lib/librumpuser/rumpuser_sp.c

1.62  pooka /*      $NetBSD: rumpuser_sp.c,v 1.62 2014/01/08 01:45:29 pooka Exp $	*/
 1.1  pooka
 1.1  pooka /*
1.29  pooka  * Copyright (c) 2010, 2011 Antti Kantee.  All Rights Reserved.
 1.1  pooka  *
 1.1  pooka  * Redistribution and use in source and binary forms, with or without
 1.1  pooka  * modification, are permitted provided that the following conditions
 1.1  pooka  * are met:
 1.1  pooka  * 1. Redistributions of source code must retain the above copyright
 1.1  pooka  *    notice, this list of conditions and the following disclaimer.
 1.1  pooka  * 2. Redistributions in binary form must reproduce the above copyright
 1.1  pooka  *    notice, this list of conditions and the following disclaimer in the
 1.1  pooka  *    documentation and/or other materials provided with the distribution.
 1.1  pooka  *
 1.1  pooka  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS
 1.1  pooka  * OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
 1.1  pooka  * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
 1.1  pooka  * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE
 1.1  pooka  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
 1.1  pooka  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
 1.1  pooka  * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
 1.1  pooka  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 1.1  pooka  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
 1.1  pooka  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
 1.1  pooka  * SUCH DAMAGE.
 1.1  pooka  */
 1.1  pooka
 1.1  pooka /*
 1.1  pooka  * Sysproxy routines.  This provides system RPC support over host sockets.
 1.1  pooka  * The most notable limitation is that the client and server must share
 1.1  pooka  * the same ABI.  This does not mean that they have to be the same
 1.1  pooka  * machine or that they need to run the same version of the host OS,
 1.1  pooka  * just that they must agree on the data structures.  This even *might*
 1.1  pooka  * work correctly from one hardware architecture to another.
 1.1  pooka  */
 1.1  pooka
1.47  pooka #include "rumpuser_port.h"
1.47  pooka
1.47  pooka #if !defined(lint)
1.62  pooka __RCSID("$NetBSD: rumpuser_sp.c,v 1.62 2014/01/08 01:45:29 pooka Exp $");
1.47  pooka #endif /* !lint */
 1.1  pooka
 1.1  pooka #include <sys/types.h>
 1.1  pooka #include <sys/mman.h>
 1.1  pooka #include <sys/socket.h>
 1.1  pooka
 1.1  pooka #include <arpa/inet.h>
 1.1  pooka #include <netinet/in.h>
 1.1  pooka #include <netinet/tcp.h>
 1.1  pooka
 1.1  pooka #include <assert.h>
 1.1  pooka #include <errno.h>
 1.1  pooka #include <fcntl.h>
 1.1  pooka #include <poll.h>
 1.1  pooka #include <pthread.h>
 1.1  pooka #include <stdarg.h>
 1.1  pooka #include <stdio.h>
 1.1  pooka #include <stdlib.h>
 1.1  pooka #include <string.h>
 1.1  pooka #include <unistd.h>
 1.1  pooka
1.28  pooka #include <rump/rump.h> /* XXX: for rfork flags */
 1.1  pooka #include <rump/rumpuser.h>
1.47  pooka
1.13  pooka #include "rumpuser_int.h"
 1.1  pooka
 1.5  pooka #include "sp_common.c"
 1.1  pooka
1.20  pooka #ifndef MAXCLI
1.18  pooka #define MAXCLI 256
1.20  pooka #endif
1.20  pooka #ifndef MAXWORKER
1.20  pooka #define MAXWORKER 128
1.20  pooka #endif
1.20  pooka #ifndef IDLEWORKER
1.20  pooka #define IDLEWORKER 16
1.20  pooka #endif
1.20  pooka int rumpsp_maxworker = MAXWORKER;
1.20  pooka int rumpsp_idleworker = IDLEWORKER;
 1.1  pooka
 1.1  pooka static struct pollfd pfdlist[MAXCLI];
 1.1  pooka static struct spclient spclist[MAXCLI];
1.11  pooka static unsigned int disco;
1.24  pooka static volatile int spfini;
 1.1  pooka
1.26  pooka static char banner[MAXBANNER];
1.26  pooka
1.26  pooka #define PROTOMAJOR 0
1.48  pooka #define PROTOMINOR 4
1.29  pooka
1.47  pooka
1.47  pooka /* how to use atomic ops on Linux? */
1.62  pooka #if defined(__linux__) || defined(__APPLE__) || defined(__CYGWIN__) || defined(__OpenBSD__)
1.47  pooka static pthread_mutex_t discomtx = PTHREAD_MUTEX_INITIALIZER;
1.47  pooka
1.47  pooka static void
1.47  pooka signaldisco(void)
1.47  pooka {
1.47  pooka
1.47  pooka 	pthread_mutex_lock(&discomtx);
1.47  pooka 	disco++;
1.47  pooka 	pthread_mutex_unlock(&discomtx);
1.47  pooka }
1.47  pooka
1.47  pooka static unsigned int
1.47  pooka getdisco(void)
1.47  pooka {
1.47  pooka 	unsigned int discocnt;
1.47  pooka
1.47  pooka 	pthread_mutex_lock(&discomtx);
1.47  pooka 	discocnt = disco;
1.47  pooka 	disco = 0;
1.47  pooka 	pthread_mutex_unlock(&discomtx);
1.47  pooka
1.47  pooka 	return discocnt;
1.47  pooka }
1.47  pooka
1.50  pooka #elif defined(__FreeBSD__) || defined(__DragonFly__)
1.49  pooka
1.49  pooka #include <machine/atomic.h>
1.49  pooka #define signaldisco()	atomic_add_int(&disco, 1)
1.49  pooka #define getdisco()	atomic_readandclear_int(&disco)
1.49  pooka
1.47  pooka #else /* NetBSD */
1.47  pooka
1.47  pooka #include <sys/atomic.h>
1.47  pooka #define signaldisco() atomic_inc_uint(&disco)
1.47  pooka #define getdisco() atomic_swap_uint(&disco, 0)
1.47  pooka
1.47  pooka #endif
1.47  pooka
1.47  pooka
1.29  pooka struct prefork {
1.29  pooka 	uint32_t pf_auth[AUTHLEN];
1.29  pooka 	struct lwp *pf_lwp;
1.29  pooka
1.29  pooka 	LIST_ENTRY(prefork) pf_entries;		/* global list */
1.29  pooka 	LIST_ENTRY(prefork) pf_spcentries;	/* linked from forking spc */
1.29  pooka };
1.29  pooka static LIST_HEAD(, prefork) preforks = LIST_HEAD_INITIALIZER(preforks);
1.29  pooka static pthread_mutex_t pfmtx;
1.26  pooka
 1.3  pooka /*
1.31  pooka  * This version is for the server.  It's optimized for multiple threads
1.33  pooka  * and is *NOT* reentrant wrt to signals.
1.31  pooka  */
1.31  pooka static int
1.31  pooka waitresp(struct spclient *spc, struct respwait *rw)
1.31  pooka {
1.34  pooka 	int spcstate;
1.31  pooka 	int rv = 0;
1.31  pooka
1.34  pooka 	pthread_mutex_lock(&spc->spc_mtx);
1.31  pooka 	sendunlockl(spc);
1.33  pooka 	while (!rw->rw_done && spc->spc_state != SPCSTATE_DYING) {
1.33  pooka 		pthread_cond_wait(&rw->rw_cv, &spc->spc_mtx);
1.31  pooka 	}
1.31  pooka 	TAILQ_REMOVE(&spc->spc_respwait, rw, rw_entries);
1.34  pooka 	spcstate = spc->spc_state;
1.31  pooka 	pthread_mutex_unlock(&spc->spc_mtx);
1.31  pooka
1.31  pooka 	pthread_cond_destroy(&rw->rw_cv);
1.31  pooka
1.31  pooka 	if (rv)
1.31  pooka 		return rv;
1.34  pooka 	if (spcstate == SPCSTATE_DYING)
1.31  pooka 		return ENOTCONN;
1.31  pooka 	return rw->rw_error;
1.31  pooka }
1.31  pooka
1.31  pooka /*
 1.3  pooka  * Manual wrappers, since librump does not have access to the
 1.3  pooka  * user namespace wrapped interfaces.
 1.3  pooka  */
 1.3  pooka
 1.3  pooka static void
 1.3  pooka lwproc_switch(struct lwp *l)
 1.3  pooka {
 1.3  pooka
1.56  pooka 	rumpuser__hyp.hyp_schedule();
1.56  pooka 	rumpuser__hyp.hyp_lwproc_switch(l);
1.56  pooka 	rumpuser__hyp.hyp_unschedule();
 1.3  pooka }
 1.3  pooka
 1.3  pooka static void
 1.3  pooka lwproc_release(void)
 1.3  pooka {
 1.3  pooka
1.56  pooka 	rumpuser__hyp.hyp_schedule();
1.56  pooka 	rumpuser__hyp.hyp_lwproc_release();
1.56  pooka 	rumpuser__hyp.hyp_unschedule();
 1.3  pooka }
 1.3  pooka
 1.3  pooka static int
1.38  pooka lwproc_rfork(struct spclient *spc, int flags, const char *comm)
 1.3  pooka {
 1.3  pooka 	int rv;
 1.3  pooka
1.56  pooka 	rumpuser__hyp.hyp_schedule();
1.56  pooka 	rv = rumpuser__hyp.hyp_lwproc_rfork(spc, flags, comm);
1.56  pooka 	rumpuser__hyp.hyp_unschedule();
 1.3  pooka
 1.3  pooka 	return rv;
 1.3  pooka }
 1.3  pooka
 1.8  pooka static int
 1.8  pooka lwproc_newlwp(pid_t pid)
 1.8  pooka {
 1.8  pooka 	int rv;
 1.8  pooka
1.56  pooka 	rumpuser__hyp.hyp_schedule();
1.56  pooka 	rv = rumpuser__hyp.hyp_lwproc_newlwp(pid);
1.56  pooka 	rumpuser__hyp.hyp_unschedule();
 1.8  pooka
 1.8  pooka 	return rv;
 1.8  pooka }
 1.8  pooka
 1.3  pooka static struct lwp *
 1.3  pooka lwproc_curlwp(void)
 1.3  pooka {
 1.3  pooka 	struct lwp *l;
 1.3  pooka
1.56  pooka 	rumpuser__hyp.hyp_schedule();
1.56  pooka 	l = rumpuser__hyp.hyp_lwproc_curlwp();
1.56  pooka 	rumpuser__hyp.hyp_unschedule();
 1.3  pooka
 1.3  pooka 	return l;
 1.3  pooka }
 1.3  pooka
 1.8  pooka static pid_t
 1.8  pooka lwproc_getpid(void)
 1.8  pooka {
 1.8  pooka 	pid_t p;
 1.8  pooka
1.56  pooka 	rumpuser__hyp.hyp_schedule();
1.56  pooka 	p = rumpuser__hyp.hyp_getpid();
1.56  pooka 	rumpuser__hyp.hyp_unschedule();
 1.8  pooka
 1.8  pooka 	return p;
 1.8  pooka }
1.44  pooka
1.41  pooka static void
1.41  pooka lwproc_execnotify(const char *comm)
1.41  pooka {
1.41  pooka
1.56  pooka 	rumpuser__hyp.hyp_schedule();
1.56  pooka 	rumpuser__hyp.hyp_execnotify(comm);
1.56  pooka 	rumpuser__hyp.hyp_unschedule();
1.41  pooka }
 1.8  pooka
1.35  pooka static void
1.44  pooka lwproc_lwpexit(void)
1.35  pooka {
1.35  pooka
1.56  pooka 	rumpuser__hyp.hyp_schedule();
1.56  pooka 	rumpuser__hyp.hyp_lwpexit();
1.56  pooka 	rumpuser__hyp.hyp_unschedule();
1.35  pooka }
1.35  pooka
 1.3  pooka static int
1.53  pooka rumpsyscall(int sysnum, void *data, register_t *regrv)
 1.3  pooka {
1.53  pooka 	long retval[2] = {0, 0};
 1.3  pooka 	int rv;
 1.3  pooka
1.56  pooka 	rumpuser__hyp.hyp_schedule();
1.56  pooka 	rv = rumpuser__hyp.hyp_syscall(sysnum, data, retval);
1.56  pooka 	rumpuser__hyp.hyp_unschedule();
 1.3  pooka
1.53  pooka 	regrv[0] = retval[0];
1.53  pooka 	regrv[1] = retval[1];
 1.3  pooka 	return rv;
 1.3  pooka }
 1.1  pooka
 1.7  pooka static uint64_t
 1.7  pooka nextreq(struct spclient *spc)
 1.7  pooka {
 1.7  pooka 	uint64_t nw;
 1.7  pooka
 1.7  pooka 	pthread_mutex_lock(&spc->spc_mtx);
 1.7  pooka 	nw = spc->spc_nextreq++;
 1.7  pooka 	pthread_mutex_unlock(&spc->spc_mtx);
 1.7  pooka
 1.7  pooka 	return nw;
 1.7  pooka }
 1.7  pooka
1.45  pooka /*
1.45  pooka  * XXX: we send responses with "blocking" I/O.  This is not
1.45  pooka  * ok for the main thread.  XXXFIXME
1.45  pooka  */
1.45  pooka
1.21  pooka static void
1.48  pooka send_error_resp(struct spclient *spc, uint64_t reqno, enum rumpsp_err error)
1.21  pooka {
1.21  pooka 	struct rsp_hdr rhdr;
1.45  pooka 	struct iovec iov[1];
1.21  pooka
1.21  pooka 	rhdr.rsp_len = sizeof(rhdr);
1.21  pooka 	rhdr.rsp_reqno = reqno;
1.21  pooka 	rhdr.rsp_class = RUMPSP_ERROR;
1.21  pooka 	rhdr.rsp_type = 0;
1.21  pooka 	rhdr.rsp_error = error;
1.21  pooka
1.45  pooka 	IOVPUT(iov[0], rhdr);
1.45  pooka
1.21  pooka 	sendlock(spc);
1.45  pooka 	(void)SENDIOV(spc, iov);
1.21  pooka 	sendunlock(spc);
1.21  pooka }
1.21  pooka
 1.1  pooka static int
1.27  pooka send_handshake_resp(struct spclient *spc, uint64_t reqno, int error)
1.27  pooka {
1.27  pooka 	struct rsp_hdr rhdr;
1.45  pooka 	struct iovec iov[2];
1.27  pooka 	int rv;
1.27  pooka
1.27  pooka 	rhdr.rsp_len = sizeof(rhdr) + sizeof(error);
1.27  pooka 	rhdr.rsp_reqno = reqno;
1.27  pooka 	rhdr.rsp_class = RUMPSP_RESP;
1.27  pooka 	rhdr.rsp_type = RUMPSP_HANDSHAKE;
1.27  pooka 	rhdr.rsp_error = 0;
1.27  pooka
1.45  pooka 	IOVPUT(iov[0], rhdr);
1.45  pooka 	IOVPUT(iov[1], error);
1.45  pooka
1.27  pooka 	sendlock(spc);
1.45  pooka 	rv = SENDIOV(spc, iov);
1.27  pooka 	sendunlock(spc);
1.27  pooka
1.27  pooka 	return rv;
1.27  pooka }
1.27  pooka
1.27  pooka static int
 1.1  pooka send_syscall_resp(struct spclient *spc, uint64_t reqno, int error,
 1.7  pooka 	register_t *retval)
 1.1  pooka {
 1.1  pooka 	struct rsp_hdr rhdr;
 1.1  pooka 	struct rsp_sysresp sysresp;
1.45  pooka 	struct iovec iov[2];
 1.7  pooka 	int rv;
 1.1  pooka
 1.1  pooka 	rhdr.rsp_len = sizeof(rhdr) + sizeof(sysresp);
 1.1  pooka 	rhdr.rsp_reqno = reqno;
 1.7  pooka 	rhdr.rsp_class = RUMPSP_RESP;
 1.7  pooka 	rhdr.rsp_type = RUMPSP_SYSCALL;
 1.1  pooka 	rhdr.rsp_sysnum = 0;
 1.1  pooka
 1.1  pooka 	sysresp.rsys_error = error;
 1.7  pooka 	memcpy(sysresp.rsys_retval, retval, sizeof(sysresp.rsys_retval));
 1.1  pooka
1.45  pooka 	IOVPUT(iov[0], rhdr);
1.45  pooka 	IOVPUT(iov[1], sysresp);
1.45  pooka
 1.7  pooka 	sendlock(spc);
1.45  pooka 	rv = SENDIOV(spc, iov);
 1.7  pooka 	sendunlock(spc);
 1.1  pooka
 1.7  pooka 	return rv;
 1.1  pooka }
 1.1  pooka
 1.1  pooka static int
1.29  pooka send_prefork_resp(struct spclient *spc, uint64_t reqno, uint32_t *auth)
1.29  pooka {
1.29  pooka 	struct rsp_hdr rhdr;
1.45  pooka 	struct iovec iov[2];
1.29  pooka 	int rv;
1.29  pooka
1.29  pooka 	rhdr.rsp_len = sizeof(rhdr) + AUTHLEN*sizeof(*auth);
1.29  pooka 	rhdr.rsp_reqno = reqno;
1.29  pooka 	rhdr.rsp_class = RUMPSP_RESP;
1.29  pooka 	rhdr.rsp_type = RUMPSP_PREFORK;
1.29  pooka 	rhdr.rsp_sysnum = 0;
1.29  pooka
1.45  pooka 	IOVPUT(iov[0], rhdr);
1.45  pooka 	IOVPUT_WITHSIZE(iov[1], auth, AUTHLEN*sizeof(*auth));
1.45  pooka
1.29  pooka 	sendlock(spc);
1.45  pooka 	rv = SENDIOV(spc, iov);
1.29  pooka 	sendunlock(spc);
1.29  pooka
1.29  pooka 	return rv;
1.29  pooka }
1.29  pooka
1.29  pooka static int
1.15  pooka copyin_req(struct spclient *spc, const void *remaddr, size_t *dlen,
1.15  pooka 	int wantstr, void **resp)
 1.1  pooka {
 1.1  pooka 	struct rsp_hdr rhdr;
 1.1  pooka 	struct rsp_copydata copydata;
 1.7  pooka 	struct respwait rw;
1.45  pooka 	struct iovec iov[2];
 1.7  pooka 	int rv;
 1.7  pooka
1.15  pooka 	DPRINTF(("copyin_req: %zu bytes from %p\n", *dlen, remaddr));
 1.1  pooka
 1.1  pooka 	rhdr.rsp_len = sizeof(rhdr) + sizeof(copydata);
 1.7  pooka 	rhdr.rsp_class = RUMPSP_REQ;
1.15  pooka 	if (wantstr)
1.15  pooka 		rhdr.rsp_type = RUMPSP_COPYINSTR;
1.15  pooka 	else
1.15  pooka 		rhdr.rsp_type = RUMPSP_COPYIN;
 1.1  pooka 	rhdr.rsp_sysnum = 0;
 1.1  pooka
 1.1  pooka 	copydata.rcp_addr = __UNCONST(remaddr);
1.15  pooka 	copydata.rcp_len = *dlen;
 1.1  pooka
1.45  pooka 	IOVPUT(iov[0], rhdr);
1.45  pooka 	IOVPUT(iov[1], copydata);
1.45  pooka
 1.7  pooka 	putwait(spc, &rw, &rhdr);
1.45  pooka 	rv = SENDIOV(spc, iov);
1.13  pooka 	if (rv) {
1.13  pooka 		unputwait(spc, &rw);
1.13  pooka 		return rv;
1.13  pooka 	}
 1.7  pooka
 1.7  pooka 	rv = waitresp(spc, &rw);
 1.7  pooka
 1.7  pooka 	DPRINTF(("copyin: response %d\n", rv));
 1.7  pooka
 1.7  pooka 	*resp = rw.rw_data;
1.15  pooka 	if (wantstr)
1.15  pooka 		*dlen = rw.rw_dlen;
1.15  pooka
 1.7  pooka 	return rv;
 1.1  pooka
 1.1  pooka }
 1.1  pooka
 1.1  pooka static int
 1.1  pooka send_copyout_req(struct spclient *spc, const void *remaddr,
 1.1  pooka 	const void *data, size_t dlen)
 1.1  pooka {
 1.1  pooka 	struct rsp_hdr rhdr;
 1.1  pooka 	struct rsp_copydata copydata;
1.45  pooka 	struct iovec iov[3];
 1.7  pooka 	int rv;
 1.7  pooka
 1.7  pooka 	DPRINTF(("copyout_req (async): %zu bytes to %p\n", dlen, remaddr));
 1.1  pooka
 1.1  pooka 	rhdr.rsp_len = sizeof(rhdr) + sizeof(copydata) + dlen;
 1.7  pooka 	rhdr.rsp_reqno = nextreq(spc);
 1.7  pooka 	rhdr.rsp_class = RUMPSP_REQ;
 1.7  pooka 	rhdr.rsp_type = RUMPSP_COPYOUT;
 1.1  pooka 	rhdr.rsp_sysnum = 0;
 1.1  pooka
 1.1  pooka 	copydata.rcp_addr = __UNCONST(remaddr);
 1.1  pooka 	copydata.rcp_len = dlen;
 1.1  pooka
1.45  pooka 	IOVPUT(iov[0], rhdr);
1.45  pooka 	IOVPUT(iov[1], copydata);
1.45  pooka 	IOVPUT_WITHSIZE(iov[2], __UNCONST(data), dlen);
1.45  pooka
 1.7  pooka 	sendlock(spc);
1.45  pooka 	rv = SENDIOV(spc, iov);
 1.7  pooka 	sendunlock(spc);
 1.1  pooka
 1.7  pooka 	return rv;
 1.1  pooka }
 1.1  pooka
 1.1  pooka static int
 1.7  pooka anonmmap_req(struct spclient *spc, size_t howmuch, void **resp)
 1.1  pooka {
 1.1  pooka 	struct rsp_hdr rhdr;
 1.7  pooka 	struct respwait rw;
1.45  pooka 	struct iovec iov[2];
 1.7  pooka 	int rv;
 1.7  pooka
 1.7  pooka 	DPRINTF(("anonmmap_req: %zu bytes\n", howmuch));
 1.1  pooka
 1.1  pooka 	rhdr.rsp_len = sizeof(rhdr) + sizeof(howmuch);
 1.7  pooka 	rhdr.rsp_class = RUMPSP_REQ;
 1.7  pooka 	rhdr.rsp_type = RUMPSP_ANONMMAP;
 1.1  pooka 	rhdr.rsp_sysnum = 0;
 1.1  pooka
1.45  pooka 	IOVPUT(iov[0], rhdr);
1.45  pooka 	IOVPUT(iov[1], howmuch);
1.45  pooka
 1.7  pooka 	putwait(spc, &rw, &rhdr);
1.45  pooka 	rv = SENDIOV(spc, iov);
1.13  pooka 	if (rv) {
1.13  pooka 		unputwait(spc, &rw);
1.13  pooka 		return rv;
1.13  pooka 	}
 1.1  pooka
 1.7  pooka 	rv = waitresp(spc, &rw);
1.13  pooka
 1.7  pooka 	*resp = rw.rw_data;
 1.7  pooka
 1.7  pooka 	DPRINTF(("anonmmap: mapped at %p\n", **(void ***)resp));
 1.7  pooka
 1.7  pooka 	return rv;
 1.1  pooka }
 1.1  pooka
1.36  pooka static int
1.36  pooka send_raise_req(struct spclient *spc, int signo)
1.36  pooka {
1.36  pooka 	struct rsp_hdr rhdr;
1.45  pooka 	struct iovec iov[1];
1.36  pooka 	int rv;
1.36  pooka
1.36  pooka 	rhdr.rsp_len = sizeof(rhdr);
1.36  pooka 	rhdr.rsp_class = RUMPSP_REQ;
1.36  pooka 	rhdr.rsp_type = RUMPSP_RAISE;
1.36  pooka 	rhdr.rsp_signo = signo;
1.36  pooka
1.45  pooka 	IOVPUT(iov[0], rhdr);
1.45  pooka
1.36  pooka 	sendlock(spc);
1.45  pooka 	rv = SENDIOV(spc, iov);
1.36  pooka 	sendunlock(spc);
1.36  pooka
1.36  pooka 	return rv;
1.36  pooka }
1.36  pooka
 1.1  pooka static void
1.11  pooka spcref(struct spclient *spc)
1.11  pooka {
1.11  pooka
1.11  pooka 	pthread_mutex_lock(&spc->spc_mtx);
1.11  pooka 	spc->spc_refcnt++;
1.11  pooka 	pthread_mutex_unlock(&spc->spc_mtx);
1.11  pooka }
1.11  pooka
1.11  pooka static void
1.11  pooka spcrelease(struct spclient *spc)
1.11  pooka {
1.11  pooka 	int ref;
1.11  pooka
1.11  pooka 	pthread_mutex_lock(&spc->spc_mtx);
1.11  pooka 	ref = --spc->spc_refcnt;
1.44  pooka 	if (__predict_false(spc->spc_inexec && ref <= 2))
1.44  pooka 		pthread_cond_broadcast(&spc->spc_cv);
1.11  pooka 	pthread_mutex_unlock(&spc->spc_mtx);
1.11  pooka
1.11  pooka 	if (ref > 0)
1.11  pooka 		return;
1.11  pooka
1.29  pooka 	DPRINTF(("rump_sp: spcrelease: spc %p fd %d\n", spc, spc->spc_fd));
1.12  pooka
1.13  pooka 	_DIAGASSERT(TAILQ_EMPTY(&spc->spc_respwait));
1.11  pooka 	_DIAGASSERT(spc->spc_buf == NULL);
1.11  pooka
1.29  pooka 	if (spc->spc_mainlwp) {
1.29  pooka 		lwproc_switch(spc->spc_mainlwp);
1.29  pooka 		lwproc_release();
1.29  pooka 	}
1.11  pooka 	spc->spc_mainlwp = NULL;
1.11  pooka
1.11  pooka 	close(spc->spc_fd);
1.11  pooka 	spc->spc_fd = -1;
1.27  pooka 	spc->spc_state = SPCSTATE_NEW;
1.11  pooka
1.47  pooka 	signaldisco();
1.11  pooka }
1.11  pooka
1.11  pooka static void
 1.2  pooka serv_handledisco(unsigned int idx)
 1.1  pooka {
 1.1  pooka 	struct spclient *spc = &spclist[idx];
1.44  pooka 	int dolwpexit;
 1.1  pooka
 1.1  pooka 	DPRINTF(("rump_sp: disconnecting [%u]\n", idx));
 1.1  pooka
1.12  pooka 	pfdlist[idx].fd = -1;
1.12  pooka 	pfdlist[idx].revents = 0;
1.12  pooka 	pthread_mutex_lock(&spc->spc_mtx);
1.27  pooka 	spc->spc_state = SPCSTATE_DYING;
1.12  pooka 	kickall(spc);
1.30  pooka 	sendunlockl(spc);
1.44  pooka 	/* exec uses mainlwp in another thread, but also nuked all lwps */
1.44  pooka 	dolwpexit = !spc->spc_inexec;
1.12  pooka 	pthread_mutex_unlock(&spc->spc_mtx);
1.17  pooka
1.44  pooka 	if (dolwpexit && spc->spc_mainlwp) {
1.35  pooka 		lwproc_switch(spc->spc_mainlwp);
1.44  pooka 		lwproc_lwpexit();
1.35  pooka 		lwproc_switch(NULL);
1.35  pooka 	}
1.35  pooka
1.17  pooka 	/*
1.17  pooka 	 * Nobody's going to attempt to send/receive anymore,
1.17  pooka 	 * so reinit info relevant to that.
1.17  pooka 	 */
1.22  pooka 	/*LINTED:pointer casts may be ok*/
1.17  pooka 	memset((char *)spc + SPC_ZEROFF, 0, sizeof(*spc) - SPC_ZEROFF);
1.17  pooka
1.11  pooka 	spcrelease(spc);
 1.1  pooka }
 1.1  pooka
1.24  pooka static void
1.24  pooka serv_shutdown(void)
1.24  pooka {
1.24  pooka 	struct spclient *spc;
1.24  pooka 	unsigned int i;
1.24  pooka
1.24  pooka 	for (i = 1; i < MAXCLI; i++) {
1.24  pooka 		spc = &spclist[i];
1.24  pooka 		if (spc->spc_fd == -1)
1.24  pooka 			continue;
1.24  pooka
1.24  pooka 		shutdown(spc->spc_fd, SHUT_RDWR);
1.24  pooka 		serv_handledisco(i);
1.24  pooka
1.24  pooka 		spcrelease(spc);
1.24  pooka 	}
1.24  pooka }
1.24  pooka
1.11  pooka static unsigned
1.11  pooka serv_handleconn(int fd, connecthook_fn connhook, int busy)
 1.1  pooka {
 1.1  pooka 	struct sockaddr_storage ss;
 1.1  pooka 	socklen_t sl = sizeof(ss);
1.11  pooka 	int newfd, flags;
 1.1  pooka 	unsigned i;
 1.1  pooka
 1.1  pooka 	/*LINTED: cast ok */
 1.1  pooka 	newfd = accept(fd, (struct sockaddr *)&ss, &sl);
 1.1  pooka 	if (newfd == -1)
1.11  pooka 		return 0;
 1.1  pooka
1.11  pooka 	if (busy) {
 1.1  pooka 		close(newfd); /* EBUSY */
1.11  pooka 		return 0;
 1.1  pooka 	}
 1.1  pooka
 1.1  pooka 	flags = fcntl(newfd, F_GETFL, 0);
 1.1  pooka 	if (fcntl(newfd, F_SETFL, flags | O_NONBLOCK) == -1) {
 1.1  pooka 		close(newfd);
1.11  pooka 		return 0;
 1.1  pooka 	}
 1.1  pooka
1.11  pooka 	if (connhook(newfd) != 0) {
 1.1  pooka 		close(newfd);
1.11  pooka 		return 0;
 1.1  pooka 	}
 1.1  pooka
1.26  pooka 	/* write out a banner for the client */
1.34  pooka 	if (send(newfd, banner, strlen(banner), MSG_NOSIGNAL)
1.34  pooka 	    != (ssize_t)strlen(banner)) {
1.26  pooka 		close(newfd);
1.26  pooka 		return 0;
1.26  pooka 	}
1.26  pooka
 1.1  pooka 	/* find empty slot the simple way */
 1.1  pooka 	for (i = 0; i < MAXCLI; i++) {
1.27  pooka 		if (pfdlist[i].fd == -1 && spclist[i].spc_state == SPCSTATE_NEW)
 1.2  pooka 			break;
 1.1  pooka 	}
 1.1  pooka
1.59  pooka 	/*
1.59  pooka 	 * Although not finding a slot is impossible (cf. how this routine
1.59  pooka 	 * is called), the compiler can still think that i == MAXCLI
1.59  pooka 	 * if this code is either compiled with NDEBUG or the platform
1.59  pooka 	 * does not use __dead for assert().  Therefore, add an explicit
1.59  pooka 	 * check to avoid an array-bounds error.
1.59  pooka 	 */
1.59  pooka 	/* assert(i < MAXCLI); */
1.59  pooka 	if (i == MAXCLI)
1.59  pooka 		abort();
 1.1  pooka
 1.1  pooka 	pfdlist[i].fd = newfd;
 1.1  pooka 	spclist[i].spc_fd = newfd;
 1.7  pooka 	spclist[i].spc_istatus = SPCSTATUS_BUSY; /* dedicated receiver */
1.11  pooka 	spclist[i].spc_refcnt = 1;
 1.7  pooka
 1.7  pooka 	TAILQ_INIT(&spclist[i].spc_respwait);
 1.1  pooka
1.29  pooka 	DPRINTF(("rump_sp: added new connection fd %d at idx %u\n", newfd, i));
 1.1  pooka
1.11  pooka 	return i;
 1.1  pooka }
 1.1  pooka
 1.1  pooka static void
 1.1  pooka serv_handlesyscall(struct spclient *spc, struct rsp_hdr *rhdr, uint8_t *data)
 1.1  pooka {
 1.7  pooka 	register_t retval[2] = {0, 0};
 1.1  pooka 	int rv, sysnum;
 1.1  pooka
 1.1  pooka 	sysnum = (int)rhdr->rsp_sysnum;
 1.1  pooka 	DPRINTF(("rump_sp: handling syscall %d from client %d\n",
1.29  pooka 	    sysnum, spc->spc_pid));
 1.1  pooka
1.44  pooka 	if (__predict_false((rv = lwproc_newlwp(spc->spc_pid)) != 0)) {
1.44  pooka 		retval[0] = -1;
1.44  pooka 		send_syscall_resp(spc, rhdr->rsp_reqno, rv, retval);
1.44  pooka 		return;
1.44  pooka 	}
1.37  pooka 	spc->spc_syscallreq = rhdr->rsp_reqno;
 1.3  pooka 	rv = rumpsyscall(sysnum, data, retval);
1.37  pooka 	spc->spc_syscallreq = 0;
1.16  pooka 	lwproc_release();
 1.1  pooka
 1.7  pooka 	DPRINTF(("rump_sp: got return value %d & %d/%d\n",
 1.7  pooka 	    rv, retval[0], retval[1]));
 1.5  pooka
 1.1  pooka 	send_syscall_resp(spc, rhdr->rsp_reqno, rv, retval);
 1.1  pooka }
 1.1  pooka
1.44  pooka static void
1.44  pooka serv_handleexec(struct spclient *spc, struct rsp_hdr *rhdr, char *comm)
1.44  pooka {
1.44  pooka 	size_t commlen = rhdr->rsp_len - HDRSZ;
1.44  pooka
1.44  pooka 	pthread_mutex_lock(&spc->spc_mtx);
1.44  pooka 	/* one for the connection and one for us */
1.44  pooka 	while (spc->spc_refcnt > 2)
1.44  pooka 		pthread_cond_wait(&spc->spc_cv, &spc->spc_mtx);
1.44  pooka 	pthread_mutex_unlock(&spc->spc_mtx);
1.44  pooka
1.44  pooka 	/*
1.44  pooka 	 * ok, all the threads are dead (or one is still alive and
1.44  pooka 	 * the connection is dead, in which case this doesn't matter
1.44  pooka 	 * very much).  proceed with exec.
1.44  pooka 	 */
1.44  pooka
1.44  pooka 	/* ensure comm is 0-terminated */
1.44  pooka 	/* TODO: make sure it contains sensible chars? */
1.44  pooka 	comm[commlen] = '\0';
1.44  pooka
1.44  pooka 	lwproc_switch(spc->spc_mainlwp);
1.44  pooka 	lwproc_execnotify(comm);
1.44  pooka 	lwproc_switch(NULL);
1.44  pooka
1.44  pooka 	pthread_mutex_lock(&spc->spc_mtx);
1.44  pooka 	spc->spc_inexec = 0;
1.44  pooka 	pthread_mutex_unlock(&spc->spc_mtx);
1.44  pooka 	send_handshake_resp(spc, rhdr->rsp_reqno, 0);
1.44  pooka }
1.44  pooka
1.44  pooka enum sbatype { SBA_SYSCALL, SBA_EXEC };
1.44  pooka
1.44  pooka struct servbouncearg {
 1.7  pooka 	struct spclient *sba_spc;
 1.7  pooka 	struct rsp_hdr sba_hdr;
1.44  pooka 	enum sbatype sba_type;
 1.7  pooka 	uint8_t *sba_data;
1.20  pooka
1.44  pooka 	TAILQ_ENTRY(servbouncearg) sba_entries;
 1.7  pooka };
1.20  pooka static pthread_mutex_t sbamtx;
1.20  pooka static pthread_cond_t sbacv;
1.40  pooka static int nworker, idleworker, nwork;
1.44  pooka static TAILQ_HEAD(, servbouncearg) wrklist = TAILQ_HEAD_INITIALIZER(wrklist);
1.20  pooka
1.20  pooka /*ARGSUSED*/
 1.7  pooka static void *
1.44  pooka serv_workbouncer(void *arg)
 1.7  pooka {
1.44  pooka 	struct servbouncearg *sba;
1.20  pooka
1.20  pooka 	for (;;) {
1.20  pooka 		pthread_mutex_lock(&sbamtx);
1.43  pooka 		if (__predict_false(idleworker - nwork >= rumpsp_idleworker)) {
1.20  pooka 			nworker--;
1.20  pooka 			pthread_mutex_unlock(&sbamtx);
1.20  pooka 			break;
1.20  pooka 		}
1.40  pooka 		idleworker++;
1.44  pooka 		while (TAILQ_EMPTY(&wrklist)) {
1.40  pooka 			_DIAGASSERT(nwork == 0);
1.20  pooka 			pthread_cond_wait(&sbacv, &sbamtx);
1.40  pooka 		}
1.40  pooka 		idleworker--;
1.20  pooka
1.44  pooka 		sba = TAILQ_FIRST(&wrklist);
1.44  pooka 		TAILQ_REMOVE(&wrklist, sba, sba_entries);
1.40  pooka 		nwork--;
1.20  pooka 		pthread_mutex_unlock(&sbamtx);
1.20  pooka
1.44  pooka 		if (__predict_true(sba->sba_type == SBA_SYSCALL)) {
1.44  pooka 			serv_handlesyscall(sba->sba_spc,
1.44  pooka 			    &sba->sba_hdr, sba->sba_data);
1.44  pooka 		} else {
1.44  pooka 			_DIAGASSERT(sba->sba_type == SBA_EXEC);
1.44  pooka 			serv_handleexec(sba->sba_spc, &sba->sba_hdr,
1.44  pooka 			    (char *)sba->sba_data);
1.44  pooka 		}
1.20  pooka 		spcrelease(sba->sba_spc);
1.20  pooka 		free(sba->sba_data);
1.20  pooka 		free(sba);
1.20  pooka 	}
 1.7  pooka
 1.7  pooka 	return NULL;
 1.7  pooka }
 1.7  pooka
1.15  pooka static int
1.15  pooka sp_copyin(void *arg, const void *raddr, void *laddr, size_t *len, int wantstr)
 1.1  pooka {
1.10  pooka 	struct spclient *spc = arg;
 1.9  pooka 	void *rdata = NULL; /* XXXuninit */
1.13  pooka 	int rv, nlocks;
1.13  pooka
1.56  pooka 	rumpkern_unsched(&nlocks, NULL);
 1.1  pooka
1.15  pooka 	rv = copyin_req(spc, raddr, len, wantstr, &rdata);
1.12  pooka 	if (rv)
1.13  pooka 		goto out;
 1.1  pooka
1.15  pooka 	memcpy(laddr, rdata, *len);
 1.7  pooka 	free(rdata);
 1.1  pooka
1.13  pooka  out:
1.56  pooka 	rumpkern_sched(nlocks, NULL);
1.13  pooka 	if (rv)
1.57  pooka 		rv = EFAULT;
1.58  pooka 	ET(rv);
 1.1  pooka }
 1.1  pooka
 1.1  pooka int
1.15  pooka rumpuser_sp_copyin(void *arg, const void *raddr, void *laddr, size_t len)
1.15  pooka {
1.58  pooka 	int rv;
1.15  pooka
1.58  pooka 	rv = sp_copyin(arg, raddr, laddr, &len, 0);
1.58  pooka 	ET(rv);
1.15  pooka }
1.15  pooka
1.15  pooka int
1.15  pooka rumpuser_sp_copyinstr(void *arg, const void *raddr, void *laddr, size_t *len)
1.15  pooka {
1.58  pooka 	int rv;
1.15  pooka
1.58  pooka 	rv = sp_copyin(arg, raddr, laddr, len, 1);
1.58  pooka 	ET(rv);
1.15  pooka }
1.15  pooka
1.15  pooka static int
1.15  pooka sp_copyout(void *arg, const void *laddr, void *raddr, size_t dlen)
 1.1  pooka {
1.10  pooka 	struct spclient *spc = arg;
1.13  pooka 	int nlocks, rv;
1.13  pooka
1.56  pooka 	rumpkern_unsched(&nlocks, NULL);
1.15  pooka 	rv = send_copyout_req(spc, raddr, laddr, dlen);
1.56  pooka 	rumpkern_sched(nlocks, NULL);
 1.1  pooka
1.13  pooka 	if (rv)
1.57  pooka 		rv = EFAULT;
1.58  pooka 	ET(rv);
 1.1  pooka }
 1.1  pooka
 1.1  pooka int
1.15  pooka rumpuser_sp_copyout(void *arg, const void *laddr, void *raddr, size_t dlen)
1.15  pooka {
1.58  pooka 	int rv;
1.15  pooka
1.58  pooka 	rv = sp_copyout(arg, laddr, raddr, dlen);
1.58  pooka 	ET(rv);
1.15  pooka }
1.15  pooka
1.15  pooka int
1.15  pooka rumpuser_sp_copyoutstr(void *arg, const void *laddr, void *raddr, size_t *dlen)
1.15  pooka {
1.58  pooka 	int rv;
1.15  pooka
1.58  pooka 	rv = sp_copyout(arg, laddr, raddr, *dlen);
1.58  pooka 	ET(rv);
1.15  pooka }
1.15  pooka
1.15  pooka int
1.10  pooka rumpuser_sp_anonmmap(void *arg, size_t howmuch, void **addr)
 1.1  pooka {
1.10  pooka 	struct spclient *spc = arg;
 1.7  pooka 	void *resp, *rdata;
1.13  pooka 	int nlocks, rv;
1.13  pooka
1.56  pooka 	rumpkern_unsched(&nlocks, NULL);
 1.1  pooka
 1.7  pooka 	rv = anonmmap_req(spc, howmuch, &rdata);
1.13  pooka 	if (rv) {
1.13  pooka 		rv = EFAULT;
1.13  pooka 		goto out;
1.13  pooka 	}
 1.1  pooka
 1.7  pooka 	resp = *(void **)rdata;
 1.7  pooka 	free(rdata);
 1.1  pooka
 1.7  pooka 	if (resp == NULL) {
1.13  pooka 		rv = ENOMEM;
 1.1  pooka 	}
 1.1  pooka
 1.1  pooka 	*addr = resp;
1.13  pooka
1.13  pooka  out:
1.56  pooka 	rumpkern_sched(nlocks, NULL);
1.58  pooka 	ET(rv);
 1.1  pooka }
 1.1  pooka
1.36  pooka int
1.36  pooka rumpuser_sp_raise(void *arg, int signo)
1.36  pooka {
1.36  pooka 	struct spclient *spc = arg;
1.36  pooka 	int rv, nlocks;
1.36  pooka
1.56  pooka 	rumpkern_unsched(&nlocks, NULL);
1.36  pooka 	rv = send_raise_req(spc, signo);
1.56  pooka 	rumpkern_sched(nlocks, NULL);
1.36  pooka
1.36  pooka 	return rv;
1.36  pooka }
1.36  pooka
1.44  pooka static pthread_attr_t pattr_detached;
1.44  pooka static void
1.44  pooka schedulework(struct spclient *spc, enum sbatype sba_type)
1.44  pooka {
1.44  pooka 	struct servbouncearg *sba;
1.44  pooka 	pthread_t pt;
1.44  pooka 	uint64_t reqno;
1.44  pooka 	int retries = 0;
1.44  pooka
1.44  pooka 	reqno = spc->spc_hdr.rsp_reqno;
1.44  pooka 	while ((sba = malloc(sizeof(*sba))) == NULL) {
1.44  pooka 		if (nworker == 0 || retries > 10) {
1.48  pooka 			send_error_resp(spc, reqno, RUMPSP_ERR_TRYAGAIN);
1.44  pooka 			spcfreebuf(spc);
1.44  pooka 			return;
1.44  pooka 		}
1.44  pooka 		/* slim chance of more memory? */
1.44  pooka 		usleep(10000);
1.44  pooka 	}
1.44  pooka
1.44  pooka 	sba->sba_spc = spc;
1.44  pooka 	sba->sba_type = sba_type;
1.44  pooka 	sba->sba_hdr = spc->spc_hdr;
1.44  pooka 	sba->sba_data = spc->spc_buf;
1.44  pooka 	spcresetbuf(spc);
1.44  pooka
1.44  pooka 	spcref(spc);
1.44  pooka
1.44  pooka 	pthread_mutex_lock(&sbamtx);
1.44  pooka 	TAILQ_INSERT_TAIL(&wrklist, sba, sba_entries);
1.44  pooka 	nwork++;
1.44  pooka 	if (nwork <= idleworker) {
1.44  pooka 		/* do we have a daemon's tool (i.e. idle threads)? */
1.44  pooka 		pthread_cond_signal(&sbacv);
1.44  pooka 	} else if (nworker < rumpsp_maxworker) {
1.44  pooka 		/*
1.44  pooka 		 * Else, need to create one
1.44  pooka 		 * (if we can, otherwise just expect another
1.44  pooka 		 * worker to pick up the syscall)
1.44  pooka 		 */
1.44  pooka 		if (pthread_create(&pt, &pattr_detached,
1.44  pooka 		    serv_workbouncer, NULL) == 0) {
1.44  pooka 			nworker++;
1.44  pooka 		}
1.44  pooka 	}
1.44  pooka 	pthread_mutex_unlock(&sbamtx);
1.44  pooka }
1.44  pooka
 1.1  pooka /*
 1.1  pooka  *
 1.1  pooka  * Startup routines and mainloop for server.
 1.1  pooka  *
 1.1  pooka  */
 1.1  pooka
 1.1  pooka struct spservarg {
 1.1  pooka 	int sps_sock;
 1.1  pooka 	connecthook_fn sps_connhook;
 1.1  pooka };
 1.1  pooka
 1.7  pooka static void
 1.7  pooka handlereq(struct spclient *spc)
 1.7  pooka {
1.41  pooka 	uint64_t reqno;
1.55  pooka 	int error;
1.27  pooka
1.41  pooka 	reqno = spc->spc_hdr.rsp_reqno;
1.27  pooka 	if (__predict_false(spc->spc_state == SPCSTATE_NEW)) {
1.27  pooka 		if (spc->spc_hdr.rsp_type != RUMPSP_HANDSHAKE) {
1.48  pooka 			send_error_resp(spc, reqno, RUMPSP_ERR_AUTH);
1.29  pooka 			shutdown(spc->spc_fd, SHUT_RDWR);
1.27  pooka 			spcfreebuf(spc);
1.27  pooka 			return;
1.27  pooka 		}
1.27  pooka
1.29  pooka 		if (spc->spc_hdr.rsp_handshake == HANDSHAKE_GUEST) {
1.38  pooka 			char *comm = (char *)spc->spc_buf;
1.38  pooka 			size_t commlen = spc->spc_hdr.rsp_len - HDRSZ;
1.38  pooka
1.38  pooka 			/* ensure it's 0-terminated */
1.38  pooka 			/* XXX make sure it contains sensible chars? */
1.38  pooka 			comm[commlen] = '\0';
1.38  pooka
1.38  pooka 			if ((error = lwproc_rfork(spc,
1.38  pooka 			    RUMP_RFCFDG, comm)) != 0) {
1.29  pooka 				shutdown(spc->spc_fd, SHUT_RDWR);
1.29  pooka 			}
1.29  pooka
1.29  pooka 			spcfreebuf(spc);
1.29  pooka 			if (error)
1.29  pooka 				return;
1.29  pooka
1.29  pooka 			spc->spc_mainlwp = lwproc_curlwp();
1.29  pooka
1.41  pooka 			send_handshake_resp(spc, reqno, 0);
1.29  pooka 		} else if (spc->spc_hdr.rsp_handshake == HANDSHAKE_FORK) {
1.29  pooka 			struct lwp *tmpmain;
1.29  pooka 			struct prefork *pf;
1.29  pooka 			struct handshake_fork *rfp;
1.29  pooka 			int cancel;
1.29  pooka
1.29  pooka 			if (spc->spc_off-HDRSZ != sizeof(*rfp)) {
1.48  pooka 				send_error_resp(spc, reqno,
1.48  pooka 				    RUMPSP_ERR_MALFORMED_REQUEST);
1.29  pooka 				shutdown(spc->spc_fd, SHUT_RDWR);
1.29  pooka 				spcfreebuf(spc);
1.29  pooka 				return;
1.29  pooka 			}
1.29  pooka
1.29  pooka 			/*LINTED*/
1.29  pooka 			rfp = (void *)spc->spc_buf;
1.29  pooka 			cancel = rfp->rf_cancel;
1.29  pooka
1.29  pooka 			pthread_mutex_lock(&pfmtx);
1.29  pooka 			LIST_FOREACH(pf, &preforks, pf_entries) {
1.29  pooka 				if (memcmp(rfp->rf_auth, pf->pf_auth,
1.29  pooka 				    sizeof(rfp->rf_auth)) == 0) {
1.29  pooka 					LIST_REMOVE(pf, pf_entries);
1.29  pooka 					LIST_REMOVE(pf, pf_spcentries);
1.29  pooka 					break;
1.29  pooka 				}
1.29  pooka 			}
1.29  pooka 			pthread_mutex_lock(&pfmtx);
1.29  pooka 			spcfreebuf(spc);
1.29  pooka
1.29  pooka 			if (!pf) {
1.48  pooka 				send_error_resp(spc, reqno,
1.48  pooka 				    RUMPSP_ERR_INVALID_PREFORK);
1.29  pooka 				shutdown(spc->spc_fd, SHUT_RDWR);
1.29  pooka 				return;
1.29  pooka 			}
1.29  pooka
1.29  pooka 			tmpmain = pf->pf_lwp;
1.29  pooka 			free(pf);
1.29  pooka 			lwproc_switch(tmpmain);
1.29  pooka 			if (cancel) {
1.29  pooka 				lwproc_release();
1.29  pooka 				shutdown(spc->spc_fd, SHUT_RDWR);
1.29  pooka 				return;
1.29  pooka 			}
1.29  pooka
1.29  pooka 			/*
1.29  pooka 			 * So, we forked already during "prefork" to save
1.29  pooka 			 * the file descriptors from a parent exit
1.29  pooka 			 * race condition.  But now we need to fork
1.29  pooka 			 * a second time since the initial fork has
1.29  pooka 			 * the wrong spc pointer.  (yea, optimize
1.29  pooka 			 * interfaces some day if anyone cares)
1.29  pooka 			 */
1.38  pooka 			if ((error = lwproc_rfork(spc, 0, NULL)) != 0) {
1.48  pooka 				send_error_resp(spc, reqno,
1.48  pooka 				    RUMPSP_ERR_RFORK_FAILED);
1.29  pooka 				shutdown(spc->spc_fd, SHUT_RDWR);
1.29  pooka 				lwproc_release();
1.29  pooka 				return;
1.29  pooka 			}
1.29  pooka 			spc->spc_mainlwp = lwproc_curlwp();
1.29  pooka 			lwproc_switch(tmpmain);
1.29  pooka 			lwproc_release();
1.29  pooka 			lwproc_switch(spc->spc_mainlwp);
1.29  pooka
1.29  pooka 			send_handshake_resp(spc, reqno, 0);
1.44  pooka 		} else {
1.48  pooka 			send_error_resp(spc, reqno, RUMPSP_ERR_AUTH);
1.44  pooka 			shutdown(spc->spc_fd, SHUT_RDWR);
1.44  pooka 			spcfreebuf(spc);
1.44  pooka 			return;
1.29  pooka 		}
1.29  pooka
1.29  pooka 		spc->spc_pid = lwproc_getpid();
1.29  pooka
1.29  pooka 		DPRINTF(("rump_sp: handshake for client %p complete, pid %d\n",
1.29  pooka 		    spc, spc->spc_pid));
1.29  pooka
1.29  pooka 		lwproc_switch(NULL);
1.29  pooka 		spc->spc_state = SPCSTATE_RUNNING;
1.29  pooka 		return;
1.29  pooka 	}
1.29  pooka
1.29  pooka 	if (__predict_false(spc->spc_hdr.rsp_type == RUMPSP_PREFORK)) {
1.29  pooka 		struct prefork *pf;
1.29  pooka 		uint32_t auth[AUTHLEN];
1.57  pooka 		size_t randlen;
1.44  pooka 		int inexec;
1.29  pooka
1.29  pooka 		DPRINTF(("rump_sp: prefork handler executing for %p\n", spc));
1.27  pooka 		spcfreebuf(spc);
1.29  pooka
1.44  pooka 		pthread_mutex_lock(&spc->spc_mtx);
1.44  pooka 		inexec = spc->spc_inexec;
1.44  pooka 		pthread_mutex_unlock(&spc->spc_mtx);
1.44  pooka 		if (inexec) {
1.48  pooka 			send_error_resp(spc, reqno, RUMPSP_ERR_INEXEC);
1.44  pooka 			shutdown(spc->spc_fd, SHUT_RDWR);
1.44  pooka 			return;
1.44  pooka 		}
1.44  pooka
1.29  pooka 		pf = malloc(sizeof(*pf));
1.29  pooka 		if (pf == NULL) {
1.48  pooka 			send_error_resp(spc, reqno, RUMPSP_ERR_NOMEM);
1.29  pooka 			return;
1.29  pooka 		}
1.29  pooka
1.29  pooka 		/*
1.29  pooka 		 * Use client main lwp to fork.  this is never used by
1.44  pooka 		 * worker threads (except in exec, but we checked for that
1.44  pooka 		 * above) so we can safely use it here.
1.29  pooka 		 */
1.29  pooka 		lwproc_switch(spc->spc_mainlwp);
1.38  pooka 		if ((error = lwproc_rfork(spc, RUMP_RFFDG, NULL)) != 0) {
1.29  pooka 			DPRINTF(("rump_sp: fork failed: %d (%p)\n",error, spc));
1.48  pooka 			send_error_resp(spc, reqno, RUMPSP_ERR_RFORK_FAILED);
1.29  pooka 			lwproc_switch(NULL);
1.29  pooka 			free(pf);
1.27  pooka 			return;
1.27  pooka 		}
1.29  pooka
1.29  pooka 		/* Ok, we have a new process context and a new curlwp */
1.57  pooka 		rumpuser_getrandom(auth, sizeof(auth), 0, &randlen);
1.54  pooka 		memcpy(pf->pf_auth, auth, sizeof(pf->pf_auth));
1.29  pooka 		pf->pf_lwp = lwproc_curlwp();
1.29  pooka 		lwproc_switch(NULL);
1.29  pooka
1.29  pooka 		pthread_mutex_lock(&pfmtx);
1.29  pooka 		LIST_INSERT_HEAD(&preforks, pf, pf_entries);
1.29  pooka 		LIST_INSERT_HEAD(&spc->spc_pflist, pf, pf_spcentries);
1.29  pooka 		pthread_mutex_unlock(&pfmtx);
1.29  pooka
1.29  pooka 		DPRINTF(("rump_sp: prefork handler success %p\n", spc));
1.29  pooka
1.29  pooka 		send_prefork_resp(spc, reqno, auth);
1.27  pooka 		return;
1.27  pooka 	}
 1.7  pooka
1.41  pooka 	if (__predict_false(spc->spc_hdr.rsp_type == RUMPSP_HANDSHAKE)) {
1.44  pooka 		int inexec;
1.41  pooka
1.41  pooka 		if (spc->spc_hdr.rsp_handshake != HANDSHAKE_EXEC) {
1.48  pooka 			send_error_resp(spc, reqno,
1.48  pooka 			    RUMPSP_ERR_MALFORMED_REQUEST);
1.44  pooka 			shutdown(spc->spc_fd, SHUT_RDWR);
1.41  pooka 			spcfreebuf(spc);
1.41  pooka 			return;
1.41  pooka 		}
1.41  pooka
1.44  pooka 		pthread_mutex_lock(&spc->spc_mtx);
1.44  pooka 		inexec = spc->spc_inexec;
1.44  pooka 		pthread_mutex_unlock(&spc->spc_mtx);
1.44  pooka 		if (inexec) {
1.48  pooka 			send_error_resp(spc, reqno, RUMPSP_ERR_INEXEC);
1.44  pooka 			shutdown(spc->spc_fd, SHUT_RDWR);
1.44  pooka 			spcfreebuf(spc);
1.44  pooka 			return;
1.44  pooka 		}
1.41  pooka
1.44  pooka 		pthread_mutex_lock(&spc->spc_mtx);
1.44  pooka 		spc->spc_inexec = 1;
1.44  pooka 		pthread_mutex_unlock(&spc->spc_mtx);
1.44  pooka
1.44  pooka 		/*
1.44  pooka 		 * start to drain lwps.  we will wait for it to finish
1.44  pooka 		 * in another thread
1.44  pooka 		 */
1.41  pooka 		lwproc_switch(spc->spc_mainlwp);
1.44  pooka 		lwproc_lwpexit();
1.41  pooka 		lwproc_switch(NULL);
1.41  pooka
1.44  pooka 		/*
1.44  pooka 		 * exec has to wait for lwps to drain, so finish it off
1.44  pooka 		 * in another thread
1.44  pooka 		 */
1.44  pooka 		schedulework(spc, SBA_EXEC);
1.41  pooka 		return;
1.41  pooka 	}
1.41  pooka
1.21  pooka 	if (__predict_false(spc->spc_hdr.rsp_type != RUMPSP_SYSCALL)) {
1.48  pooka 		send_error_resp(spc, reqno, RUMPSP_ERR_MALFORMED_REQUEST);
1.21  pooka 		spcfreebuf(spc);
1.21  pooka 		return;
1.21  pooka 	}
 1.7  pooka
1.44  pooka 	schedulework(spc, SBA_SYSCALL);
 1.7  pooka }
 1.7  pooka
 1.1  pooka static void *
 1.1  pooka spserver(void *arg)
 1.1  pooka {
 1.1  pooka 	struct spservarg *sarg = arg;
1.11  pooka 	struct spclient *spc;
 1.1  pooka 	unsigned idx;
 1.1  pooka 	int seen;
 1.1  pooka 	int rv;
1.11  pooka 	unsigned int nfds, maxidx;
 1.1  pooka
1.11  pooka 	for (idx = 0; idx < MAXCLI; idx++) {
 1.1  pooka 		pfdlist[idx].fd = -1;
 1.1  pooka 		pfdlist[idx].events = POLLIN;
1.11  pooka
1.11  pooka 		spc = &spclist[idx];
1.11  pooka 		pthread_mutex_init(&spc->spc_mtx, NULL);
1.11  pooka 		pthread_cond_init(&spc->spc_cv, NULL);
1.24  pooka 		spc->spc_fd = -1;
 1.1  pooka 	}
1.24  pooka 	pfdlist[0].fd = spclist[0].spc_fd = sarg->sps_sock;
 1.1  pooka 	pfdlist[0].events = POLLIN;
 1.1  pooka 	nfds = 1;
 1.1  pooka 	maxidx = 0;
 1.1  pooka
1.14  pooka 	pthread_attr_init(&pattr_detached);
1.14  pooka 	pthread_attr_setdetachstate(&pattr_detached, PTHREAD_CREATE_DETACHED);
1.46  joerg #if NOTYET
1.19  pooka 	pthread_attr_setstacksize(&pattr_detached, 32*1024);
1.46  joerg #endif
1.14  pooka
1.20  pooka 	pthread_mutex_init(&sbamtx, NULL);
1.20  pooka 	pthread_cond_init(&sbacv, NULL);
1.20  pooka
 1.1  pooka 	DPRINTF(("rump_sp: server mainloop\n"));
 1.1  pooka
 1.1  pooka 	for (;;) {
1.18  pooka 		int discoed;
1.18  pooka
1.11  pooka 		/* g/c hangarounds (eventually) */
1.47  pooka 		discoed = getdisco();
1.18  pooka 		while (discoed--) {
1.18  pooka 			nfds--;
1.18  pooka 			idx = maxidx;
1.18  pooka 			while (idx) {
1.18  pooka 				if (pfdlist[idx].fd != -1) {
1.18  pooka 					maxidx = idx;
1.18  pooka 					break;
1.11  pooka 				}
1.18  pooka 				idx--;
1.11  pooka 			}
1.18  pooka 			DPRINTF(("rump_sp: set maxidx to [%u]\n",
1.18  pooka 			    maxidx));
1.11  pooka 		}
1.11  pooka
 1.1  pooka 		DPRINTF(("rump_sp: loop nfd %d\n", maxidx+1));
 1.1  pooka 		seen = 0;
 1.1  pooka 		rv = poll(pfdlist, maxidx+1, INFTIM);
 1.1  pooka 		assert(maxidx+1 <= MAXCLI);
 1.1  pooka 		assert(rv != 0);
 1.1  pooka 		if (rv == -1) {
 1.1  pooka 			if (errno == EINTR)
 1.1  pooka 				continue;
 1.1  pooka 			fprintf(stderr, "rump_spserver: poll returned %d\n",
 1.1  pooka 			    errno);
 1.1  pooka 			break;
 1.1  pooka 		}
 1.1  pooka
1.12  pooka 		for (idx = 0; seen < rv && idx < MAXCLI; idx++) {
 1.1  pooka 			if ((pfdlist[idx].revents & POLLIN) == 0)
 1.1  pooka 				continue;
 1.1  pooka
 1.1  pooka 			seen++;
 1.1  pooka 			DPRINTF(("rump_sp: activity at [%u] %d/%d\n",
 1.1  pooka 			    idx, seen, rv));
 1.1  pooka 			if (idx > 0) {
1.11  pooka 				spc = &spclist[idx];
 1.1  pooka 				DPRINTF(("rump_sp: mainloop read [%u]\n", idx));
 1.1  pooka 				switch (readframe(spc)) {
 1.1  pooka 				case 0:
 1.1  pooka 					break;
 1.1  pooka 				case -1:
 1.2  pooka 					serv_handledisco(idx);
 1.1  pooka 					break;
 1.1  pooka 				default:
 1.7  pooka 					switch (spc->spc_hdr.rsp_class) {
 1.7  pooka 					case RUMPSP_RESP:
 1.7  pooka 						kickwaiter(spc);
 1.7  pooka 						break;
 1.7  pooka 					case RUMPSP_REQ:
 1.7  pooka 						handlereq(spc);
 1.7  pooka 						break;
 1.7  pooka 					default:
1.21  pooka 						send_error_resp(spc,
1.48  pooka 						  spc->spc_hdr.rsp_reqno,
1.48  pooka 						  RUMPSP_ERR_MALFORMED_REQUEST);
1.21  pooka 						spcfreebuf(spc);
 1.7  pooka 						break;
 1.7  pooka 					}
 1.1  pooka 					break;
 1.1  pooka 				}
1.11  pooka
 1.1  pooka 			} else {
 1.1  pooka 				DPRINTF(("rump_sp: mainloop new connection\n"));
1.11  pooka
1.24  pooka 				if (__predict_false(spfini)) {
1.24  pooka 					close(spclist[0].spc_fd);
1.24  pooka 					serv_shutdown();
1.24  pooka 					goto out;
1.24  pooka 				}
1.24  pooka
1.11  pooka 				idx = serv_handleconn(pfdlist[0].fd,
1.11  pooka 				    sarg->sps_connhook, nfds == MAXCLI);
1.11  pooka 				if (idx)
1.11  pooka 					nfds++;
1.11  pooka 				if (idx > maxidx)
1.11  pooka 					maxidx = idx;
1.12  pooka 				DPRINTF(("rump_sp: maxid now %d\n", maxidx));
 1.1  pooka 			}
 1.1  pooka 		}
 1.1  pooka 	}
 1.1  pooka
1.24  pooka  out:
 1.1  pooka 	return NULL;
 1.1  pooka }
 1.1  pooka
1.25  pooka static unsigned cleanupidx;
1.25  pooka static struct sockaddr *cleanupsa;
 1.1  pooka int
1.56  pooka rumpuser_sp_init(const char *url,
1.26  pooka 	const char *ostype, const char *osrelease, const char *machine)
 1.1  pooka {
 1.5  pooka 	pthread_t pt;
 1.1  pooka 	struct spservarg *sarg;
 1.1  pooka 	struct sockaddr *sap;
 1.5  pooka 	char *p;
1.61  pooka 	unsigned idx = 0; /* XXXgcc */
 1.5  pooka 	int error, s;
 1.5  pooka
 1.5  pooka 	p = strdup(url);
1.57  pooka 	if (p == NULL) {
1.57  pooka 		error = ENOMEM;
1.57  pooka 		goto out;
1.57  pooka 	}
 1.5  pooka 	error = parseurl(p, &sap, &idx, 1);
 1.5  pooka 	free(p);
 1.5  pooka 	if (error)
1.57  pooka 		goto out;
 1.5  pooka
1.26  pooka 	snprintf(banner, sizeof(banner), "RUMPSP-%d.%d-%s-%s/%s\n",
1.26  pooka 	    PROTOMAJOR, PROTOMINOR, ostype, osrelease, machine);
1.26  pooka
 1.5  pooka 	s = socket(parsetab[idx].domain, SOCK_STREAM, 0);
1.57  pooka 	if (s == -1) {
1.57  pooka 		error = errno;
1.57  pooka 		goto out;
1.57  pooka 	}
 1.1  pooka
 1.5  pooka 	sarg = malloc(sizeof(*sarg));
 1.5  pooka 	if (sarg == NULL) {
 1.5  pooka 		close(s);
1.57  pooka 		error = ENOMEM;
1.57  pooka 		goto out;
 1.5  pooka 	}
 1.5  pooka
 1.5  pooka 	sarg->sps_sock = s;
 1.5  pooka 	sarg->sps_connhook = parsetab[idx].connhook;
 1.1  pooka
1.25  pooka 	cleanupidx = idx;
1.25  pooka 	cleanupsa = sap;
1.25  pooka
 1.5  pooka 	/* sloppy error recovery */
 1.1  pooka
 1.5  pooka 	/*LINTED*/
1.47  pooka 	if (bind(s, sap, parsetab[idx].slen) == -1) {
1.57  pooka 		error = errno;
 1.5  pooka 		fprintf(stderr, "rump_sp: server bind failed\n");
1.57  pooka 		goto out;
 1.1  pooka 	}
1.25  pooka
1.18  pooka 	if (listen(s, MAXCLI) == -1) {
1.57  pooka 		error = errno;
 1.5  pooka 		fprintf(stderr, "rump_sp: server listen failed\n");
1.57  pooka 		goto out;
 1.1  pooka 	}
 1.1  pooka
 1.5  pooka 	if ((error = pthread_create(&pt, NULL, spserver, sarg)) != 0) {
 1.5  pooka 		fprintf(stderr, "rump_sp: cannot create wrkr thread\n");
1.57  pooka 		goto out;
 1.1  pooka 	}
 1.5  pooka 	pthread_detach(pt);
 1.1  pooka
1.57  pooka  out:
1.58  pooka 	ET(error);
 1.1  pooka }
1.24  pooka
1.24  pooka void
1.37  pooka rumpuser_sp_fini(void *arg)
1.24  pooka {
1.37  pooka 	struct spclient *spc = arg;
1.37  pooka 	register_t retval[2] = {0, 0};
1.37  pooka
1.42  pooka 	if (spclist[0].spc_fd) {
1.42  pooka 		parsetab[cleanupidx].cleanup(cleanupsa);
1.42  pooka 	}
1.42  pooka
1.37  pooka 	/*
1.37  pooka 	 * stuff response into the socket, since this process is just
1.37  pooka 	 * about to exit
1.37  pooka 	 */
1.37  pooka 	if (spc && spc->spc_syscallreq)
1.37  pooka 		send_syscall_resp(spc, spc->spc_syscallreq, 0, retval);
1.24  pooka
1.24  pooka 	if (spclist[0].spc_fd) {
1.24  pooka 		shutdown(spclist[0].spc_fd, SHUT_RDWR);
1.24  pooka 		spfini = 1;
1.24  pooka 	}
1.24  pooka }