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|
/* $NetBSD: rpcb_svc_com.c,v 1.9 2002/11/08 00:16:39 fvdl Exp $ */
/* $FreeBSD$ */
/*
* Sun RPC is a product of Sun Microsystems, Inc. and is provided for
* unrestricted use provided that this legend is included on all tape
* media and as a part of the software program in whole or part. Users
* may copy or modify Sun RPC without charge, but are not authorized
* to license or distribute it to anyone else except as part of a product or
* program developed by the user.
*
* SUN RPC IS PROVIDED AS IS WITH NO WARRANTIES OF ANY KIND INCLUDING THE
* WARRANTIES OF DESIGN, MERCHANTIBILITY AND FITNESS FOR A PARTICULAR
* PURPOSE, OR ARISING FROM A COURSE OF DEALING, USAGE OR TRADE PRACTICE.
*
* Sun RPC is provided with no support and without any obligation on the
* part of Sun Microsystems, Inc. to assist in its use, correction,
* modification or enhancement.
*
* SUN MICROSYSTEMS, INC. SHALL HAVE NO LIABILITY WITH RESPECT TO THE
* INFRINGEMENT OF COPYRIGHTS, TRADE SECRETS OR ANY PATENTS BY SUN RPC
* OR ANY PART THEREOF.
*
* In no event will Sun Microsystems, Inc. be liable for any lost revenue
* or profits or other special, indirect and consequential damages, even if
* Sun has been advised of the possibility of such damages.
*
* Sun Microsystems, Inc.
* 2550 Garcia Avenue
* Mountain View, California 94043
*/
/*
* Copyright (c) 1986 - 1991 by Sun Microsystems, Inc.
*/
/* #ident "@(#)rpcb_svc_com.c 1.18 94/05/02 SMI" */
/*
* rpcb_svc_com.c
* The commom server procedure for the rpcbind.
*/
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/param.h>
#include <sys/poll.h>
#include <sys/socket.h>
#include <rpc/rpc.h>
#include <rpc/rpcb_prot.h>
#include <rpc/svc_dg.h>
#include <netconfig.h>
#include <errno.h>
#include <syslog.h>
#include <unistd.h>
#include <stdio.h>
#ifdef PORTMAP
#include <netinet/in.h>
#include <rpc/pmap_prot.h>
#endif /* PORTMAP */
#include <string.h>
#include <stdlib.h>
#include "rpcbind.h"
#define RPC_BUF_MAX 65536 /* can be raised if required */
static char *nullstring = "";
static int rpcb_rmtcalls;
struct rmtcallfd_list {
int fd;
SVCXPRT *xprt;
char *netid;
struct rmtcallfd_list *next;
};
#define NFORWARD 64
#define MAXTIME_OFF 300 /* 5 minutes */
struct finfo {
int flag;
#define FINFO_ACTIVE 0x1
u_int32_t caller_xid;
struct netbuf *caller_addr;
u_int32_t forward_xid;
int forward_fd;
char *uaddr;
rpcproc_t reply_type;
rpcvers_t versnum;
time_t time;
};
static struct finfo FINFO[NFORWARD];
static bool_t xdr_encap_parms(XDR *, struct encap_parms *);
static bool_t xdr_rmtcall_args(XDR *, struct r_rmtcall_args *);
static bool_t xdr_rmtcall_result(XDR *, struct r_rmtcall_args *);
static bool_t xdr_opaque_parms(XDR *, struct r_rmtcall_args *);
static int find_rmtcallfd_by_netid(char *);
static SVCXPRT *find_rmtcallxprt_by_fd(int);
static int forward_register(u_int32_t, struct netbuf *, int, char *,
rpcproc_t, rpcvers_t, u_int32_t *);
static struct finfo *forward_find(u_int32_t);
static int free_slot_by_xid(u_int32_t);
static int free_slot_by_index(int);
static int netbufcmp(struct netbuf *, struct netbuf *);
static struct netbuf *netbufdup(struct netbuf *);
static void netbuffree(struct netbuf *);
static int check_rmtcalls(struct pollfd *, int);
static void xprt_set_caller(SVCXPRT *, struct finfo *);
static void send_svcsyserr(SVCXPRT *, struct finfo *);
static void handle_reply(int, SVCXPRT *);
static void find_versions(rpcprog_t, char *, rpcvers_t *, rpcvers_t *);
static rpcblist_ptr find_service(rpcprog_t, rpcvers_t, char *);
static char *getowner(SVCXPRT *, char *, size_t);
static int add_pmaplist(RPCB *);
static int del_pmaplist(RPCB *);
/*
* Set a mapping of program, version, netid
*/
/* ARGSUSED */
void *
rpcbproc_set_com(void *arg, struct svc_req *rqstp __unused, SVCXPRT *transp,
rpcvers_t rpcbversnum)
{
RPCB *regp = (RPCB *)arg;
static bool_t ans;
char owner[64];
#ifdef RPCBIND_DEBUG
if (debugging)
fprintf(stderr, "RPCB_SET request for (%lu, %lu, %s, %s) : ",
(unsigned long)regp->r_prog, (unsigned long)regp->r_vers,
regp->r_netid, regp->r_addr);
#endif
ans = map_set(regp, getowner(transp, owner, sizeof owner));
#ifdef RPCBIND_DEBUG
if (debugging)
fprintf(stderr, "%s\n", ans == TRUE ? "succeeded" : "failed");
#endif
/* XXX: should have used some defined constant here */
rpcbs_set(rpcbversnum - 2, ans);
return (void *)&ans;
}
bool_t
map_set(RPCB *regp, char *owner)
{
RPCB reg, *a;
rpcblist_ptr rbl, fnd;
reg = *regp;
/*
* check to see if already used
* find_service returns a hit even if
* the versions don't match, so check for it
*/
fnd = find_service(reg.r_prog, reg.r_vers, reg.r_netid);
if (fnd && (fnd->rpcb_map.r_vers == reg.r_vers)) {
if (!strcmp(fnd->rpcb_map.r_addr, reg.r_addr))
/*
* if these match then it is already
* registered so just say "OK".
*/
return (TRUE);
else
return (FALSE);
}
/*
* add to the end of the list
*/
rbl = malloc(sizeof (RPCBLIST));
if (rbl == NULL)
return (FALSE);
a = &(rbl->rpcb_map);
a->r_prog = reg.r_prog;
a->r_vers = reg.r_vers;
a->r_netid = strdup(reg.r_netid);
a->r_addr = strdup(reg.r_addr);
a->r_owner = strdup(owner);
if (!a->r_addr || !a->r_netid || !a->r_owner) {
if (a->r_netid)
free(a->r_netid);
if (a->r_addr)
free(a->r_addr);
if (a->r_owner)
free(a->r_owner);
free(rbl);
return (FALSE);
}
rbl->rpcb_next = (rpcblist_ptr)NULL;
if (list_rbl == NULL) {
list_rbl = rbl;
} else {
for (fnd = list_rbl; fnd->rpcb_next;
fnd = fnd->rpcb_next)
;
fnd->rpcb_next = rbl;
}
#ifdef PORTMAP
(void) add_pmaplist(regp);
#endif
return (TRUE);
}
/*
* Unset a mapping of program, version, netid
*/
/* ARGSUSED */
void *
rpcbproc_unset_com(void *arg, struct svc_req *rqstp __unused, SVCXPRT *transp,
rpcvers_t rpcbversnum)
{
RPCB *regp = (RPCB *)arg;
static bool_t ans;
char owner[64];
#ifdef RPCBIND_DEBUG
if (debugging)
fprintf(stderr, "RPCB_UNSET request for (%lu, %lu, %s) : ",
(unsigned long)regp->r_prog, (unsigned long)regp->r_vers,
regp->r_netid);
#endif
ans = map_unset(regp, getowner(transp, owner, sizeof owner));
#ifdef RPCBIND_DEBUG
if (debugging)
fprintf(stderr, "%s\n", ans == TRUE ? "succeeded" : "failed");
#endif
/* XXX: should have used some defined constant here */
rpcbs_unset(rpcbversnum - 2, ans);
return (void *)&ans;
}
bool_t
map_unset(RPCB *regp, char *owner)
{
int ans = 0;
rpcblist_ptr rbl, prev, tmp;
if (owner == NULL)
return (0);
for (prev = NULL, rbl = list_rbl; rbl; /* cstyle */) {
if ((rbl->rpcb_map.r_prog != regp->r_prog) ||
(rbl->rpcb_map.r_vers != regp->r_vers) ||
(regp->r_netid[0] && strcasecmp(regp->r_netid,
rbl->rpcb_map.r_netid))) {
/* both rbl & prev move forwards */
prev = rbl;
rbl = rbl->rpcb_next;
continue;
}
/*
* Check whether appropriate uid. Unset only
* if superuser or the owner itself.
*/
if (strcmp(owner, "superuser") &&
strcmp(rbl->rpcb_map.r_owner, owner))
return (0);
/* found it; rbl moves forward, prev stays */
ans = 1;
tmp = rbl;
rbl = rbl->rpcb_next;
if (prev == NULL)
list_rbl = rbl;
else
prev->rpcb_next = rbl;
free(tmp->rpcb_map.r_addr);
free(tmp->rpcb_map.r_netid);
free(tmp->rpcb_map.r_owner);
free(tmp);
}
#ifdef PORTMAP
if (ans)
(void) del_pmaplist(regp);
#endif
/*
* We return 1 either when the entry was not there or it
* was able to unset it. It can come to this point only if
* atleast one of the conditions is true.
*/
return (1);
}
void
delete_prog(unsigned int prog)
{
RPCB reg;
register rpcblist_ptr rbl;
for (rbl = list_rbl; rbl != NULL; rbl = rbl->rpcb_next) {
if ((rbl->rpcb_map.r_prog != prog))
continue;
if (is_bound(rbl->rpcb_map.r_netid, rbl->rpcb_map.r_addr))
continue;
reg.r_prog = rbl->rpcb_map.r_prog;
reg.r_vers = rbl->rpcb_map.r_vers;
reg.r_netid = strdup(rbl->rpcb_map.r_netid);
(void) map_unset(®, "superuser");
free(reg.r_netid);
}
}
void *
rpcbproc_getaddr_com(RPCB *regp, struct svc_req *rqstp __unused,
SVCXPRT *transp, rpcvers_t rpcbversnum, rpcvers_t verstype)
{
static char *uaddr;
char *saddr = NULL;
rpcblist_ptr fnd;
if (uaddr != NULL && uaddr != nullstring) {
free(uaddr);
uaddr = NULL;
}
fnd = find_service(regp->r_prog, regp->r_vers, transp->xp_netid);
if (fnd && ((verstype == RPCB_ALLVERS) ||
(regp->r_vers == fnd->rpcb_map.r_vers))) {
if (*(regp->r_addr) != '\0') { /* may contain a hint about */
saddr = regp->r_addr; /* the interface that we */
} /* should use */
if (!(uaddr = mergeaddr(transp, transp->xp_netid,
fnd->rpcb_map.r_addr, saddr))) {
/* Try whatever we have */
uaddr = strdup(fnd->rpcb_map.r_addr);
} else if (!uaddr[0]) {
/*
* The server died. Unset all versions of this prog.
*/
delete_prog(regp->r_prog);
uaddr = nullstring;
}
} else {
uaddr = nullstring;
}
#ifdef RPCBIND_DEBUG
if (debugging)
fprintf(stderr, "getaddr: %s\n", uaddr);
#endif
/* XXX: should have used some defined constant here */
rpcbs_getaddr(rpcbversnum - 2, regp->r_prog, regp->r_vers,
transp->xp_netid, uaddr);
return (void *)&uaddr;
}
/* ARGSUSED */
void *
rpcbproc_gettime_com(void *arg __unused, struct svc_req *rqstp __unused,
SVCXPRT *transp __unused, rpcvers_t rpcbversnum __unused)
{
static time_t curtime;
(void) time(&curtime);
return (void *)&curtime;
}
/*
* Convert uaddr to taddr. Should be used only by
* local servers/clients. (kernel level stuff only)
*/
/* ARGSUSED */
void *
rpcbproc_uaddr2taddr_com(void *arg, struct svc_req *rqstp __unused,
SVCXPRT *transp, rpcvers_t rpcbversnum __unused)
{
char **uaddrp = (char **)arg;
struct netconfig *nconf;
static struct netbuf nbuf;
static struct netbuf *taddr;
if (taddr) {
free(taddr->buf);
free(taddr);
taddr = NULL;
}
if (((nconf = rpcbind_get_conf(transp->xp_netid)) == NULL) ||
((taddr = uaddr2taddr(nconf, *uaddrp)) == NULL)) {
(void) memset((char *)&nbuf, 0, sizeof (struct netbuf));
return (void *)&nbuf;
}
return (void *)taddr;
}
/*
* Convert taddr to uaddr. Should be used only by
* local servers/clients. (kernel level stuff only)
*/
/* ARGSUSED */
void *
rpcbproc_taddr2uaddr_com(void *arg, struct svc_req *rqstp __unused,
SVCXPRT *transp, rpcvers_t rpcbversnum __unused)
{
struct netbuf *taddr = (struct netbuf *)arg;
static char *uaddr;
struct netconfig *nconf;
#ifdef CHEW_FDS
int fd;
if ((fd = open("/dev/null", O_RDONLY)) == -1) {
uaddr = (char *)strerror(errno);
return (&uaddr);
}
#endif /* CHEW_FDS */
if (uaddr != NULL && uaddr != nullstring) {
free(uaddr);
uaddr = NULL;
}
if (((nconf = rpcbind_get_conf(transp->xp_netid)) == NULL) ||
((uaddr = taddr2uaddr(nconf, taddr)) == NULL)) {
uaddr = nullstring;
}
return (void *)&uaddr;
}
static bool_t
xdr_encap_parms(XDR *xdrs, struct encap_parms *epp)
{
return (xdr_bytes(xdrs, &(epp->args), (u_int *) &(epp->arglen), ~0));
}
/*
* XDR remote call arguments. It ignores the address part.
* written for XDR_DECODE direction only
*/
static bool_t
xdr_rmtcall_args(XDR *xdrs, struct r_rmtcall_args *cap)
{
/* does not get the address or the arguments */
if (xdr_u_int32_t(xdrs, &(cap->rmt_prog)) &&
xdr_u_int32_t(xdrs, &(cap->rmt_vers)) &&
xdr_u_int32_t(xdrs, &(cap->rmt_proc))) {
return (xdr_encap_parms(xdrs, &(cap->rmt_args)));
}
return (FALSE);
}
/*
* XDR remote call results along with the address. Ignore
* program number, version number and proc number.
* Written for XDR_ENCODE direction only.
*/
static bool_t
xdr_rmtcall_result(XDR *xdrs, struct r_rmtcall_args *cap)
{
bool_t result;
#ifdef PORTMAP
if (cap->rmt_localvers == PMAPVERS) {
int h1, h2, h3, h4, p1, p2;
u_long port;
/* interpret the universal address for TCP/IP */
if (sscanf(cap->rmt_uaddr, "%d.%d.%d.%d.%d.%d",
&h1, &h2, &h3, &h4, &p1, &p2) != 6)
return (FALSE);
port = ((p1 & 0xff) << 8) + (p2 & 0xff);
result = xdr_u_long(xdrs, &port);
} else
#endif
if ((cap->rmt_localvers == RPCBVERS) ||
(cap->rmt_localvers == RPCBVERS4)) {
result = xdr_wrapstring(xdrs, &(cap->rmt_uaddr));
} else {
return (FALSE);
}
if (result == TRUE)
return (xdr_encap_parms(xdrs, &(cap->rmt_args)));
return (FALSE);
}
/*
* only worries about the struct encap_parms part of struct r_rmtcall_args.
* The arglen must already be set!!
*/
static bool_t
xdr_opaque_parms(XDR *xdrs, struct r_rmtcall_args *cap)
{
return (xdr_opaque(xdrs, cap->rmt_args.args, cap->rmt_args.arglen));
}
static struct rmtcallfd_list *rmthead;
static struct rmtcallfd_list *rmttail;
int
create_rmtcall_fd(struct netconfig *nconf)
{
int fd;
struct rmtcallfd_list *rmt;
SVCXPRT *xprt;
if ((fd = __rpc_nconf2fd(nconf)) == -1) {
if (debugging)
fprintf(stderr,
"create_rmtcall_fd: couldn't open \"%s\" (errno %d)\n",
nconf->nc_device, errno);
return (-1);
}
xprt = svc_tli_create(fd, 0, (struct t_bind *) 0, 0, 0);
if (xprt == NULL) {
if (debugging)
fprintf(stderr,
"create_rmtcall_fd: svc_tli_create failed\n");
return (-1);
}
rmt = malloc(sizeof (struct rmtcallfd_list));
if (rmt == NULL) {
syslog(LOG_ERR, "create_rmtcall_fd: no memory!");
return (-1);
}
rmt->xprt = xprt;
rmt->netid = strdup(nconf->nc_netid);
xprt->xp_netid = rmt->netid;
rmt->fd = fd;
rmt->next = NULL;
if (rmthead == NULL) {
rmthead = rmt;
rmttail = rmt;
} else {
rmttail->next = rmt;
rmttail = rmt;
}
/* XXX not threadsafe */
if (fd > svc_maxfd)
svc_maxfd = fd;
FD_SET(fd, &svc_fdset);
return (fd);
}
static int
find_rmtcallfd_by_netid(char *netid)
{
struct rmtcallfd_list *rmt;
for (rmt = rmthead; rmt != NULL; rmt = rmt->next) {
if (strcmp(netid, rmt->netid) == 0) {
return (rmt->fd);
}
}
return (-1);
}
static SVCXPRT *
find_rmtcallxprt_by_fd(int fd)
{
struct rmtcallfd_list *rmt;
for (rmt = rmthead; rmt != NULL; rmt = rmt->next) {
if (fd == rmt->fd) {
return (rmt->xprt);
}
}
return (NULL);
}
/*
* Call a remote procedure service. This procedure is very quiet when things
* go wrong. The proc is written to support broadcast rpc. In the broadcast
* case, a machine should shut-up instead of complain, lest the requestor be
* overrun with complaints at the expense of not hearing a valid reply.
* When receiving a request and verifying that the service exists, we
*
* receive the request
*
* open a new TLI endpoint on the same transport on which we received
* the original request
*
* remember the original request's XID (which requires knowing the format
* of the svc_dg_data structure)
*
* forward the request, with a new XID, to the requested service,
* remembering the XID used to send this request (for later use in
* reassociating the answer with the original request), the requestor's
* address, the file descriptor on which the forwarded request is
* made and the service's address.
*
* mark the file descriptor on which we anticipate receiving a reply from
* the service and one to select for in our private svc_run procedure
*
* At some time in the future, a reply will be received from the service to
* which we forwarded the request. At that time, we detect that the socket
* used was for forwarding (by looking through the finfo structures to see
* whether the fd corresponds to one of those) and call handle_reply() to
*
* receive the reply
*
* bundle the reply, along with the service's universal address
*
* create a SVCXPRT structure and use a version of svc_sendreply
* that allows us to specify the reply XID and destination, send the reply
* to the original requestor.
*/
void
rpcbproc_callit_com(struct svc_req *rqstp, SVCXPRT *transp,
rpcproc_t reply_type, rpcvers_t versnum)
{
register rpcblist_ptr rbl;
struct netconfig *nconf;
struct netbuf *caller;
struct r_rmtcall_args a;
char *buf_alloc = NULL, *outbufp;
char *outbuf_alloc = NULL;
char buf[RPC_BUF_MAX], outbuf[RPC_BUF_MAX];
struct netbuf *na = (struct netbuf *) NULL;
struct rpc_msg call_msg;
int outlen;
u_int sendsz;
XDR outxdr;
AUTH *auth;
int fd = -1;
char *uaddr, *m_uaddr = NULL, *local_uaddr = NULL;
u_int32_t *xidp;
struct __rpc_sockinfo si;
struct sockaddr *localsa;
struct netbuf tbuf;
if (!__rpc_fd2sockinfo(transp->xp_fd, &si)) {
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
return;
}
if (si.si_socktype != SOCK_DGRAM)
return; /* Only datagram type accepted */
sendsz = __rpc_get_t_size(si.si_af, si.si_proto, UDPMSGSIZE);
if (sendsz == 0) { /* data transfer not supported */
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
return;
}
/*
* Should be multiple of 4 for XDR.
*/
sendsz = ((sendsz + 3) / 4) * 4;
if (sendsz > RPC_BUF_MAX) {
#ifdef notyet
buf_alloc = alloca(sendsz); /* not in IDR2? */
#else
buf_alloc = malloc(sendsz);
#endif /* notyet */
if (buf_alloc == NULL) {
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: No Memory!\n");
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
return;
}
a.rmt_args.args = buf_alloc;
} else {
a.rmt_args.args = buf;
}
call_msg.rm_xid = 0; /* For error checking purposes */
if (!svc_getargs(transp, (xdrproc_t) xdr_rmtcall_args, (char *) &a)) {
if (reply_type == RPCBPROC_INDIRECT)
svcerr_decode(transp);
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: svc_getargs failed\n");
goto error;
}
if (!check_callit(transp, &a, versnum)) {
svcerr_weakauth(transp);
goto error;
}
caller = svc_getrpccaller(transp);
#ifdef RPCBIND_DEBUG
if (debugging) {
uaddr = taddr2uaddr(rpcbind_get_conf(transp->xp_netid), caller);
fprintf(stderr, "%s %s req for (%lu, %lu, %lu, %s) from %s : ",
versnum == PMAPVERS ? "pmap_rmtcall" :
versnum == RPCBVERS ? "rpcb_rmtcall" :
versnum == RPCBVERS4 ? "rpcb_indirect" : "unknown",
reply_type == RPCBPROC_INDIRECT ? "indirect" : "callit",
(unsigned long)a.rmt_prog, (unsigned long)a.rmt_vers,
(unsigned long)a.rmt_proc, transp->xp_netid,
uaddr ? uaddr : "unknown");
if (uaddr)
free(uaddr);
}
#endif
rbl = find_service(a.rmt_prog, a.rmt_vers, transp->xp_netid);
rpcbs_rmtcall(versnum - 2, reply_type, a.rmt_prog, a.rmt_vers,
a.rmt_proc, transp->xp_netid, rbl);
if (rbl == (rpcblist_ptr)NULL) {
#ifdef RPCBIND_DEBUG
if (debugging)
fprintf(stderr, "not found\n");
#endif
if (reply_type == RPCBPROC_INDIRECT)
svcerr_noprog(transp);
goto error;
}
if (rbl->rpcb_map.r_vers != a.rmt_vers) {
if (reply_type == RPCBPROC_INDIRECT) {
rpcvers_t vers_low, vers_high;
find_versions(a.rmt_prog, transp->xp_netid,
&vers_low, &vers_high);
svcerr_progvers(transp, vers_low, vers_high);
}
goto error;
}
#ifdef RPCBIND_DEBUG
if (debugging)
fprintf(stderr, "found at uaddr %s\n", rbl->rpcb_map.r_addr);
#endif
/*
* Check whether this entry is valid and a server is present
* Mergeaddr() returns NULL if no such entry is present, and
* returns "" if the entry was present but the server is not
* present (i.e., it crashed).
*/
if (reply_type == RPCBPROC_INDIRECT) {
uaddr = mergeaddr(transp, transp->xp_netid,
rbl->rpcb_map.r_addr, NULL);
if (uaddr == NULL || uaddr[0] == '\0') {
svcerr_noprog(transp);
if (uaddr != NULL)
free(uaddr);
goto error;
}
free(uaddr);
}
nconf = rpcbind_get_conf(transp->xp_netid);
if (nconf == (struct netconfig *)NULL) {
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: rpcbind_get_conf failed\n");
goto error;
}
localsa = local_sa(((struct sockaddr *)caller->buf)->sa_family);
if (localsa == NULL) {
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: no local address\n");
goto error;
}
tbuf.len = tbuf.maxlen = localsa->sa_len;
tbuf.buf = localsa;
local_uaddr =
addrmerge(&tbuf, rbl->rpcb_map.r_addr, NULL, nconf->nc_netid);
m_uaddr = addrmerge(caller, rbl->rpcb_map.r_addr, NULL,
nconf->nc_netid);
#ifdef RPCBIND_DEBUG
if (debugging)
fprintf(stderr, "merged uaddr %s\n", m_uaddr);
#endif
if ((fd = find_rmtcallfd_by_netid(nconf->nc_netid)) == -1) {
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
goto error;
}
xidp = __rpcb_get_dg_xidp(transp);
switch (forward_register(*xidp, caller, fd, m_uaddr, reply_type,
versnum, &call_msg.rm_xid)) {
case 1:
/* Success; forward_register() will free m_uaddr for us. */
m_uaddr = NULL;
break;
case 0:
/*
* A duplicate request for the slow server. Let's not
* beat on it any more.
*/
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: duplicate request\n");
goto error;
case -1:
/* forward_register failed. Perhaps no memory. */
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: forward_register failed\n");
goto error;
}
#ifdef DEBUG_RMTCALL
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: original XID %x, new XID %x\n",
*xidp, call_msg.rm_xid);
#endif
call_msg.rm_direction = CALL;
call_msg.rm_call.cb_rpcvers = RPC_MSG_VERSION;
call_msg.rm_call.cb_prog = a.rmt_prog;
call_msg.rm_call.cb_vers = a.rmt_vers;
if (sendsz > RPC_BUF_MAX) {
#ifdef notyet
outbuf_alloc = alloca(sendsz); /* not in IDR2? */
#else
outbuf_alloc = malloc(sendsz);
#endif /* notyet */
if (outbuf_alloc == NULL) {
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: No memory!\n");
goto error;
}
xdrmem_create(&outxdr, outbuf_alloc, sendsz, XDR_ENCODE);
} else {
xdrmem_create(&outxdr, outbuf, sendsz, XDR_ENCODE);
}
if (!xdr_callhdr(&outxdr, &call_msg)) {
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: xdr_callhdr failed\n");
goto error;
}
if (!xdr_u_int32_t(&outxdr, &(a.rmt_proc))) {
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: xdr_u_long failed\n");
goto error;
}
if (rqstp->rq_cred.oa_flavor == AUTH_NULL) {
auth = authnone_create();
} else if (rqstp->rq_cred.oa_flavor == AUTH_SYS) {
struct authunix_parms *au;
au = (struct authunix_parms *)rqstp->rq_clntcred;
auth = authunix_create(au->aup_machname,
au->aup_uid, au->aup_gid,
au->aup_len, au->aup_gids);
if (auth == NULL) /* fall back */
auth = authnone_create();
} else {
/* we do not support any other authentication scheme */
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: oa_flavor != AUTH_NONE and oa_flavor != AUTH_SYS\n");
if (reply_type == RPCBPROC_INDIRECT)
svcerr_weakauth(transp); /* XXX too strong.. */
goto error;
}
if (auth == NULL) {
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: authwhatever_create returned NULL\n");
goto error;
}
if (!AUTH_MARSHALL(auth, &outxdr)) {
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
AUTH_DESTROY(auth);
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: AUTH_MARSHALL failed\n");
goto error;
}
AUTH_DESTROY(auth);
if (!xdr_opaque_parms(&outxdr, &a)) {
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: xdr_opaque_parms failed\n");
goto error;
}
outlen = (int) XDR_GETPOS(&outxdr);
if (outbuf_alloc)
outbufp = outbuf_alloc;
else
outbufp = outbuf;
na = uaddr2taddr(nconf, local_uaddr);
if (!na) {
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
goto error;
}
if (sendto(fd, outbufp, outlen, 0, (struct sockaddr *)na->buf, na->len)
!= outlen) {
if (debugging)
fprintf(stderr,
"rpcbproc_callit_com: sendto failed: errno %d\n", errno);
if (reply_type == RPCBPROC_INDIRECT)
svcerr_systemerr(transp);
goto error;
}
goto out;
error:
if (call_msg.rm_xid != 0)
(void) free_slot_by_xid(call_msg.rm_xid);
out:
if (local_uaddr)
free(local_uaddr);
if (buf_alloc)
free(buf_alloc);
if (outbuf_alloc)
free(outbuf_alloc);
if (na) {
free(na->buf);
free(na);
}
if (m_uaddr != NULL)
free(m_uaddr);
}
/*
* Makes an entry into the FIFO for the given request.
* Returns 1 on success, 0 if this is a duplicate request, or -1 on error.
* *callxidp is set to the xid of the call.
*/
static int
forward_register(u_int32_t caller_xid, struct netbuf *caller_addr,
int forward_fd, char *uaddr, rpcproc_t reply_type,
rpcvers_t versnum, u_int32_t *callxidp)
{
int i;
int j = 0;
time_t min_time, time_now;
static u_int32_t lastxid;
int entry = -1;
min_time = FINFO[0].time;
time_now = time((time_t *)0);
/* initialization */
if (lastxid == 0)
lastxid = time_now * NFORWARD;
/*
* Check if it is a duplicate entry. Then,
* try to find an empty slot. If not available, then
* use the slot with the earliest time.
*/
for (i = 0; i < NFORWARD; i++) {
if (FINFO[i].flag & FINFO_ACTIVE) {
if ((FINFO[i].caller_xid == caller_xid) &&
(FINFO[i].reply_type == reply_type) &&
(FINFO[i].versnum == versnum) &&
(!netbufcmp(FINFO[i].caller_addr,
caller_addr))) {
FINFO[i].time = time((time_t *)0);
return (0); /* Duplicate entry */
} else {
/* Should we wait any longer */
if ((time_now - FINFO[i].time) > MAXTIME_OFF)
(void) free_slot_by_index(i);
}
}
if (entry == -1) {
if ((FINFO[i].flag & FINFO_ACTIVE) == 0) {
entry = i;
} else if (FINFO[i].time < min_time) {
j = i;
min_time = FINFO[i].time;
}
}
}
if (entry != -1) {
/* use this empty slot */
j = entry;
} else {
(void) free_slot_by_index(j);
}
if ((FINFO[j].caller_addr = netbufdup(caller_addr)) == NULL) {
return (-1);
}
rpcb_rmtcalls++; /* no of pending calls */
FINFO[j].flag = FINFO_ACTIVE;
FINFO[j].reply_type = reply_type;
FINFO[j].versnum = versnum;
FINFO[j].time = time_now;
FINFO[j].caller_xid = caller_xid;
FINFO[j].forward_fd = forward_fd;
/*
* Though uaddr is not allocated here, it will still be freed
* from free_slot_*().
*/
FINFO[j].uaddr = uaddr;
lastxid = lastxid + NFORWARD;
/* Don't allow a zero xid below. */
if ((u_int32_t)(lastxid + NFORWARD) <= NFORWARD)
lastxid = NFORWARD;
FINFO[j].forward_xid = lastxid + j; /* encode slot */
*callxidp = FINFO[j].forward_xid; /* forward on this xid */
return (1);
}
static struct finfo *
forward_find(u_int32_t reply_xid)
{
int i;
i = reply_xid % (u_int32_t)NFORWARD;
if ((FINFO[i].flag & FINFO_ACTIVE) &&
(FINFO[i].forward_xid == reply_xid)) {
return (&FINFO[i]);
}
return (NULL);
}
static int
free_slot_by_xid(u_int32_t xid)
{
int entry;
entry = xid % (u_int32_t)NFORWARD;
return (free_slot_by_index(entry));
}
static int
free_slot_by_index(int index)
{
struct finfo *fi;
fi = &FINFO[index];
if (fi->flag & FINFO_ACTIVE) {
netbuffree(fi->caller_addr);
/* XXX may be too big, but can't access xprt array here */
if (fi->forward_fd >= svc_maxfd)
svc_maxfd--;
free(fi->uaddr);
fi->flag &= ~FINFO_ACTIVE;
rpcb_rmtcalls--;
return (1);
}
return (0);
}
static int
netbufcmp(struct netbuf *n1, struct netbuf *n2)
{
return ((n1->len != n2->len) || memcmp(n1->buf, n2->buf, n1->len));
}
static struct netbuf *
netbufdup(struct netbuf *ap)
{
struct netbuf *np;
if ((np = malloc(sizeof(struct netbuf))) == NULL)
return (NULL);
if ((np->buf = malloc(ap->len)) == NULL) {
free(np);
return (NULL);
}
np->maxlen = np->len = ap->len;
memcpy(np->buf, ap->buf, ap->len);
return (np);
}
static void
netbuffree(struct netbuf *ap)
{
free(ap->buf);
free(ap);
}
#define MASKVAL (POLLIN | POLLPRI | POLLRDNORM | POLLRDBAND)
extern bool_t __svc_clean_idle(fd_set *, int, bool_t);
void
my_svc_run()
{
size_t nfds;
struct pollfd pollfds[FD_SETSIZE];
int poll_ret, check_ret;
int n;
#ifdef SVC_RUN_DEBUG
int i;
#endif
register struct pollfd *p;
fd_set cleanfds;
for (;;) {
p = pollfds;
for (n = 0; n <= svc_maxfd; n++) {
if (FD_ISSET(n, &svc_fdset)) {
p->fd = n;
p->events = MASKVAL;
p++;
}
}
nfds = p - pollfds;
poll_ret = 0;
#ifdef SVC_RUN_DEBUG
if (debugging) {
fprintf(stderr, "polling for read on fd < ");
for (i = 0, p = pollfds; i < nfds; i++, p++)
if (p->events)
fprintf(stderr, "%d ", p->fd);
fprintf(stderr, ">\n");
}
#endif
switch (poll_ret = poll(pollfds, nfds, 30 * 1000)) {
case -1:
/*
* We ignore all errors, continuing with the assumption
* that it was set by the signal handlers (or any
* other outside event) and not caused by poll().
*/
case 0:
cleanfds = svc_fdset;
__svc_clean_idle(&cleanfds, 30, FALSE);
continue;
default:
#ifdef SVC_RUN_DEBUG
if (debugging) {
fprintf(stderr, "poll returned read fds < ");
for (i = 0, p = pollfds; i < nfds; i++, p++)
if (p->revents)
fprintf(stderr, "%d ", p->fd);
fprintf(stderr, ">\n");
}
#endif
/*
* If we found as many replies on callback fds
* as the number of descriptors selectable which
* poll() returned, there can be no more so we
* don't call svc_getreq_poll. Otherwise, there
* must be another so we must call svc_getreq_poll.
*/
if ((check_ret = check_rmtcalls(pollfds, nfds)) ==
poll_ret)
continue;
svc_getreq_poll(pollfds, poll_ret-check_ret);
}
#ifdef SVC_RUN_DEBUG
if (debugging) {
fprintf(stderr, "svc_maxfd now %u\n", svc_maxfd);
}
#endif
}
}
static int
check_rmtcalls(struct pollfd *pfds, int nfds)
{
int j, ncallbacks_found = 0, rmtcalls_pending;
SVCXPRT *xprt;
if (rpcb_rmtcalls == 0)
return (0);
rmtcalls_pending = rpcb_rmtcalls;
for (j = 0; j < nfds; j++) {
if ((xprt = find_rmtcallxprt_by_fd(pfds[j].fd)) != NULL) {
if (pfds[j].revents) {
ncallbacks_found++;
#ifdef DEBUG_RMTCALL
if (debugging)
fprintf(stderr,
"my_svc_run: polled on forwarding fd %d, netid %s - calling handle_reply\n",
pfds[j].fd, xprt->xp_netid);
#endif
handle_reply(pfds[j].fd, xprt);
pfds[j].revents = 0;
if (ncallbacks_found >= rmtcalls_pending) {
break;
}
}
}
}
return (ncallbacks_found);
}
static void
xprt_set_caller(SVCXPRT *xprt, struct finfo *fi)
{
u_int32_t *xidp;
*(svc_getrpccaller(xprt)) = *(fi->caller_addr);
xidp = __rpcb_get_dg_xidp(xprt);
*xidp = fi->caller_xid;
}
/*
* Call svcerr_systemerr() only if RPCBVERS4
*/
static void
send_svcsyserr(SVCXPRT *xprt, struct finfo *fi)
{
if (fi->reply_type == RPCBPROC_INDIRECT) {
xprt_set_caller(xprt, fi);
svcerr_systemerr(xprt);
}
return;
}
static void
handle_reply(int fd, SVCXPRT *xprt)
{
XDR reply_xdrs;
struct rpc_msg reply_msg;
struct rpc_err reply_error;
char *buffer;
struct finfo *fi;
int inlen, pos, len;
struct r_rmtcall_args a;
struct sockaddr_storage ss;
socklen_t fromlen;
#ifdef SVC_RUN_DEBUG
char *uaddr;
#endif
buffer = malloc(RPC_BUF_MAX);
if (buffer == NULL)
goto done;
do {
inlen = recvfrom(fd, buffer, RPC_BUF_MAX, 0,
(struct sockaddr *)&ss, &fromlen);
} while (inlen < 0 && errno == EINTR);
if (inlen < 0) {
if (debugging)
fprintf(stderr,
"handle_reply: recvfrom returned %d, errno %d\n", inlen, errno);
goto done;
}
reply_msg.acpted_rply.ar_verf = _null_auth;
reply_msg.acpted_rply.ar_results.where = 0;
reply_msg.acpted_rply.ar_results.proc = (xdrproc_t) xdr_void;
xdrmem_create(&reply_xdrs, buffer, (u_int)inlen, XDR_DECODE);
if (!xdr_replymsg(&reply_xdrs, &reply_msg)) {
if (debugging)
(void) fprintf(stderr,
"handle_reply: xdr_replymsg failed\n");
goto done;
}
fi = forward_find(reply_msg.rm_xid);
#ifdef SVC_RUN_DEBUG
if (debugging) {
fprintf(stderr, "handle_reply: reply xid: %d fi addr: %p\n",
reply_msg.rm_xid, fi);
}
#endif
if (fi == NULL) {
goto done;
}
_seterr_reply(&reply_msg, &reply_error);
if (reply_error.re_status != RPC_SUCCESS) {
if (debugging)
(void) fprintf(stderr, "handle_reply: %s\n",
clnt_sperrno(reply_error.re_status));
send_svcsyserr(xprt, fi);
goto done;
}
pos = XDR_GETPOS(&reply_xdrs);
len = inlen - pos;
a.rmt_args.args = &buffer[pos];
a.rmt_args.arglen = len;
a.rmt_uaddr = fi->uaddr;
a.rmt_localvers = fi->versnum;
xprt_set_caller(xprt, fi);
#ifdef SVC_RUN_DEBUG
uaddr = taddr2uaddr(rpcbind_get_conf("udp"),
svc_getrpccaller(xprt));
if (debugging) {
fprintf(stderr, "handle_reply: forwarding address %s to %s\n",
a.rmt_uaddr, uaddr ? uaddr : "unknown");
}
if (uaddr)
free(uaddr);
#endif
svc_sendreply(xprt, (xdrproc_t) xdr_rmtcall_result, (char *) &a);
done:
if (buffer)
free(buffer);
if (reply_msg.rm_xid == 0) {
#ifdef SVC_RUN_DEBUG
if (debugging) {
fprintf(stderr, "handle_reply: NULL xid on exit!\n");
}
#endif
} else
(void) free_slot_by_xid(reply_msg.rm_xid);
return;
}
static void
find_versions(rpcprog_t prog, char *netid, rpcvers_t *lowvp, rpcvers_t *highvp)
{
register rpcblist_ptr rbl;
unsigned int lowv = 0;
unsigned int highv = 0;
for (rbl = list_rbl; rbl != NULL; rbl = rbl->rpcb_next) {
if ((rbl->rpcb_map.r_prog != prog) ||
((rbl->rpcb_map.r_netid != NULL) &&
(strcasecmp(rbl->rpcb_map.r_netid, netid) != 0)))
continue;
if (lowv == 0) {
highv = rbl->rpcb_map.r_vers;
lowv = highv;
} else if (rbl->rpcb_map.r_vers < lowv) {
lowv = rbl->rpcb_map.r_vers;
} else if (rbl->rpcb_map.r_vers > highv) {
highv = rbl->rpcb_map.r_vers;
}
}
*lowvp = lowv;
*highvp = highv;
return;
}
/*
* returns the item with the given program, version number and netid.
* If that version number is not found, it returns the item with that
* program number, so that address is now returned to the caller. The
* caller when makes a call to this program, version number, the call
* will fail and it will return with PROGVERS_MISMATCH. The user can
* then determine the highest and the lowest version number for this
* program using clnt_geterr() and use those program version numbers.
*
* Returns the RPCBLIST for the given prog, vers and netid
*/
static rpcblist_ptr
find_service(rpcprog_t prog, rpcvers_t vers, char *netid)
{
register rpcblist_ptr hit = NULL;
register rpcblist_ptr rbl;
for (rbl = list_rbl; rbl != NULL; rbl = rbl->rpcb_next) {
if ((rbl->rpcb_map.r_prog != prog) ||
((rbl->rpcb_map.r_netid != NULL) &&
(strcasecmp(rbl->rpcb_map.r_netid, netid) != 0)))
continue;
hit = rbl;
if (rbl->rpcb_map.r_vers == vers)
break;
}
return (hit);
}
/*
* Copies the name associated with the uid of the caller and returns
* a pointer to it. Similar to getwd().
*/
static char *
getowner(SVCXPRT *transp, char *owner, size_t ownersize)
{
uid_t uid;
if (__rpc_get_local_uid(transp, &uid) < 0)
strlcpy(owner, "unknown", ownersize);
else if (uid == 0)
strlcpy(owner, "superuser", ownersize);
else
snprintf(owner, ownersize, "%d", uid);
return owner;
}
#ifdef PORTMAP
/*
* Add this to the pmap list only if it is UDP or TCP.
*/
static int
add_pmaplist(RPCB *arg)
{
struct pmap pmap;
struct pmaplist *pml;
int h1, h2, h3, h4, p1, p2;
if (strcmp(arg->r_netid, udptrans) == 0) {
/* It is UDP! */
pmap.pm_prot = IPPROTO_UDP;
} else if (strcmp(arg->r_netid, tcptrans) == 0) {
/* It is TCP */
pmap.pm_prot = IPPROTO_TCP;
} else
/* Not an IP protocol */
return (0);
/* interpret the universal address for TCP/IP */
if (sscanf(arg->r_addr, "%d.%d.%d.%d.%d.%d",
&h1, &h2, &h3, &h4, &p1, &p2) != 6)
return (0);
pmap.pm_port = ((p1 & 0xff) << 8) + (p2 & 0xff);
pmap.pm_prog = arg->r_prog;
pmap.pm_vers = arg->r_vers;
/*
* add to END of list
*/
pml = malloc(sizeof (struct pmaplist));
if (pml == NULL) {
(void) syslog(LOG_ERR, "rpcbind: no memory!\n");
return (1);
}
pml->pml_map = pmap;
pml->pml_next = NULL;
if (list_pml == NULL) {
list_pml = pml;
} else {
struct pmaplist *fnd;
/* Attach to the end of the list */
for (fnd = list_pml; fnd->pml_next; fnd = fnd->pml_next)
;
fnd->pml_next = pml;
}
return (0);
}
/*
* Delete this from the pmap list only if it is UDP or TCP.
*/
static int
del_pmaplist(RPCB *arg)
{
struct pmaplist *pml;
struct pmaplist *prevpml, *fnd;
unsigned long prot;
if (strcmp(arg->r_netid, udptrans) == 0) {
/* It is UDP! */
prot = IPPROTO_UDP;
} else if (strcmp(arg->r_netid, tcptrans) == 0) {
/* It is TCP */
prot = IPPROTO_TCP;
} else if (arg->r_netid[0] == 0) {
prot = 0; /* Remove all occurrences */
} else {
/* Not an IP protocol */
return (0);
}
for (prevpml = NULL, pml = list_pml; pml; /* cstyle */) {
if ((pml->pml_map.pm_prog != arg->r_prog) ||
(pml->pml_map.pm_vers != arg->r_vers) ||
(prot && (pml->pml_map.pm_prot != prot))) {
/* both pml & prevpml move forwards */
prevpml = pml;
pml = pml->pml_next;
continue;
}
/* found it; pml moves forward, prevpml stays */
fnd = pml;
pml = pml->pml_next;
if (prevpml == NULL)
list_pml = pml;
else
prevpml->pml_next = pml;
free(fnd);
}
return (0);
}
#endif /* PORTMAP */
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