsite_offset = offset;
for (;
}
-/* Convert from the internal (compacted) vldb entry to the external representation used by the interface. */
-static
-vlentry_to_vldbentry(VlEntry, VldbEntry)
- struct nvlentry *VlEntry;
- struct vldbentry *VldbEntry;
+/* Convert from the internal (compacted) vldb entry to the external
+ * representation used by the interface. */
+static void
+vlentry_to_vldbentry(struct vl_ctx *ctx, struct nvlentry *VlEntry,
+ struct vldbentry *VldbEntry)
{
int i, j;
for (i = 0; i < OMAXNSERVERS; i++) {
if (VlEntry->serverNumber[i] == BADSERVERID)
break;
- if ((HostAddress[j = VlEntry->serverNumber[i]] & 0xff000000) ==
+ if ((ctx->hostaddress[j = VlEntry->serverNumber[i]] & 0xff000000) ==
0xff000000) {
struct extentaddr *exp;
int base, index;
- base = (HostAddress[j] >> 16) & 0xff;
- index = HostAddress[j] & 0x0000ffff;
- exp = &ex_addr[base][index];
+ base = (ctx->hostaddress[j] >> 16) & 0xff;
+ index = ctx->hostaddress[j] & 0x0000ffff;
+ exp = &ctx->ex_addr[base][index];
/* For now return the first ip address back */
for (j = 0; j < VL_MAXIPADDRS_PERMH; j++) {
if (exp->ex_addrs[j]) {
}
} else
VldbEntry->serverNumber[i] =
- HostAddress[VlEntry->serverNumber[i]];
+ ctx->hostaddress[VlEntry->serverNumber[i]];
VldbEntry->serverPartition[i] = VlEntry->serverPartition[i];
VldbEntry->serverFlags[i] = VlEntry->serverFlags[i];
}
}
-/* Convert from the internal (compacted) vldb entry to the external representation used by the interface. */
-static
-vlentry_to_nvldbentry(VlEntry, VldbEntry)
- struct nvlentry *VlEntry;
- struct nvldbentry *VldbEntry;
+/* Convert from the internal (compacted) vldb entry to the external
+ * representation used by the interface. */
+static void
+vlentry_to_nvldbentry(struct vl_ctx *ctx, struct nvlentry *VlEntry,
+ struct nvldbentry *VldbEntry)
{
int i, j;
for (i = 0; i < NMAXNSERVERS; i++) {
if (VlEntry->serverNumber[i] == BADSERVERID)
break;
- if ((HostAddress[j = VlEntry->serverNumber[i]] & 0xff000000) ==
+ if ((ctx->hostaddress[j = VlEntry->serverNumber[i]] & 0xff000000) ==
0xff000000) {
struct extentaddr *exp;
int base, index;
- base = (HostAddress[j] >> 16) & 0xff;
- index = HostAddress[j] & 0x0000ffff;
- exp = &ex_addr[base][index];
+ base = (ctx->hostaddress[j] >> 16) & 0xff;
+ index = ctx->hostaddress[j] & 0x0000ffff;
+ exp = &ctx->ex_addr[base][index];
/* For now return the first ip address back */
for (j = 0; j < VL_MAXIPADDRS_PERMH; j++) {
if (exp->ex_addrs[j]) {
}
} else
VldbEntry->serverNumber[i] =
- HostAddress[VlEntry->serverNumber[i]];
+ ctx->hostaddress[VlEntry->serverNumber[i]];
VldbEntry->serverPartition[i] = VlEntry->serverPartition[i];
VldbEntry->serverFlags[i] = VlEntry->serverFlags[i];
}
VldbEntry->flags = VlEntry->flags;
}
-static
-vlentry_to_uvldbentry(VlEntry, VldbEntry)
- struct nvlentry *VlEntry;
- struct uvldbentry *VldbEntry;
+static void
+vlentry_to_uvldbentry(struct vl_ctx *ctx, struct nvlentry *VlEntry,
+ struct uvldbentry *VldbEntry)
{
int i, j;
break;
VldbEntry->serverFlags[i] = VlEntry->serverFlags[i];
VldbEntry->serverUnique[i] = 0;
- if ((HostAddress[j = VlEntry->serverNumber[i]] & 0xff000000) ==
+ if ((ctx->hostaddress[j = VlEntry->serverNumber[i]] & 0xff000000) ==
0xff000000) {
struct extentaddr *exp;
int base, index;
afsUUID tuuid;
- base = (HostAddress[j] >> 16) & 0xff;
- index = HostAddress[j] & 0x0000ffff;
- exp = &ex_addr[base][index];
+ base = (ctx->hostaddress[j] >> 16) & 0xff;
+ index = ctx->hostaddress[j] & 0x0000ffff;
+ exp = &ctx->ex_addr[base][index];
tuuid = exp->ex_hostuuid;
afs_ntohuuid(&tuuid);
VldbEntry->serverFlags[i] |= VLSERVER_FLAG_UUID;
VldbEntry->serverUnique[i] = ntohl(exp->ex_uniquifier);
} else {
VldbEntry->serverNumber[i].time_low =
- HostAddress[VlEntry->serverNumber[i]];
+ ctx->hostaddress[VlEntry->serverNumber[i]];
}
VldbEntry->serverPartition[i] = VlEntry->serverPartition[i];
/* Verify that the volname is a valid volume name. */
static int
-InvalidVolname(volname)
- char *volname;
+InvalidVolname(char *volname)
{
char *map;
int slen;
/* Verify that the given volume type is valid. */
static int
-InvalidVoltype(voltype)
- afs_int32 voltype;
+InvalidVoltype(afs_int32 voltype)
{
if (voltype != RWVOL && voltype != ROVOL && voltype != BACKVOL)
return 1;
static int
-InvalidOperation(voloper)
- afs_int32 voloper;
+InvalidOperation(afs_int32 voloper)
{
if (voloper != VLOP_MOVE && voloper != VLOP_RELEASE
&& voloper != VLOP_BACKUP && voloper != VLOP_DELETE
}
static int
-InvalidReleasetype(releasetype)
- afs_int32 releasetype;
+InvalidReleasetype(afs_int32 releasetype)
{
if ((releasetype & LOCKREL_TIMESTAMP) || (releasetype & LOCKREL_OPCODE)
|| (releasetype & LOCKREL_AFSID))
}
static int
-IpAddrToRelAddr(ipaddr, atrans)
- struct ubik_trans *atrans;
- register afs_uint32 ipaddr;
+IpAddrToRelAddr(struct vl_ctx *ctx, afs_uint32 ipaddr, int create)
{
- register int i, j;
- register afs_int32 code, base, index;
+ int i, j;
+ afs_int32 code, base, index;
struct extentaddr *exp;
for (i = 0; i <= MAXSERVERID; i++) {
- if (HostAddress[i] == ipaddr)
+ if (ctx->hostaddress[i] == ipaddr)
return i;
- if ((HostAddress[i] & 0xff000000) == 0xff000000) {
- base = (HostAddress[i] >> 16) & 0xff;
- index = HostAddress[i] & 0x0000ffff;
+ if ((ctx->hostaddress[i] & 0xff000000) == 0xff000000) {
+ base = (ctx->hostaddress[i] >> 16) & 0xff;
+ index = ctx->hostaddress[i] & 0x0000ffff;
if (base >= VL_MAX_ADDREXTBLKS) {
VLog(0,
("Internal error: Multihome extent base is too large. Base %d index %d\n",
base, index));
return -1; /* EINVAL */
}
- if (!ex_addr[base]) {
+ if (!ctx->ex_addr[base]) {
VLog(0,
("Internal error: Multihome extent does not exist. Base %d\n",
base));
return -1; /* EINVAL */
}
- exp = &ex_addr[base][index];
+ exp = &ctx->ex_addr[base][index];
for (j = 0; j < VL_MAXIPADDRS_PERMH; j++) {
if (exp->ex_addrs[j] && (ntohl(exp->ex_addrs[j]) == ipaddr)) {
return i;
}
/* allocate the new server a server id pronto */
- if (atrans) {
+ if (create) {
for (i = 0; i <= MAXSERVERID; i++) {
- if (cheader.IpMappedAddr[i] == 0) {
- cheader.IpMappedAddr[i] = htonl(ipaddr);
+ if (ctx->cheader->IpMappedAddr[i] == 0) {
+ ctx->cheader->IpMappedAddr[i] = htonl(ipaddr);
code =
- vlwrite(atrans,
- DOFFSET(0, &cheader, &cheader.IpMappedAddr[i]),
- (char *)&cheader.IpMappedAddr[i],
+ vlwrite(ctx->trans,
+ DOFFSET(0, ctx->cheader, &ctx->cheader->IpMappedAddr[i]),
+ (char *)&ctx->cheader->IpMappedAddr[i],
sizeof(afs_int32));
- HostAddress[i] = ipaddr;
+ ctx->hostaddress[i] = ipaddr;
if (code)
return -1;
return i;
}
static int
-ChangeIPAddr(ipaddr1, ipaddr2, atrans)
- struct ubik_trans *atrans;
- register afs_uint32 ipaddr1, ipaddr2;
+ChangeIPAddr(struct vl_ctx *ctx, afs_uint32 ipaddr1, afs_uint32 ipaddr2)
{
int i, j;
afs_int32 code;
- struct extentaddr *exp;
- int base, index, mhidx;
+ struct extentaddr *exp = NULL;
+ int base = 0;
+ int index, mhidx;
afsUUID tuuid;
afs_int32 blockindex, count;
int pollcount = 0;
struct nvlentry tentry;
-
- if (!atrans)
- return VL_CREATEFAIL;
+ int ipaddr1_id = -1, ipaddr2_id = -1;
/* Don't let addr change to 256.*.*.* : Causes internal error below */
if ((ipaddr2 & 0xff000000) == 0xff000000)
}
for (i = 0; i <= MAXSERVERID; i++) {
- if ((HostAddress[i] & 0xff000000) == 0xff000000) {
- base = (HostAddress[i] >> 16) & 0xff;
- index = HostAddress[i] & 0x0000ffff;
+ if ((ctx->hostaddress[i] & 0xff000000) == 0xff000000) {
+ base = (ctx->hostaddress[i] >> 16) & 0xff;
+ index = ctx->hostaddress[i] & 0x0000ffff;
if ((base >= VL_MAX_ADDREXTBLKS) || (index >= VL_MHSRV_PERBLK)) {
VLog(0,
("Internal error: Multihome extent addr is too large. Base %d index %d\n",
return -1; /* EINVAL */
}
- exp = &ex_addr[base][index];
+ exp = &ctx->ex_addr[base][index];
for (mhidx = 0; mhidx < VL_MAXIPADDRS_PERMH; mhidx++) {
if (!exp->ex_addrs[mhidx])
continue;
- if (ntohl(exp->ex_addrs[mhidx]) == ipaddr1)
- break;
+ if (ntohl(exp->ex_addrs[mhidx]) == ipaddr1) {
+ ipaddr1_id = i;
+ }
+ if (ipaddr2 != 0 && ntohl(exp->ex_addrs[mhidx]) == ipaddr2) {
+ ipaddr2_id = i;
+ }
}
- if (mhidx < VL_MAXIPADDRS_PERMH) {
- break;
+ } else {
+ if (ctx->hostaddress[i] == ipaddr1) {
+ exp = NULL;
+ ipaddr1_id = i;
+ }
+ if (ipaddr2 != 0 && ctx->hostaddress[i] == ipaddr2) {
+ ipaddr2_id = i;
}
- } else if (HostAddress[i] == ipaddr1) {
- exp = NULL;
+ }
+
+ if (ipaddr1_id >= 0 && (ipaddr2 == 0 || ipaddr2_id >= 0)) {
+ /* we've either found both IPs already in the VLDB, or we found
+ * ipaddr1, and we're not going to find ipaddr2 because it's 0 */
break;
}
}
- if (i >= MAXSERVERID) {
+ if (ipaddr1_id < 0) {
return VL_NOENT; /* not found */
}
+ if (ipaddr2_id >= 0 && ipaddr2_id != ipaddr1_id) {
+ char buf1[16], buf2[16];
+ VLog(0, ("Cannot change IP address from %s to %s because the latter "
+ "is in use by server id %d\n",
+ afs_inet_ntoa_r(htonl(ipaddr1), buf1),
+ afs_inet_ntoa_r(htonl(ipaddr2), buf2),
+ ipaddr2_id));
+ return VL_MULTIPADDR;
+ }
+
/* If we are removing a server entry, a volume cannot
* exist on the server. If one does, don't remove the
* server entry: return error "volume entry exists".
*/
if (ipaddr2 == 0) {
- for (blockindex = NextEntry(atrans, 0, &tentry, &count); blockindex;
- blockindex = NextEntry(atrans, blockindex, &tentry, &count)) {
+ for (blockindex = NextEntry(ctx, 0, &tentry, &count); blockindex;
+ blockindex = NextEntry(ctx, blockindex, &tentry, &count)) {
if (++pollcount > 50) {
+#ifndef AFS_PTHREAD_ENV
IOMGR_Poll();
+#endif
pollcount = 0;
}
for (j = 0; j < NMAXNSERVERS; j++) {
if (tentry.serverNumber[j] == BADSERVERID)
break;
- if (tentry.serverNumber[j] == i) {
+ if (tentry.serverNumber[j] == ipaddr1_id) {
return VL_IDEXIST;
}
}
VLog(0,
("The following IP address is being %s:\n",
(ipaddr2 ? "changed" : "removed")));
- printf(" entry %d: ", i);
+ VLog(0, (" entry %d: ", i));
if (exp) {
- printf("[");
+ VLog(0, ("["));
for (mhidx = 0; mhidx < VL_MAXIPADDRS_PERMH; mhidx++) {
if (!exp->ex_addrs[mhidx])
continue;
if (mhidx > 0)
- printf(" ");
+ VLog(0, (" "));
PADDR(ntohl(exp->ex_addrs[mhidx]));
}
- printf("]");
+ VLog(0, ("]"));
} else {
PADDR(ipaddr1);
}
if (ipaddr2) {
- printf(" -> ");
+ VLog(0, (" -> "));
PADDR(ipaddr2);
}
- printf("\n");
+ VLog(0, ("\n"));
/* Change the registered uuuid addresses */
if (exp) {
afs_htonuuid(&tuuid);
exp->ex_hostuuid = tuuid;
code =
- vlwrite(atrans,
- DOFFSET(ntohl(ex_addr[0]->ex_contaddrs[base]),
- (char *)ex_addr[base], (char *)exp),
+ vlwrite(ctx->trans,
+ DOFFSET(ntohl(ctx->ex_addr[0]->ex_contaddrs[base]),
+ (char *)ctx->ex_addr[base], (char *)exp),
(char *)&tuuid, sizeof(tuuid));
if (code)
return VL_IO;
}
/* Now change the host address entry */
- cheader.IpMappedAddr[i] = htonl(ipaddr2);
+ ctx->cheader->IpMappedAddr[ipaddr1_id] = htonl(ipaddr2);
code =
- vlwrite(atrans, DOFFSET(0, &cheader, &cheader.IpMappedAddr[i]),
+ vlwrite(ctx->trans, DOFFSET(0, ctx->cheader, &ctx->cheader->IpMappedAddr[ipaddr1_id]),
(char *)
- &cheader.IpMappedAddr[i], sizeof(afs_int32));
- HostAddress[i] = ipaddr2;
+ &ctx->cheader->IpMappedAddr[ipaddr1_id], sizeof(afs_int32));
+ ctx->hostaddress[ipaddr1_id] = ipaddr2;
if (code)
return VL_IO;
/* see if the vlserver is back yet */
afs_int32
-SVL_ProbeServer(rxcall)
- struct rx_call *rxcall;
+SVL_ProbeServer(struct rx_call *rxcall)
{
return 0;
}