lib/librumpclient/rumpclient.c

1.28  pooka /*      $NetBSD: rumpclient.c,v 1.28 2011/02/14 14:56:23 pooka Exp $	*/
 1.1  pooka
 1.1  pooka /*
1.11  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  * Client side routines for rump syscall proxy.
 1.1  pooka  */
 1.1  pooka
 1.1  pooka #include <sys/cdefs.h>
 1.1  pooka __RCSID("$NetBSD");
 1.1  pooka
 1.5  pooka #include <sys/param.h>
1.15  pooka #include <sys/event.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>
1.13  pooka #include <dlfcn.h>
 1.1  pooka #include <errno.h>
 1.1  pooka #include <fcntl.h>
1.13  pooka #include <link.h>
 1.1  pooka #include <poll.h>
 1.1  pooka #include <pthread.h>
1.11  pooka #include <signal.h>
 1.1  pooka #include <stdarg.h>
1.18  pooka #include <stdbool.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
 1.1  pooka #include <rump/rumpclient.h>
 1.1  pooka
1.13  pooka #define HOSTOPS
1.13  pooka int	(*host_socket)(int, int, int);
1.13  pooka int	(*host_close)(int);
1.13  pooka int	(*host_connect)(int, const struct sockaddr *, socklen_t);
1.15  pooka int	(*host_fcntl)(int, int, ...);
1.13  pooka int	(*host_poll)(struct pollfd *, nfds_t, int);
1.13  pooka ssize_t	(*host_read)(int, void *, size_t);
1.13  pooka ssize_t (*host_sendto)(int, const void *, size_t, int,
1.13  pooka 		       const struct sockaddr *, socklen_t);
1.13  pooka int	(*host_setsockopt)(int, int, int, const void *, socklen_t);
1.27  pooka int	(*host_dup)(int);
1.13  pooka
1.17  pooka int	(*host_kqueue)(void);
1.17  pooka int	(*host_kevent)(int, const struct kevent *, size_t,
1.17  pooka 		       struct kevent *, size_t, const struct timespec *);
1.17  pooka
 1.1  pooka #include "sp_common.c"
 1.1  pooka
1.11  pooka static struct spclient clispc = {
1.11  pooka 	.spc_fd = -1,
1.11  pooka };
 1.1  pooka
1.18  pooka static int kq = -1;
1.15  pooka static sigset_t fullset;
1.12  pooka
1.20  pooka static int doconnect(bool);
1.18  pooka static int handshake_req(struct spclient *, uint32_t *, int, bool);
1.18  pooka
1.20  pooka time_t retrytimo = RUMPCLIENT_RETRYCONN_ONCE;
1.18  pooka
1.18  pooka static int
1.18  pooka send_with_recon(struct spclient *spc, const void *data, size_t dlen)
1.18  pooka {
1.20  pooka 	struct timeval starttime, curtime;
1.20  pooka 	time_t prevreconmsg;
1.20  pooka 	unsigned reconretries;
1.18  pooka 	int rv;
1.18  pooka
1.20  pooka 	for (prevreconmsg = 0, reconretries = 0;;) {
1.18  pooka 		rv = dosend(spc, data, dlen);
1.18  pooka 		if (__predict_false(rv == ENOTCONN || rv == EBADF)) {
1.20  pooka 			/* no persistent connections */
1.20  pooka 			if (retrytimo == 0)
1.20  pooka 				break;
1.24  pooka 			if (retrytimo == RUMPCLIENT_RETRYCONN_DIE)
1.24  pooka 				exit(1);
1.20  pooka
1.20  pooka 			if (!prevreconmsg) {
1.20  pooka 				prevreconmsg = time(NULL);
1.20  pooka 				gettimeofday(&starttime, NULL);
1.20  pooka 			}
1.20  pooka 			if (reconretries == 1) {
1.20  pooka 				if (retrytimo == RUMPCLIENT_RETRYCONN_ONCE) {
1.20  pooka 					rv = ENOTCONN;
1.20  pooka 					break;
1.20  pooka 				}
1.20  pooka 				fprintf(stderr, "rump_sp: connection to "
1.20  pooka 				    "kernel lost, trying to reconnect ...\n");
1.20  pooka 			} else if (time(NULL) - prevreconmsg > 120) {
1.20  pooka 				fprintf(stderr, "rump_sp: still trying to "
1.20  pooka 				    "reconnect ...\n");
1.20  pooka 				prevreconmsg = time(NULL);
1.20  pooka 			}
1.20  pooka
1.20  pooka 			/* check that we aren't over the limit */
1.20  pooka 			if (retrytimo > 0) {
1.20  pooka 				struct timeval tmp;
1.20  pooka
1.20  pooka 				gettimeofday(&curtime, NULL);
1.20  pooka 				timersub(&curtime, &starttime, &tmp);
1.20  pooka 				if (tmp.tv_sec >= retrytimo) {
1.20  pooka 					fprintf(stderr, "rump_sp: reconnect "
1.20  pooka 					    "failed, %lld second timeout\n",
1.20  pooka 					    (long long)retrytimo);
1.20  pooka 					return ENOTCONN;
1.20  pooka 				}
1.20  pooka 			}
1.20  pooka
1.20  pooka 			/* adhoc backoff timer */
1.20  pooka 			if (reconretries < 10) {
1.20  pooka 				usleep(100000 * reconretries);
1.20  pooka 			} else {
1.20  pooka 				sleep(MIN(10, reconretries-9));
1.20  pooka 			}
1.20  pooka 			reconretries++;
1.20  pooka
1.20  pooka 			if ((rv = doconnect(false)) != 0)
1.18  pooka 				continue;
1.18  pooka 			if ((rv = handshake_req(&clispc, NULL, 0, true)) != 0)
1.18  pooka 				continue;
1.20  pooka
1.20  pooka 			/*
1.20  pooka 			 * ok, reconnect succesful.  we need to return to
1.20  pooka 			 * the upper layer to get the entire PDU resent.
1.20  pooka 			 */
1.20  pooka 			if (reconretries != 1)
1.20  pooka 				fprintf(stderr, "rump_sp: reconnected!\n");
1.20  pooka 			rv = EAGAIN;
1.20  pooka 			break;
1.20  pooka 		} else {
1.20  pooka 			_DIAGASSERT(errno != EAGAIN);
1.18  pooka 			break;
1.18  pooka 		}
1.20  pooka 	}
1.18  pooka
1.18  pooka 	return rv;
1.18  pooka }
1.18  pooka
1.12  pooka static int
1.18  pooka cliwaitresp(struct spclient *spc, struct respwait *rw, sigset_t *mask,
1.18  pooka 	bool keeplock)
1.12  pooka {
1.18  pooka 	uint64_t mygen;
1.18  pooka 	bool imalive = true;
1.12  pooka
1.15  pooka 	pthread_mutex_lock(&spc->spc_mtx);
1.18  pooka 	if (!keeplock)
1.18  pooka 		sendunlockl(spc);
1.18  pooka 	mygen = spc->spc_generation;
1.12  pooka
1.12  pooka 	rw->rw_error = 0;
1.18  pooka 	while (!rw->rw_done && rw->rw_error == 0) {
1.18  pooka 		if (__predict_false(spc->spc_generation != mygen || !imalive))
1.18  pooka 			break;
1.18  pooka
1.12  pooka 		/* are we free to receive? */
1.12  pooka 		if (spc->spc_istatus == SPCSTATUS_FREE) {
1.15  pooka 			struct kevent kev[8];
1.15  pooka 			int gotresp, dosig, rv, i;
1.15  pooka
1.12  pooka 			spc->spc_istatus = SPCSTATUS_BUSY;
1.12  pooka 			pthread_mutex_unlock(&spc->spc_mtx);
1.12  pooka
1.15  pooka 			dosig = 0;
1.15  pooka 			for (gotresp = 0; !gotresp; ) {
1.15  pooka 				switch (readframe(spc)) {
1.15  pooka 				case 0:
1.17  pooka 					rv = host_kevent(kq, NULL, 0,
1.15  pooka 					    kev, __arraycount(kev), NULL);
1.18  pooka
1.28  pooka 					if (__predict_false(rv == -1)) {
1.28  pooka 						goto cleanup;
1.28  pooka 					}
1.28  pooka
1.18  pooka 					/*
1.18  pooka 					 * XXX: don't know how this can
1.18  pooka 					 * happen (timeout cannot expire
1.18  pooka 					 * since there isn't one), but
1.18  pooka 					 * it does happen
1.18  pooka 					 */
1.18  pooka 					if (__predict_false(rv == 0))
1.18  pooka 						continue;
1.18  pooka
1.15  pooka 					for (i = 0; i < rv; i++) {
1.15  pooka 						if (kev[i].filter
1.15  pooka 						    == EVFILT_SIGNAL)
1.15  pooka 							dosig++;
1.15  pooka 					}
1.15  pooka 					if (dosig)
1.15  pooka 						goto cleanup;
1.15  pooka
1.15  pooka 					continue;
1.15  pooka 				case -1:
1.18  pooka 					imalive = false;
1.15  pooka 					goto cleanup;
1.15  pooka 				default:
1.15  pooka 					break;
1.15  pooka 				}
1.12  pooka
1.15  pooka 				switch (spc->spc_hdr.rsp_class) {
1.12  pooka 				case RUMPSP_RESP:
1.12  pooka 				case RUMPSP_ERROR:
1.12  pooka 					kickwaiter(spc);
1.15  pooka 					gotresp = spc->spc_hdr.rsp_reqno ==
1.15  pooka 					    rw->rw_reqno;
1.12  pooka 					break;
1.12  pooka 				case RUMPSP_REQ:
1.12  pooka 					handlereq(spc);
1.12  pooka 					break;
1.12  pooka 				default:
1.12  pooka 					/* panic */
1.12  pooka 					break;
1.15  pooka 				}
1.12  pooka 			}
1.12  pooka
1.15  pooka  cleanup:
1.15  pooka 			pthread_mutex_lock(&spc->spc_mtx);
1.15  pooka 			if (spc->spc_istatus == SPCSTATUS_WANTED)
1.15  pooka 				kickall(spc);
1.15  pooka 			spc->spc_istatus = SPCSTATUS_FREE;
1.15  pooka
1.15  pooka 			/* take one for the team */
1.15  pooka 			if (dosig) {
1.15  pooka 				pthread_mutex_unlock(&spc->spc_mtx);
1.15  pooka 				pthread_sigmask(SIG_SETMASK, mask, NULL);
1.15  pooka 				pthread_sigmask(SIG_SETMASK, &fullset, NULL);
1.15  pooka 				pthread_mutex_lock(&spc->spc_mtx);
1.15  pooka 			}
1.12  pooka 		} else {
1.12  pooka 			spc->spc_istatus = SPCSTATUS_WANTED;
1.12  pooka 			pthread_cond_wait(&rw->rw_cv, &spc->spc_mtx);
1.12  pooka 		}
1.12  pooka 	}
1.12  pooka 	TAILQ_REMOVE(&spc->spc_respwait, rw, rw_entries);
1.12  pooka 	pthread_mutex_unlock(&spc->spc_mtx);
1.12  pooka 	pthread_cond_destroy(&rw->rw_cv);
1.12  pooka
1.18  pooka 	if (spc->spc_generation != mygen || !imalive) {
1.12  pooka 		return ENOTCONN;
1.18  pooka 	}
1.12  pooka 	return rw->rw_error;
1.12  pooka }
1.12  pooka
 1.1  pooka static int
1.26  pooka syscall_req(struct spclient *spc, sigset_t *omask, int sysnum,
 1.3  pooka 	const void *data, size_t dlen, void **resp)
 1.1  pooka {
 1.1  pooka 	struct rsp_hdr rhdr;
 1.3  pooka 	struct respwait rw;
 1.3  pooka 	int rv;
 1.1  pooka
 1.1  pooka 	rhdr.rsp_len = sizeof(rhdr) + dlen;
 1.3  pooka 	rhdr.rsp_class = RUMPSP_REQ;
 1.3  pooka 	rhdr.rsp_type = RUMPSP_SYSCALL;
 1.1  pooka 	rhdr.rsp_sysnum = sysnum;
 1.1  pooka
 1.6  pooka 	do {
 1.6  pooka 		putwait(spc, &rw, &rhdr);
1.18  pooka 		if ((rv = send_with_recon(spc, &rhdr, sizeof(rhdr))) != 0) {
1.18  pooka 			unputwait(spc, &rw);
1.18  pooka 			continue;
1.18  pooka 		}
1.18  pooka 		if ((rv = send_with_recon(spc, data, dlen)) != 0) {
 1.6  pooka 			unputwait(spc, &rw);
1.18  pooka 			continue;
 1.6  pooka 		}
 1.6  pooka
1.26  pooka 		rv = cliwaitresp(spc, &rw, omask, false);
1.20  pooka 		if (rv == ENOTCONN)
1.20  pooka 			rv = EAGAIN;
1.20  pooka 	} while (rv == EAGAIN);
 1.3  pooka
 1.3  pooka 	*resp = rw.rw_data;
 1.3  pooka 	return rv;
 1.1  pooka }
 1.1  pooka
 1.1  pooka static int
1.18  pooka handshake_req(struct spclient *spc, uint32_t *auth, int cancel, bool haslock)
1.10  pooka {
1.11  pooka 	struct handshake_fork rf;
1.10  pooka 	struct rsp_hdr rhdr;
1.10  pooka 	struct respwait rw;
1.12  pooka 	sigset_t omask;
1.21  pooka 	size_t bonus;
1.10  pooka 	int rv;
1.10  pooka
1.21  pooka 	if (auth) {
1.21  pooka 		bonus = sizeof(rf);
1.21  pooka 	} else {
1.21  pooka 		bonus = strlen(getprogname())+1;
1.21  pooka 	}
1.21  pooka
1.10  pooka 	/* performs server handshake */
1.21  pooka 	rhdr.rsp_len = sizeof(rhdr) + bonus;
1.10  pooka 	rhdr.rsp_class = RUMPSP_REQ;
1.10  pooka 	rhdr.rsp_type = RUMPSP_HANDSHAKE;
1.11  pooka 	if (auth)
1.11  pooka 		rhdr.rsp_handshake = HANDSHAKE_FORK;
1.11  pooka 	else
1.11  pooka 		rhdr.rsp_handshake = HANDSHAKE_GUEST;
1.10  pooka
1.12  pooka 	pthread_sigmask(SIG_SETMASK, &fullset, &omask);
1.18  pooka 	if (haslock)
1.18  pooka 		putwait_locked(spc, &rw, &rhdr);
1.18  pooka 	else
1.18  pooka 		putwait(spc, &rw, &rhdr);
1.10  pooka 	rv = dosend(spc, &rhdr, sizeof(rhdr));
1.11  pooka 	if (auth) {
1.11  pooka 		memcpy(rf.rf_auth, auth, AUTHLEN*sizeof(*auth));
1.11  pooka 		rf.rf_cancel = cancel;
1.18  pooka 		rv = send_with_recon(spc, &rf, sizeof(rf));
1.21  pooka 	} else {
1.21  pooka 		rv = dosend(spc, getprogname(), strlen(getprogname())+1);
1.11  pooka 	}
1.18  pooka 	if (rv || cancel) {
1.18  pooka 		if (haslock)
1.18  pooka 			unputwait_locked(spc, &rw);
1.18  pooka 		else
1.18  pooka 			unputwait(spc, &rw);
1.18  pooka 		if (cancel) {
1.26  pooka 			goto out;
1.18  pooka 		}
1.18  pooka 	} else {
1.18  pooka 		rv = cliwaitresp(spc, &rw, &omask, haslock);
1.10  pooka 	}
1.10  pooka 	if (rv)
1.26  pooka 		goto out;
1.10  pooka
1.10  pooka 	rv = *(int *)rw.rw_data;
1.10  pooka 	free(rw.rw_data);
1.10  pooka
1.26  pooka  out:
1.26  pooka 	pthread_sigmask(SIG_SETMASK, &omask, NULL);
1.10  pooka 	return rv;
1.10  pooka }
1.10  pooka
1.10  pooka static int
1.26  pooka prefork_req(struct spclient *spc, sigset_t *omask, void **resp)
1.11  pooka {
1.11  pooka 	struct rsp_hdr rhdr;
1.11  pooka 	struct respwait rw;
1.11  pooka 	int rv;
1.11  pooka
1.11  pooka 	rhdr.rsp_len = sizeof(rhdr);
1.11  pooka 	rhdr.rsp_class = RUMPSP_REQ;
1.11  pooka 	rhdr.rsp_type = RUMPSP_PREFORK;
1.11  pooka 	rhdr.rsp_error = 0;
1.11  pooka
1.18  pooka 	do {
1.18  pooka 		putwait(spc, &rw, &rhdr);
1.18  pooka 		rv = send_with_recon(spc, &rhdr, sizeof(rhdr));
1.18  pooka 		if (rv != 0) {
1.18  pooka 			unputwait(spc, &rw);
1.18  pooka 			continue;
1.18  pooka 		}
1.11  pooka
1.26  pooka 		rv = cliwaitresp(spc, &rw, omask, false);
1.20  pooka 		if (rv == ENOTCONN)
1.20  pooka 			rv = EAGAIN;
1.20  pooka 	} while (rv == EAGAIN);
1.18  pooka
1.11  pooka 	*resp = rw.rw_data;
1.11  pooka 	return rv;
1.11  pooka }
1.11  pooka
1.18  pooka /*
1.18  pooka  * prevent response code from deadlocking with reconnect code
1.18  pooka  */
1.11  pooka static int
1.18  pooka resp_sendlock(struct spclient *spc)
1.18  pooka {
1.18  pooka 	int rv = 0;
1.18  pooka
1.18  pooka 	pthread_mutex_lock(&spc->spc_mtx);
1.18  pooka 	while (spc->spc_ostatus != SPCSTATUS_FREE) {
1.18  pooka 		if (__predict_false(spc->spc_reconnecting)) {
1.18  pooka 			rv = EBUSY;
1.18  pooka 			goto out;
1.18  pooka 		}
1.18  pooka 		spc->spc_ostatus = SPCSTATUS_WANTED;
1.18  pooka 		pthread_cond_wait(&spc->spc_cv, &spc->spc_mtx);
1.18  pooka 	}
1.18  pooka 	spc->spc_ostatus = SPCSTATUS_BUSY;
1.18  pooka
1.18  pooka  out:
1.18  pooka 	pthread_mutex_unlock(&spc->spc_mtx);
1.18  pooka 	return rv;
1.18  pooka }
1.18  pooka
1.18  pooka static void
 1.5  pooka send_copyin_resp(struct spclient *spc, uint64_t reqno, void *data, size_t dlen,
 1.5  pooka 	int wantstr)
 1.1  pooka {
 1.1  pooka 	struct rsp_hdr rhdr;
 1.1  pooka
 1.5  pooka 	if (wantstr)
 1.5  pooka 		dlen = MIN(dlen, strlen(data)+1);
 1.5  pooka
 1.1  pooka 	rhdr.rsp_len = sizeof(rhdr) + dlen;
 1.1  pooka 	rhdr.rsp_reqno = reqno;
 1.3  pooka 	rhdr.rsp_class = RUMPSP_RESP;
 1.3  pooka 	rhdr.rsp_type = RUMPSP_COPYIN;
 1.1  pooka 	rhdr.rsp_sysnum = 0;
 1.1  pooka
1.18  pooka 	if (resp_sendlock(spc) != 0)
1.18  pooka 		return;
1.18  pooka 	(void)dosend(spc, &rhdr, sizeof(rhdr));
1.18  pooka 	(void)dosend(spc, data, dlen);
 1.3  pooka 	sendunlock(spc);
 1.1  pooka }
 1.1  pooka
1.18  pooka static void
 1.1  pooka send_anonmmap_resp(struct spclient *spc, uint64_t reqno, void *addr)
 1.1  pooka {
 1.1  pooka 	struct rsp_hdr rhdr;
 1.1  pooka
 1.1  pooka 	rhdr.rsp_len = sizeof(rhdr) + sizeof(addr);
 1.1  pooka 	rhdr.rsp_reqno = reqno;
 1.3  pooka 	rhdr.rsp_class = RUMPSP_RESP;
 1.3  pooka 	rhdr.rsp_type = RUMPSP_ANONMMAP;
 1.1  pooka 	rhdr.rsp_sysnum = 0;
 1.1  pooka
1.18  pooka 	if (resp_sendlock(spc) != 0)
1.18  pooka 		return;
1.18  pooka 	(void)dosend(spc, &rhdr, sizeof(rhdr));
1.18  pooka 	(void)dosend(spc, &addr, sizeof(addr));
 1.3  pooka 	sendunlock(spc);
 1.1  pooka }
 1.1  pooka
 1.1  pooka int
 1.1  pooka rumpclient_syscall(int sysnum, const void *data, size_t dlen,
 1.1  pooka 	register_t *retval)
 1.1  pooka {
 1.1  pooka 	struct rsp_sysresp *resp;
1.26  pooka 	sigset_t omask;
 1.3  pooka 	void *rdata;
 1.3  pooka 	int rv;
 1.3  pooka
1.26  pooka 	pthread_sigmask(SIG_SETMASK, &fullset, &omask);
1.26  pooka
 1.3  pooka 	DPRINTF(("rumpsp syscall_req: syscall %d with %p/%zu\n",
 1.3  pooka 	    sysnum, data, dlen));
 1.3  pooka
1.26  pooka 	rv = syscall_req(&clispc, &omask, sysnum, data, dlen, &rdata);
 1.3  pooka 	if (rv)
1.26  pooka 		goto out;
 1.3  pooka
 1.3  pooka 	resp = rdata;
 1.3  pooka 	DPRINTF(("rumpsp syscall_resp: syscall %d error %d, rv: %d/%d\n",
 1.3  pooka 	    sysnum, rv, resp->rsys_retval[0], resp->rsys_retval[1]));
 1.1  pooka
 1.3  pooka 	memcpy(retval, &resp->rsys_retval, sizeof(resp->rsys_retval));
 1.3  pooka 	rv = resp->rsys_error;
 1.3  pooka 	free(rdata);
 1.1  pooka
1.26  pooka  out:
1.26  pooka 	pthread_sigmask(SIG_SETMASK, &omask, NULL);
 1.3  pooka 	return rv;
 1.3  pooka }
 1.1  pooka
 1.3  pooka static void
 1.3  pooka handlereq(struct spclient *spc)
 1.3  pooka {
 1.3  pooka 	struct rsp_copydata *copydata;
1.16  pooka 	struct rsp_hdr *rhdr = &spc->spc_hdr;
 1.3  pooka 	void *mapaddr;
 1.3  pooka 	size_t maplen;
 1.5  pooka 	int reqtype = spc->spc_hdr.rsp_type;
 1.1  pooka
 1.5  pooka 	switch (reqtype) {
 1.3  pooka 	case RUMPSP_COPYIN:
 1.5  pooka 	case RUMPSP_COPYINSTR:
 1.3  pooka 		/*LINTED*/
 1.3  pooka 		copydata = (struct rsp_copydata *)spc->spc_buf;
 1.3  pooka 		DPRINTF(("rump_sp handlereq: copyin request: %p/%zu\n",
 1.3  pooka 		    copydata->rcp_addr, copydata->rcp_len));
 1.3  pooka 		send_copyin_resp(spc, spc->spc_hdr.rsp_reqno,
 1.5  pooka 		    copydata->rcp_addr, copydata->rcp_len,
 1.5  pooka 		    reqtype == RUMPSP_COPYINSTR);
 1.3  pooka 		break;
 1.3  pooka 	case RUMPSP_COPYOUT:
 1.5  pooka 	case RUMPSP_COPYOUTSTR:
 1.3  pooka 		/*LINTED*/
 1.3  pooka 		copydata = (struct rsp_copydata *)spc->spc_buf;
 1.3  pooka 		DPRINTF(("rump_sp handlereq: copyout request: %p/%zu\n",
 1.3  pooka 		    copydata->rcp_addr, copydata->rcp_len));
 1.3  pooka 		/*LINTED*/
 1.3  pooka 		memcpy(copydata->rcp_addr, copydata->rcp_data,
 1.3  pooka 		    copydata->rcp_len);
 1.3  pooka 		break;
 1.3  pooka 	case RUMPSP_ANONMMAP:
 1.3  pooka 		/*LINTED*/
 1.3  pooka 		maplen = *(size_t *)spc->spc_buf;
 1.3  pooka 		mapaddr = mmap(NULL, maplen, PROT_READ|PROT_WRITE,
 1.3  pooka 		    MAP_ANON, -1, 0);
 1.3  pooka 		if (mapaddr == MAP_FAILED)
 1.3  pooka 			mapaddr = NULL;
 1.3  pooka 		DPRINTF(("rump_sp handlereq: anonmmap: %p\n", mapaddr));
 1.3  pooka 		send_anonmmap_resp(spc, spc->spc_hdr.rsp_reqno, mapaddr);
 1.3  pooka 		break;
1.16  pooka 	case RUMPSP_RAISE:
1.16  pooka 		DPRINTF(("rump_sp handlereq: raise sig %d\n", rhdr->rsp_signo));
1.18  pooka 		raise((int)rhdr->rsp_signo);
1.16  pooka 		/*
1.16  pooka 		 * We most likely have signals blocked, but the signal
1.16  pooka 		 * will be handled soon enough when we return.
1.16  pooka 		 */
1.16  pooka 		break;
 1.3  pooka 	default:
1.12  pooka 		printf("PANIC: INVALID TYPE %d\n", reqtype);
 1.3  pooka 		abort();
 1.3  pooka 		break;
 1.1  pooka 	}
 1.1  pooka
 1.6  pooka 	spcfreebuf(spc);
 1.1  pooka }
 1.1  pooka
1.11  pooka static unsigned ptab_idx;
1.11  pooka static struct sockaddr *serv_sa;
1.11  pooka
1.27  pooka /* dup until we get a "good" fd which does not collide with stdio */
1.27  pooka static int
1.28  pooka dupgood(int myfd, int mustchange)
1.27  pooka {
1.28  pooka 	int ofds[4];
1.27  pooka 	int i;
1.27  pooka
1.28  pooka 	for (i = 0; (myfd <= 2 || mustchange) && myfd != -1; i++) {
1.27  pooka 		assert(i < __arraycount(ofds));
1.27  pooka 		ofds[i] = myfd;
1.27  pooka 		myfd = host_dup(myfd);
1.28  pooka 		if (mustchange) {
1.28  pooka 			i--; /* prevent closing old fd */
1.28  pooka 			mustchange = 0;
1.28  pooka 		}
1.27  pooka 	}
1.27  pooka
1.27  pooka 	for (i--; i >= 0; i--) {
1.27  pooka 		host_close(ofds[i]);
1.27  pooka 	}
1.27  pooka
1.27  pooka 	return myfd;
1.27  pooka }
1.27  pooka
1.11  pooka static int
1.20  pooka doconnect(bool noisy)
 1.1  pooka {
1.18  pooka 	struct respwait rw;
1.18  pooka 	struct rsp_hdr rhdr;
1.15  pooka 	struct kevent kev[NSIG+1];
 1.9  pooka 	char banner[MAXBANNER];
1.18  pooka 	struct pollfd pfd;
1.15  pooka 	int s, error, flags, i;
 1.9  pooka 	ssize_t n;
 1.1  pooka
1.18  pooka 	if (kq != -1)
1.18  pooka 		host_close(kq);
1.18  pooka 	kq = -1;
1.19  pooka 	s = -1;
1.18  pooka
1.18  pooka 	if (clispc.spc_fd != -1)
1.18  pooka 		host_close(clispc.spc_fd);
1.18  pooka 	clispc.spc_fd = -1;
1.18  pooka
1.18  pooka 	/*
1.18  pooka 	 * for reconnect, gate everyone out of the receiver code
1.18  pooka 	 */
1.18  pooka 	putwait_locked(&clispc, &rw, &rhdr);
1.18  pooka
1.18  pooka 	pthread_mutex_lock(&clispc.spc_mtx);
1.18  pooka 	clispc.spc_reconnecting = 1;
1.18  pooka 	pthread_cond_broadcast(&clispc.spc_cv);
1.18  pooka 	clispc.spc_generation++;
1.18  pooka 	while (clispc.spc_istatus != SPCSTATUS_FREE) {
1.18  pooka 		clispc.spc_istatus = SPCSTATUS_WANTED;
1.18  pooka 		pthread_cond_wait(&rw.rw_cv, &clispc.spc_mtx);
1.18  pooka 	}
1.18  pooka 	kickall(&clispc);
1.18  pooka
1.18  pooka 	/*
1.18  pooka 	 * we can release it already since we hold the
1.18  pooka 	 * send lock during reconnect
1.18  pooka 	 * XXX: assert it
1.18  pooka 	 */
1.18  pooka 	clispc.spc_istatus = SPCSTATUS_FREE;
1.18  pooka 	pthread_mutex_unlock(&clispc.spc_mtx);
1.18  pooka 	unputwait_locked(&clispc, &rw);
1.18  pooka
1.18  pooka 	free(clispc.spc_buf);
1.18  pooka 	clispc.spc_off = 0;
1.18  pooka
1.28  pooka 	s = dupgood(host_socket(parsetab[ptab_idx].domain, SOCK_STREAM, 0), 0);
1.11  pooka 	if (s == -1)
 1.2  pooka 		return -1;
 1.1  pooka
1.18  pooka 	pfd.fd = s;
1.18  pooka 	pfd.events = POLLIN;
1.18  pooka 	while (host_connect(s, serv_sa, (socklen_t)serv_sa->sa_len) == -1) {
1.18  pooka 		if (errno == EINTR)
1.18  pooka 			continue;
1.20  pooka 		error = errno;
1.20  pooka 		if (noisy)
1.18  pooka 			fprintf(stderr, "rump_sp: client connect failed: %s\n",
1.18  pooka 			    strerror(errno));
1.20  pooka 		errno = error;
1.20  pooka 		return -1;
 1.2  pooka 	}
 1.1  pooka
1.11  pooka 	if ((error = parsetab[ptab_idx].connhook(s)) != 0) {
 1.2  pooka 		error = errno;
1.20  pooka 		if (noisy)
1.20  pooka 			fprintf(stderr, "rump_sp: connect hook failed\n");
 1.2  pooka 		errno = error;
 1.2  pooka 		return -1;
 1.1  pooka 	}
 1.4  pooka
1.13  pooka 	if ((n = host_read(s, banner, sizeof(banner)-1)) < 0) {
 1.2  pooka 		error = errno;
1.20  pooka 		if (noisy)
1.20  pooka 			fprintf(stderr, "rump_sp: failed to read banner\n");
 1.2  pooka 		errno = error;
 1.2  pooka 		return -1;
 1.1  pooka 	}
 1.9  pooka
 1.9  pooka 	if (banner[n-1] != '\n') {
1.20  pooka 		if (noisy)
1.20  pooka 			fprintf(stderr, "rump_sp: invalid banner\n");
 1.9  pooka 		errno = EINVAL;
 1.9  pooka 		return -1;
 1.9  pooka 	}
 1.9  pooka 	banner[n] = '\0';
1.18  pooka 	/* parse the banner some day */
 1.9  pooka
1.15  pooka 	flags = host_fcntl(s, F_GETFL, 0);
1.15  pooka 	if (host_fcntl(s, F_SETFL, flags | O_NONBLOCK) == -1) {
1.20  pooka 		if (noisy)
1.20  pooka 			fprintf(stderr, "rump_sp: socket fd NONBLOCK: %s\n",
1.20  pooka 			    strerror(errno));
1.15  pooka 		errno = EINVAL;
1.15  pooka 		return -1;
1.15  pooka 	}
1.18  pooka 	clispc.spc_fd = s;
1.18  pooka 	clispc.spc_state = SPCSTATE_RUNNING;
1.18  pooka 	clispc.spc_reconnecting = 0;
1.15  pooka
1.15  pooka 	/* setup kqueue, we want all signals and the fd */
1.28  pooka 	if ((kq = dupgood(host_kqueue(), 0)) == -1) {
1.15  pooka 		error = errno;
1.20  pooka 		if (noisy)
1.20  pooka 			fprintf(stderr, "rump_sp: cannot setup kqueue");
1.15  pooka 		errno = error;
1.15  pooka 		return -1;
1.15  pooka 	}
1.15  pooka
1.15  pooka 	for (i = 0; i < NSIG; i++) {
1.15  pooka 		EV_SET(&kev[i], i+1, EVFILT_SIGNAL, EV_ADD|EV_ENABLE, 0, 0, 0);
1.15  pooka 	}
1.18  pooka 	EV_SET(&kev[NSIG], clispc.spc_fd,
1.18  pooka 	    EVFILT_READ, EV_ADD|EV_ENABLE, 0, 0, 0);
1.17  pooka 	if (host_kevent(kq, kev, NSIG+1, NULL, 0, NULL) == -1) {
1.15  pooka 		error = errno;
1.20  pooka 		if (noisy)
1.20  pooka 			fprintf(stderr, "rump_sp: kevent() failed");
1.15  pooka 		errno = error;
1.15  pooka 		return -1;
1.15  pooka 	}
1.15  pooka
1.18  pooka 	return 0;
1.18  pooka }
1.18  pooka
1.18  pooka static int
1.18  pooka doinit(void)
1.18  pooka {
1.18  pooka
1.11  pooka 	TAILQ_INIT(&clispc.spc_respwait);
1.11  pooka 	pthread_mutex_init(&clispc.spc_mtx, NULL);
1.11  pooka 	pthread_cond_init(&clispc.spc_cv, NULL);
1.11  pooka
1.11  pooka 	return 0;
1.11  pooka }
1.11  pooka
1.13  pooka void *(*rumpclient_dlsym)(void *, const char *);
1.13  pooka
1.11  pooka int
1.11  pooka rumpclient_init()
1.11  pooka {
1.11  pooka 	char *p;
1.11  pooka 	int error;
1.11  pooka
1.25  pooka 	sigfillset(&fullset);
1.25  pooka
1.13  pooka 	/* dlsym overrided by rumphijack? */
1.13  pooka 	if (!rumpclient_dlsym)
1.13  pooka 		rumpclient_dlsym = dlsym;
1.13  pooka
1.13  pooka 	/*
1.13  pooka 	 * sag mir, wo die symbol sind.  zogen fort, der krieg beginnt.
1.13  pooka 	 * wann wird man je verstehen?  wann wird man je verstehen?
1.13  pooka 	 */
1.13  pooka #define FINDSYM2(_name_,_syscall_)					\
1.13  pooka 	if ((host_##_name_ = rumpclient_dlsym(RTLD_NEXT,		\
1.13  pooka 	    #_syscall_)) == NULL)					\
1.13  pooka 		/* host_##_name_ = _syscall_ */;
1.13  pooka #define FINDSYM(_name_) FINDSYM2(_name_,_name_)
1.13  pooka 	FINDSYM2(socket,__socket30);
1.13  pooka 	FINDSYM(close);
1.13  pooka 	FINDSYM(connect);
1.15  pooka 	FINDSYM(fcntl);
1.13  pooka 	FINDSYM(poll);
1.13  pooka 	FINDSYM(read);
1.13  pooka 	FINDSYM(sendto);
1.13  pooka 	FINDSYM(setsockopt);
1.27  pooka 	FINDSYM(dup);
1.17  pooka 	FINDSYM(kqueue);
1.22  pooka #if !__NetBSD_Prereq__(5,99,7)
1.17  pooka 	FINDSYM(kevent);
1.22  pooka #else
1.22  pooka 	FINDSYM2(kevent,_sys___kevent50);
1.22  pooka #endif
1.13  pooka #undef	FINDSYM
1.13  pooka #undef	FINDSY2
1.13  pooka
1.28  pooka 	if ((p = getenv("RUMP__PARSEDSERVER")) == NULL) {
1.28  pooka 		if ((p = getenv("RUMP_SERVER")) == NULL) {
1.28  pooka 			errno = ENOENT;
1.28  pooka 			return -1;
1.28  pooka 		}
1.11  pooka 	}
1.11  pooka
1.11  pooka 	if ((error = parseurl(p, &serv_sa, &ptab_idx, 0)) != 0) {
1.11  pooka 		errno = error;
1.11  pooka 		return -1;
1.11  pooka 	}
1.11  pooka
1.18  pooka 	if (doinit() == -1)
1.18  pooka 		return -1;
1.28  pooka
1.28  pooka 	if ((p = getenv("RUMPCLIENT__EXECFD")) != NULL) {
1.28  pooka 		sscanf(p, "%d,%d", &clispc.spc_fd, &kq);
1.28  pooka 		unsetenv("RUMPCLIENT__EXECFD");
1.28  pooka 		return 0;
1.28  pooka 	}
1.28  pooka
1.20  pooka 	if (doconnect(true) == -1)
1.11  pooka 		return -1;
1.11  pooka
1.18  pooka 	error = handshake_req(&clispc, NULL, 0, false);
1.11  pooka 	if (error) {
1.11  pooka 		pthread_mutex_destroy(&clispc.spc_mtx);
1.11  pooka 		pthread_cond_destroy(&clispc.spc_cv);
1.18  pooka 		if (clispc.spc_fd != -1)
1.18  pooka 			host_close(clispc.spc_fd);
1.10  pooka 		errno = error;
1.10  pooka 		return -1;
1.10  pooka 	}
1.10  pooka
1.11  pooka 	return 0;
1.11  pooka }
1.11  pooka
1.11  pooka struct rumpclient_fork {
1.11  pooka 	uint32_t fork_auth[AUTHLEN];
1.11  pooka };
1.11  pooka
1.11  pooka struct rumpclient_fork *
1.11  pooka rumpclient_prefork(void)
1.11  pooka {
1.11  pooka 	struct rumpclient_fork *rpf;
1.26  pooka 	sigset_t omask;
1.11  pooka 	void *resp;
1.11  pooka 	int rv;
1.11  pooka
1.26  pooka 	pthread_sigmask(SIG_SETMASK, &fullset, &omask);
1.11  pooka 	rpf = malloc(sizeof(*rpf));
1.11  pooka 	if (rpf == NULL)
1.11  pooka 		return NULL;
1.11  pooka
1.26  pooka 	if ((rv = prefork_req(&clispc, &omask, &resp)) != 0) {
1.11  pooka 		free(rpf);
1.11  pooka 		errno = rv;
1.26  pooka 		rpf = NULL;
1.26  pooka 		goto out;
1.11  pooka 	}
1.11  pooka
1.11  pooka 	memcpy(rpf->fork_auth, resp, sizeof(rpf->fork_auth));
1.11  pooka 	free(resp);
1.11  pooka
1.26  pooka  out:
1.26  pooka 	pthread_sigmask(SIG_SETMASK, &omask, NULL);
1.11  pooka 	return rpf;
1.11  pooka }
1.11  pooka
1.11  pooka int
1.11  pooka rumpclient_fork_init(struct rumpclient_fork *rpf)
1.11  pooka {
1.11  pooka 	int error;
1.23  pooka 	int osock;
1.11  pooka
1.23  pooka 	osock = clispc.spc_fd;
1.11  pooka 	memset(&clispc, 0, sizeof(clispc));
1.23  pooka 	clispc.spc_fd = osock;
1.23  pooka
1.23  pooka 	kq = -1; /* kqueue descriptor is not copied over fork() */
1.11  pooka
1.18  pooka 	if (doinit() == -1)
1.18  pooka 		return -1;
1.20  pooka 	if (doconnect(false) == -1)
1.11  pooka 		return -1;
1.10  pooka
1.18  pooka 	error = handshake_req(&clispc, rpf->fork_auth, 0, false);
1.10  pooka 	if (error) {
1.10  pooka 		pthread_mutex_destroy(&clispc.spc_mtx);
1.10  pooka 		pthread_cond_destroy(&clispc.spc_cv);
1.11  pooka 		errno = error;
1.11  pooka 		return -1;
1.10  pooka 	}
1.11  pooka
1.11  pooka 	return 0;
 1.1  pooka }
1.20  pooka
1.20  pooka void
1.20  pooka rumpclient_setconnretry(time_t timeout)
1.20  pooka {
1.20  pooka
1.24  pooka 	if (timeout < RUMPCLIENT_RETRYCONN_DIE)
1.20  pooka 		return; /* gigo */
1.20  pooka
1.20  pooka 	retrytimo = timeout;
1.20  pooka }
1.28  pooka
1.28  pooka int
1.28  pooka rumpclient__closenotify(int *fdp, enum rumpclient_closevariant variant)
1.28  pooka {
1.28  pooka 	int fd = *fdp;
1.28  pooka 	int untilfd, rv;
1.28  pooka 	int newfd;
1.28  pooka
1.28  pooka 	switch (variant) {
1.28  pooka 	case RUMPCLIENT_CLOSE_FCLOSEM:
1.28  pooka 		untilfd = MAX(clispc.spc_fd, kq);
1.28  pooka 		for (; fd <= untilfd; fd++) {
1.28  pooka 			if (fd == clispc.spc_fd || fd == kq)
1.28  pooka 				continue;
1.28  pooka 			rv = host_close(fd);
1.28  pooka 			if (rv == -1)
1.28  pooka 				return -1;
1.28  pooka 		}
1.28  pooka 		*fdp = fd;
1.28  pooka 		break;
1.28  pooka
1.28  pooka 	case RUMPCLIENT_CLOSE_CLOSE:
1.28  pooka 	case RUMPCLIENT_CLOSE_DUP2:
1.28  pooka 		if (fd == clispc.spc_fd) {
1.28  pooka 			struct kevent kev[2];
1.28  pooka
1.28  pooka 			newfd = dupgood(clispc.spc_fd, 1);
1.28  pooka 			if (newfd == -1)
1.28  pooka 				return -1;
1.28  pooka 			/*
1.28  pooka 			 * now, we have a new socket number, so change
1.28  pooka 			 * the file descriptor that kqueue is
1.28  pooka 			 * monitoring.  remove old and add new.
1.28  pooka 			 */
1.28  pooka 			EV_SET(&kev[0], clispc.spc_fd,
1.28  pooka 			    EVFILT_READ, EV_DELETE, 0, 0, 0);
1.28  pooka 			EV_SET(&kev[1], newfd,
1.28  pooka 			    EVFILT_READ, EV_ADD|EV_ENABLE, 0, 0, 0);
1.28  pooka 			if (host_kevent(kq, kev, 2, NULL, 0, NULL) == -1) {
1.28  pooka 				int sverrno = errno;
1.28  pooka 				host_close(newfd);
1.28  pooka 				errno = sverrno;
1.28  pooka 				return -1;
1.28  pooka 			}
1.28  pooka 			clispc.spc_fd = newfd;
1.28  pooka 		}
1.28  pooka 		if (fd == kq) {
1.28  pooka 			newfd = dupgood(kq, 1);
1.28  pooka 			if (newfd == -1)
1.28  pooka 				return -1;
1.28  pooka 			kq = newfd;
1.28  pooka 		}
1.28  pooka 		break;
1.28  pooka 	}
1.28  pooka
1.28  pooka 	return 0;
1.28  pooka }
1.28  pooka
1.28  pooka /*
1.28  pooka  * Process is about to exec.  Save info about our existing connection
1.28  pooka  * in the env.  rumpclient will check for this info in init().
1.28  pooka  * This is mostly for the benefit of rumphijack, but regular applications
1.28  pooka  * may use it as well.
1.28  pooka  */
1.28  pooka int
1.28  pooka rumpclient__exec_augmentenv(char *const oenv1[], char *const oenv2[],
1.28  pooka 	char ***newenvp)
1.28  pooka {
1.28  pooka 	char buf[4096];
1.28  pooka 	char **newenv;
1.28  pooka 	char *envstr, *envstr2;
1.28  pooka 	size_t nelem1, nelem2;
1.28  pooka
1.28  pooka 	snprintf(buf, sizeof(buf), "RUMPCLIENT__EXECFD=%d,%d",
1.28  pooka 	    clispc.spc_fd, kq);
1.28  pooka 	envstr = malloc(strlen(buf)+1);
1.28  pooka 	if (envstr == NULL) {
1.28  pooka 		return ENOMEM;
1.28  pooka 	}
1.28  pooka 	strcpy(envstr, buf);
1.28  pooka
1.28  pooka 	/* do we have a fully parsed url we want to forward in the env? */
1.28  pooka 	if (*parsedurl != '\0') {
1.28  pooka 		snprintf(buf, sizeof(buf),
1.28  pooka 		    "RUMP__PARSEDSERVER=%s", parsedurl);
1.28  pooka 		envstr2 = malloc(strlen(buf)+1);
1.28  pooka 		if (envstr2 == NULL) {
1.28  pooka 			free(envstr);
1.28  pooka 			return ENOMEM;
1.28  pooka 		}
1.28  pooka 		strcpy(envstr2, buf);
1.28  pooka 	} else {
1.28  pooka 		envstr2 = NULL;
1.28  pooka 	}
1.28  pooka
1.28  pooka 	nelem1 = 0;
1.28  pooka 	if (oenv1) {
1.28  pooka 		for (; oenv1[nelem1]; nelem1++)
1.28  pooka 			continue;
1.28  pooka 	}
1.28  pooka 	nelem2 = 0;
1.28  pooka 	if (oenv2) {
1.28  pooka 		for (; oenv2[nelem2]; nelem2++)
1.28  pooka 			continue;
1.28  pooka 	}
1.28  pooka
1.28  pooka 	newenv = malloc(sizeof(*newenv) * nelem1+nelem2+3);
1.28  pooka 	if (newenv == NULL) {
1.28  pooka 		free(envstr2);
1.28  pooka 		free(envstr);
1.28  pooka 		return ENOMEM;
1.28  pooka 	}
1.28  pooka 	memcpy(&newenv[0], oenv1, sizeof(*oenv1) * nelem1);
1.28  pooka 	memcpy(&newenv[nelem1], oenv2, sizeof(*oenv2) * nelem2);
1.28  pooka
1.28  pooka 	newenv[nelem1+nelem2] = envstr;
1.28  pooka 	newenv[nelem1+nelem2+1] = envstr2;
1.28  pooka 	newenv[nelem1+nelem2+2] = NULL;
1.28  pooka
1.28  pooka 	*newenvp = newenv;
1.28  pooka
1.28  pooka 	return 0;
1.28  pooka }