sys/nlm/nlm_prot_impl.c

177633Sdfr/*-
177633Sdfr * Copyright (c) 2008 Isilon Inc http://www.isilon.com/
177633Sdfr * Authors: Doug Rabson <dfr@rabson.org>
177633Sdfr * Developed with Red Inc: Alfred Perlstein <alfred@freebsd.org>
177633Sdfr *
177633Sdfr * Redistribution and use in source and binary forms, with or without
177633Sdfr * modification, are permitted provided that the following conditions
177633Sdfr * are met:
177633Sdfr * 1. Redistributions of source code must retain the above copyright
177633Sdfr *    notice, this list of conditions and the following disclaimer.
177633Sdfr * 2. Redistributions in binary form must reproduce the above copyright
177633Sdfr *    notice, this list of conditions and the following disclaimer in the
177633Sdfr *    documentation and/or other materials provided with the distribution.
177633Sdfr *
177633Sdfr * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
177633Sdfr * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
177633Sdfr * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
177633Sdfr * ARE DISCLAIMED.  IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
177633Sdfr * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
177633Sdfr * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
177633Sdfr * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
177633Sdfr * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
177633Sdfr * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
177633Sdfr * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
177633Sdfr * SUCH DAMAGE.
177633Sdfr */
177633Sdfr
177633Sdfr#include "opt_inet6.h"
177633Sdfr
177633Sdfr#include <sys/cdefs.h>
177633Sdfr__FBSDID("$FreeBSD: head/sys/nlm/nlm_prot_impl.c 230801 2012-01-31 02:11:05Z rmacklem $");
177633Sdfr
177633Sdfr#include <sys/param.h>
197840Szml#include <sys/fail.h>
177633Sdfr#include <sys/fcntl.h>
177633Sdfr#include <sys/kernel.h>
180025Sdfr#include <sys/kthread.h>
177633Sdfr#include <sys/lockf.h>
177633Sdfr#include <sys/malloc.h>
177633Sdfr#include <sys/mount.h>
177685Sdfr#if __FreeBSD_version >= 700000
177633Sdfr#include <sys/priv.h>
177685Sdfr#endif
177633Sdfr#include <sys/proc.h>
177633Sdfr#include <sys/socket.h>
177633Sdfr#include <sys/socketvar.h>
177633Sdfr#include <sys/syscall.h>
177633Sdfr#include <sys/sysctl.h>
177633Sdfr#include <sys/sysent.h>
191918Sdfr#include <sys/syslog.h>
177633Sdfr#include <sys/sysproto.h>
177633Sdfr#include <sys/systm.h>
177633Sdfr#include <sys/taskqueue.h>
177633Sdfr#include <sys/unistd.h>
177633Sdfr#include <sys/vnode.h>
177633Sdfr
180025Sdfr#include <nfs/nfsproto.h>
214048Srmacklem#include <nfs/nfs_lock.h>
180025Sdfr
177685Sdfr#include <nlm/nlm_prot.h>
177685Sdfr#include <nlm/sm_inter.h>
177685Sdfr#include <nlm/nlm.h>
177633Sdfr#include <rpc/rpc_com.h>
177633Sdfr#include <rpc/rpcb_prot.h>
177633Sdfr
177633SdfrMALLOC_DEFINE(M_NLM, "NLM", "Network Lock Manager");
177633Sdfr
177633Sdfr/*
177633Sdfr * If a host is inactive (and holds no locks) for this amount of
177633Sdfr * seconds, we consider it idle and stop tracking it.
177633Sdfr */
177633Sdfr#define NLM_IDLE_TIMEOUT	30
177633Sdfr
177633Sdfr/*
177633Sdfr * We check the host list for idle every few seconds.
177633Sdfr */
177633Sdfr#define NLM_IDLE_PERIOD		5
177633Sdfr
177633Sdfr/*
197840Szml * We only look for GRANTED_RES messages for a little while.
197840Szml */
197840Szml#define NLM_EXPIRE_TIMEOUT	10
197840Szml
197840Szml/*
177633Sdfr * Support for sysctl vfs.nlm.sysid
177633Sdfr */
227309Sedstatic SYSCTL_NODE(_vfs, OID_AUTO, nlm, CTLFLAG_RW, NULL,
227309Sed    "Network Lock Manager");
227309Sedstatic SYSCTL_NODE(_vfs_nlm, OID_AUTO, sysid, CTLFLAG_RW, NULL, "");
177633Sdfr
177633Sdfr/*
177633Sdfr * Syscall hooks
177633Sdfr */
177633Sdfrstatic int nlm_syscall_offset = SYS_nlm_syscall;
177633Sdfrstatic struct sysent nlm_syscall_prev_sysent;
177685Sdfr#if __FreeBSD_version < 700000
177685Sdfrstatic struct sysent nlm_syscall_sysent = {
177685Sdfr	(sizeof(struct nlm_syscall_args) / sizeof(register_t)) | SYF_MPSAFE,
177685Sdfr	(sy_call_t *) nlm_syscall
177685Sdfr};
177685Sdfr#else
177633SdfrMAKE_SYSENT(nlm_syscall);
177685Sdfr#endif
177633Sdfrstatic bool_t nlm_syscall_registered = FALSE;
177633Sdfr
177633Sdfr/*
177633Sdfr * Debug level passed in from userland. We also support a sysctl hook
177633Sdfr * so that it can be changed on a live system.
177633Sdfr */
177633Sdfrstatic int nlm_debug_level;
177633SdfrSYSCTL_INT(_debug, OID_AUTO, nlm_debug, CTLFLAG_RW, &nlm_debug_level, 0, "");
177633Sdfr
191918Sdfr#define NLM_DEBUG(_level, args...)			\
191918Sdfr	do {						\
191918Sdfr		if (nlm_debug_level >= (_level))	\
191918Sdfr			log(LOG_DEBUG, args);		\
191918Sdfr	} while(0)
191918Sdfr#define NLM_ERR(args...)			\
191918Sdfr	do {					\
191918Sdfr		log(LOG_ERR, args);		\
191918Sdfr	} while(0)
191918Sdfr
177633Sdfr/*
177633Sdfr * Grace period handling. The value of nlm_grace_threshold is the
177633Sdfr * value of time_uptime after which we are serving requests normally.
177633Sdfr */
177633Sdfrstatic time_t nlm_grace_threshold;
177633Sdfr
177633Sdfr/*
177633Sdfr * We check for idle hosts if time_uptime is greater than
177633Sdfr * nlm_next_idle_check,
177633Sdfr */
177633Sdfrstatic time_t nlm_next_idle_check;
177633Sdfr
177633Sdfr/*
177633Sdfr * A socket to use for RPC - shared by all IPv4 RPC clients.
177633Sdfr */
177633Sdfrstatic struct socket *nlm_socket;
177633Sdfr
177633Sdfr#ifdef INET6
177633Sdfr
177633Sdfr/*
177633Sdfr * A socket to use for RPC - shared by all IPv6 RPC clients.
177633Sdfr */
177633Sdfrstatic struct socket *nlm_socket6;
177633Sdfr
177633Sdfr#endif
177633Sdfr
177633Sdfr/*
177633Sdfr * An RPC client handle that can be used to communicate with the local
177633Sdfr * NSM.
177633Sdfr */
177633Sdfrstatic CLIENT *nlm_nsm;
177633Sdfr
177633Sdfr/*
180025Sdfr * An AUTH handle for the server's creds.
177633Sdfr */
180025Sdfrstatic AUTH *nlm_auth;
177633Sdfr
177633Sdfr/*
180025Sdfr * A zero timeval for sending async RPC messages.
180025Sdfr */
180025Sdfrstruct timeval nlm_zero_tv = { 0, 0 };
180025Sdfr
180025Sdfr/*
180025Sdfr * The local NSM state number
180025Sdfr */
180025Sdfrint nlm_nsm_state;
180025Sdfr
180025Sdfr
180025Sdfr/*
180025Sdfr * A lock to protect the host list and waiting lock list.
180025Sdfr */
180025Sdfrstatic struct mtx nlm_global_lock;
180025Sdfr
180025Sdfr/*
177633Sdfr * Locks:
177633Sdfr * (l)		locked by nh_lock
177633Sdfr * (s)		only accessed via server RPC which is single threaded
180025Sdfr * (g)		locked by nlm_global_lock
177633Sdfr * (c)		const until freeing
180025Sdfr * (a)		modified using atomic ops
177633Sdfr */
177633Sdfr
177633Sdfr/*
180025Sdfr * A pending client-side lock request, stored on the nlm_waiting_locks
180025Sdfr * list.
177633Sdfr */
180025Sdfrstruct nlm_waiting_lock {
180025Sdfr	TAILQ_ENTRY(nlm_waiting_lock) nw_link; /* (g) */
180025Sdfr	bool_t		nw_waiting;	       /* (g) */
180025Sdfr	nlm4_lock	nw_lock;	       /* (c) */
180025Sdfr	union nfsfh	nw_fh;		       /* (c) */
180025Sdfr	struct vnode	*nw_vp;		       /* (c) */
180025Sdfr};
180025SdfrTAILQ_HEAD(nlm_waiting_lock_list, nlm_waiting_lock);
180025Sdfr
180025Sdfrstruct nlm_waiting_lock_list nlm_waiting_locks; /* (g) */
180025Sdfr
180025Sdfr/*
180025Sdfr * A pending server-side asynchronous lock request, stored on the
180025Sdfr * nh_pending list of the NLM host.
180025Sdfr */
177633Sdfrstruct nlm_async_lock {
177633Sdfr	TAILQ_ENTRY(nlm_async_lock) af_link; /* (l) host's list of locks */
177633Sdfr	struct task	af_task;	/* (c) async callback details */
177633Sdfr	void		*af_cookie;	/* (l) lock manager cancel token */
177633Sdfr	struct vnode	*af_vp;		/* (l) vnode to lock */
177633Sdfr	struct flock	af_fl;		/* (c) lock details */
177633Sdfr	struct nlm_host *af_host;	/* (c) host which is locking */
180025Sdfr	CLIENT		*af_rpc;	/* (c) rpc client to send message */
177633Sdfr	nlm4_testargs	af_granted;	/* (c) notification details */
197840Szml	time_t		af_expiretime;	/* (c) notification time */
177633Sdfr};
177633SdfrTAILQ_HEAD(nlm_async_lock_list, nlm_async_lock);
177633Sdfr
177633Sdfr/*
177633Sdfr * NLM host.
177633Sdfr */
178112Sdfrenum nlm_host_state {
178112Sdfr	NLM_UNMONITORED,
178112Sdfr	NLM_MONITORED,
180025Sdfr	NLM_MONITOR_FAILED,
180025Sdfr	NLM_RECOVERING
178112Sdfr};
184588Sdfr
184588Sdfrstruct nlm_rpc {
184588Sdfr	CLIENT		*nr_client;    /* (l) RPC client handle */
184588Sdfr	time_t		nr_create_time; /* (l) when client was created */
184588Sdfr};
184588Sdfr
177633Sdfrstruct nlm_host {
177633Sdfr	struct mtx	nh_lock;
180025Sdfr	volatile u_int	nh_refs;       /* (a) reference count */
180025Sdfr	TAILQ_ENTRY(nlm_host) nh_link; /* (g) global list of hosts */
180025Sdfr	char		nh_caller_name[MAXNAMELEN]; /* (c) printable name of host */
177633Sdfr	uint32_t	nh_sysid;	 /* (c) our allocaed system ID */
177633Sdfr	char		nh_sysid_string[10]; /* (c) string rep. of sysid */
177633Sdfr	struct sockaddr_storage	nh_addr; /* (s) remote address of host */
184588Sdfr	struct nlm_rpc	nh_srvrpc;	 /* (l) RPC for server replies */
184588Sdfr	struct nlm_rpc	nh_clntrpc;	 /* (l) RPC for client requests */
177633Sdfr	rpcvers_t	nh_vers;	 /* (s) NLM version of host */
177633Sdfr	int		nh_state;	 /* (s) last seen NSM state of host */
180025Sdfr	enum nlm_host_state nh_monstate; /* (l) local NSM monitoring state */
177633Sdfr	time_t		nh_idle_timeout; /* (s) Time at which host is idle */
177633Sdfr	struct sysctl_ctx_list nh_sysctl; /* (c) vfs.nlm.sysid nodes */
197840Szml	uint32_t	nh_grantcookie;  /* (l) grant cookie counter */
177633Sdfr	struct nlm_async_lock_list nh_pending; /* (l) pending async locks */
197840Szml	struct nlm_async_lock_list nh_granted; /* (l) granted locks */
177633Sdfr	struct nlm_async_lock_list nh_finished; /* (l) finished async locks */
177633Sdfr};
177633SdfrTAILQ_HEAD(nlm_host_list, nlm_host);
177633Sdfr
180025Sdfrstatic struct nlm_host_list nlm_hosts; /* (g) */
180025Sdfrstatic uint32_t nlm_next_sysid = 1;    /* (g) */
177633Sdfr
177633Sdfrstatic void	nlm_host_unmonitor(struct nlm_host *);
177633Sdfr
197840Szmlstruct nlm_grantcookie {
197840Szml	uint32_t	ng_sysid;
197840Szml	uint32_t	ng_cookie;
197840Szml};
197840Szml
197840Szmlstatic inline uint32_t
197840Szmlng_sysid(struct netobj *src)
197840Szml{
197840Szml
197840Szml	return ((struct nlm_grantcookie *)src->n_bytes)->ng_sysid;
197840Szml}
197840Szml
197840Szmlstatic inline uint32_t
197840Szmlng_cookie(struct netobj *src)
197840Szml{
197840Szml
197840Szml	return ((struct nlm_grantcookie *)src->n_bytes)->ng_cookie;
197840Szml}
197840Szml
177633Sdfr/**********************************************************************/
177633Sdfr
177633Sdfr/*
177633Sdfr * Initialise NLM globals.
177633Sdfr */
177633Sdfrstatic void
177633Sdfrnlm_init(void *dummy)
177633Sdfr{
177633Sdfr	int error;
177633Sdfr
180025Sdfr	mtx_init(&nlm_global_lock, "nlm_global_lock", NULL, MTX_DEF);
180025Sdfr	TAILQ_INIT(&nlm_waiting_locks);
177633Sdfr	TAILQ_INIT(&nlm_hosts);
177633Sdfr
177633Sdfr	error = syscall_register(&nlm_syscall_offset, &nlm_syscall_sysent,
177633Sdfr	    &nlm_syscall_prev_sysent);
177633Sdfr	if (error)
191918Sdfr		NLM_ERR("Can't register NLM syscall\n");
177633Sdfr	else
177633Sdfr		nlm_syscall_registered = TRUE;
177633Sdfr}
177633SdfrSYSINIT(nlm_init, SI_SUB_LOCK, SI_ORDER_FIRST, nlm_init, NULL);
177633Sdfr
177633Sdfrstatic void
177633Sdfrnlm_uninit(void *dummy)
177633Sdfr{
177633Sdfr
177633Sdfr	if (nlm_syscall_registered)
177633Sdfr		syscall_deregister(&nlm_syscall_offset,
177633Sdfr		    &nlm_syscall_prev_sysent);
177633Sdfr}
177633SdfrSYSUNINIT(nlm_uninit, SI_SUB_LOCK, SI_ORDER_FIRST, nlm_uninit, NULL);
177633Sdfr
177633Sdfr/*
197840Szml * Create a netobj from an arbitrary source.
197840Szml */
197840Szmlvoid
197840Szmlnlm_make_netobj(struct netobj *dst, caddr_t src, size_t srcsize,
197840Szml    struct malloc_type *type)
197840Szml{
197840Szml
197840Szml	dst->n_len = srcsize;
197840Szml	dst->n_bytes = malloc(srcsize, type, M_WAITOK);
197840Szml	memcpy(dst->n_bytes, src, srcsize);
197840Szml}
197840Szml
197840Szml/*
177633Sdfr * Copy a struct netobj.
177633Sdfr */
177633Sdfrvoid
177633Sdfrnlm_copy_netobj(struct netobj *dst, struct netobj *src,
177633Sdfr    struct malloc_type *type)
177633Sdfr{
177633Sdfr
197840Szml	nlm_make_netobj(dst, src->n_bytes, src->n_len, type);
177633Sdfr}
177633Sdfr
197840Szml
177633Sdfr/*
177633Sdfr * Create an RPC client handle for the given (address,prog,vers)
177633Sdfr * triple using UDP.
177633Sdfr */
177633Sdfrstatic CLIENT *
177633Sdfrnlm_get_rpc(struct sockaddr *sa, rpcprog_t prog, rpcvers_t vers)
177633Sdfr{
184588Sdfr	char *wchan = "nlmrcv";
177633Sdfr	const char* protofmly;
177633Sdfr	struct sockaddr_storage ss;
177633Sdfr	struct socket *so;
177633Sdfr	CLIENT *rpcb;
177633Sdfr	struct timeval timo;
177633Sdfr	RPCB parms;
177633Sdfr	char *uaddr;
181683Sdfr	enum clnt_stat stat = RPC_SUCCESS;
181683Sdfr	int rpcvers = RPCBVERS4;
181683Sdfr	bool_t do_tcp = FALSE;
191937Sdfr	bool_t tryagain = FALSE;
182154Sdfr	struct portmap mapping;
181683Sdfr	u_short port = 0;
177633Sdfr
177633Sdfr	/*
177633Sdfr	 * First we need to contact the remote RPCBIND service to find
177633Sdfr	 * the right port.
177633Sdfr	 */
177633Sdfr	memcpy(&ss, sa, sa->sa_len);
177633Sdfr	switch (ss.ss_family) {
177633Sdfr	case AF_INET:
177633Sdfr		((struct sockaddr_in *)&ss)->sin_port = htons(111);
177633Sdfr		protofmly = "inet";
177633Sdfr		so = nlm_socket;
177633Sdfr		break;
177633Sdfr
177633Sdfr#ifdef INET6
177633Sdfr	case AF_INET6:
177633Sdfr		((struct sockaddr_in6 *)&ss)->sin6_port = htons(111);
177633Sdfr		protofmly = "inet6";
177633Sdfr		so = nlm_socket6;
177633Sdfr		break;
177633Sdfr#endif
177633Sdfr
177633Sdfr	default:
177633Sdfr		/*
177633Sdfr		 * Unsupported address family - fail.
177633Sdfr		 */
177633Sdfr		return (NULL);
177633Sdfr	}
177633Sdfr
177633Sdfr	rpcb = clnt_dg_create(so, (struct sockaddr *)&ss,
181683Sdfr	    RPCBPROG, rpcvers, 0, 0);
177633Sdfr	if (!rpcb)
177633Sdfr		return (NULL);
177633Sdfr
181683Sdfrtry_tcp:
177633Sdfr	parms.r_prog = prog;
177633Sdfr	parms.r_vers = vers;
181683Sdfr	if (do_tcp)
181683Sdfr		parms.r_netid = "tcp";
181683Sdfr	else
181683Sdfr		parms.r_netid = "udp";
177633Sdfr	parms.r_addr = "";
177633Sdfr	parms.r_owner = "";
177633Sdfr
177633Sdfr	/*
177633Sdfr	 * Use the default timeout.
177633Sdfr	 */
177633Sdfr	timo.tv_sec = 25;
177633Sdfr	timo.tv_usec = 0;
177633Sdfragain:
181683Sdfr	switch (rpcvers) {
181683Sdfr	case RPCBVERS4:
181683Sdfr	case RPCBVERS:
177633Sdfr		/*
181683Sdfr		 * Try RPCBIND 4 then 3.
177633Sdfr		 */
181683Sdfr		uaddr = NULL;
181683Sdfr		stat = CLNT_CALL(rpcb, (rpcprog_t) RPCBPROC_GETADDR,
181683Sdfr		    (xdrproc_t) xdr_rpcb, &parms,
181683Sdfr		    (xdrproc_t) xdr_wrapstring, &uaddr, timo);
191937Sdfr		if (stat == RPC_SUCCESS) {
181683Sdfr			/*
181683Sdfr			 * We have a reply from the remote RPCBIND - turn it
181683Sdfr			 * into an appropriate address and make a new client
181683Sdfr			 * that can talk to the remote NLM.
181683Sdfr			 *
181683Sdfr			 * XXX fixup IPv6 scope ID.
181683Sdfr			 */
181683Sdfr			struct netbuf *a;
181683Sdfr			a = __rpc_uaddr2taddr_af(ss.ss_family, uaddr);
181683Sdfr			if (!a) {
191937Sdfr				tryagain = TRUE;
191937Sdfr			} else {
191937Sdfr				tryagain = FALSE;
191937Sdfr				memcpy(&ss, a->buf, a->len);
191937Sdfr				free(a->buf, M_RPC);
191937Sdfr				free(a, M_RPC);
191937Sdfr				xdr_free((xdrproc_t) xdr_wrapstring, &uaddr);
181683Sdfr			}
177633Sdfr		}
191937Sdfr		if (tryagain || stat == RPC_PROGVERSMISMATCH) {
191937Sdfr			if (rpcvers == RPCBVERS4)
191937Sdfr				rpcvers = RPCBVERS;
191937Sdfr			else if (rpcvers == RPCBVERS)
191937Sdfr				rpcvers = PMAPVERS;
191937Sdfr			CLNT_CONTROL(rpcb, CLSET_VERS, &rpcvers);
191937Sdfr			goto again;
191937Sdfr		}
181683Sdfr		break;
181683Sdfr	case PMAPVERS:
177633Sdfr		/*
177633Sdfr		 * Try portmap.
177633Sdfr		 */
177633Sdfr		mapping.pm_prog = parms.r_prog;
177633Sdfr		mapping.pm_vers = parms.r_vers;
181683Sdfr		mapping.pm_prot = do_tcp ? IPPROTO_TCP : IPPROTO_UDP;
177633Sdfr		mapping.pm_port = 0;
177633Sdfr
177633Sdfr		stat = CLNT_CALL(rpcb, (rpcprog_t) PMAPPROC_GETPORT,
182154Sdfr		    (xdrproc_t) xdr_portmap, &mapping,
177633Sdfr		    (xdrproc_t) xdr_u_short, &port, timo);
177633Sdfr
177633Sdfr		if (stat == RPC_SUCCESS) {
177633Sdfr			switch (ss.ss_family) {
177633Sdfr			case AF_INET:
177633Sdfr				((struct sockaddr_in *)&ss)->sin_port =
177633Sdfr					htons(port);
177633Sdfr				break;
177633Sdfr
177633Sdfr#ifdef INET6
177633Sdfr			case AF_INET6:
177633Sdfr				((struct sockaddr_in6 *)&ss)->sin6_port =
177633Sdfr					htons(port);
177633Sdfr				break;
177633Sdfr#endif
177633Sdfr			}
177633Sdfr		}
181683Sdfr		break;
181683Sdfr	default:
181683Sdfr		panic("invalid rpcvers %d", rpcvers);
177633Sdfr	}
181683Sdfr	/*
181683Sdfr	 * We may have a positive response from the portmapper, but the NLM
181683Sdfr	 * service was not found. Make sure we received a valid port.
181683Sdfr	 */
181683Sdfr	switch (ss.ss_family) {
181683Sdfr	case AF_INET:
181683Sdfr		port = ((struct sockaddr_in *)&ss)->sin_port;
181683Sdfr		break;
181683Sdfr#ifdef INET6
181683Sdfr	case AF_INET6:
181683Sdfr		port = ((struct sockaddr_in6 *)&ss)->sin6_port;
181683Sdfr		break;
181683Sdfr#endif
181683Sdfr	}
181683Sdfr	if (stat != RPC_SUCCESS || !port) {
181683Sdfr		/*
181683Sdfr		 * If we were able to talk to rpcbind or portmap, but the udp
181683Sdfr		 * variant wasn't available, ask about tcp.
181683Sdfr		 *
181683Sdfr		 * XXX - We could also check for a TCP portmapper, but
181683Sdfr		 * if the host is running a portmapper at all, we should be able
181683Sdfr		 * to hail it over UDP.
181683Sdfr		 */
181683Sdfr		if (stat == RPC_SUCCESS && !do_tcp) {
181683Sdfr			do_tcp = TRUE;
181683Sdfr			goto try_tcp;
181683Sdfr		}
181683Sdfr
181683Sdfr		/* Otherwise, bad news. */
191918Sdfr		NLM_ERR("NLM: failed to contact remote rpcbind, "
191918Sdfr		    "stat = %d, port = %d\n", (int) stat, port);
178241Sdfr		CLNT_DESTROY(rpcb);
177633Sdfr		return (NULL);
177633Sdfr	}
177633Sdfr
181683Sdfr	if (do_tcp) {
181683Sdfr		/*
181683Sdfr		 * Destroy the UDP client we used to speak to rpcbind and
181683Sdfr		 * recreate as a TCP client.
181683Sdfr		 */
181683Sdfr		struct netconfig *nconf = NULL;
177633Sdfr
181683Sdfr		CLNT_DESTROY(rpcb);
181683Sdfr
181683Sdfr		switch (ss.ss_family) {
181683Sdfr		case AF_INET:
181683Sdfr			nconf = getnetconfigent("tcp");
181683Sdfr			break;
181683Sdfr#ifdef INET6
181683Sdfr		case AF_INET6:
181683Sdfr			nconf = getnetconfigent("tcp6");
181683Sdfr			break;
181683Sdfr#endif
181683Sdfr		}
181683Sdfr
181683Sdfr		rpcb = clnt_reconnect_create(nconf, (struct sockaddr *)&ss,
181683Sdfr		    prog, vers, 0, 0);
184588Sdfr		CLNT_CONTROL(rpcb, CLSET_WAITCHAN, wchan);
181683Sdfr		rpcb->cl_auth = nlm_auth;
181683Sdfr
181683Sdfr	} else {
181683Sdfr		/*
181683Sdfr		 * Re-use the client we used to speak to rpcbind.
181683Sdfr		 */
181683Sdfr		CLNT_CONTROL(rpcb, CLSET_SVC_ADDR, &ss);
181683Sdfr		CLNT_CONTROL(rpcb, CLSET_PROG, &prog);
181683Sdfr		CLNT_CONTROL(rpcb, CLSET_VERS, &vers);
184588Sdfr		CLNT_CONTROL(rpcb, CLSET_WAITCHAN, wchan);
181683Sdfr		rpcb->cl_auth = nlm_auth;
181683Sdfr	}
181683Sdfr
177633Sdfr	return (rpcb);
177633Sdfr}
177633Sdfr
177633Sdfr/*
177633Sdfr * This async callback after when an async lock request has been
177633Sdfr * granted. We notify the host which initiated the request.
177633Sdfr */
177633Sdfrstatic void
177633Sdfrnlm_lock_callback(void *arg, int pending)
177633Sdfr{
177633Sdfr	struct nlm_async_lock *af = (struct nlm_async_lock *) arg;
180025Sdfr	struct rpc_callextra ext;
177633Sdfr
197840Szml	NLM_DEBUG(2, "NLM: async lock %p for %s (sysid %d) granted,"
197840Szml	    " cookie %d:%d\n", af, af->af_host->nh_caller_name,
197840Szml	    af->af_host->nh_sysid, ng_sysid(&af->af_granted.cookie),
197840Szml	    ng_cookie(&af->af_granted.cookie));
177633Sdfr
177633Sdfr	/*
177633Sdfr	 * Send the results back to the host.
177633Sdfr	 *
177633Sdfr	 * Note: there is a possible race here with nlm_host_notify
178241Sdfr	 * destroying the RPC client. To avoid problems, the first
177633Sdfr	 * thing nlm_host_notify does is to cancel pending async lock
177633Sdfr	 * requests.
177633Sdfr	 */
180025Sdfr	memset(&ext, 0, sizeof(ext));
180025Sdfr	ext.rc_auth = nlm_auth;
177633Sdfr	if (af->af_host->nh_vers == NLM_VERS4) {
177633Sdfr		nlm4_granted_msg_4(&af->af_granted,
180025Sdfr		    NULL, af->af_rpc, &ext, nlm_zero_tv);
177633Sdfr	} else {
177633Sdfr		/*
177633Sdfr		 * Back-convert to legacy protocol
177633Sdfr		 */
177633Sdfr		nlm_testargs granted;
177633Sdfr		granted.cookie = af->af_granted.cookie;
177633Sdfr		granted.exclusive = af->af_granted.exclusive;
177633Sdfr		granted.alock.caller_name =
177633Sdfr			af->af_granted.alock.caller_name;
177633Sdfr		granted.alock.fh = af->af_granted.alock.fh;
177633Sdfr		granted.alock.oh = af->af_granted.alock.oh;
177633Sdfr		granted.alock.svid = af->af_granted.alock.svid;
177633Sdfr		granted.alock.l_offset =
177633Sdfr			af->af_granted.alock.l_offset;
177633Sdfr		granted.alock.l_len =
177633Sdfr			af->af_granted.alock.l_len;
177633Sdfr
177633Sdfr		nlm_granted_msg_1(&granted,
180025Sdfr		    NULL, af->af_rpc, &ext, nlm_zero_tv);
177633Sdfr	}
177633Sdfr
177633Sdfr	/*
197840Szml	 * Move this entry to the nh_granted list.
177633Sdfr	 */
197840Szml	af->af_expiretime = time_uptime + NLM_EXPIRE_TIMEOUT;
177633Sdfr	mtx_lock(&af->af_host->nh_lock);
177633Sdfr	TAILQ_REMOVE(&af->af_host->nh_pending, af, af_link);
197840Szml	TAILQ_INSERT_TAIL(&af->af_host->nh_granted, af, af_link);
177633Sdfr	mtx_unlock(&af->af_host->nh_lock);
177633Sdfr}
177633Sdfr
177633Sdfr/*
177633Sdfr * Free an async lock request. The request must have been removed from
177633Sdfr * any list.
177633Sdfr */
177633Sdfrstatic void
177633Sdfrnlm_free_async_lock(struct nlm_async_lock *af)
177633Sdfr{
177633Sdfr	/*
177633Sdfr	 * Free an async lock.
177633Sdfr	 */
180025Sdfr	if (af->af_rpc)
180025Sdfr		CLNT_RELEASE(af->af_rpc);
177633Sdfr	xdr_free((xdrproc_t) xdr_nlm4_testargs, &af->af_granted);
177633Sdfr	if (af->af_vp)
177633Sdfr		vrele(af->af_vp);
177633Sdfr	free(af, M_NLM);
177633Sdfr}
177633Sdfr
177633Sdfr/*
177633Sdfr * Cancel our async request - this must be called with
177633Sdfr * af->nh_host->nh_lock held. This is slightly complicated by a
177633Sdfr * potential race with our own callback. If we fail to cancel the
177633Sdfr * lock, it must already have been granted - we make sure our async
177633Sdfr * task has completed by calling taskqueue_drain in this case.
177633Sdfr */
177633Sdfrstatic int
177633Sdfrnlm_cancel_async_lock(struct nlm_async_lock *af)
177633Sdfr{
177633Sdfr	struct nlm_host *host = af->af_host;
177633Sdfr	int error;
177633Sdfr
177633Sdfr	mtx_assert(&host->nh_lock, MA_OWNED);
177633Sdfr
177633Sdfr	mtx_unlock(&host->nh_lock);
177633Sdfr
177633Sdfr	error = VOP_ADVLOCKASYNC(af->af_vp, NULL, F_CANCEL, &af->af_fl,
177633Sdfr	    F_REMOTE, NULL, &af->af_cookie);
177633Sdfr
177633Sdfr	if (error) {
177633Sdfr		/*
177633Sdfr		 * We failed to cancel - make sure our callback has
177633Sdfr		 * completed before we continue.
177633Sdfr		 */
177633Sdfr		taskqueue_drain(taskqueue_thread, &af->af_task);
177633Sdfr	}
177633Sdfr
177633Sdfr	mtx_lock(&host->nh_lock);
177633Sdfr
177633Sdfr	if (!error) {
191918Sdfr		NLM_DEBUG(2, "NLM: async lock %p for %s (sysid %d) "
191918Sdfr		    "cancelled\n", af, host->nh_caller_name, host->nh_sysid);
177633Sdfr
177633Sdfr		/*
177633Sdfr		 * Remove from the nh_pending list and free now that
177633Sdfr		 * we are safe from the callback.
177633Sdfr		 */
177633Sdfr		TAILQ_REMOVE(&host->nh_pending, af, af_link);
177633Sdfr		mtx_unlock(&host->nh_lock);
177633Sdfr		nlm_free_async_lock(af);
177633Sdfr		mtx_lock(&host->nh_lock);
177633Sdfr	}
177633Sdfr
177633Sdfr	return (error);
177633Sdfr}
177633Sdfr
177633Sdfrstatic void
197840Szmlnlm_check_expired_locks(struct nlm_host *host)
177633Sdfr{
177633Sdfr	struct nlm_async_lock *af;
197840Szml	time_t uptime = time_uptime;
177633Sdfr
177633Sdfr	mtx_lock(&host->nh_lock);
197840Szml	while ((af = TAILQ_FIRST(&host->nh_granted)) != NULL
197840Szml	    && uptime >= af->af_expiretime) {
197840Szml		NLM_DEBUG(2, "NLM: async lock %p for %s (sysid %d) expired,"
197840Szml		    " cookie %d:%d\n", af, af->af_host->nh_caller_name,
197840Szml		    af->af_host->nh_sysid, ng_sysid(&af->af_granted.cookie),
197840Szml		    ng_cookie(&af->af_granted.cookie));
197840Szml		TAILQ_REMOVE(&host->nh_granted, af, af_link);
197840Szml		mtx_unlock(&host->nh_lock);
197840Szml		nlm_free_async_lock(af);
197840Szml		mtx_lock(&host->nh_lock);
197840Szml	}
177633Sdfr	while ((af = TAILQ_FIRST(&host->nh_finished)) != NULL) {
177633Sdfr		TAILQ_REMOVE(&host->nh_finished, af, af_link);
177633Sdfr		mtx_unlock(&host->nh_lock);
177633Sdfr		nlm_free_async_lock(af);
177633Sdfr		mtx_lock(&host->nh_lock);
177633Sdfr	}
177633Sdfr	mtx_unlock(&host->nh_lock);
177633Sdfr}
177633Sdfr
177633Sdfr/*
180025Sdfr * Free resources used by a host. This is called after the reference
180025Sdfr * count has reached zero so it doesn't need to worry about locks.
177633Sdfr */
177633Sdfrstatic void
180025Sdfrnlm_host_destroy(struct nlm_host *host)
177633Sdfr{
180025Sdfr
180025Sdfr	mtx_lock(&nlm_global_lock);
180025Sdfr	TAILQ_REMOVE(&nlm_hosts, host, nh_link);
180025Sdfr	mtx_unlock(&nlm_global_lock);
180025Sdfr
184588Sdfr	if (host->nh_srvrpc.nr_client)
184588Sdfr		CLNT_RELEASE(host->nh_srvrpc.nr_client);
184588Sdfr	if (host->nh_clntrpc.nr_client)
184588Sdfr		CLNT_RELEASE(host->nh_clntrpc.nr_client);
180025Sdfr	mtx_destroy(&host->nh_lock);
180025Sdfr	sysctl_ctx_free(&host->nh_sysctl);
180025Sdfr	free(host, M_NLM);
180025Sdfr}
180025Sdfr
180025Sdfr/*
180025Sdfr * Thread start callback for client lock recovery
180025Sdfr */
180025Sdfrstatic void
180025Sdfrnlm_client_recovery_start(void *arg)
180025Sdfr{
180025Sdfr	struct nlm_host *host = (struct nlm_host *) arg;
180025Sdfr
191918Sdfr	NLM_DEBUG(1, "NLM: client lock recovery for %s started\n",
191918Sdfr	    host->nh_caller_name);
180025Sdfr
180025Sdfr	nlm_client_recovery(host);
180025Sdfr
191918Sdfr	NLM_DEBUG(1, "NLM: client lock recovery for %s completed\n",
191918Sdfr	    host->nh_caller_name);
180025Sdfr
180025Sdfr	host->nh_monstate = NLM_MONITORED;
180025Sdfr	nlm_host_release(host);
180025Sdfr
180025Sdfr	kthread_exit();
180025Sdfr}
180025Sdfr
180025Sdfr/*
180025Sdfr * This is called when we receive a host state change notification. We
180025Sdfr * unlock any active locks owned by the host. When rpc.lockd is
180025Sdfr * shutting down, this function is called with newstate set to zero
180025Sdfr * which allows us to cancel any pending async locks and clear the
180025Sdfr * locking state.
180025Sdfr */
180025Sdfrstatic void
180025Sdfrnlm_host_notify(struct nlm_host *host, int newstate)
180025Sdfr{
177633Sdfr	struct nlm_async_lock *af;
177633Sdfr
177633Sdfr	if (newstate) {
191918Sdfr		NLM_DEBUG(1, "NLM: host %s (sysid %d) rebooted, new "
191918Sdfr		    "state is %d\n", host->nh_caller_name,
191918Sdfr		    host->nh_sysid, newstate);
177633Sdfr	}
177633Sdfr
177633Sdfr	/*
177633Sdfr	 * Cancel any pending async locks for this host.
177633Sdfr	 */
177633Sdfr	mtx_lock(&host->nh_lock);
177633Sdfr	while ((af = TAILQ_FIRST(&host->nh_pending)) != NULL) {
177633Sdfr		/*
177633Sdfr		 * nlm_cancel_async_lock will remove the entry from
177633Sdfr		 * nh_pending and free it.
177633Sdfr		 */
177633Sdfr		nlm_cancel_async_lock(af);
177633Sdfr	}
177633Sdfr	mtx_unlock(&host->nh_lock);
197840Szml	nlm_check_expired_locks(host);
177633Sdfr
177633Sdfr	/*
180025Sdfr	 * The host just rebooted - trash its locks.
177633Sdfr	 */
177633Sdfr	lf_clearremotesys(host->nh_sysid);
177633Sdfr	host->nh_state = newstate;
177633Sdfr
177633Sdfr	/*
180025Sdfr	 * If we have any remote locks for this host (i.e. it
180025Sdfr	 * represents a remote NFS server that our local NFS client
180025Sdfr	 * has locks for), start a recovery thread.
177633Sdfr	 */
180025Sdfr	if (newstate != 0
180025Sdfr	    && host->nh_monstate != NLM_RECOVERING
180025Sdfr	    && lf_countlocks(NLM_SYSID_CLIENT | host->nh_sysid) > 0) {
180025Sdfr		struct thread *td;
180025Sdfr		host->nh_monstate = NLM_RECOVERING;
180025Sdfr		refcount_acquire(&host->nh_refs);
180025Sdfr		kthread_add(nlm_client_recovery_start, host, curproc, &td, 0, 0,
180025Sdfr		    "NFS lock recovery for %s", host->nh_caller_name);
177633Sdfr	}
177633Sdfr}
177633Sdfr
177633Sdfr/*
177633Sdfr * Sysctl handler to count the number of locks for a sysid.
177633Sdfr */
177633Sdfrstatic int
177633Sdfrnlm_host_lock_count_sysctl(SYSCTL_HANDLER_ARGS)
177633Sdfr{
177633Sdfr	struct nlm_host *host;
177633Sdfr	int count;
177633Sdfr
177633Sdfr	host = oidp->oid_arg1;
177633Sdfr	count = lf_countlocks(host->nh_sysid);
177633Sdfr	return sysctl_handle_int(oidp, &count, 0, req);
177633Sdfr}
177633Sdfr
177633Sdfr/*
180025Sdfr * Sysctl handler to count the number of client locks for a sysid.
180025Sdfr */
180025Sdfrstatic int
180025Sdfrnlm_host_client_lock_count_sysctl(SYSCTL_HANDLER_ARGS)
180025Sdfr{
180025Sdfr	struct nlm_host *host;
180025Sdfr	int count;
180025Sdfr
180025Sdfr	host = oidp->oid_arg1;
180025Sdfr	count = lf_countlocks(NLM_SYSID_CLIENT | host->nh_sysid);
180025Sdfr	return sysctl_handle_int(oidp, &count, 0, req);
180025Sdfr}
180025Sdfr
180025Sdfr/*
177633Sdfr * Create a new NLM host.
177633Sdfr */
177633Sdfrstatic struct nlm_host *
177633Sdfrnlm_create_host(const char* caller_name)
177633Sdfr{
177633Sdfr	struct nlm_host *host;
177633Sdfr	struct sysctl_oid *oid;
177633Sdfr
180025Sdfr	mtx_assert(&nlm_global_lock, MA_OWNED);
180025Sdfr
191918Sdfr	NLM_DEBUG(1, "NLM: new host %s (sysid %d)\n",
191918Sdfr	    caller_name, nlm_next_sysid);
180025Sdfr	host = malloc(sizeof(struct nlm_host), M_NLM, M_NOWAIT|M_ZERO);
180025Sdfr	if (!host)
180025Sdfr		return (NULL);
177633Sdfr	mtx_init(&host->nh_lock, "nh_lock", NULL, MTX_DEF);
180025Sdfr	host->nh_refs = 1;
180025Sdfr	strlcpy(host->nh_caller_name, caller_name, MAXNAMELEN);
177633Sdfr	host->nh_sysid = nlm_next_sysid++;
177633Sdfr	snprintf(host->nh_sysid_string, sizeof(host->nh_sysid_string),
177633Sdfr		"%d", host->nh_sysid);
177633Sdfr	host->nh_vers = 0;
177633Sdfr	host->nh_state = 0;
178112Sdfr	host->nh_monstate = NLM_UNMONITORED;
197840Szml	host->nh_grantcookie = 1;
177633Sdfr	TAILQ_INIT(&host->nh_pending);
197840Szml	TAILQ_INIT(&host->nh_granted);
177633Sdfr	TAILQ_INIT(&host->nh_finished);
177633Sdfr	TAILQ_INSERT_TAIL(&nlm_hosts, host, nh_link);
177633Sdfr
180025Sdfr	mtx_unlock(&nlm_global_lock);
180025Sdfr
177633Sdfr	sysctl_ctx_init(&host->nh_sysctl);
177633Sdfr	oid = SYSCTL_ADD_NODE(&host->nh_sysctl,
177633Sdfr	    SYSCTL_STATIC_CHILDREN(_vfs_nlm_sysid),
177633Sdfr	    OID_AUTO, host->nh_sysid_string, CTLFLAG_RD, NULL, "");
177633Sdfr	SYSCTL_ADD_STRING(&host->nh_sysctl, SYSCTL_CHILDREN(oid), OID_AUTO,
177633Sdfr	    "hostname", CTLFLAG_RD, host->nh_caller_name, 0, "");
217326Smdf	SYSCTL_ADD_UINT(&host->nh_sysctl, SYSCTL_CHILDREN(oid), OID_AUTO,
177633Sdfr	    "version", CTLFLAG_RD, &host->nh_vers, 0, "");
217326Smdf	SYSCTL_ADD_UINT(&host->nh_sysctl, SYSCTL_CHILDREN(oid), OID_AUTO,
178112Sdfr	    "monitored", CTLFLAG_RD, &host->nh_monstate, 0, "");
177633Sdfr	SYSCTL_ADD_PROC(&host->nh_sysctl, SYSCTL_CHILDREN(oid), OID_AUTO,
177633Sdfr	    "lock_count", CTLTYPE_INT | CTLFLAG_RD, host, 0,
177633Sdfr	    nlm_host_lock_count_sysctl, "I", "");
180025Sdfr	SYSCTL_ADD_PROC(&host->nh_sysctl, SYSCTL_CHILDREN(oid), OID_AUTO,
180025Sdfr	    "client_lock_count", CTLTYPE_INT | CTLFLAG_RD, host, 0,
180025Sdfr	    nlm_host_client_lock_count_sysctl, "I", "");
177633Sdfr
180025Sdfr	mtx_lock(&nlm_global_lock);
180025Sdfr
177633Sdfr	return (host);
177633Sdfr}
177633Sdfr
177633Sdfr/*
192501Srmacklem * Acquire the next sysid for remote locks not handled by the NLM.
192501Srmacklem */
192501Srmacklemuint32_t
192501Srmacklemnlm_acquire_next_sysid(void)
192501Srmacklem{
192501Srmacklem	uint32_t next_sysid;
192501Srmacklem
192501Srmacklem	mtx_lock(&nlm_global_lock);
192501Srmacklem	next_sysid = nlm_next_sysid++;
192501Srmacklem	mtx_unlock(&nlm_global_lock);
192501Srmacklem	return (next_sysid);
192501Srmacklem}
192501Srmacklem
192501Srmacklem/*
177633Sdfr * Return non-zero if the address parts of the two sockaddrs are the
177633Sdfr * same.
177633Sdfr */
177633Sdfrstatic int
177633Sdfrnlm_compare_addr(const struct sockaddr *a, const struct sockaddr *b)
177633Sdfr{
177633Sdfr	const struct sockaddr_in *a4, *b4;
177633Sdfr#ifdef INET6
177633Sdfr	const struct sockaddr_in6 *a6, *b6;
177633Sdfr#endif
177633Sdfr
177633Sdfr	if (a->sa_family != b->sa_family)
177633Sdfr		return (FALSE);
177633Sdfr
177633Sdfr	switch (a->sa_family) {
177633Sdfr	case AF_INET:
177633Sdfr		a4 = (const struct sockaddr_in *) a;
177633Sdfr		b4 = (const struct sockaddr_in *) b;
177633Sdfr		return !memcmp(&a4->sin_addr, &b4->sin_addr,
177633Sdfr		    sizeof(a4->sin_addr));
177633Sdfr#ifdef INET6
177633Sdfr	case AF_INET6:
177633Sdfr		a6 = (const struct sockaddr_in6 *) a;
177633Sdfr		b6 = (const struct sockaddr_in6 *) b;
177633Sdfr		return !memcmp(&a6->sin6_addr, &b6->sin6_addr,
177633Sdfr		    sizeof(a6->sin6_addr));
177633Sdfr#endif
177633Sdfr	}
177633Sdfr
177633Sdfr	return (0);
177633Sdfr}
177633Sdfr
177633Sdfr/*
177633Sdfr * Check for idle hosts and stop monitoring them. We could also free
177633Sdfr * the host structure here, possibly after a larger timeout but that
177633Sdfr * would require some care to avoid races with
177633Sdfr * e.g. nlm_host_lock_count_sysctl.
177633Sdfr */
177633Sdfrstatic void
177633Sdfrnlm_check_idle(void)
177633Sdfr{
177633Sdfr	struct nlm_host *host;
177633Sdfr
180025Sdfr	mtx_assert(&nlm_global_lock, MA_OWNED);
180025Sdfr
177633Sdfr	if (time_uptime <= nlm_next_idle_check)
177633Sdfr		return;
177633Sdfr
177633Sdfr	nlm_next_idle_check = time_uptime + NLM_IDLE_PERIOD;
177633Sdfr
177633Sdfr	TAILQ_FOREACH(host, &nlm_hosts, nh_link) {
178112Sdfr		if (host->nh_monstate == NLM_MONITORED
177633Sdfr		    && time_uptime > host->nh_idle_timeout) {
180025Sdfr			mtx_unlock(&nlm_global_lock);
180025Sdfr			if (lf_countlocks(host->nh_sysid) > 0
180025Sdfr			    || lf_countlocks(NLM_SYSID_CLIENT
180025Sdfr				+ host->nh_sysid)) {
177633Sdfr				host->nh_idle_timeout =
177633Sdfr					time_uptime + NLM_IDLE_TIMEOUT;
180025Sdfr				mtx_lock(&nlm_global_lock);
177633Sdfr				continue;
177633Sdfr			}
177633Sdfr			nlm_host_unmonitor(host);
180025Sdfr			mtx_lock(&nlm_global_lock);
177633Sdfr		}
177633Sdfr	}
177633Sdfr}
177633Sdfr
177633Sdfr/*
177633Sdfr * Search for an existing NLM host that matches the given name
177633Sdfr * (typically the caller_name element of an nlm4_lock).  If none is
180025Sdfr * found, create a new host. If 'addr' is non-NULL, record the remote
177633Sdfr * address of the host so that we can call it back for async
180025Sdfr * responses. If 'vers' is greater than zero then record the NLM
180025Sdfr * program version to use to communicate with this client.
177633Sdfr */
177633Sdfrstruct nlm_host *
180025Sdfrnlm_find_host_by_name(const char *name, const struct sockaddr *addr,
180025Sdfr    rpcvers_t vers)
177633Sdfr{
177633Sdfr	struct nlm_host *host;
177633Sdfr
180025Sdfr	mtx_lock(&nlm_global_lock);
177633Sdfr
177633Sdfr	/*
177633Sdfr	 * The remote host is determined by caller_name.
177633Sdfr	 */
177633Sdfr	TAILQ_FOREACH(host, &nlm_hosts, nh_link) {
177633Sdfr		if (!strcmp(host->nh_caller_name, name))
177633Sdfr			break;
177633Sdfr	}
177633Sdfr
180025Sdfr	if (!host) {
177633Sdfr		host = nlm_create_host(name);
180025Sdfr		if (!host) {
180025Sdfr			mtx_unlock(&nlm_global_lock);
180025Sdfr			return (NULL);
180025Sdfr		}
180025Sdfr	}
180025Sdfr	refcount_acquire(&host->nh_refs);
180025Sdfr
177633Sdfr	host->nh_idle_timeout = time_uptime + NLM_IDLE_TIMEOUT;
177633Sdfr
177633Sdfr	/*
180025Sdfr	 * If we have an address for the host, record it so that we
180025Sdfr	 * can send async replies etc.
177633Sdfr	 */
180025Sdfr	if (addr) {
177633Sdfr
180025Sdfr		KASSERT(addr->sa_len < sizeof(struct sockaddr_storage),
177633Sdfr		    ("Strange remote transport address length"));
177633Sdfr
177633Sdfr		/*
177633Sdfr		 * If we have seen an address before and we currently
177633Sdfr		 * have an RPC client handle, make sure the address is
177633Sdfr		 * the same, otherwise discard the client handle.
177633Sdfr		 */
184588Sdfr		if (host->nh_addr.ss_len && host->nh_srvrpc.nr_client) {
177633Sdfr			if (!nlm_compare_addr(
177633Sdfr				    (struct sockaddr *) &host->nh_addr,
180025Sdfr				    addr)
180025Sdfr			    || host->nh_vers != vers) {
180025Sdfr				CLIENT *client;
180025Sdfr				mtx_lock(&host->nh_lock);
184588Sdfr				client = host->nh_srvrpc.nr_client;
184588Sdfr				host->nh_srvrpc.nr_client = NULL;
180025Sdfr				mtx_unlock(&host->nh_lock);
180025Sdfr				if (client) {
180025Sdfr					CLNT_RELEASE(client);
180025Sdfr				}
177633Sdfr			}
177633Sdfr		}
180025Sdfr		memcpy(&host->nh_addr, addr, addr->sa_len);
180025Sdfr		host->nh_vers = vers;
177633Sdfr	}
177633Sdfr
180025Sdfr	nlm_check_idle();
180025Sdfr
180025Sdfr	mtx_unlock(&nlm_global_lock);
180025Sdfr
177633Sdfr	return (host);
177633Sdfr}
177633Sdfr
177633Sdfr/*
177633Sdfr * Search for an existing NLM host that matches the given remote
177633Sdfr * address. If none is found, create a new host with the requested
177633Sdfr * address and remember 'vers' as the NLM protocol version to use for
177633Sdfr * that host.
177633Sdfr */
177633Sdfrstruct nlm_host *
177633Sdfrnlm_find_host_by_addr(const struct sockaddr *addr, int vers)
177633Sdfr{
180025Sdfr	/*
180025Sdfr	 * Fake up a name using inet_ntop. This buffer is
180025Sdfr	 * large enough for an IPv6 address.
180025Sdfr	 */
180025Sdfr	char tmp[sizeof "ffff:ffff:ffff:ffff:ffff:ffff:255.255.255.255"];
177633Sdfr	struct nlm_host *host;
177633Sdfr
180025Sdfr	switch (addr->sa_family) {
180025Sdfr	case AF_INET:
213103Sattilio		inet_ntop(AF_INET,
180025Sdfr		    &((const struct sockaddr_in *) addr)->sin_addr,
180025Sdfr		    tmp, sizeof tmp);
180025Sdfr		break;
180025Sdfr#ifdef INET6
180025Sdfr	case AF_INET6:
213103Sattilio		inet_ntop(AF_INET6,
180025Sdfr		    &((const struct sockaddr_in6 *) addr)->sin6_addr,
180025Sdfr		    tmp, sizeof tmp);
180025Sdfr		break;
180025Sdfr#endif
180025Sdfr	default:
180025Sdfr		strcmp(tmp, "<unknown>");
180025Sdfr	}
177633Sdfr
180025Sdfr
180025Sdfr	mtx_lock(&nlm_global_lock);
180025Sdfr
177633Sdfr	/*
177633Sdfr	 * The remote host is determined by caller_name.
177633Sdfr	 */
177633Sdfr	TAILQ_FOREACH(host, &nlm_hosts, nh_link) {
177633Sdfr		if (nlm_compare_addr(addr,
177633Sdfr			(const struct sockaddr *) &host->nh_addr))
177633Sdfr			break;
177633Sdfr	}
177633Sdfr
177633Sdfr	if (!host) {
180025Sdfr		host = nlm_create_host(tmp);
180025Sdfr		if (!host) {
180025Sdfr			mtx_unlock(&nlm_global_lock);
180025Sdfr			return (NULL);
177633Sdfr		}
177633Sdfr		memcpy(&host->nh_addr, addr, addr->sa_len);
177633Sdfr		host->nh_vers = vers;
177633Sdfr	}
180025Sdfr	refcount_acquire(&host->nh_refs);
180025Sdfr
177633Sdfr	host->nh_idle_timeout = time_uptime + NLM_IDLE_TIMEOUT;
177633Sdfr
180025Sdfr	nlm_check_idle();
180025Sdfr
180025Sdfr	mtx_unlock(&nlm_global_lock);
180025Sdfr
177633Sdfr	return (host);
177633Sdfr}
177633Sdfr
177633Sdfr/*
177633Sdfr * Find the NLM host that matches the value of 'sysid'. If none
177633Sdfr * exists, return NULL.
177633Sdfr */
177633Sdfrstatic struct nlm_host *
177633Sdfrnlm_find_host_by_sysid(int sysid)
177633Sdfr{
177633Sdfr	struct nlm_host *host;
177633Sdfr
177633Sdfr	TAILQ_FOREACH(host, &nlm_hosts, nh_link) {
180025Sdfr		if (host->nh_sysid == sysid) {
180025Sdfr			refcount_acquire(&host->nh_refs);
177633Sdfr			return (host);
180025Sdfr		}
177633Sdfr	}
177633Sdfr
177633Sdfr	return (NULL);
177633Sdfr}
177633Sdfr
180025Sdfrvoid nlm_host_release(struct nlm_host *host)
180025Sdfr{
180025Sdfr	if (refcount_release(&host->nh_refs)) {
180025Sdfr		/*
180025Sdfr		 * Free the host
180025Sdfr		 */
180025Sdfr		nlm_host_destroy(host);
180025Sdfr	}
180025Sdfr}
180025Sdfr
177633Sdfr/*
177633Sdfr * Unregister this NLM host with the local NSM due to idleness.
177633Sdfr */
177633Sdfrstatic void
177633Sdfrnlm_host_unmonitor(struct nlm_host *host)
177633Sdfr{
177633Sdfr	mon_id smmonid;
177633Sdfr	sm_stat_res smstat;
177633Sdfr	struct timeval timo;
177633Sdfr	enum clnt_stat stat;
177633Sdfr
191918Sdfr	NLM_DEBUG(1, "NLM: unmonitoring %s (sysid %d)\n",
191918Sdfr	    host->nh_caller_name, host->nh_sysid);
177633Sdfr
177633Sdfr	/*
177633Sdfr	 * We put our assigned system ID value in the priv field to
177633Sdfr	 * make it simpler to find the host if we are notified of a
177633Sdfr	 * host restart.
177633Sdfr	 */
177633Sdfr	smmonid.mon_name = host->nh_caller_name;
177633Sdfr	smmonid.my_id.my_name = "localhost";
177633Sdfr	smmonid.my_id.my_prog = NLM_PROG;
177633Sdfr	smmonid.my_id.my_vers = NLM_SM;
177633Sdfr	smmonid.my_id.my_proc = NLM_SM_NOTIFY;
177633Sdfr
177633Sdfr	timo.tv_sec = 25;
177633Sdfr	timo.tv_usec = 0;
177633Sdfr	stat = CLNT_CALL(nlm_nsm, SM_UNMON,
177633Sdfr	    (xdrproc_t) xdr_mon, &smmonid,
177633Sdfr	    (xdrproc_t) xdr_sm_stat, &smstat, timo);
177633Sdfr
177633Sdfr	if (stat != RPC_SUCCESS) {
191918Sdfr		NLM_ERR("Failed to contact local NSM - rpc error %d\n", stat);
177633Sdfr		return;
177633Sdfr	}
177633Sdfr	if (smstat.res_stat == stat_fail) {
191918Sdfr		NLM_ERR("Local NSM refuses to unmonitor %s\n",
177633Sdfr		    host->nh_caller_name);
177633Sdfr		return;
177633Sdfr	}
177633Sdfr
178112Sdfr	host->nh_monstate = NLM_UNMONITORED;
177633Sdfr}
177633Sdfr
177633Sdfr/*
177633Sdfr * Register this NLM host with the local NSM so that we can be
177633Sdfr * notified if it reboots.
177633Sdfr */
180025Sdfrvoid
177633Sdfrnlm_host_monitor(struct nlm_host *host, int state)
177633Sdfr{
177633Sdfr	mon smmon;
177633Sdfr	sm_stat_res smstat;
177633Sdfr	struct timeval timo;
177633Sdfr	enum clnt_stat stat;
177633Sdfr
177633Sdfr	if (state && !host->nh_state) {
177633Sdfr		/*
177633Sdfr		 * This is the first time we have seen an NSM state
177633Sdfr		 * value for this host. We record it here to help
177633Sdfr		 * detect host reboots.
177633Sdfr		 */
177633Sdfr		host->nh_state = state;
191918Sdfr		NLM_DEBUG(1, "NLM: host %s (sysid %d) has NSM state %d\n",
191918Sdfr		    host->nh_caller_name, host->nh_sysid, state);
177633Sdfr	}
177633Sdfr
180025Sdfr	mtx_lock(&host->nh_lock);
180025Sdfr	if (host->nh_monstate != NLM_UNMONITORED) {
180025Sdfr		mtx_unlock(&host->nh_lock);
177633Sdfr		return;
180025Sdfr	}
180025Sdfr	host->nh_monstate = NLM_MONITORED;
180025Sdfr	mtx_unlock(&host->nh_lock);
177633Sdfr
191918Sdfr	NLM_DEBUG(1, "NLM: monitoring %s (sysid %d)\n",
191918Sdfr	    host->nh_caller_name, host->nh_sysid);
177633Sdfr
177633Sdfr	/*
177633Sdfr	 * We put our assigned system ID value in the priv field to
177633Sdfr	 * make it simpler to find the host if we are notified of a
177633Sdfr	 * host restart.
177633Sdfr	 */
177633Sdfr	smmon.mon_id.mon_name = host->nh_caller_name;
177633Sdfr	smmon.mon_id.my_id.my_name = "localhost";
177633Sdfr	smmon.mon_id.my_id.my_prog = NLM_PROG;
177633Sdfr	smmon.mon_id.my_id.my_vers = NLM_SM;
177633Sdfr	smmon.mon_id.my_id.my_proc = NLM_SM_NOTIFY;
177633Sdfr	memcpy(smmon.priv, &host->nh_sysid, sizeof(host->nh_sysid));
177633Sdfr
177633Sdfr	timo.tv_sec = 25;
177633Sdfr	timo.tv_usec = 0;
177633Sdfr	stat = CLNT_CALL(nlm_nsm, SM_MON,
177633Sdfr	    (xdrproc_t) xdr_mon, &smmon,
177633Sdfr	    (xdrproc_t) xdr_sm_stat, &smstat, timo);
177633Sdfr
177633Sdfr	if (stat != RPC_SUCCESS) {
191918Sdfr		NLM_ERR("Failed to contact local NSM - rpc error %d\n", stat);
177633Sdfr		return;
177633Sdfr	}
177633Sdfr	if (smstat.res_stat == stat_fail) {
191918Sdfr		NLM_ERR("Local NSM refuses to monitor %s\n",
177633Sdfr		    host->nh_caller_name);
180025Sdfr		mtx_lock(&host->nh_lock);
178112Sdfr		host->nh_monstate = NLM_MONITOR_FAILED;
180025Sdfr		mtx_unlock(&host->nh_lock);
177633Sdfr		return;
177633Sdfr	}
177633Sdfr
178112Sdfr	host->nh_monstate = NLM_MONITORED;
177633Sdfr}
177633Sdfr
177633Sdfr/*
177633Sdfr * Return an RPC client handle that can be used to talk to the NLM
177633Sdfr * running on the given host.
177633Sdfr */
177633SdfrCLIENT *
184588Sdfrnlm_host_get_rpc(struct nlm_host *host, bool_t isserver)
177633Sdfr{
184588Sdfr	struct nlm_rpc *rpc;
180025Sdfr	CLIENT *client;
177633Sdfr
180025Sdfr	mtx_lock(&host->nh_lock);
180025Sdfr
184588Sdfr	if (isserver)
184588Sdfr		rpc = &host->nh_srvrpc;
184588Sdfr	else
184588Sdfr		rpc = &host->nh_clntrpc;
184588Sdfr
179425Sdfr	/*
180025Sdfr	 * We can't hold onto RPC handles for too long - the async
179425Sdfr	 * call/reply protocol used by some NLM clients makes it hard
179425Sdfr	 * to tell when they change port numbers (e.g. after a
179425Sdfr	 * reboot). Note that if a client reboots while it isn't
179425Sdfr	 * holding any locks, it won't bother to notify us. We
179425Sdfr	 * expire the RPC handles after two minutes.
179425Sdfr	 */
184588Sdfr	if (rpc->nr_client && time_uptime > rpc->nr_create_time + 2*60) {
184588Sdfr		client = rpc->nr_client;
184588Sdfr		rpc->nr_client = NULL;
180025Sdfr		mtx_unlock(&host->nh_lock);
180025Sdfr		CLNT_RELEASE(client);
180025Sdfr		mtx_lock(&host->nh_lock);
179425Sdfr	}
179425Sdfr
184588Sdfr	if (!rpc->nr_client) {
180025Sdfr		mtx_unlock(&host->nh_lock);
180025Sdfr		client = nlm_get_rpc((struct sockaddr *)&host->nh_addr,
180025Sdfr		    NLM_PROG, host->nh_vers);
180025Sdfr		mtx_lock(&host->nh_lock);
177633Sdfr
180025Sdfr		if (client) {
184588Sdfr			if (rpc->nr_client) {
180025Sdfr				mtx_unlock(&host->nh_lock);
180025Sdfr				CLNT_DESTROY(client);
180025Sdfr				mtx_lock(&host->nh_lock);
180025Sdfr			} else {
184588Sdfr				rpc->nr_client = client;
184588Sdfr				rpc->nr_create_time = time_uptime;
180025Sdfr			}
180025Sdfr		}
180025Sdfr	}
180025Sdfr
184588Sdfr	client = rpc->nr_client;
180025Sdfr	if (client)
180025Sdfr		CLNT_ACQUIRE(client);
180025Sdfr	mtx_unlock(&host->nh_lock);
180025Sdfr
180025Sdfr	return (client);
180025Sdfr
180025Sdfr}
180025Sdfr
180025Sdfrint nlm_host_get_sysid(struct nlm_host *host)
180025Sdfr{
180025Sdfr
180025Sdfr	return (host->nh_sysid);
180025Sdfr}
180025Sdfr
180025Sdfrint
180025Sdfrnlm_host_get_state(struct nlm_host *host)
180025Sdfr{
180025Sdfr
180025Sdfr	return (host->nh_state);
180025Sdfr}
180025Sdfr
180025Sdfrvoid *
180025Sdfrnlm_register_wait_lock(struct nlm4_lock *lock, struct vnode *vp)
180025Sdfr{
180025Sdfr	struct nlm_waiting_lock *nw;
180025Sdfr
180025Sdfr	nw = malloc(sizeof(struct nlm_waiting_lock), M_NLM, M_WAITOK);
180025Sdfr	nw->nw_lock = *lock;
180025Sdfr	memcpy(&nw->nw_fh.fh_bytes, nw->nw_lock.fh.n_bytes,
180025Sdfr	    nw->nw_lock.fh.n_len);
180025Sdfr	nw->nw_lock.fh.n_bytes = nw->nw_fh.fh_bytes;
180025Sdfr	nw->nw_waiting = TRUE;
180025Sdfr	nw->nw_vp = vp;
180025Sdfr	mtx_lock(&nlm_global_lock);
180025Sdfr	TAILQ_INSERT_TAIL(&nlm_waiting_locks, nw, nw_link);
180025Sdfr	mtx_unlock(&nlm_global_lock);
180025Sdfr
180025Sdfr	return nw;
180025Sdfr}
180025Sdfr
180025Sdfrvoid
180025Sdfrnlm_deregister_wait_lock(void *handle)
180025Sdfr{
180025Sdfr	struct nlm_waiting_lock *nw = handle;
180025Sdfr
180025Sdfr	mtx_lock(&nlm_global_lock);
180025Sdfr	TAILQ_REMOVE(&nlm_waiting_locks, nw, nw_link);
180025Sdfr	mtx_unlock(&nlm_global_lock);
180025Sdfr
180025Sdfr	free(nw, M_NLM);
180025Sdfr}
180025Sdfr
180025Sdfrint
180025Sdfrnlm_wait_lock(void *handle, int timo)
180025Sdfr{
180025Sdfr	struct nlm_waiting_lock *nw = handle;
180025Sdfr	int error;
180025Sdfr
177633Sdfr	/*
180025Sdfr	 * If the granted message arrived before we got here,
180025Sdfr	 * nw->nw_waiting will be FALSE - in that case, don't sleep.
177633Sdfr	 */
180025Sdfr	mtx_lock(&nlm_global_lock);
180025Sdfr	error = 0;
180025Sdfr	if (nw->nw_waiting)
180025Sdfr		error = msleep(nw, &nlm_global_lock, PCATCH, "nlmlock", timo);
180025Sdfr	TAILQ_REMOVE(&nlm_waiting_locks, nw, nw_link);
180025Sdfr	if (error) {
180025Sdfr		/*
180025Sdfr		 * The granted message may arrive after the
180025Sdfr		 * interrupt/timeout but before we manage to lock the
180025Sdfr		 * mutex. Detect this by examining nw_lock.
180025Sdfr		 */
180025Sdfr		if (!nw->nw_waiting)
180025Sdfr			error = 0;
180025Sdfr	} else {
180025Sdfr		/*
180025Sdfr		 * If nlm_cancel_wait is called, then error will be
180025Sdfr		 * zero but nw_waiting will still be TRUE. We
180025Sdfr		 * translate this into EINTR.
180025Sdfr		 */
180025Sdfr		if (nw->nw_waiting)
180025Sdfr			error = EINTR;
180025Sdfr	}
180025Sdfr	mtx_unlock(&nlm_global_lock);
177633Sdfr
180025Sdfr	free(nw, M_NLM);
177633Sdfr
180025Sdfr	return (error);
180025Sdfr}
180025Sdfr
180025Sdfrvoid
180025Sdfrnlm_cancel_wait(struct vnode *vp)
180025Sdfr{
180025Sdfr	struct nlm_waiting_lock *nw;
180025Sdfr
180025Sdfr	mtx_lock(&nlm_global_lock);
180025Sdfr	TAILQ_FOREACH(nw, &nlm_waiting_locks, nw_link) {
180025Sdfr		if (nw->nw_vp == vp) {
180025Sdfr			wakeup(nw);
180025Sdfr		}
177633Sdfr	}
180025Sdfr	mtx_unlock(&nlm_global_lock);
177633Sdfr}
177633Sdfr
180025Sdfr
177633Sdfr/**********************************************************************/
177633Sdfr
177633Sdfr/*
177633Sdfr * Syscall interface with userland.
177633Sdfr */
177633Sdfr
177633Sdfrextern void nlm_prog_0(struct svc_req *rqstp, SVCXPRT *transp);
177633Sdfrextern void nlm_prog_1(struct svc_req *rqstp, SVCXPRT *transp);
177633Sdfrextern void nlm_prog_3(struct svc_req *rqstp, SVCXPRT *transp);
177633Sdfrextern void nlm_prog_4(struct svc_req *rqstp, SVCXPRT *transp);
177633Sdfr
177633Sdfrstatic int
177633Sdfrnlm_register_services(SVCPOOL *pool, int addr_count, char **addrs)
177633Sdfr{
177633Sdfr	static rpcvers_t versions[] = {
177633Sdfr		NLM_SM, NLM_VERS, NLM_VERSX, NLM_VERS4
177633Sdfr	};
177633Sdfr	static void (*dispatchers[])(struct svc_req *, SVCXPRT *) = {
177633Sdfr		nlm_prog_0, nlm_prog_1, nlm_prog_3, nlm_prog_4
177633Sdfr	};
177633Sdfr	static const int version_count = sizeof(versions) / sizeof(versions[0]);
177633Sdfr
177633Sdfr	SVCXPRT **xprts;
177633Sdfr	char netid[16];
177633Sdfr	char uaddr[128];
177633Sdfr	struct netconfig *nconf;
177633Sdfr	int i, j, error;
177633Sdfr
177633Sdfr	if (!addr_count) {
191918Sdfr		NLM_ERR("NLM: no service addresses given - can't start server");
177633Sdfr		return (EINVAL);
177633Sdfr	}
177633Sdfr
194407Srmacklem	xprts = malloc(addr_count * sizeof(SVCXPRT *), M_NLM, M_WAITOK|M_ZERO);
177633Sdfr	for (i = 0; i < version_count; i++) {
177633Sdfr		for (j = 0; j < addr_count; j++) {
177633Sdfr			/*
177633Sdfr			 * Create transports for the first version and
177633Sdfr			 * then just register everything else to the
177633Sdfr			 * same transports.
177633Sdfr			 */
177633Sdfr			if (i == 0) {
177633Sdfr				char *up;
177633Sdfr
177633Sdfr				error = copyin(&addrs[2*j], &up,
177633Sdfr				    sizeof(char*));
177633Sdfr				if (error)
177633Sdfr					goto out;
177633Sdfr				error = copyinstr(up, netid, sizeof(netid),
177633Sdfr				    NULL);
177633Sdfr				if (error)
177633Sdfr					goto out;
177633Sdfr				error = copyin(&addrs[2*j+1], &up,
177633Sdfr				    sizeof(char*));
177633Sdfr				if (error)
177633Sdfr					goto out;
177633Sdfr				error = copyinstr(up, uaddr, sizeof(uaddr),
177633Sdfr				    NULL);
177633Sdfr				if (error)
177633Sdfr					goto out;
177633Sdfr				nconf = getnetconfigent(netid);
177633Sdfr				if (!nconf) {
191918Sdfr					NLM_ERR("Can't lookup netid %s\n",
177633Sdfr					    netid);
177633Sdfr					error = EINVAL;
177633Sdfr					goto out;
177633Sdfr				}
177633Sdfr				xprts[j] = svc_tp_create(pool, dispatchers[i],
177633Sdfr				    NLM_PROG, versions[i], uaddr, nconf);
177633Sdfr				if (!xprts[j]) {
191918Sdfr					NLM_ERR("NLM: unable to create "
177633Sdfr					    "(NLM_PROG, %d).\n", versions[i]);
177633Sdfr					error = EINVAL;
177633Sdfr					goto out;
177633Sdfr				}
177633Sdfr				freenetconfigent(nconf);
177633Sdfr			} else {
177633Sdfr				nconf = getnetconfigent(xprts[j]->xp_netid);
177633Sdfr				rpcb_unset(NLM_PROG, versions[i], nconf);
177633Sdfr				if (!svc_reg(xprts[j], NLM_PROG, versions[i],
177633Sdfr					dispatchers[i], nconf)) {
191918Sdfr					NLM_ERR("NLM: can't register "
177633Sdfr					    "(NLM_PROG, %d)\n", versions[i]);
177633Sdfr					error = EINVAL;
177633Sdfr					goto out;
177633Sdfr				}
177633Sdfr			}
177633Sdfr		}
177633Sdfr	}
177633Sdfr	error = 0;
177633Sdfrout:
194407Srmacklem	for (j = 0; j < addr_count; j++) {
194407Srmacklem		if (xprts[j])
194407Srmacklem			SVC_RELEASE(xprts[j]);
194407Srmacklem	}
177633Sdfr	free(xprts, M_NLM);
177633Sdfr	return (error);
177633Sdfr}
177633Sdfr
177633Sdfr/*
177633Sdfr * Main server entry point. Contacts the local NSM to get its current
177633Sdfr * state and send SM_UNMON_ALL. Registers the NLM services and then
177633Sdfr * services requests. Does not return until the server is interrupted
177633Sdfr * by a signal.
177633Sdfr */
177633Sdfrstatic int
177633Sdfrnlm_server_main(int addr_count, char **addrs)
177633Sdfr{
177633Sdfr	struct thread *td = curthread;
177633Sdfr	int error;
178033Sdfr	SVCPOOL *pool = NULL;
177633Sdfr	struct sockopt opt;
177633Sdfr	int portlow;
177633Sdfr#ifdef INET6
177633Sdfr	struct sockaddr_in6 sin6;
177633Sdfr#endif
177633Sdfr	struct sockaddr_in sin;
177633Sdfr	my_id id;
177633Sdfr	sm_stat smstat;
177633Sdfr	struct timeval timo;
177633Sdfr	enum clnt_stat stat;
180025Sdfr	struct nlm_host *host, *nhost;
180025Sdfr	struct nlm_waiting_lock *nw;
180025Sdfr	vop_advlock_t *old_nfs_advlock;
180025Sdfr	vop_reclaim_t *old_nfs_reclaim;
180069Savatar	int v4_used;
180069Savatar#ifdef INET6
180069Savatar	int v6_used;
180069Savatar#endif
177633Sdfr
177633Sdfr	if (nlm_socket) {
191918Sdfr		NLM_ERR("NLM: can't start server - "
191918Sdfr		    "it appears to be running already\n");
177633Sdfr		return (EPERM);
177633Sdfr	}
177633Sdfr
177633Sdfr	memset(&opt, 0, sizeof(opt));
177633Sdfr
177633Sdfr	nlm_socket = NULL;
177633Sdfr	error = socreate(AF_INET, &nlm_socket, SOCK_DGRAM, 0,
177633Sdfr	    td->td_ucred, td);
177633Sdfr	if (error) {
191918Sdfr		NLM_ERR("NLM: can't create IPv4 socket - error %d\n", error);
177633Sdfr		return (error);
177633Sdfr	}
177633Sdfr	opt.sopt_dir = SOPT_SET;
177633Sdfr	opt.sopt_level = IPPROTO_IP;
177633Sdfr	opt.sopt_name = IP_PORTRANGE;
177633Sdfr	portlow = IP_PORTRANGE_LOW;
177633Sdfr	opt.sopt_val = &portlow;
177633Sdfr	opt.sopt_valsize = sizeof(portlow);
177633Sdfr	sosetopt(nlm_socket, &opt);
177633Sdfr
177633Sdfr#ifdef INET6
177633Sdfr	nlm_socket6 = NULL;
177633Sdfr	error = socreate(AF_INET6, &nlm_socket6, SOCK_DGRAM, 0,
177633Sdfr	    td->td_ucred, td);
177633Sdfr	if (error) {
191918Sdfr		NLM_ERR("NLM: can't create IPv6 socket - error %d\n", error);
180025Sdfr		goto out;
177633Sdfr		return (error);
177633Sdfr	}
177633Sdfr	opt.sopt_dir = SOPT_SET;
177633Sdfr	opt.sopt_level = IPPROTO_IPV6;
177633Sdfr	opt.sopt_name = IPV6_PORTRANGE;
177633Sdfr	portlow = IPV6_PORTRANGE_LOW;
177633Sdfr	opt.sopt_val = &portlow;
177633Sdfr	opt.sopt_valsize = sizeof(portlow);
177633Sdfr	sosetopt(nlm_socket6, &opt);
177633Sdfr#endif
177633Sdfr
180025Sdfr	nlm_auth = authunix_create(curthread->td_ucred);
180025Sdfr
177633Sdfr#ifdef INET6
177633Sdfr	memset(&sin6, 0, sizeof(sin6));
177633Sdfr	sin6.sin6_len = sizeof(sin6);
177633Sdfr	sin6.sin6_family = AF_INET6;
177633Sdfr	sin6.sin6_addr = in6addr_loopback;
177633Sdfr	nlm_nsm = nlm_get_rpc((struct sockaddr *) &sin6, SM_PROG, SM_VERS);
177633Sdfr	if (!nlm_nsm) {
177633Sdfr#endif
177633Sdfr		memset(&sin, 0, sizeof(sin));
177633Sdfr		sin.sin_len = sizeof(sin);
178033Sdfr		sin.sin_family = AF_INET;
177633Sdfr		sin.sin_addr.s_addr = htonl(INADDR_LOOPBACK);
177633Sdfr		nlm_nsm = nlm_get_rpc((struct sockaddr *) &sin, SM_PROG,
177633Sdfr		    SM_VERS);
177633Sdfr#ifdef INET6
177633Sdfr	}
177633Sdfr#endif
177633Sdfr
177633Sdfr	if (!nlm_nsm) {
191918Sdfr		NLM_ERR("Can't start NLM - unable to contact NSM\n");
178033Sdfr		error = EINVAL;
178033Sdfr		goto out;
177633Sdfr	}
177633Sdfr
184588Sdfr	pool = svcpool_create("NLM", NULL);
177633Sdfr
177633Sdfr	error = nlm_register_services(pool, addr_count, addrs);
177633Sdfr	if (error)
177633Sdfr		goto out;
177633Sdfr
177633Sdfr	memset(&id, 0, sizeof(id));
177633Sdfr	id.my_name = "NFS NLM";
177633Sdfr
177633Sdfr	timo.tv_sec = 25;
177633Sdfr	timo.tv_usec = 0;
177633Sdfr	stat = CLNT_CALL(nlm_nsm, SM_UNMON_ALL,
177633Sdfr	    (xdrproc_t) xdr_my_id, &id,
177633Sdfr	    (xdrproc_t) xdr_sm_stat, &smstat, timo);
177633Sdfr
177633Sdfr	if (stat != RPC_SUCCESS) {
177633Sdfr		struct rpc_err err;
177633Sdfr
177633Sdfr		CLNT_GETERR(nlm_nsm, &err);
191918Sdfr		NLM_ERR("NLM: unexpected error contacting NSM, "
191918Sdfr		    "stat=%d, errno=%d\n", stat, err.re_errno);
177633Sdfr		error = EINVAL;
177633Sdfr		goto out;
177633Sdfr	}
177633Sdfr
191918Sdfr	NLM_DEBUG(1, "NLM: local NSM state is %d\n", smstat.state);
180025Sdfr	nlm_nsm_state = smstat.state;
177633Sdfr
180025Sdfr	old_nfs_advlock = nfs_advlock_p;
180025Sdfr	nfs_advlock_p = nlm_advlock;
180025Sdfr	old_nfs_reclaim = nfs_reclaim_p;
180025Sdfr	nfs_reclaim_p = nlm_reclaim;
180025Sdfr
177633Sdfr	svc_run(pool);
177633Sdfr	error = 0;
177633Sdfr
180025Sdfr	nfs_advlock_p = old_nfs_advlock;
180025Sdfr	nfs_reclaim_p = old_nfs_reclaim;
180025Sdfr
177633Sdfrout:
177633Sdfr	if (pool)
177633Sdfr		svcpool_destroy(pool);
177633Sdfr
177633Sdfr	/*
180025Sdfr	 * We are finished communicating with the NSM.
177633Sdfr	 */
177633Sdfr	if (nlm_nsm) {
180025Sdfr		CLNT_RELEASE(nlm_nsm);
177633Sdfr		nlm_nsm = NULL;
177633Sdfr	}
180025Sdfr
180025Sdfr	/*
180025Sdfr	 * Trash all the existing state so that if the server
180025Sdfr	 * restarts, it gets a clean slate. This is complicated by the
180025Sdfr	 * possibility that there may be other threads trying to make
180025Sdfr	 * client locking requests.
180025Sdfr	 *
180025Sdfr	 * First we fake a client reboot notification which will
180025Sdfr	 * cancel any pending async locks and purge remote lock state
180025Sdfr	 * from the local lock manager. We release the reference from
180025Sdfr	 * nlm_hosts to the host (which may remove it from the list
180025Sdfr	 * and free it). After this phase, the only entries in the
180025Sdfr	 * nlm_host list should be from other threads performing
180025Sdfr	 * client lock requests. We arrange to defer closing the
180025Sdfr	 * sockets until the last RPC client handle is released.
180025Sdfr	 */
180025Sdfr	v4_used = 0;
180025Sdfr#ifdef INET6
180025Sdfr	v6_used = 0;
180025Sdfr#endif
180025Sdfr	mtx_lock(&nlm_global_lock);
180025Sdfr	TAILQ_FOREACH(nw, &nlm_waiting_locks, nw_link) {
180025Sdfr		wakeup(nw);
177633Sdfr	}
180025Sdfr	TAILQ_FOREACH_SAFE(host, &nlm_hosts, nh_link, nhost) {
180025Sdfr		mtx_unlock(&nlm_global_lock);
180025Sdfr		nlm_host_notify(host, 0);
180025Sdfr		nlm_host_release(host);
180025Sdfr		mtx_lock(&nlm_global_lock);
180025Sdfr	}
180025Sdfr	TAILQ_FOREACH_SAFE(host, &nlm_hosts, nh_link, nhost) {
180025Sdfr		mtx_lock(&host->nh_lock);
184588Sdfr		if (host->nh_srvrpc.nr_client
184588Sdfr		    || host->nh_clntrpc.nr_client) {
180025Sdfr			if (host->nh_addr.ss_family == AF_INET)
180025Sdfr				v4_used++;
180025Sdfr#ifdef INET6
180025Sdfr			if (host->nh_addr.ss_family == AF_INET6)
180025Sdfr				v6_used++;
180025Sdfr#endif
180025Sdfr			/*
180025Sdfr			 * Note that the rpc over udp code copes
180025Sdfr			 * correctly with the fact that a socket may
180025Sdfr			 * be used by many rpc handles.
180025Sdfr			 */
184588Sdfr			if (host->nh_srvrpc.nr_client)
184588Sdfr				CLNT_CONTROL(host->nh_srvrpc.nr_client,
184588Sdfr				    CLSET_FD_CLOSE, 0);
184588Sdfr			if (host->nh_clntrpc.nr_client)
184588Sdfr				CLNT_CONTROL(host->nh_clntrpc.nr_client,
184588Sdfr				    CLSET_FD_CLOSE, 0);
180025Sdfr		}
180025Sdfr		mtx_unlock(&host->nh_lock);
180025Sdfr	}
180025Sdfr	mtx_unlock(&nlm_global_lock);
177633Sdfr
180025Sdfr	AUTH_DESTROY(nlm_auth);
180025Sdfr
180025Sdfr	if (!v4_used)
180025Sdfr		soclose(nlm_socket);
177633Sdfr	nlm_socket = NULL;
177633Sdfr#ifdef INET6
180025Sdfr	if (!v6_used)
180025Sdfr		soclose(nlm_socket6);
177633Sdfr	nlm_socket6 = NULL;
177633Sdfr#endif
177633Sdfr
177633Sdfr	return (error);
177633Sdfr}
177633Sdfr
177633Sdfrint
225617Skmacysys_nlm_syscall(struct thread *td, struct nlm_syscall_args *uap)
177633Sdfr{
177633Sdfr	int error;
177633Sdfr
177685Sdfr#if __FreeBSD_version >= 700000
177633Sdfr	error = priv_check(td, PRIV_NFS_LOCKD);
177685Sdfr#else
177685Sdfr	error = suser(td);
177685Sdfr#endif
177633Sdfr	if (error)
177633Sdfr		return (error);
177633Sdfr
177633Sdfr	nlm_debug_level = uap->debug_level;
177633Sdfr	nlm_grace_threshold = time_uptime + uap->grace_period;
177633Sdfr	nlm_next_idle_check = time_uptime + NLM_IDLE_PERIOD;
177633Sdfr
177633Sdfr	return nlm_server_main(uap->addr_count, uap->addrs);
177633Sdfr}
177633Sdfr
177633Sdfr/**********************************************************************/
177633Sdfr
177633Sdfr/*
177633Sdfr * NLM implementation details, called from the RPC stubs.
177633Sdfr */
177633Sdfr
177633Sdfr
177633Sdfrvoid
177633Sdfrnlm_sm_notify(struct nlm_sm_status *argp)
177633Sdfr{
177633Sdfr	uint32_t sysid;
177633Sdfr	struct nlm_host *host;
177633Sdfr
191918Sdfr	NLM_DEBUG(3, "nlm_sm_notify(): mon_name = %s\n", argp->mon_name);
177633Sdfr	memcpy(&sysid, &argp->priv, sizeof(sysid));
177633Sdfr	host = nlm_find_host_by_sysid(sysid);
180025Sdfr	if (host) {
180025Sdfr		nlm_host_notify(host, argp->state);
180025Sdfr		nlm_host_release(host);
180025Sdfr	}
177633Sdfr}
177633Sdfr
177633Sdfrstatic void
177633Sdfrnlm_convert_to_fhandle_t(fhandle_t *fhp, struct netobj *p)
177633Sdfr{
177633Sdfr	memcpy(fhp, p->n_bytes, sizeof(fhandle_t));
177633Sdfr}
177633Sdfr
177633Sdfrstruct vfs_state {
177633Sdfr	struct mount	*vs_mp;
177633Sdfr	struct vnode	*vs_vp;
177633Sdfr	int		vs_vfslocked;
178112Sdfr	int		vs_vnlocked;
177633Sdfr};
177633Sdfr
177633Sdfrstatic int
177633Sdfrnlm_get_vfs_state(struct nlm_host *host, struct svc_req *rqstp,
230801Srmacklem    fhandle_t *fhp, struct vfs_state *vs, accmode_t accmode)
177633Sdfr{
184588Sdfr	int error, exflags;
230801Srmacklem	struct ucred *cred = NULL, *credanon = NULL;
177633Sdfr
177633Sdfr	memset(vs, 0, sizeof(*vs));
177633Sdfr
177633Sdfr	vs->vs_mp = vfs_getvfs(&fhp->fh_fsid);
177633Sdfr	if (!vs->vs_mp) {
177633Sdfr		return (ESTALE);
177633Sdfr	}
177633Sdfr	vs->vs_vfslocked = VFS_LOCK_GIANT(vs->vs_mp);
177633Sdfr
230801Srmacklem	/* accmode == 0 means don't check, since it is an unlock. */
230801Srmacklem	if (accmode != 0) {
230801Srmacklem		error = VFS_CHECKEXP(vs->vs_mp,
230801Srmacklem		    (struct sockaddr *)&host->nh_addr, &exflags, &credanon,
230801Srmacklem		    NULL, NULL);
230801Srmacklem		if (error)
230801Srmacklem			goto out;
177633Sdfr
230801Srmacklem		if (exflags & MNT_EXRDONLY ||
230801Srmacklem		    (vs->vs_mp->mnt_flag & MNT_RDONLY)) {
230801Srmacklem			error = EROFS;
230801Srmacklem			goto out;
230801Srmacklem		}
177633Sdfr	}
177633Sdfr
222167Srmacklem	error = VFS_FHTOVP(vs->vs_mp, &fhp->fh_fid, LK_EXCLUSIVE, &vs->vs_vp);
177633Sdfr	if (error)
177633Sdfr		goto out;
178112Sdfr	vs->vs_vnlocked = TRUE;
177633Sdfr
230801Srmacklem	if (accmode != 0) {
230801Srmacklem		if (!svc_getcred(rqstp, &cred, NULL)) {
230801Srmacklem			error = EINVAL;
230801Srmacklem			goto out;
230801Srmacklem		}
230801Srmacklem		if (cred->cr_uid == 0 || (exflags & MNT_EXPORTANON)) {
230801Srmacklem			crfree(cred);
230801Srmacklem			cred = credanon;
230801Srmacklem			credanon = NULL;
230801Srmacklem		}
230801Srmacklem
230801Srmacklem		/*
230801Srmacklem		 * Check cred.
230801Srmacklem		 */
230801Srmacklem		error = VOP_ACCESS(vs->vs_vp, accmode, cred, curthread);
230801Srmacklem		/*
230801Srmacklem		 * If this failed and accmode != VWRITE, try again with
230801Srmacklem		 * VWRITE to maintain backwards compatibility with the
230801Srmacklem		 * old code that always used VWRITE.
230801Srmacklem		 */
230801Srmacklem		if (error != 0 && accmode != VWRITE)
230801Srmacklem			error = VOP_ACCESS(vs->vs_vp, VWRITE, cred, curthread);
230801Srmacklem		if (error)
230801Srmacklem			goto out;
177633Sdfr	}
177633Sdfr
178112Sdfr#if __FreeBSD_version < 800011
178112Sdfr	VOP_UNLOCK(vs->vs_vp, 0, curthread);
178112Sdfr#else
178112Sdfr	VOP_UNLOCK(vs->vs_vp, 0);
178112Sdfr#endif
178112Sdfr	vs->vs_vnlocked = FALSE;
178112Sdfr
177633Sdfrout:
184588Sdfr	if (cred)
177633Sdfr		crfree(cred);
191940Skan	if (credanon)
191940Skan		crfree(credanon);
177633Sdfr
177633Sdfr	return (error);
177633Sdfr}
177633Sdfr
177633Sdfrstatic void
177633Sdfrnlm_release_vfs_state(struct vfs_state *vs)
177633Sdfr{
177633Sdfr
178112Sdfr	if (vs->vs_vp) {
178112Sdfr		if (vs->vs_vnlocked)
178112Sdfr			vput(vs->vs_vp);
178112Sdfr		else
178112Sdfr			vrele(vs->vs_vp);
178112Sdfr	}
177633Sdfr	if (vs->vs_mp)
177633Sdfr		vfs_rel(vs->vs_mp);
177633Sdfr	VFS_UNLOCK_GIANT(vs->vs_vfslocked);
177633Sdfr}
177633Sdfr
177633Sdfrstatic nlm4_stats
177633Sdfrnlm_convert_error(int error)
177633Sdfr{
177633Sdfr
177633Sdfr	if (error == ESTALE)
177633Sdfr		return nlm4_stale_fh;
177633Sdfr	else if (error == EROFS)
177633Sdfr		return nlm4_rofs;
177633Sdfr	else
177633Sdfr		return nlm4_failed;
177633Sdfr}
177633Sdfr
180025Sdfrint
180025Sdfrnlm_do_test(nlm4_testargs *argp, nlm4_testres *result, struct svc_req *rqstp,
180025Sdfr	CLIENT **rpcp)
177633Sdfr{
177633Sdfr	fhandle_t fh;
177633Sdfr	struct vfs_state vs;
177633Sdfr	struct nlm_host *host, *bhost;
177633Sdfr	int error, sysid;
177633Sdfr	struct flock fl;
230801Srmacklem	accmode_t accmode;
177633Sdfr
177633Sdfr	memset(result, 0, sizeof(*result));
180025Sdfr	memset(&vs, 0, sizeof(vs));
177633Sdfr
180025Sdfr	host = nlm_find_host_by_name(argp->alock.caller_name,
184588Sdfr	    svc_getrpccaller(rqstp), rqstp->rq_vers);
177633Sdfr	if (!host) {
177633Sdfr		result->stat.stat = nlm4_denied_nolocks;
180025Sdfr		return (ENOMEM);
177633Sdfr	}
177633Sdfr
191918Sdfr	NLM_DEBUG(3, "nlm_do_test(): caller_name = %s (sysid = %d)\n",
191918Sdfr	    host->nh_caller_name, host->nh_sysid);
177633Sdfr
197840Szml	nlm_check_expired_locks(host);
177633Sdfr	sysid = host->nh_sysid;
177633Sdfr
177633Sdfr	nlm_convert_to_fhandle_t(&fh, &argp->alock.fh);
177633Sdfr	nlm_copy_netobj(&result->cookie, &argp->cookie, M_RPC);
177633Sdfr
177633Sdfr	if (time_uptime < nlm_grace_threshold) {
177633Sdfr		result->stat.stat = nlm4_denied_grace_period;
180025Sdfr		goto out;
177633Sdfr	}
177633Sdfr
230801Srmacklem	accmode = argp->exclusive ? VWRITE : VREAD;
230801Srmacklem	error = nlm_get_vfs_state(host, rqstp, &fh, &vs, accmode);
177633Sdfr	if (error) {
177633Sdfr		result->stat.stat = nlm_convert_error(error);
177633Sdfr		goto out;
177633Sdfr	}
177633Sdfr
177633Sdfr	fl.l_start = argp->alock.l_offset;
177633Sdfr	fl.l_len = argp->alock.l_len;
177633Sdfr	fl.l_pid = argp->alock.svid;
177633Sdfr	fl.l_sysid = sysid;
177633Sdfr	fl.l_whence = SEEK_SET;
177633Sdfr	if (argp->exclusive)
177633Sdfr		fl.l_type = F_WRLCK;
177633Sdfr	else
177633Sdfr		fl.l_type = F_RDLCK;
177633Sdfr	error = VOP_ADVLOCK(vs.vs_vp, NULL, F_GETLK, &fl, F_REMOTE);
177633Sdfr	if (error) {
177633Sdfr		result->stat.stat = nlm4_failed;
177633Sdfr		goto out;
177633Sdfr	}
177633Sdfr
177633Sdfr	if (fl.l_type == F_UNLCK) {
177633Sdfr		result->stat.stat = nlm4_granted;
177633Sdfr	} else {
177633Sdfr		result->stat.stat = nlm4_denied;
177633Sdfr		result->stat.nlm4_testrply_u.holder.exclusive =
177633Sdfr			(fl.l_type == F_WRLCK);
177633Sdfr		result->stat.nlm4_testrply_u.holder.svid = fl.l_pid;
177633Sdfr		bhost = nlm_find_host_by_sysid(fl.l_sysid);
177633Sdfr		if (bhost) {
177633Sdfr			/*
177633Sdfr			 * We don't have any useful way of recording
177633Sdfr			 * the value of oh used in the original lock
177633Sdfr			 * request. Ideally, the test reply would have
177633Sdfr			 * a space for the owning host's name allowing
177633Sdfr			 * our caller's NLM to keep track.
177633Sdfr			 *
177633Sdfr			 * As far as I can see, Solaris uses an eight
177633Sdfr			 * byte structure for oh which contains a four
177633Sdfr			 * byte pid encoded in local byte order and
177633Sdfr			 * the first four bytes of the host
177633Sdfr			 * name. Linux uses a variable length string
177633Sdfr			 * 'pid@hostname' in ascii but doesn't even
177633Sdfr			 * return that in test replies.
177633Sdfr			 *
177633Sdfr			 * For the moment, return nothing in oh
177633Sdfr			 * (already zero'ed above).
177633Sdfr			 */
180025Sdfr			nlm_host_release(bhost);
177633Sdfr		}
177633Sdfr		result->stat.nlm4_testrply_u.holder.l_offset = fl.l_start;
177633Sdfr		result->stat.nlm4_testrply_u.holder.l_len = fl.l_len;
177633Sdfr	}
177633Sdfr
177633Sdfrout:
177633Sdfr	nlm_release_vfs_state(&vs);
180025Sdfr	if (rpcp)
184588Sdfr		*rpcp = nlm_host_get_rpc(host, TRUE);
180025Sdfr	nlm_host_release(host);
180025Sdfr	return (0);
177633Sdfr}
177633Sdfr
180025Sdfrint
177633Sdfrnlm_do_lock(nlm4_lockargs *argp, nlm4_res *result, struct svc_req *rqstp,
180025Sdfr    bool_t monitor, CLIENT **rpcp)
177633Sdfr{
177633Sdfr	fhandle_t fh;
177633Sdfr	struct vfs_state vs;
177633Sdfr	struct nlm_host *host;
177633Sdfr	int error, sysid;
177633Sdfr	struct flock fl;
230801Srmacklem	accmode_t accmode;
177633Sdfr
177633Sdfr	memset(result, 0, sizeof(*result));
180025Sdfr	memset(&vs, 0, sizeof(vs));
177633Sdfr
180025Sdfr	host = nlm_find_host_by_name(argp->alock.caller_name,
184588Sdfr	    svc_getrpccaller(rqstp), rqstp->rq_vers);
177633Sdfr	if (!host) {
177633Sdfr		result->stat.stat = nlm4_denied_nolocks;
180025Sdfr		return (ENOMEM);
177633Sdfr	}
177633Sdfr
191918Sdfr	NLM_DEBUG(3, "nlm_do_lock(): caller_name = %s (sysid = %d)\n",
191918Sdfr	    host->nh_caller_name, host->nh_sysid);
177633Sdfr
179488Sdfr	if (monitor && host->nh_state && argp->state
179488Sdfr	    && host->nh_state != argp->state) {
179488Sdfr		/*
179488Sdfr		 * The host rebooted without telling us. Trash its
179488Sdfr		 * locks.
179488Sdfr		 */
180025Sdfr		nlm_host_notify(host, argp->state);
179488Sdfr	}
179488Sdfr
197840Szml	nlm_check_expired_locks(host);
177633Sdfr	sysid = host->nh_sysid;
177633Sdfr
177633Sdfr	nlm_convert_to_fhandle_t(&fh, &argp->alock.fh);
177633Sdfr	nlm_copy_netobj(&result->cookie, &argp->cookie, M_RPC);
177633Sdfr
177633Sdfr	if (time_uptime < nlm_grace_threshold && !argp->reclaim) {
177633Sdfr		result->stat.stat = nlm4_denied_grace_period;
180025Sdfr		goto out;
177633Sdfr	}
177633Sdfr
230801Srmacklem	accmode = argp->exclusive ? VWRITE : VREAD;
230801Srmacklem	error = nlm_get_vfs_state(host, rqstp, &fh, &vs, accmode);
177633Sdfr	if (error) {
177633Sdfr		result->stat.stat = nlm_convert_error(error);
177633Sdfr		goto out;
177633Sdfr	}
177633Sdfr
177633Sdfr	fl.l_start = argp->alock.l_offset;
177633Sdfr	fl.l_len = argp->alock.l_len;
177633Sdfr	fl.l_pid = argp->alock.svid;
177633Sdfr	fl.l_sysid = sysid;
177633Sdfr	fl.l_whence = SEEK_SET;
177633Sdfr	if (argp->exclusive)
177633Sdfr		fl.l_type = F_WRLCK;
177633Sdfr	else
177633Sdfr		fl.l_type = F_RDLCK;
177633Sdfr	if (argp->block) {
177633Sdfr		struct nlm_async_lock *af;
180025Sdfr		CLIENT *client;
197840Szml		struct nlm_grantcookie cookie;
177633Sdfr
177633Sdfr		/*
177633Sdfr		 * First, make sure we can contact the host's NLM.
177633Sdfr		 */
184588Sdfr		client = nlm_host_get_rpc(host, TRUE);
180025Sdfr		if (!client) {
177633Sdfr			result->stat.stat = nlm4_failed;
177633Sdfr			goto out;
177633Sdfr		}
177633Sdfr
177633Sdfr		/*
177633Sdfr		 * First we need to check and see if there is an
177633Sdfr		 * existing blocked lock that matches. This could be a
177633Sdfr		 * badly behaved client or an RPC re-send. If we find
177633Sdfr		 * one, just return nlm4_blocked.
177633Sdfr		 */
177633Sdfr		mtx_lock(&host->nh_lock);
177633Sdfr		TAILQ_FOREACH(af, &host->nh_pending, af_link) {
177633Sdfr			if (af->af_fl.l_start == fl.l_start
177633Sdfr			    && af->af_fl.l_len == fl.l_len
177633Sdfr			    && af->af_fl.l_pid == fl.l_pid
177633Sdfr			    && af->af_fl.l_type == fl.l_type) {
177633Sdfr				break;
177633Sdfr			}
177633Sdfr		}
197840Szml		if (!af) {
197840Szml			cookie.ng_sysid = host->nh_sysid;
197840Szml			cookie.ng_cookie = host->nh_grantcookie++;
197840Szml		}
177633Sdfr		mtx_unlock(&host->nh_lock);
177633Sdfr		if (af) {
180025Sdfr			CLNT_RELEASE(client);
177633Sdfr			result->stat.stat = nlm4_blocked;
177633Sdfr			goto out;
177633Sdfr		}
177633Sdfr
177633Sdfr		af = malloc(sizeof(struct nlm_async_lock), M_NLM,
177633Sdfr		    M_WAITOK|M_ZERO);
177633Sdfr		TASK_INIT(&af->af_task, 0, nlm_lock_callback, af);
177633Sdfr		af->af_vp = vs.vs_vp;
177633Sdfr		af->af_fl = fl;
177633Sdfr		af->af_host = host;
180025Sdfr		af->af_rpc = client;
177633Sdfr		/*
177633Sdfr		 * We use M_RPC here so that we can xdr_free the thing
177633Sdfr		 * later.
177633Sdfr		 */
197840Szml		nlm_make_netobj(&af->af_granted.cookie,
197840Szml		    (caddr_t)&cookie, sizeof(cookie), M_RPC);
177633Sdfr		af->af_granted.exclusive = argp->exclusive;
177633Sdfr		af->af_granted.alock.caller_name =
177633Sdfr			strdup(argp->alock.caller_name, M_RPC);
177633Sdfr		nlm_copy_netobj(&af->af_granted.alock.fh,
177633Sdfr		    &argp->alock.fh, M_RPC);
177633Sdfr		nlm_copy_netobj(&af->af_granted.alock.oh,
177633Sdfr		    &argp->alock.oh, M_RPC);
177633Sdfr		af->af_granted.alock.svid = argp->alock.svid;
177633Sdfr		af->af_granted.alock.l_offset = argp->alock.l_offset;
177633Sdfr		af->af_granted.alock.l_len = argp->alock.l_len;
177633Sdfr
177633Sdfr		/*
177633Sdfr		 * Put the entry on the pending list before calling
177633Sdfr		 * VOP_ADVLOCKASYNC. We do this in case the lock
177633Sdfr		 * request was blocked (returning EINPROGRESS) but
177633Sdfr		 * then granted before we manage to run again. The
177633Sdfr		 * client may receive the granted message before we
177633Sdfr		 * send our blocked reply but thats their problem.
177633Sdfr		 */
177633Sdfr		mtx_lock(&host->nh_lock);
177633Sdfr		TAILQ_INSERT_TAIL(&host->nh_pending, af, af_link);
177633Sdfr		mtx_unlock(&host->nh_lock);
177633Sdfr
177633Sdfr		error = VOP_ADVLOCKASYNC(vs.vs_vp, NULL, F_SETLK, &fl, F_REMOTE,
177633Sdfr		    &af->af_task, &af->af_cookie);
177633Sdfr
177633Sdfr		/*
177633Sdfr		 * If the lock completed synchronously, just free the
177633Sdfr		 * tracking structure now.
177633Sdfr		 */
177633Sdfr		if (error != EINPROGRESS) {
180025Sdfr			CLNT_RELEASE(af->af_rpc);
177633Sdfr			mtx_lock(&host->nh_lock);
177633Sdfr			TAILQ_REMOVE(&host->nh_pending, af, af_link);
177633Sdfr			mtx_unlock(&host->nh_lock);
177633Sdfr			xdr_free((xdrproc_t) xdr_nlm4_testargs,
177633Sdfr			    &af->af_granted);
177633Sdfr			free(af, M_NLM);
177633Sdfr		} else {
191918Sdfr			NLM_DEBUG(2, "NLM: pending async lock %p for %s "
191918Sdfr			    "(sysid %d)\n", af, host->nh_caller_name, sysid);
177633Sdfr			/*
177633Sdfr			 * Don't vrele the vnode just yet - this must
177633Sdfr			 * wait until either the async callback
177633Sdfr			 * happens or the lock is cancelled.
177633Sdfr			 */
177633Sdfr			vs.vs_vp = NULL;
177633Sdfr		}
177633Sdfr	} else {
177633Sdfr		error = VOP_ADVLOCK(vs.vs_vp, NULL, F_SETLK, &fl, F_REMOTE);
177633Sdfr	}
177633Sdfr
177633Sdfr	if (error) {
177633Sdfr		if (error == EINPROGRESS) {
177633Sdfr			result->stat.stat = nlm4_blocked;
177633Sdfr		} else if (error == EDEADLK) {
177633Sdfr			result->stat.stat = nlm4_deadlck;
177633Sdfr		} else if (error == EAGAIN) {
177633Sdfr			result->stat.stat = nlm4_denied;
177633Sdfr		} else {
177633Sdfr			result->stat.stat = nlm4_failed;
177633Sdfr		}
177633Sdfr	} else {
177633Sdfr		if (monitor)
177633Sdfr			nlm_host_monitor(host, argp->state);
177633Sdfr		result->stat.stat = nlm4_granted;
177633Sdfr	}
177633Sdfr
177633Sdfrout:
177633Sdfr	nlm_release_vfs_state(&vs);
180025Sdfr	if (rpcp)
184588Sdfr		*rpcp = nlm_host_get_rpc(host, TRUE);
180025Sdfr	nlm_host_release(host);
180025Sdfr	return (0);
177633Sdfr}
177633Sdfr
180025Sdfrint
180025Sdfrnlm_do_cancel(nlm4_cancargs *argp, nlm4_res *result, struct svc_req *rqstp,
180025Sdfr    CLIENT **rpcp)
177633Sdfr{
177633Sdfr	fhandle_t fh;
177633Sdfr	struct vfs_state vs;
177633Sdfr	struct nlm_host *host;
177633Sdfr	int error, sysid;
177633Sdfr	struct flock fl;
177633Sdfr	struct nlm_async_lock *af;
177633Sdfr
177633Sdfr	memset(result, 0, sizeof(*result));
180025Sdfr	memset(&vs, 0, sizeof(vs));
177633Sdfr
180025Sdfr	host = nlm_find_host_by_name(argp->alock.caller_name,
184588Sdfr	    svc_getrpccaller(rqstp), rqstp->rq_vers);
177633Sdfr	if (!host) {
177633Sdfr		result->stat.stat = nlm4_denied_nolocks;
180025Sdfr		return (ENOMEM);
177633Sdfr	}
177633Sdfr
191918Sdfr	NLM_DEBUG(3, "nlm_do_cancel(): caller_name = %s (sysid = %d)\n",
191918Sdfr	    host->nh_caller_name, host->nh_sysid);
177633Sdfr
197840Szml	nlm_check_expired_locks(host);
177633Sdfr	sysid = host->nh_sysid;
177633Sdfr
177633Sdfr	nlm_convert_to_fhandle_t(&fh, &argp->alock.fh);
177633Sdfr	nlm_copy_netobj(&result->cookie, &argp->cookie, M_RPC);
177633Sdfr
177633Sdfr	if (time_uptime < nlm_grace_threshold) {
177633Sdfr		result->stat.stat = nlm4_denied_grace_period;
180025Sdfr		goto out;
177633Sdfr	}
177633Sdfr
230801Srmacklem	error = nlm_get_vfs_state(host, rqstp, &fh, &vs, (accmode_t)0);
177633Sdfr	if (error) {
177633Sdfr		result->stat.stat = nlm_convert_error(error);
177633Sdfr		goto out;
177633Sdfr	}
177633Sdfr
177633Sdfr	fl.l_start = argp->alock.l_offset;
177633Sdfr	fl.l_len = argp->alock.l_len;
177633Sdfr	fl.l_pid = argp->alock.svid;
177633Sdfr	fl.l_sysid = sysid;
177633Sdfr	fl.l_whence = SEEK_SET;
177633Sdfr	if (argp->exclusive)
177633Sdfr		fl.l_type = F_WRLCK;
177633Sdfr	else
177633Sdfr		fl.l_type = F_RDLCK;
177633Sdfr
177633Sdfr	/*
177633Sdfr	 * First we need to try and find the async lock request - if
177633Sdfr	 * there isn't one, we give up and return nlm4_denied.
177633Sdfr	 */
177633Sdfr	mtx_lock(&host->nh_lock);
177633Sdfr
177633Sdfr	TAILQ_FOREACH(af, &host->nh_pending, af_link) {
177633Sdfr		if (af->af_fl.l_start == fl.l_start
177633Sdfr		    && af->af_fl.l_len == fl.l_len
177633Sdfr		    && af->af_fl.l_pid == fl.l_pid
177633Sdfr		    && af->af_fl.l_type == fl.l_type) {
177633Sdfr			break;
177633Sdfr		}
177633Sdfr	}
177633Sdfr
177633Sdfr	if (!af) {
177633Sdfr		mtx_unlock(&host->nh_lock);
177633Sdfr		result->stat.stat = nlm4_denied;
177633Sdfr		goto out;
177633Sdfr	}
177633Sdfr
177633Sdfr	error = nlm_cancel_async_lock(af);
177633Sdfr
177633Sdfr	if (error) {
177633Sdfr		result->stat.stat = nlm4_denied;
177633Sdfr	} else {
177633Sdfr		result->stat.stat = nlm4_granted;
177633Sdfr	}
177633Sdfr
177633Sdfr	mtx_unlock(&host->nh_lock);
177633Sdfr
177633Sdfrout:
177633Sdfr	nlm_release_vfs_state(&vs);
180025Sdfr	if (rpcp)
184588Sdfr		*rpcp = nlm_host_get_rpc(host, TRUE);
180025Sdfr	nlm_host_release(host);
180025Sdfr	return (0);
177633Sdfr}
177633Sdfr
180025Sdfrint
180025Sdfrnlm_do_unlock(nlm4_unlockargs *argp, nlm4_res *result, struct svc_req *rqstp,
180025Sdfr    CLIENT **rpcp)
177633Sdfr{
177633Sdfr	fhandle_t fh;
177633Sdfr	struct vfs_state vs;
177633Sdfr	struct nlm_host *host;
177633Sdfr	int error, sysid;
177633Sdfr	struct flock fl;
177633Sdfr
177633Sdfr	memset(result, 0, sizeof(*result));
180025Sdfr	memset(&vs, 0, sizeof(vs));
177633Sdfr
180025Sdfr	host = nlm_find_host_by_name(argp->alock.caller_name,
184588Sdfr	    svc_getrpccaller(rqstp), rqstp->rq_vers);
177633Sdfr	if (!host) {
177633Sdfr		result->stat.stat = nlm4_denied_nolocks;
180025Sdfr		return (ENOMEM);
177633Sdfr	}
177633Sdfr
191918Sdfr	NLM_DEBUG(3, "nlm_do_unlock(): caller_name = %s (sysid = %d)\n",
191918Sdfr	    host->nh_caller_name, host->nh_sysid);
177633Sdfr
197840Szml	nlm_check_expired_locks(host);
177633Sdfr	sysid = host->nh_sysid;
177633Sdfr
177633Sdfr	nlm_convert_to_fhandle_t(&fh, &argp->alock.fh);
177633Sdfr	nlm_copy_netobj(&result->cookie, &argp->cookie, M_RPC);
177633Sdfr
177633Sdfr	if (time_uptime < nlm_grace_threshold) {
177633Sdfr		result->stat.stat = nlm4_denied_grace_period;
180025Sdfr		goto out;
177633Sdfr	}
177633Sdfr
230801Srmacklem	error = nlm_get_vfs_state(host, rqstp, &fh, &vs, (accmode_t)0);
177633Sdfr	if (error) {
177633Sdfr		result->stat.stat = nlm_convert_error(error);
177633Sdfr		goto out;
177633Sdfr	}
177633Sdfr
177633Sdfr	fl.l_start = argp->alock.l_offset;
177633Sdfr	fl.l_len = argp->alock.l_len;
177633Sdfr	fl.l_pid = argp->alock.svid;
177633Sdfr	fl.l_sysid = sysid;
177633Sdfr	fl.l_whence = SEEK_SET;
177633Sdfr	fl.l_type = F_UNLCK;
177633Sdfr	error = VOP_ADVLOCK(vs.vs_vp, NULL, F_UNLCK, &fl, F_REMOTE);
177633Sdfr
177633Sdfr	/*
177633Sdfr	 * Ignore the error - there is no result code for failure,
177633Sdfr	 * only for grace period.
177633Sdfr	 */
177633Sdfr	result->stat.stat = nlm4_granted;
177633Sdfr
177633Sdfrout:
177633Sdfr	nlm_release_vfs_state(&vs);
180025Sdfr	if (rpcp)
184588Sdfr		*rpcp = nlm_host_get_rpc(host, TRUE);
180025Sdfr	nlm_host_release(host);
180025Sdfr	return (0);
180025Sdfr}
177633Sdfr
180025Sdfrint
180025Sdfrnlm_do_granted(nlm4_testargs *argp, nlm4_res *result, struct svc_req *rqstp,
180025Sdfr
180025Sdfr    CLIENT **rpcp)
180025Sdfr{
180025Sdfr	struct nlm_host *host;
180025Sdfr	struct nlm_waiting_lock *nw;
180025Sdfr
180025Sdfr	memset(result, 0, sizeof(*result));
180025Sdfr
184588Sdfr	host = nlm_find_host_by_addr(svc_getrpccaller(rqstp), rqstp->rq_vers);
180025Sdfr	if (!host) {
180025Sdfr		result->stat.stat = nlm4_denied_nolocks;
180025Sdfr		return (ENOMEM);
180025Sdfr	}
180025Sdfr
180025Sdfr	nlm_copy_netobj(&result->cookie, &argp->cookie, M_RPC);
180025Sdfr	result->stat.stat = nlm4_denied;
197840Szml	KFAIL_POINT_CODE(DEBUG_FP, nlm_deny_grant, goto out);
180025Sdfr
180025Sdfr	mtx_lock(&nlm_global_lock);
180025Sdfr	TAILQ_FOREACH(nw, &nlm_waiting_locks, nw_link) {
180025Sdfr		if (!nw->nw_waiting)
180025Sdfr			continue;
180025Sdfr		if (argp->alock.svid == nw->nw_lock.svid
180025Sdfr		    && argp->alock.l_offset == nw->nw_lock.l_offset
180025Sdfr		    && argp->alock.l_len == nw->nw_lock.l_len
180025Sdfr		    && argp->alock.fh.n_len == nw->nw_lock.fh.n_len
180025Sdfr		    && !memcmp(argp->alock.fh.n_bytes, nw->nw_lock.fh.n_bytes,
180025Sdfr			nw->nw_lock.fh.n_len)) {
180025Sdfr			nw->nw_waiting = FALSE;
180025Sdfr			wakeup(nw);
180025Sdfr			result->stat.stat = nlm4_granted;
180025Sdfr			break;
180025Sdfr		}
180025Sdfr	}
180025Sdfr	mtx_unlock(&nlm_global_lock);
197840Szml
197840Szmlout:
180025Sdfr	if (rpcp)
184588Sdfr		*rpcp = nlm_host_get_rpc(host, TRUE);
180025Sdfr	nlm_host_release(host);
180025Sdfr	return (0);
177633Sdfr}
177633Sdfr
177633Sdfrvoid
197840Szmlnlm_do_granted_res(nlm4_res *argp, struct svc_req *rqstp)
197840Szml{
197840Szml	struct nlm_host *host = NULL;
197840Szml	struct nlm_async_lock *af = NULL;
197840Szml	int error;
197840Szml
197840Szml	if (argp->cookie.n_len != sizeof(struct nlm_grantcookie)) {
197840Szml		NLM_DEBUG(1, "NLM: bogus grant cookie");
197840Szml		goto out;
197840Szml	}
197840Szml
197840Szml	host = nlm_find_host_by_sysid(ng_sysid(&argp->cookie));
197840Szml	if (!host) {
197840Szml		NLM_DEBUG(1, "NLM: Unknown host rejected our grant");
197840Szml		goto out;
197840Szml	}
197840Szml
197840Szml	mtx_lock(&host->nh_lock);
197840Szml	TAILQ_FOREACH(af, &host->nh_granted, af_link)
197840Szml	    if (ng_cookie(&argp->cookie) ==
197840Szml		ng_cookie(&af->af_granted.cookie))
197840Szml		    break;
197840Szml	if (af)
197840Szml		TAILQ_REMOVE(&host->nh_granted, af, af_link);
197840Szml	mtx_unlock(&host->nh_lock);
197840Szml
197840Szml	if (!af) {
197840Szml		NLM_DEBUG(1, "NLM: host %s (sysid %d) replied to our grant "
197840Szml		    "with unrecognized cookie %d:%d", host->nh_caller_name,
197840Szml		    host->nh_sysid, ng_sysid(&argp->cookie),
197840Szml		    ng_cookie(&argp->cookie));
197840Szml		goto out;
197840Szml	}
197840Szml
197840Szml	if (argp->stat.stat != nlm4_granted) {
197840Szml		af->af_fl.l_type = F_UNLCK;
197840Szml		error = VOP_ADVLOCK(af->af_vp, NULL, F_UNLCK, &af->af_fl, F_REMOTE);
197840Szml		if (error) {
197840Szml			NLM_DEBUG(1, "NLM: host %s (sysid %d) rejected our grant "
197840Szml			    "and we failed to unlock (%d)", host->nh_caller_name,
197840Szml			    host->nh_sysid, error);
197840Szml			goto out;
197840Szml		}
197840Szml
197840Szml		NLM_DEBUG(5, "NLM: async lock %p rejected by host %s (sysid %d)",
197840Szml		    af, host->nh_caller_name, host->nh_sysid);
197840Szml	} else {
197840Szml		NLM_DEBUG(5, "NLM: async lock %p accepted by host %s (sysid %d)",
197840Szml		    af, host->nh_caller_name, host->nh_sysid);
197840Szml	}
197840Szml
197840Szml out:
197840Szml	if (af)
197840Szml		nlm_free_async_lock(af);
197840Szml	if (host)
197840Szml		nlm_host_release(host);
197840Szml}
197840Szml
197840Szmlvoid
177633Sdfrnlm_do_free_all(nlm4_notify *argp)
177633Sdfr{
177633Sdfr	struct nlm_host *host, *thost;
177633Sdfr
177633Sdfr	TAILQ_FOREACH_SAFE(host, &nlm_hosts, nh_link, thost) {
177633Sdfr		if (!strcmp(host->nh_caller_name, argp->name))
180025Sdfr			nlm_host_notify(host, argp->state);
177633Sdfr	}
177633Sdfr}
177633Sdfr
177633Sdfr/*
177662Sdfr * Kernel module glue
177662Sdfr */
177662Sdfrstatic int
177662Sdfrnfslockd_modevent(module_t mod, int type, void *data)
177662Sdfr{
177662Sdfr
177662Sdfr	return (0);
177662Sdfr}
177662Sdfrstatic moduledata_t nfslockd_mod = {
177662Sdfr	"nfslockd",
177662Sdfr	nfslockd_modevent,
177662Sdfr	NULL,
177662Sdfr};
177662SdfrDECLARE_MODULE(nfslockd, nfslockd_mod, SI_SUB_VFS, SI_ORDER_ANY);
177662Sdfr
177662Sdfr/* So that loader and kldload(2) can find us, wherever we are.. */
177662SdfrMODULE_DEPEND(nfslockd, krpc, 1, 1, 1);
214048SrmacklemMODULE_DEPEND(nfslockd, nfslock, 1, 1, 1);
177662SdfrMODULE_VERSION(nfslockd, 1);