};
char *
-RSkipLine(astr)
- register char *astr;
+RSkipLine(register char *astr)
{
while (*astr != '\n')
astr++;
struct Acl *
-RParseAcl(astr)
- char *astr;
+RParseAcl(char *astr)
{
int nplus, nminus, i, trights;
char tname[MAXNAME];
}
-int
+void
RAclToString(struct Acl *acl, char *mydata, int ntoh_conv)
{
char tstring[MAXSIZE];
sprintf(tstring, "%s %d\n", tp->name, tp->rights);
strcat(mydata, tstring);
}
- return 0;
}
/* Free all malloced stuff */
-int
+void
RCleanAcl(struct Acl *aa)
{
register struct AclEntry *te, *ne;
free(te);
}
free(aa);
- return 0;
}
-int
+void
RFetchVolumeStatus_conversion(char *data, int ntoh_conv)
{
struct AFSFetchVolumeStatus *status = (AFSFetchVolumeStatus *) data;
status->PartBlocksAvail = htonl(status->PartBlocksAvail);
status->PartMaxBlocks = htonl(status->PartMaxBlocks);
}
- return 0;
}
-int
+void
RClearToken_convert(char *ptr, int ntoh_conv)
{
struct ClearToken *ticket = (struct ClearToken *)ptr;
ticket->BeginTimestamp = htonl(ticket->BeginTimestamp);
ticket->EndTimestamp = htonl(ticket->EndTimestamp);
}
- return 0;
}
-int
+void
inparam_conversion(afs_int32 cmd, char *buffer, afs_int32 ntoh_conv)
{
struct Acl *acl;
/* Note that new pioctls are supposed to be in network order! */
break;
}
- return 0;
}
-int
+void
outparam_conversion(afs_int32 cmd, char *buffer, afs_int32 ntoh_conv)
{
struct Acl *acl;
/* Note that new pioctls are supposed to be in network order! */
break;
}
- return 0;
}