/* * Copyright (C) 2004-2006 Internet Systems Consortium, Inc. ("ISC") * Copyright (C) 1998-2003 Internet Software Consortium. * * Permission to use, copy, modify, and distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND ISC DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL ISC BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE * OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ /* $Id: socket.c,v 1.207.2.19.2.26 2006/05/19 02:53:36 marka Exp $ */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "errno2result.h" #ifndef ISC_PLATFORM_USETHREADS #include "socket_p.h" #endif /* ISC_PLATFORM_USETHREADS */ /* * Some systems define the socket length argument as an int, some as size_t, * some as socklen_t. This is here so it can be easily changed if needed. */ #ifndef ISC_SOCKADDR_LEN_T #define ISC_SOCKADDR_LEN_T unsigned int #endif /* * Define what the possible "soft" errors can be. These are non-fatal returns * of various network related functions, like recv() and so on. * * For some reason, BSDI (and perhaps others) will sometimes return <0 * from recv() but will have errno==0. This is broken, but we have to * work around it here. */ #define SOFT_ERROR(e) ((e) == EAGAIN || \ (e) == EWOULDBLOCK || \ (e) == EINTR || \ (e) == 0) #define DLVL(x) ISC_LOGCATEGORY_GENERAL, ISC_LOGMODULE_SOCKET, ISC_LOG_DEBUG(x) /* * DLVL(90) -- Function entry/exit and other tracing. * DLVL(70) -- Socket "correctness" -- including returning of events, etc. * DLVL(60) -- Socket data send/receive * DLVL(50) -- Event tracing, including receiving/sending completion events. * DLVL(20) -- Socket creation/destruction. */ #define TRACE_LEVEL 90 #define CORRECTNESS_LEVEL 70 #define IOEVENT_LEVEL 60 #define EVENT_LEVEL 50 #define CREATION_LEVEL 20 #define TRACE DLVL(TRACE_LEVEL) #define CORRECTNESS DLVL(CORRECTNESS_LEVEL) #define IOEVENT DLVL(IOEVENT_LEVEL) #define EVENT DLVL(EVENT_LEVEL) #define CREATION DLVL(CREATION_LEVEL) typedef isc_event_t intev_t; #define SOCKET_MAGIC ISC_MAGIC('I', 'O', 'i', 'o') #define VALID_SOCKET(t) ISC_MAGIC_VALID(t, SOCKET_MAGIC) /* * IPv6 control information. If the socket is an IPv6 socket we want * to collect the destination address and interface so the client can * set them on outgoing packets. */ #ifdef ISC_PLATFORM_HAVEIN6PKTINFO #ifndef USE_CMSG #define USE_CMSG 1 #endif #endif /* * NetBSD and FreeBSD can timestamp packets. XXXMLG Should we have * a setsockopt() like interface to request timestamps, and if the OS * doesn't do it for us, call gettimeofday() on every UDP receive? */ #ifdef SO_TIMESTAMP #ifndef USE_CMSG #define USE_CMSG 1 #endif #endif /* * The number of times a send operation is repeated if the result is EINTR. */ #define NRETRIES 10 struct isc_socket { /* Not locked. */ unsigned int magic; isc_socketmgr_t *manager; isc_mutex_t lock; isc_sockettype_t type; /* Locked by socket lock. */ ISC_LINK(isc_socket_t) link; unsigned int references; int fd; int pf; ISC_LIST(isc_socketevent_t) send_list; ISC_LIST(isc_socketevent_t) recv_list; ISC_LIST(isc_socket_newconnev_t) accept_list; isc_socket_connev_t *connect_ev; /* * Internal events. Posted when a descriptor is readable or * writable. These are statically allocated and never freed. * They will be set to non-purgable before use. */ intev_t readable_ev; intev_t writable_ev; isc_sockaddr_t address; /* remote address */ unsigned int pending_recv : 1, pending_send : 1, pending_accept : 1, listener : 1, /* listener socket */ connected : 1, connecting : 1, /* connect pending */ bound : 1; /* bound to local addr */ #ifdef ISC_NET_RECVOVERFLOW unsigned char overflow; /* used for MSG_TRUNC fake */ #endif char *recvcmsgbuf; ISC_SOCKADDR_LEN_T recvcmsgbuflen; char *sendcmsgbuf; ISC_SOCKADDR_LEN_T sendcmsgbuflen; }; #define SOCKET_MANAGER_MAGIC ISC_MAGIC('I', 'O', 'm', 'g') #define VALID_MANAGER(m) ISC_MAGIC_VALID(m, SOCKET_MANAGER_MAGIC) struct isc_socketmgr { /* Not locked. */ unsigned int magic; isc_mem_t *mctx; isc_mutex_t lock; /* Locked by manager lock. */ ISC_LIST(isc_socket_t) socklist; fd_set read_fds; fd_set write_fds; isc_socket_t *fds[FD_SETSIZE]; int fdstate[FD_SETSIZE]; int maxfd; #ifdef ISC_PLATFORM_USETHREADS isc_thread_t watcher; isc_condition_t shutdown_ok; int pipe_fds[2]; #else /* ISC_PLATFORM_USETHREADS */ unsigned int refs; #endif /* ISC_PLATFORM_USETHREADS */ }; #ifndef ISC_PLATFORM_USETHREADS static isc_socketmgr_t *socketmgr = NULL; #endif /* ISC_PLATFORM_USETHREADS */ #define CLOSED 0 /* this one must be zero */ #define MANAGED 1 #define CLOSE_PENDING 2 /* * send() and recv() iovec counts */ #define MAXSCATTERGATHER_SEND (ISC_SOCKET_MAXSCATTERGATHER) #ifdef ISC_NET_RECVOVERFLOW # define MAXSCATTERGATHER_RECV (ISC_SOCKET_MAXSCATTERGATHER + 1) #else # define MAXSCATTERGATHER_RECV (ISC_SOCKET_MAXSCATTERGATHER) #endif static void send_recvdone_event(isc_socket_t *, isc_socketevent_t **); static void send_senddone_event(isc_socket_t *, isc_socketevent_t **); static void free_socket(isc_socket_t **); static isc_result_t allocate_socket(isc_socketmgr_t *, isc_sockettype_t, isc_socket_t **); static void destroy(isc_socket_t **); static void internal_accept(isc_task_t *, isc_event_t *); static void internal_connect(isc_task_t *, isc_event_t *); static void internal_recv(isc_task_t *, isc_event_t *); static void internal_send(isc_task_t *, isc_event_t *); static void process_cmsg(isc_socket_t *, struct msghdr *, isc_socketevent_t *); static void build_msghdr_send(isc_socket_t *, isc_socketevent_t *, struct msghdr *, struct iovec *, size_t *); static void build_msghdr_recv(isc_socket_t *, isc_socketevent_t *, struct msghdr *, struct iovec *, size_t *); #define SELECT_POKE_SHUTDOWN (-1) #define SELECT_POKE_NOTHING (-2) #define SELECT_POKE_READ (-3) #define SELECT_POKE_ACCEPT (-3) /* Same as _READ */ #define SELECT_POKE_WRITE (-4) #define SELECT_POKE_CONNECT (-4) /* Same as _WRITE */ #define SELECT_POKE_CLOSE (-5) #define SOCK_DEAD(s) ((s)->references == 0) static void manager_log(isc_socketmgr_t *sockmgr, isc_logcategory_t *category, isc_logmodule_t *module, int level, const char *fmt, ...) ISC_FORMAT_PRINTF(5, 6); static void manager_log(isc_socketmgr_t *sockmgr, isc_logcategory_t *category, isc_logmodule_t *module, int level, const char *fmt, ...) { char msgbuf[2048]; va_list ap; if (! isc_log_wouldlog(isc_lctx, level)) return; va_start(ap, fmt); vsnprintf(msgbuf, sizeof(msgbuf), fmt, ap); va_end(ap); isc_log_write(isc_lctx, category, module, level, "sockmgr %p: %s", sockmgr, msgbuf); } static void socket_log(isc_socket_t *sock, isc_sockaddr_t *address, isc_logcategory_t *category, isc_logmodule_t *module, int level, isc_msgcat_t *msgcat, int msgset, int message, const char *fmt, ...) ISC_FORMAT_PRINTF(9, 10); static void socket_log(isc_socket_t *sock, isc_sockaddr_t *address, isc_logcategory_t *category, isc_logmodule_t *module, int level, isc_msgcat_t *msgcat, int msgset, int message, const char *fmt, ...) { char msgbuf[2048]; char peerbuf[ISC_SOCKADDR_FORMATSIZE]; va_list ap; if (! isc_log_wouldlog(isc_lctx, level)) return; va_start(ap, fmt); vsnprintf(msgbuf, sizeof(msgbuf), fmt, ap); va_end(ap); if (address == NULL) { isc_log_iwrite(isc_lctx, category, module, level, msgcat, msgset, message, "socket %p: %s", sock, msgbuf); } else { isc_sockaddr_format(address, peerbuf, sizeof(peerbuf)); isc_log_iwrite(isc_lctx, category, module, level, msgcat, msgset, message, "socket %p %s: %s", sock, peerbuf, msgbuf); } } static void wakeup_socket(isc_socketmgr_t *manager, int fd, int msg) { isc_socket_t *sock; /* * This is a wakeup on a socket. If the socket is not in the * process of being closed, start watching it for either reads * or writes. */ INSIST(fd >= 0 && fd < (int)FD_SETSIZE); if (manager->fdstate[fd] == CLOSE_PENDING) { manager->fdstate[fd] = CLOSED; FD_CLR(fd, &manager->read_fds); FD_CLR(fd, &manager->write_fds); (void)close(fd); return; } if (manager->fdstate[fd] != MANAGED) return; sock = manager->fds[fd]; /* * Set requested bit. */ if (msg == SELECT_POKE_READ) FD_SET(sock->fd, &manager->read_fds); if (msg == SELECT_POKE_WRITE) FD_SET(sock->fd, &manager->write_fds); } #ifdef ISC_PLATFORM_USETHREADS /* * Poke the select loop when there is something for us to do. * The write is required (by POSIX) to complete. That is, we * will not get partial writes. */ static void select_poke(isc_socketmgr_t *mgr, int fd, int msg) { int cc; int buf[2]; char strbuf[ISC_STRERRORSIZE]; buf[0] = fd; buf[1] = msg; do { cc = write(mgr->pipe_fds[1], buf, sizeof(buf)); #ifdef ENOSR /* * Treat ENOSR as EAGAIN but loop slowly as it is * unlikely to clear fast. */ if (cc < 0 && errno == ENOSR) { sleep(1); errno = EAGAIN; } #endif } while (cc < 0 && SOFT_ERROR(errno)); if (cc < 0) { isc__strerror(errno, strbuf, sizeof(strbuf)); FATAL_ERROR(__FILE__, __LINE__, isc_msgcat_get(isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_WRITEFAILED, "write() failed " "during watcher poke: %s"), strbuf); } INSIST(cc == sizeof(buf)); } /* * Read a message on the internal fd. */ static void select_readmsg(isc_socketmgr_t *mgr, int *fd, int *msg) { int buf[2]; int cc; char strbuf[ISC_STRERRORSIZE]; cc = read(mgr->pipe_fds[0], buf, sizeof(buf)); if (cc < 0) { *msg = SELECT_POKE_NOTHING; *fd = -1; /* Silence compiler. */ if (SOFT_ERROR(errno)) return; isc__strerror(errno, strbuf, sizeof(strbuf)); FATAL_ERROR(__FILE__, __LINE__, isc_msgcat_get(isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_READFAILED, "read() failed " "during watcher poke: %s"), strbuf); return; } INSIST(cc == sizeof(buf)); *fd = buf[0]; *msg = buf[1]; } #else /* ISC_PLATFORM_USETHREADS */ /* * Update the state of the socketmgr when something changes. */ static void select_poke(isc_socketmgr_t *manager, int fd, int msg) { if (msg == SELECT_POKE_SHUTDOWN) return; else if (fd >= 0) wakeup_socket(manager, fd, msg); return; } #endif /* ISC_PLATFORM_USETHREADS */ /* * Make a fd non-blocking. */ static isc_result_t make_nonblock(int fd) { int ret; int flags; char strbuf[ISC_STRERRORSIZE]; #ifdef USE_FIONBIO_IOCTL int on = 1; ret = ioctl(fd, FIONBIO, (char *)&on); #else flags = fcntl(fd, F_GETFL, 0); flags |= PORT_NONBLOCK; ret = fcntl(fd, F_SETFL, flags); #endif if (ret == -1) { isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, #ifdef USE_FIONBIO_IOCTL "ioctl(%d, FIONBIO, &on): %s", fd, #else "fcntl(%d, F_SETFL, %d): %s", fd, flags, #endif strbuf); return (ISC_R_UNEXPECTED); } return (ISC_R_SUCCESS); } #ifdef USE_CMSG /* * Not all OSes support advanced CMSG macros: CMSG_LEN and CMSG_SPACE. * In order to ensure as much portability as possible, we provide wrapper * functions of these macros. * Note that cmsg_space() could run slow on OSes that do not have * CMSG_SPACE. */ static inline ISC_SOCKADDR_LEN_T cmsg_len(ISC_SOCKADDR_LEN_T len) { #ifdef CMSG_LEN return (CMSG_LEN(len)); #else ISC_SOCKADDR_LEN_T hdrlen; /* * Cast NULL so that any pointer arithmetic performed by CMSG_DATA * is correct. */ hdrlen = (ISC_SOCKADDR_LEN_T)CMSG_DATA(((struct cmsghdr *)NULL)); return (hdrlen + len); #endif } static inline ISC_SOCKADDR_LEN_T cmsg_space(ISC_SOCKADDR_LEN_T len) { #ifdef CMSG_SPACE return (CMSG_SPACE(len)); #else struct msghdr msg; struct cmsghdr *cmsgp; /* * XXX: The buffer length is an ad-hoc value, but should be enough * in a practical sense. */ char dummybuf[sizeof(struct cmsghdr) + 1024]; memset(&msg, 0, sizeof(msg)); msg.msg_control = dummybuf; msg.msg_controllen = sizeof(dummybuf); cmsgp = (struct cmsghdr *)dummybuf; cmsgp->cmsg_len = cmsg_len(len); cmsgp = CMSG_NXTHDR(&msg, cmsgp); if (cmsgp != NULL) return ((char *)cmsgp - (char *)msg.msg_control); else return (0); #endif } #endif /* USE_CMSG */ /* * Process control messages received on a socket. */ static void process_cmsg(isc_socket_t *sock, struct msghdr *msg, isc_socketevent_t *dev) { #ifdef USE_CMSG struct cmsghdr *cmsgp; #ifdef ISC_PLATFORM_HAVEIN6PKTINFO struct in6_pktinfo *pktinfop; #endif #ifdef SO_TIMESTAMP struct timeval *timevalp; #endif #endif /* * sock is used only when ISC_NET_BSD44MSGHDR and USE_CMSG are defined. * msg and dev are used only when ISC_NET_BSD44MSGHDR is defined. * They are all here, outside of the CPP tests, because it is * more consistent with the usual ISC coding style. */ UNUSED(sock); UNUSED(msg); UNUSED(dev); #ifdef ISC_NET_BSD44MSGHDR #ifdef MSG_TRUNC if ((msg->msg_flags & MSG_TRUNC) == MSG_TRUNC) dev->attributes |= ISC_SOCKEVENTATTR_TRUNC; #endif #ifdef MSG_CTRUNC if ((msg->msg_flags & MSG_CTRUNC) == MSG_CTRUNC) dev->attributes |= ISC_SOCKEVENTATTR_CTRUNC; #endif #ifndef USE_CMSG return; #else if (msg->msg_controllen == 0U || msg->msg_control == NULL) return; #ifdef SO_TIMESTAMP timevalp = NULL; #endif #ifdef ISC_PLATFORM_HAVEIN6PKTINFO pktinfop = NULL; #endif cmsgp = CMSG_FIRSTHDR(msg); while (cmsgp != NULL) { socket_log(sock, NULL, TRACE, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_PROCESSCMSG, "processing cmsg %p", cmsgp); #ifdef ISC_PLATFORM_HAVEIN6PKTINFO if (cmsgp->cmsg_level == IPPROTO_IPV6 && cmsgp->cmsg_type == IPV6_PKTINFO) { pktinfop = (struct in6_pktinfo *)CMSG_DATA(cmsgp); memcpy(&dev->pktinfo, pktinfop, sizeof(struct in6_pktinfo)); dev->attributes |= ISC_SOCKEVENTATTR_PKTINFO; socket_log(sock, NULL, TRACE, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_IFRECEIVED, "interface received on ifindex %u", dev->pktinfo.ipi6_ifindex); if (IN6_IS_ADDR_MULTICAST(&pktinfop->ipi6_addr)) dev->attributes |= ISC_SOCKEVENTATTR_MULTICAST; goto next; } #endif #ifdef SO_TIMESTAMP if (cmsgp->cmsg_level == SOL_SOCKET && cmsgp->cmsg_type == SCM_TIMESTAMP) { timevalp = (struct timeval *)CMSG_DATA(cmsgp); dev->timestamp.seconds = timevalp->tv_sec; dev->timestamp.nanoseconds = timevalp->tv_usec * 1000; dev->attributes |= ISC_SOCKEVENTATTR_TIMESTAMP; goto next; } #endif next: cmsgp = CMSG_NXTHDR(msg, cmsgp); } #endif /* USE_CMSG */ #endif /* ISC_NET_BSD44MSGHDR */ } /* * Construct an iov array and attach it to the msghdr passed in. This is * the SEND constructor, which will use the used region of the buffer * (if using a buffer list) or will use the internal region (if a single * buffer I/O is requested). * * Nothing can be NULL, and the done event must list at least one buffer * on the buffer linked list for this function to be meaningful. * * If write_countp != NULL, *write_countp will hold the number of bytes * this transaction can send. */ static void build_msghdr_send(isc_socket_t *sock, isc_socketevent_t *dev, struct msghdr *msg, struct iovec *iov, size_t *write_countp) { unsigned int iovcount; isc_buffer_t *buffer; isc_region_t used; size_t write_count; size_t skip_count; memset(msg, 0, sizeof(*msg)); if (sock->type == isc_sockettype_udp) { msg->msg_name = (void *)&dev->address.type.sa; msg->msg_namelen = dev->address.length; } else { msg->msg_name = NULL; msg->msg_namelen = 0; } buffer = ISC_LIST_HEAD(dev->bufferlist); write_count = 0; iovcount = 0; /* * Single buffer I/O? Skip what we've done so far in this region. */ if (buffer == NULL) { write_count = dev->region.length - dev->n; iov[0].iov_base = (void *)(dev->region.base + dev->n); iov[0].iov_len = write_count; iovcount = 1; goto config; } /* * Multibuffer I/O. * Skip the data in the buffer list that we have already written. */ skip_count = dev->n; while (buffer != NULL) { REQUIRE(ISC_BUFFER_VALID(buffer)); if (skip_count < isc_buffer_usedlength(buffer)) break; skip_count -= isc_buffer_usedlength(buffer); buffer = ISC_LIST_NEXT(buffer, link); } while (buffer != NULL) { INSIST(iovcount < MAXSCATTERGATHER_SEND); isc_buffer_usedregion(buffer, &used); if (used.length > 0) { iov[iovcount].iov_base = (void *)(used.base + skip_count); iov[iovcount].iov_len = used.length - skip_count; write_count += (used.length - skip_count); skip_count = 0; iovcount++; } buffer = ISC_LIST_NEXT(buffer, link); } INSIST(skip_count == 0U); config: msg->msg_iov = iov; msg->msg_iovlen = iovcount; #ifdef ISC_NET_BSD44MSGHDR msg->msg_control = NULL; msg->msg_controllen = 0; msg->msg_flags = 0; #if defined(USE_CMSG) && defined(ISC_PLATFORM_HAVEIN6PKTINFO) if ((sock->type == isc_sockettype_udp) && ((dev->attributes & ISC_SOCKEVENTATTR_PKTINFO) != 0)) { struct cmsghdr *cmsgp; struct in6_pktinfo *pktinfop; socket_log(sock, NULL, TRACE, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_SENDTODATA, "sendto pktinfo data, ifindex %u", dev->pktinfo.ipi6_ifindex); msg->msg_controllen = cmsg_space(sizeof(struct in6_pktinfo)); INSIST(msg->msg_controllen <= sock->sendcmsgbuflen); msg->msg_control = (void *)sock->sendcmsgbuf; cmsgp = (struct cmsghdr *)sock->sendcmsgbuf; cmsgp->cmsg_level = IPPROTO_IPV6; cmsgp->cmsg_type = IPV6_PKTINFO; cmsgp->cmsg_len = cmsg_len(sizeof(struct in6_pktinfo)); pktinfop = (struct in6_pktinfo *)CMSG_DATA(cmsgp); memcpy(pktinfop, &dev->pktinfo, sizeof(struct in6_pktinfo)); } #endif /* USE_CMSG && ISC_PLATFORM_HAVEIPV6 */ #else /* ISC_NET_BSD44MSGHDR */ msg->msg_accrights = NULL; msg->msg_accrightslen = 0; #endif /* ISC_NET_BSD44MSGHDR */ if (write_countp != NULL) *write_countp = write_count; } /* * Construct an iov array and attach it to the msghdr passed in. This is * the RECV constructor, which will use the avialable region of the buffer * (if using a buffer list) or will use the internal region (if a single * buffer I/O is requested). * * Nothing can be NULL, and the done event must list at least one buffer * on the buffer linked list for this function to be meaningful. * * If read_countp != NULL, *read_countp will hold the number of bytes * this transaction can receive. */ static void build_msghdr_recv(isc_socket_t *sock, isc_socketevent_t *dev, struct msghdr *msg, struct iovec *iov, size_t *read_countp) { unsigned int iovcount; isc_buffer_t *buffer; isc_region_t available; size_t read_count; memset(msg, 0, sizeof(struct msghdr)); if (sock->type == isc_sockettype_udp) { memset(&dev->address, 0, sizeof(dev->address)); #ifdef BROKEN_RECVMSG if (sock->pf == AF_INET) { msg->msg_name = (void *)&dev->address.type.sin; msg->msg_namelen = sizeof(dev->address.type.sin6); } else if (sock->pf == AF_INET6) { msg->msg_name = (void *)&dev->address.type.sin6; msg->msg_namelen = sizeof(dev->address.type.sin6); #ifdef ISC_PLATFORM_HAVESYSUNH } else if (sock->pf == AF_UNIX) { msg->msg_name = (void *)&dev->address.type.sunix; msg->msg_namelen = sizeof(dev->address.type.sunix); #endif } else { msg->msg_name = (void *)&dev->address.type.sa; msg->msg_namelen = sizeof(dev->address.type); } #else msg->msg_name = (void *)&dev->address.type.sa; msg->msg_namelen = sizeof(dev->address.type); #endif #ifdef ISC_NET_RECVOVERFLOW /* If needed, steal one iovec for overflow detection. */ maxiov--; #endif } else { /* TCP */ msg->msg_name = NULL; msg->msg_namelen = 0; dev->address = sock->address; } buffer = ISC_LIST_HEAD(dev->bufferlist); read_count = 0; /* * Single buffer I/O? Skip what we've done so far in this region. */ if (buffer == NULL) { read_count = dev->region.length - dev->n; iov[0].iov_base = (void *)(dev->region.base + dev->n); iov[0].iov_len = read_count; iovcount = 1; goto config; } /* * Multibuffer I/O. * Skip empty buffers. */ while (buffer != NULL) { REQUIRE(ISC_BUFFER_VALID(buffer)); if (isc_buffer_availablelength(buffer) != 0) break; buffer = ISC_LIST_NEXT(buffer, link); } iovcount = 0; while (buffer != NULL) { INSIST(iovcount < MAXSCATTERGATHER_RECV); isc_buffer_availableregion(buffer, &available); if (available.length > 0) { iov[iovcount].iov_base = (void *)(available.base); iov[iovcount].iov_len = available.length; read_count += available.length; iovcount++; } buffer = ISC_LIST_NEXT(buffer, link); } config: /* * If needed, set up to receive that one extra byte. Note that * we know there is at least one iov left, since we stole it * at the top of this function. */ #ifdef ISC_NET_RECVOVERFLOW if (sock->type == isc_sockettype_udp) { iov[iovcount].iov_base = (void *)(&sock->overflow); iov[iovcount].iov_len = 1; iovcount++; } #endif msg->msg_iov = iov; msg->msg_iovlen = iovcount; #ifdef ISC_NET_BSD44MSGHDR msg->msg_control = NULL; msg->msg_controllen = 0; msg->msg_flags = 0; #if defined(USE_CMSG) if (sock->type == isc_sockettype_udp) { msg->msg_control = sock->recvcmsgbuf; msg->msg_controllen = sock->recvcmsgbuflen; } #endif /* USE_CMSG */ #else /* ISC_NET_BSD44MSGHDR */ msg->msg_accrights = NULL; msg->msg_accrightslen = 0; #endif /* ISC_NET_BSD44MSGHDR */ if (read_countp != NULL) *read_countp = read_count; } static void set_dev_address(isc_sockaddr_t *address, isc_socket_t *sock, isc_socketevent_t *dev) { if (sock->type == isc_sockettype_udp) { if (address != NULL) dev->address = *address; else dev->address = sock->address; } else if (sock->type == isc_sockettype_tcp) { INSIST(address == NULL); dev->address = sock->address; } } static isc_socketevent_t * allocate_socketevent(isc_socket_t *sock, isc_eventtype_t eventtype, isc_taskaction_t action, const void *arg) { isc_socketevent_t *ev; ev = (isc_socketevent_t *)isc_event_allocate(sock->manager->mctx, sock, eventtype, action, arg, sizeof(*ev)); if (ev == NULL) return (NULL); ev->result = ISC_R_UNEXPECTED; ISC_LINK_INIT(ev, ev_link); ISC_LIST_INIT(ev->bufferlist); ev->region.base = NULL; ev->n = 0; ev->offset = 0; ev->attributes = 0; return (ev); } #if defined(ISC_SOCKET_DEBUG) static void dump_msg(struct msghdr *msg) { unsigned int i; printf("MSGHDR %p\n", msg); printf("\tname %p, namelen %d\n", msg->msg_name, msg->msg_namelen); printf("\tiov %p, iovlen %d\n", msg->msg_iov, msg->msg_iovlen); for (i = 0; i < (unsigned int)msg->msg_iovlen; i++) printf("\t\t%d\tbase %p, len %d\n", i, msg->msg_iov[i].iov_base, msg->msg_iov[i].iov_len); #ifdef ISC_NET_BSD44MSGHDR printf("\tcontrol %p, controllen %d\n", msg->msg_control, msg->msg_controllen); #endif } #endif #define DOIO_SUCCESS 0 /* i/o ok, event sent */ #define DOIO_SOFT 1 /* i/o ok, soft error, no event sent */ #define DOIO_HARD 2 /* i/o error, event sent */ #define DOIO_EOF 3 /* EOF, no event sent */ static int doio_recv(isc_socket_t *sock, isc_socketevent_t *dev) { int cc; struct iovec iov[MAXSCATTERGATHER_RECV]; size_t read_count; size_t actual_count; struct msghdr msghdr; isc_buffer_t *buffer; int recv_errno; char strbuf[ISC_STRERRORSIZE]; build_msghdr_recv(sock, dev, &msghdr, iov, &read_count); #if defined(ISC_SOCKET_DEBUG) dump_msg(&msghdr); #endif cc = recvmsg(sock->fd, &msghdr, 0); recv_errno = errno; #if defined(ISC_SOCKET_DEBUG) dump_msg(&msghdr); #endif if (cc < 0) { if (SOFT_ERROR(recv_errno)) return (DOIO_SOFT); if (isc_log_wouldlog(isc_lctx, IOEVENT_LEVEL)) { isc__strerror(recv_errno, strbuf, sizeof(strbuf)); socket_log(sock, NULL, IOEVENT, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_DOIORECV, "doio_recv: recvmsg(%d) %d bytes, err %d/%s", sock->fd, cc, recv_errno, strbuf); } #define SOFT_OR_HARD(_system, _isc) \ if (recv_errno == _system) { \ if (sock->connected) { \ dev->result = _isc; \ return (DOIO_HARD); \ } \ return (DOIO_SOFT); \ } #define ALWAYS_HARD(_system, _isc) \ if (recv_errno == _system) { \ dev->result = _isc; \ return (DOIO_HARD); \ } SOFT_OR_HARD(ECONNREFUSED, ISC_R_CONNREFUSED); SOFT_OR_HARD(ENETUNREACH, ISC_R_NETUNREACH); SOFT_OR_HARD(EHOSTUNREACH, ISC_R_HOSTUNREACH); SOFT_OR_HARD(EHOSTDOWN, ISC_R_HOSTDOWN); /* HPUX 11.11 can return EADDRNOTAVAIL. */ SOFT_OR_HARD(EADDRNOTAVAIL, ISC_R_ADDRNOTAVAIL); ALWAYS_HARD(ENOBUFS, ISC_R_NORESOURCES); #undef SOFT_OR_HARD #undef ALWAYS_HARD dev->result = isc__errno2result(recv_errno); return (DOIO_HARD); } /* * On TCP, zero length reads indicate EOF, while on * UDP, zero length reads are perfectly valid, although * strange. */ if ((sock->type == isc_sockettype_tcp) && (cc == 0)) return (DOIO_EOF); if (sock->type == isc_sockettype_udp) { dev->address.length = msghdr.msg_namelen; if (isc_sockaddr_getport(&dev->address) == 0) { if (isc_log_wouldlog(isc_lctx, IOEVENT_LEVEL)) { socket_log(sock, &dev->address, IOEVENT, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_ZEROPORT, "dropping source port zero packet"); } return (DOIO_SOFT); } } socket_log(sock, &dev->address, IOEVENT, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_PKTRECV, "packet received correctly"); /* * Overflow bit detection. If we received MORE bytes than we should, * this indicates an overflow situation. Set the flag in the * dev entry and adjust how much we read by one. */ #ifdef ISC_NET_RECVOVERFLOW if ((sock->type == isc_sockettype_udp) && ((size_t)cc > read_count)) { dev->attributes |= ISC_SOCKEVENTATTR_TRUNC; cc--; } #endif /* * If there are control messages attached, run through them and pull * out the interesting bits. */ if (sock->type == isc_sockettype_udp) process_cmsg(sock, &msghdr, dev); /* * update the buffers (if any) and the i/o count */ dev->n += cc; actual_count = cc; buffer = ISC_LIST_HEAD(dev->bufferlist); while (buffer != NULL && actual_count > 0U) { REQUIRE(ISC_BUFFER_VALID(buffer)); if (isc_buffer_availablelength(buffer) <= actual_count) { actual_count -= isc_buffer_availablelength(buffer); isc_buffer_add(buffer, isc_buffer_availablelength(buffer)); } else { isc_buffer_add(buffer, actual_count); actual_count = 0; break; } buffer = ISC_LIST_NEXT(buffer, link); if (buffer == NULL) { INSIST(actual_count == 0U); } } /* * If we read less than we expected, update counters, * and let the upper layer poke the descriptor. */ if (((size_t)cc != read_count) && (dev->n < dev->minimum)) return (DOIO_SOFT); /* * Full reads are posted, or partials if partials are ok. */ dev->result = ISC_R_SUCCESS; return (DOIO_SUCCESS); } /* * Returns: * DOIO_SUCCESS The operation succeeded. dev->result contains * ISC_R_SUCCESS. * * DOIO_HARD A hard or unexpected I/O error was encountered. * dev->result contains the appropriate error. * * DOIO_SOFT A soft I/O error was encountered. No senddone * event was sent. The operation should be retried. * * No other return values are possible. */ static int doio_send(isc_socket_t *sock, isc_socketevent_t *dev) { int cc; struct iovec iov[MAXSCATTERGATHER_SEND]; size_t write_count; struct msghdr msghdr; char addrbuf[ISC_SOCKADDR_FORMATSIZE]; int attempts = 0; int send_errno; char strbuf[ISC_STRERRORSIZE]; build_msghdr_send(sock, dev, &msghdr, iov, &write_count); resend: cc = sendmsg(sock->fd, &msghdr, 0); send_errno = errno; /* * Check for error or block condition. */ if (cc < 0) { if (send_errno == EINTR && ++attempts < NRETRIES) goto resend; if (SOFT_ERROR(send_errno)) return (DOIO_SOFT); #define SOFT_OR_HARD(_system, _isc) \ if (send_errno == _system) { \ if (sock->connected) { \ dev->result = _isc; \ return (DOIO_HARD); \ } \ return (DOIO_SOFT); \ } #define ALWAYS_HARD(_system, _isc) \ if (send_errno == _system) { \ dev->result = _isc; \ return (DOIO_HARD); \ } SOFT_OR_HARD(ECONNREFUSED, ISC_R_CONNREFUSED); ALWAYS_HARD(EACCES, ISC_R_NOPERM); ALWAYS_HARD(EAFNOSUPPORT, ISC_R_ADDRNOTAVAIL); ALWAYS_HARD(EADDRNOTAVAIL, ISC_R_ADDRNOTAVAIL); ALWAYS_HARD(EHOSTUNREACH, ISC_R_HOSTUNREACH); #ifdef EHOSTDOWN ALWAYS_HARD(EHOSTDOWN, ISC_R_HOSTUNREACH); #endif ALWAYS_HARD(ENETUNREACH, ISC_R_NETUNREACH); ALWAYS_HARD(ENOBUFS, ISC_R_NORESOURCES); ALWAYS_HARD(EPERM, ISC_R_HOSTUNREACH); ALWAYS_HARD(EPIPE, ISC_R_NOTCONNECTED); ALWAYS_HARD(ECONNRESET, ISC_R_CONNECTIONRESET); #undef SOFT_OR_HARD #undef ALWAYS_HARD /* * The other error types depend on whether or not the * socket is UDP or TCP. If it is UDP, some errors * that we expect to be fatal under TCP are merely * annoying, and are really soft errors. * * However, these soft errors are still returned as * a status. */ isc_sockaddr_format(&dev->address, addrbuf, sizeof(addrbuf)); isc__strerror(send_errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "internal_send: %s: %s", addrbuf, strbuf); dev->result = isc__errno2result(send_errno); return (DOIO_HARD); } if (cc == 0) UNEXPECTED_ERROR(__FILE__, __LINE__, "internal_send: send() %s 0", isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_RETURNED, "returned")); /* * If we write less than we expected, update counters, poke. */ dev->n += cc; if ((size_t)cc != write_count) return (DOIO_SOFT); /* * Exactly what we wanted to write. We're done with this * entry. Post its completion event. */ dev->result = ISC_R_SUCCESS; return (DOIO_SUCCESS); } /* * Kill. * * Caller must ensure that the socket is not locked and no external * references exist. */ static void destroy(isc_socket_t **sockp) { isc_socket_t *sock = *sockp; isc_socketmgr_t *manager = sock->manager; socket_log(sock, NULL, CREATION, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_DESTROYING, "destroying"); INSIST(ISC_LIST_EMPTY(sock->accept_list)); INSIST(ISC_LIST_EMPTY(sock->recv_list)); INSIST(ISC_LIST_EMPTY(sock->send_list)); INSIST(sock->connect_ev == NULL); REQUIRE(sock->fd >= 0 && sock->fd < (int)FD_SETSIZE); LOCK(&manager->lock); /* * No one has this socket open, so the watcher doesn't have to be * poked, and the socket doesn't have to be locked. */ manager->fds[sock->fd] = NULL; manager->fdstate[sock->fd] = CLOSE_PENDING; select_poke(manager, sock->fd, SELECT_POKE_CLOSE); ISC_LIST_UNLINK(manager->socklist, sock, link); #ifdef ISC_PLATFORM_USETHREADS if (ISC_LIST_EMPTY(manager->socklist)) SIGNAL(&manager->shutdown_ok); #endif /* ISC_PLATFORM_USETHREADS */ /* * XXX should reset manager->maxfd here */ UNLOCK(&manager->lock); free_socket(sockp); } static isc_result_t allocate_socket(isc_socketmgr_t *manager, isc_sockettype_t type, isc_socket_t **socketp) { isc_socket_t *sock; isc_result_t ret; ISC_SOCKADDR_LEN_T cmsgbuflen; sock = isc_mem_get(manager->mctx, sizeof(*sock)); if (sock == NULL) return (ISC_R_NOMEMORY); ret = ISC_R_UNEXPECTED; sock->magic = 0; sock->references = 0; sock->manager = manager; sock->type = type; sock->fd = -1; ISC_LINK_INIT(sock, link); sock->recvcmsgbuf = NULL; sock->sendcmsgbuf = NULL; /* * set up cmsg buffers */ cmsgbuflen = 0; #if defined(USE_CMSG) && defined(ISC_PLATFORM_HAVEIN6PKTINFO) cmsgbuflen = cmsg_space(sizeof(struct in6_pktinfo)); #endif #if defined(USE_CMSG) && defined(SO_TIMESTAMP) cmsgbuflen += cmsg_space(sizeof(struct timeval)); #endif sock->recvcmsgbuflen = cmsgbuflen; if (sock->recvcmsgbuflen != 0U) { sock->recvcmsgbuf = isc_mem_get(manager->mctx, cmsgbuflen); if (sock->recvcmsgbuf == NULL) goto error; } cmsgbuflen = 0; #if defined(USE_CMSG) && defined(ISC_PLATFORM_HAVEIN6PKTINFO) cmsgbuflen = cmsg_space(sizeof(struct in6_pktinfo)); #endif sock->sendcmsgbuflen = cmsgbuflen; if (sock->sendcmsgbuflen != 0U) { sock->sendcmsgbuf = isc_mem_get(manager->mctx, cmsgbuflen); if (sock->sendcmsgbuf == NULL) goto error; } /* * set up list of readers and writers to be initially empty */ ISC_LIST_INIT(sock->recv_list); ISC_LIST_INIT(sock->send_list); ISC_LIST_INIT(sock->accept_list); sock->connect_ev = NULL; sock->pending_recv = 0; sock->pending_send = 0; sock->pending_accept = 0; sock->listener = 0; sock->connected = 0; sock->connecting = 0; sock->bound = 0; /* * initialize the lock */ if (isc_mutex_init(&sock->lock) != ISC_R_SUCCESS) { sock->magic = 0; UNEXPECTED_ERROR(__FILE__, __LINE__, "isc_mutex_init() %s", isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed")); ret = ISC_R_UNEXPECTED; goto error; } /* * Initialize readable and writable events */ ISC_EVENT_INIT(&sock->readable_ev, sizeof(intev_t), ISC_EVENTATTR_NOPURGE, NULL, ISC_SOCKEVENT_INTR, NULL, sock, sock, NULL, NULL); ISC_EVENT_INIT(&sock->writable_ev, sizeof(intev_t), ISC_EVENTATTR_NOPURGE, NULL, ISC_SOCKEVENT_INTW, NULL, sock, sock, NULL, NULL); sock->magic = SOCKET_MAGIC; *socketp = sock; return (ISC_R_SUCCESS); error: if (sock->recvcmsgbuf != NULL) isc_mem_put(manager->mctx, sock->recvcmsgbuf, sock->recvcmsgbuflen); if (sock->sendcmsgbuf != NULL) isc_mem_put(manager->mctx, sock->sendcmsgbuf, sock->sendcmsgbuflen); isc_mem_put(manager->mctx, sock, sizeof(*sock)); return (ret); } /* * This event requires that the various lists be empty, that the reference * count be 1, and that the magic number is valid. The other socket bits, * like the lock, must be initialized as well. The fd associated must be * marked as closed, by setting it to -1 on close, or this routine will * also close the socket. */ static void free_socket(isc_socket_t **socketp) { isc_socket_t *sock = *socketp; INSIST(sock->references == 0); INSIST(VALID_SOCKET(sock)); INSIST(!sock->connecting); INSIST(!sock->pending_recv); INSIST(!sock->pending_send); INSIST(!sock->pending_accept); INSIST(ISC_LIST_EMPTY(sock->recv_list)); INSIST(ISC_LIST_EMPTY(sock->send_list)); INSIST(ISC_LIST_EMPTY(sock->accept_list)); INSIST(!ISC_LINK_LINKED(sock, link)); if (sock->recvcmsgbuf != NULL) isc_mem_put(sock->manager->mctx, sock->recvcmsgbuf, sock->recvcmsgbuflen); if (sock->sendcmsgbuf != NULL) isc_mem_put(sock->manager->mctx, sock->sendcmsgbuf, sock->sendcmsgbuflen); sock->magic = 0; DESTROYLOCK(&sock->lock); isc_mem_put(sock->manager->mctx, sock, sizeof(*sock)); *socketp = NULL; } /* * Create a new 'type' socket managed by 'manager'. Events * will be posted to 'task' and when dispatched 'action' will be * called with 'arg' as the arg value. The new socket is returned * in 'socketp'. */ isc_result_t isc_socket_create(isc_socketmgr_t *manager, int pf, isc_sockettype_t type, isc_socket_t **socketp) { isc_socket_t *sock = NULL; isc_result_t ret; #if defined(USE_CMSG) || defined(SO_BSDCOMPAT) int on = 1; #endif char strbuf[ISC_STRERRORSIZE]; const char *err = "socket"; REQUIRE(VALID_MANAGER(manager)); REQUIRE(socketp != NULL && *socketp == NULL); ret = allocate_socket(manager, type, &sock); if (ret != ISC_R_SUCCESS) return (ret); sock->pf = pf; switch (type) { case isc_sockettype_udp: sock->fd = socket(pf, SOCK_DGRAM, IPPROTO_UDP); break; case isc_sockettype_tcp: sock->fd = socket(pf, SOCK_STREAM, IPPROTO_TCP); break; } #ifdef F_DUPFD /* * Leave a space for stdio to work in. */ if (sock->fd >= 0 && sock->fd < 20) { int new, tmp; new = fcntl(sock->fd, F_DUPFD, 20); tmp = errno; (void)close(sock->fd); errno = tmp; sock->fd = new; err = "isc_socket_create: fcntl"; } #endif if (sock->fd >= (int)FD_SETSIZE) { (void)close(sock->fd); isc_log_iwrite(isc_lctx, ISC_LOGCATEGORY_GENERAL, ISC_LOGMODULE_SOCKET, ISC_LOG_ERROR, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_TOOMANYFDS, "%s: too many open file descriptors", "socket"); free_socket(&sock); return (ISC_R_NORESOURCES); } if (sock->fd < 0) { free_socket(&sock); switch (errno) { case EMFILE: case ENFILE: case ENOBUFS: return (ISC_R_NORESOURCES); case EPROTONOSUPPORT: case EPFNOSUPPORT: case EAFNOSUPPORT: /* * Linux 2.2 (and maybe others) return EINVAL instead of * EAFNOSUPPORT. */ case EINVAL: return (ISC_R_FAMILYNOSUPPORT); default: isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "%s() %s: %s", err, isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed"), strbuf); return (ISC_R_UNEXPECTED); } } if (make_nonblock(sock->fd) != ISC_R_SUCCESS) { (void)close(sock->fd); free_socket(&sock); return (ISC_R_UNEXPECTED); } #ifdef SO_BSDCOMPAT if (setsockopt(sock->fd, SOL_SOCKET, SO_BSDCOMPAT, (void *)&on, sizeof(on)) < 0) { isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "setsockopt(%d, SO_BSDCOMPAT) %s: %s", sock->fd, isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed"), strbuf); /* Press on... */ } #endif #if defined(USE_CMSG) if (type == isc_sockettype_udp) { #if defined(SO_TIMESTAMP) if (setsockopt(sock->fd, SOL_SOCKET, SO_TIMESTAMP, (void *)&on, sizeof(on)) < 0 && errno != ENOPROTOOPT) { isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "setsockopt(%d, SO_TIMESTAMP) %s: %s", sock->fd, isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed"), strbuf); /* Press on... */ } #endif /* SO_TIMESTAMP */ #if defined(ISC_PLATFORM_HAVEIPV6) if (pf == AF_INET6 && sock->recvcmsgbuflen == 0U) { /* * Warn explicitly because this anomaly can be hidden * in usual operation (and unexpectedly appear later). */ UNEXPECTED_ERROR(__FILE__, __LINE__, "No buffer available to receive " "IPv6 destination"); } #ifdef ISC_PLATFORM_HAVEIN6PKTINFO #ifdef IPV6_RECVPKTINFO /* 2292bis */ if ((pf == AF_INET6) && (setsockopt(sock->fd, IPPROTO_IPV6, IPV6_RECVPKTINFO, (void *)&on, sizeof(on)) < 0)) { isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "setsockopt(%d, IPV6_RECVPKTINFO) " "%s: %s", sock->fd, isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed"), strbuf); } #else /* 2292 */ if ((pf == AF_INET6) && (setsockopt(sock->fd, IPPROTO_IPV6, IPV6_PKTINFO, (void *)&on, sizeof(on)) < 0)) { isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "setsockopt(%d, IPV6_PKTINFO) %s: %s", sock->fd, isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed"), strbuf); } #endif /* IPV6_RECVPKTINFO */ #endif /* ISC_PLATFORM_HAVEIN6PKTINFO */ #ifdef IPV6_USE_MIN_MTU /*2292bis, not too common yet*/ /* use minimum MTU */ if (pf == AF_INET6) { (void)setsockopt(sock->fd, IPPROTO_IPV6, IPV6_USE_MIN_MTU, (void *)&on, sizeof(on)); } #endif #endif /* ISC_PLATFORM_HAVEIPV6 */ } #endif /* USE_CMSG */ sock->references = 1; *socketp = sock; LOCK(&manager->lock); /* * Note we don't have to lock the socket like we normally would because * there are no external references to it yet. */ manager->fds[sock->fd] = sock; manager->fdstate[sock->fd] = MANAGED; ISC_LIST_APPEND(manager->socklist, sock, link); if (manager->maxfd < sock->fd) manager->maxfd = sock->fd; UNLOCK(&manager->lock); socket_log(sock, NULL, CREATION, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_CREATED, "created"); return (ISC_R_SUCCESS); } /* * Attach to a socket. Caller must explicitly detach when it is done. */ void isc_socket_attach(isc_socket_t *sock, isc_socket_t **socketp) { REQUIRE(VALID_SOCKET(sock)); REQUIRE(socketp != NULL && *socketp == NULL); LOCK(&sock->lock); sock->references++; UNLOCK(&sock->lock); *socketp = sock; } /* * Dereference a socket. If this is the last reference to it, clean things * up by destroying the socket. */ void isc_socket_detach(isc_socket_t **socketp) { isc_socket_t *sock; isc_boolean_t kill_socket = ISC_FALSE; REQUIRE(socketp != NULL); sock = *socketp; REQUIRE(VALID_SOCKET(sock)); LOCK(&sock->lock); REQUIRE(sock->references > 0); sock->references--; if (sock->references == 0) kill_socket = ISC_TRUE; UNLOCK(&sock->lock); if (kill_socket) destroy(&sock); *socketp = NULL; } /* * I/O is possible on a given socket. Schedule an event to this task that * will call an internal function to do the I/O. This will charge the * task with the I/O operation and let our select loop handler get back * to doing something real as fast as possible. * * The socket and manager must be locked before calling this function. */ static void dispatch_recv(isc_socket_t *sock) { intev_t *iev; isc_socketevent_t *ev; INSIST(!sock->pending_recv); ev = ISC_LIST_HEAD(sock->recv_list); if (ev == NULL) return; sock->pending_recv = 1; iev = &sock->readable_ev; socket_log(sock, NULL, EVENT, NULL, 0, 0, "dispatch_recv: event %p -> task %p", ev, ev->ev_sender); sock->references++; iev->ev_sender = sock; iev->ev_action = internal_recv; iev->ev_arg = sock; isc_task_send(ev->ev_sender, (isc_event_t **)&iev); } static void dispatch_send(isc_socket_t *sock) { intev_t *iev; isc_socketevent_t *ev; INSIST(!sock->pending_send); ev = ISC_LIST_HEAD(sock->send_list); if (ev == NULL) return; sock->pending_send = 1; iev = &sock->writable_ev; socket_log(sock, NULL, EVENT, NULL, 0, 0, "dispatch_send: event %p -> task %p", ev, ev->ev_sender); sock->references++; iev->ev_sender = sock; iev->ev_action = internal_send; iev->ev_arg = sock; isc_task_send(ev->ev_sender, (isc_event_t **)&iev); } /* * Dispatch an internal accept event. */ static void dispatch_accept(isc_socket_t *sock) { intev_t *iev; isc_socket_newconnev_t *ev; INSIST(!sock->pending_accept); /* * Are there any done events left, or were they all canceled * before the manager got the socket lock? */ ev = ISC_LIST_HEAD(sock->accept_list); if (ev == NULL) return; sock->pending_accept = 1; iev = &sock->readable_ev; sock->references++; /* keep socket around for this internal event */ iev->ev_sender = sock; iev->ev_action = internal_accept; iev->ev_arg = sock; isc_task_send(ev->ev_sender, (isc_event_t **)&iev); } static void dispatch_connect(isc_socket_t *sock) { intev_t *iev; isc_socket_connev_t *ev; iev = &sock->writable_ev; ev = sock->connect_ev; INSIST(ev != NULL); /* XXX */ INSIST(sock->connecting); sock->references++; /* keep socket around for this internal event */ iev->ev_sender = sock; iev->ev_action = internal_connect; iev->ev_arg = sock; isc_task_send(ev->ev_sender, (isc_event_t **)&iev); } /* * Dequeue an item off the given socket's read queue, set the result code * in the done event to the one provided, and send it to the task it was * destined for. * * If the event to be sent is on a list, remove it before sending. If * asked to, send and detach from the socket as well. * * Caller must have the socket locked if the event is attached to the socket. */ static void send_recvdone_event(isc_socket_t *sock, isc_socketevent_t **dev) { isc_task_t *task; task = (*dev)->ev_sender; (*dev)->ev_sender = sock; if (ISC_LINK_LINKED(*dev, ev_link)) ISC_LIST_DEQUEUE(sock->recv_list, *dev, ev_link); if (((*dev)->attributes & ISC_SOCKEVENTATTR_ATTACHED) == ISC_SOCKEVENTATTR_ATTACHED) isc_task_sendanddetach(&task, (isc_event_t **)dev); else isc_task_send(task, (isc_event_t **)dev); } /* * See comments for send_recvdone_event() above. * * Caller must have the socket locked if the event is attached to the socket. */ static void send_senddone_event(isc_socket_t *sock, isc_socketevent_t **dev) { isc_task_t *task; INSIST(dev != NULL && *dev != NULL); task = (*dev)->ev_sender; (*dev)->ev_sender = sock; if (ISC_LINK_LINKED(*dev, ev_link)) ISC_LIST_DEQUEUE(sock->send_list, *dev, ev_link); if (((*dev)->attributes & ISC_SOCKEVENTATTR_ATTACHED) == ISC_SOCKEVENTATTR_ATTACHED) isc_task_sendanddetach(&task, (isc_event_t **)dev); else isc_task_send(task, (isc_event_t **)dev); } /* * Call accept() on a socket, to get the new file descriptor. The listen * socket is used as a prototype to create a new isc_socket_t. The new * socket has one outstanding reference. The task receiving the event * will be detached from just after the event is delivered. * * On entry to this function, the event delivered is the internal * readable event, and the first item on the accept_list should be * the done event we want to send. If the list is empty, this is a no-op, * so just unlock and return. */ static void internal_accept(isc_task_t *me, isc_event_t *ev) { isc_socket_t *sock; isc_socketmgr_t *manager; isc_socket_newconnev_t *dev; isc_task_t *task; ISC_SOCKADDR_LEN_T addrlen; int fd; isc_result_t result = ISC_R_SUCCESS; char strbuf[ISC_STRERRORSIZE]; const char *err = "accept"; UNUSED(me); sock = ev->ev_sender; INSIST(VALID_SOCKET(sock)); LOCK(&sock->lock); socket_log(sock, NULL, TRACE, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_ACCEPTLOCK, "internal_accept called, locked socket"); manager = sock->manager; INSIST(VALID_MANAGER(manager)); INSIST(sock->listener); INSIST(sock->pending_accept == 1); sock->pending_accept = 0; INSIST(sock->references > 0); sock->references--; /* the internal event is done with this socket */ if (sock->references == 0) { UNLOCK(&sock->lock); destroy(&sock); return; } /* * Get the first item off the accept list. * If it is empty, unlock the socket and return. */ dev = ISC_LIST_HEAD(sock->accept_list); if (dev == NULL) { UNLOCK(&sock->lock); return; } /* * Try to accept the new connection. If the accept fails with * EAGAIN or EINTR, simply poke the watcher to watch this socket * again. Also ignore ECONNRESET, which has been reported to * be spuriously returned on Linux 2.2.19 although it is not * a documented error for accept(). ECONNABORTED has been * reported for Solaris 8. The rest are thrown in not because * we have seen them but because they are ignored by other * deamons such as BIND 8 and Apache. */ addrlen = sizeof(dev->newsocket->address.type); memset(&dev->newsocket->address.type.sa, 0, addrlen); fd = accept(sock->fd, &dev->newsocket->address.type.sa, (void *)&addrlen); #ifdef F_DUPFD /* * Leave a space for stdio to work in. */ if (fd >= 0 && fd < 20) { int new, tmp; new = fcntl(fd, F_DUPFD, 20); tmp = errno; (void)close(fd); errno = tmp; fd = new; err = "fcntl"; } #endif if (fd < 0) { if (SOFT_ERROR(errno)) goto soft_error; switch (errno) { case ENOBUFS: case ENFILE: case ENOMEM: case ECONNRESET: case ECONNABORTED: case EHOSTUNREACH: case EHOSTDOWN: case ENETUNREACH: case ENETDOWN: case ECONNREFUSED: #ifdef EPROTO case EPROTO: #endif #ifdef ENONET case ENONET: #endif goto soft_error; default: break; } isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "internal_accept: %s() %s: %s", err, isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed"), strbuf); fd = -1; result = ISC_R_UNEXPECTED; } else { if (addrlen == 0U) { UNEXPECTED_ERROR(__FILE__, __LINE__, "internal_accept(): " "accept() failed to return " "remote address"); (void)close(fd); goto soft_error; } else if (dev->newsocket->address.type.sa.sa_family != sock->pf) { UNEXPECTED_ERROR(__FILE__, __LINE__, "internal_accept(): " "accept() returned peer address " "family %u (expected %u)", dev->newsocket->address. type.sa.sa_family, sock->pf); (void)close(fd); goto soft_error; } else if (fd >= (int)FD_SETSIZE) { isc_log_iwrite(isc_lctx, ISC_LOGCATEGORY_GENERAL, ISC_LOGMODULE_SOCKET, ISC_LOG_ERROR, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_TOOMANYFDS, "%s: too many open file descriptors", "accept"); (void)close(fd); goto soft_error; } } if (fd != -1) { dev->newsocket->address.length = addrlen; dev->newsocket->pf = sock->pf; } /* * Pull off the done event. */ ISC_LIST_UNLINK(sock->accept_list, dev, ev_link); /* * Poke watcher if there are more pending accepts. */ if (!ISC_LIST_EMPTY(sock->accept_list)) select_poke(sock->manager, sock->fd, SELECT_POKE_ACCEPT); UNLOCK(&sock->lock); if (fd != -1 && (make_nonblock(fd) != ISC_R_SUCCESS)) { (void)close(fd); fd = -1; result = ISC_R_UNEXPECTED; } /* * -1 means the new socket didn't happen. */ if (fd != -1) { LOCK(&manager->lock); ISC_LIST_APPEND(manager->socklist, dev->newsocket, link); dev->newsocket->fd = fd; dev->newsocket->bound = 1; dev->newsocket->connected = 1; /* * Save away the remote address */ dev->address = dev->newsocket->address; manager->fds[fd] = dev->newsocket; manager->fdstate[fd] = MANAGED; if (manager->maxfd < fd) manager->maxfd = fd; socket_log(sock, &dev->newsocket->address, CREATION, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_ACCEPTEDCXN, "accepted connection, new socket %p", dev->newsocket); UNLOCK(&manager->lock); } else { dev->newsocket->references--; free_socket(&dev->newsocket); } /* * Fill in the done event details and send it off. */ dev->result = result; task = dev->ev_sender; dev->ev_sender = sock; isc_task_sendanddetach(&task, ISC_EVENT_PTR(&dev)); return; soft_error: select_poke(sock->manager, sock->fd, SELECT_POKE_ACCEPT); UNLOCK(&sock->lock); return; } static void internal_recv(isc_task_t *me, isc_event_t *ev) { isc_socketevent_t *dev; isc_socket_t *sock; INSIST(ev->ev_type == ISC_SOCKEVENT_INTR); sock = ev->ev_sender; INSIST(VALID_SOCKET(sock)); LOCK(&sock->lock); socket_log(sock, NULL, IOEVENT, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_INTERNALRECV, "internal_recv: task %p got event %p", me, ev); INSIST(sock->pending_recv == 1); sock->pending_recv = 0; INSIST(sock->references > 0); sock->references--; /* the internal event is done with this socket */ if (sock->references == 0) { UNLOCK(&sock->lock); destroy(&sock); return; } /* * Try to do as much I/O as possible on this socket. There are no * limits here, currently. */ dev = ISC_LIST_HEAD(sock->recv_list); while (dev != NULL) { switch (doio_recv(sock, dev)) { case DOIO_SOFT: goto poke; case DOIO_EOF: /* * read of 0 means the remote end was closed. * Run through the event queue and dispatch all * the events with an EOF result code. */ do { dev->result = ISC_R_EOF; send_recvdone_event(sock, &dev); dev = ISC_LIST_HEAD(sock->recv_list); } while (dev != NULL); goto poke; case DOIO_SUCCESS: case DOIO_HARD: send_recvdone_event(sock, &dev); break; } dev = ISC_LIST_HEAD(sock->recv_list); } poke: if (!ISC_LIST_EMPTY(sock->recv_list)) select_poke(sock->manager, sock->fd, SELECT_POKE_READ); UNLOCK(&sock->lock); } static void internal_send(isc_task_t *me, isc_event_t *ev) { isc_socketevent_t *dev; isc_socket_t *sock; INSIST(ev->ev_type == ISC_SOCKEVENT_INTW); /* * Find out what socket this is and lock it. */ sock = (isc_socket_t *)ev->ev_sender; INSIST(VALID_SOCKET(sock)); LOCK(&sock->lock); socket_log(sock, NULL, IOEVENT, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_INTERNALSEND, "internal_send: task %p got event %p", me, ev); INSIST(sock->pending_send == 1); sock->pending_send = 0; INSIST(sock->references > 0); sock->references--; /* the internal event is done with this socket */ if (sock->references == 0) { UNLOCK(&sock->lock); destroy(&sock); return; } /* * Try to do as much I/O as possible on this socket. There are no * limits here, currently. */ dev = ISC_LIST_HEAD(sock->send_list); while (dev != NULL) { switch (doio_send(sock, dev)) { case DOIO_SOFT: goto poke; case DOIO_HARD: case DOIO_SUCCESS: send_senddone_event(sock, &dev); break; } dev = ISC_LIST_HEAD(sock->send_list); } poke: if (!ISC_LIST_EMPTY(sock->send_list)) select_poke(sock->manager, sock->fd, SELECT_POKE_WRITE); UNLOCK(&sock->lock); } static void process_fds(isc_socketmgr_t *manager, int maxfd, fd_set *readfds, fd_set *writefds) { int i; isc_socket_t *sock; isc_boolean_t unlock_sock; REQUIRE(maxfd <= (int)FD_SETSIZE); /* * Process read/writes on other fds here. Avoid locking * and unlocking twice if both reads and writes are possible. */ for (i = 0; i < maxfd; i++) { #ifdef ISC_PLATFORM_USETHREADS if (i == manager->pipe_fds[0] || i == manager->pipe_fds[1]) continue; #endif /* ISC_PLATFORM_USETHREADS */ if (manager->fdstate[i] == CLOSE_PENDING) { manager->fdstate[i] = CLOSED; FD_CLR(i, &manager->read_fds); FD_CLR(i, &manager->write_fds); (void)close(i); continue; } sock = manager->fds[i]; unlock_sock = ISC_FALSE; if (FD_ISSET(i, readfds)) { if (sock == NULL) { FD_CLR(i, &manager->read_fds); goto check_write; } unlock_sock = ISC_TRUE; LOCK(&sock->lock); if (!SOCK_DEAD(sock)) { if (sock->listener) dispatch_accept(sock); else dispatch_recv(sock); } FD_CLR(i, &manager->read_fds); } check_write: if (FD_ISSET(i, writefds)) { if (sock == NULL) { FD_CLR(i, &manager->write_fds); continue; } if (!unlock_sock) { unlock_sock = ISC_TRUE; LOCK(&sock->lock); } if (!SOCK_DEAD(sock)) { if (sock->connecting) dispatch_connect(sock); else dispatch_send(sock); } FD_CLR(i, &manager->write_fds); } if (unlock_sock) UNLOCK(&sock->lock); } } #ifdef ISC_PLATFORM_USETHREADS /* * This is the thread that will loop forever, always in a select or poll * call. * * When select returns something to do, track down what thread gets to do * this I/O and post the event to it. */ static isc_threadresult_t watcher(void *uap) { isc_socketmgr_t *manager = uap; isc_boolean_t done; int ctlfd; int cc; fd_set readfds; fd_set writefds; int msg, fd; int maxfd; char strbuf[ISC_STRERRORSIZE]; /* * Get the control fd here. This will never change. */ LOCK(&manager->lock); ctlfd = manager->pipe_fds[0]; done = ISC_FALSE; while (!done) { do { readfds = manager->read_fds; writefds = manager->write_fds; maxfd = manager->maxfd + 1; UNLOCK(&manager->lock); cc = select(maxfd, &readfds, &writefds, NULL, NULL); if (cc < 0) { if (!SOFT_ERROR(errno)) { isc__strerror(errno, strbuf, sizeof(strbuf)); FATAL_ERROR(__FILE__, __LINE__, "select() %s: %s", isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed"), strbuf); } } LOCK(&manager->lock); } while (cc < 0); /* * Process reads on internal, control fd. */ if (FD_ISSET(ctlfd, &readfds)) { for (;;) { select_readmsg(manager, &fd, &msg); manager_log(manager, IOEVENT, isc_msgcat_get(isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_WATCHERMSG, "watcher got message %d"), msg); /* * Nothing to read? */ if (msg == SELECT_POKE_NOTHING) break; /* * Handle shutdown message. We really should * jump out of this loop right away, but * it doesn't matter if we have to do a little * more work first. */ if (msg == SELECT_POKE_SHUTDOWN) { done = ISC_TRUE; break; } /* * This is a wakeup on a socket. Look * at the event queue for both read and write, * and decide if we need to watch on it now * or not. */ wakeup_socket(manager, fd, msg); } } process_fds(manager, maxfd, &readfds, &writefds); } manager_log(manager, TRACE, isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_EXITING, "watcher exiting")); UNLOCK(&manager->lock); return ((isc_threadresult_t)0); } #endif /* ISC_PLATFORM_USETHREADS */ /* * Create a new socket manager. */ isc_result_t isc_socketmgr_create(isc_mem_t *mctx, isc_socketmgr_t **managerp) { isc_socketmgr_t *manager; #ifdef ISC_PLATFORM_USETHREADS char strbuf[ISC_STRERRORSIZE]; #endif REQUIRE(managerp != NULL && *managerp == NULL); #ifndef ISC_PLATFORM_USETHREADS if (socketmgr != NULL) { socketmgr->refs++; *managerp = socketmgr; return (ISC_R_SUCCESS); } #endif /* ISC_PLATFORM_USETHREADS */ manager = isc_mem_get(mctx, sizeof(*manager)); if (manager == NULL) return (ISC_R_NOMEMORY); manager->magic = SOCKET_MANAGER_MAGIC; manager->mctx = NULL; memset(manager->fds, 0, sizeof(manager->fds)); ISC_LIST_INIT(manager->socklist); if (isc_mutex_init(&manager->lock) != ISC_R_SUCCESS) { isc_mem_put(mctx, manager, sizeof(*manager)); UNEXPECTED_ERROR(__FILE__, __LINE__, "isc_mutex_init() %s", isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed")); return (ISC_R_UNEXPECTED); } #ifdef ISC_PLATFORM_USETHREADS if (isc_condition_init(&manager->shutdown_ok) != ISC_R_SUCCESS) { DESTROYLOCK(&manager->lock); isc_mem_put(mctx, manager, sizeof(*manager)); UNEXPECTED_ERROR(__FILE__, __LINE__, "isc_condition_init() %s", isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed")); return (ISC_R_UNEXPECTED); } /* * Create the special fds that will be used to wake up the * select/poll loop when something internal needs to be done. */ if (pipe(manager->pipe_fds) != 0) { DESTROYLOCK(&manager->lock); isc_mem_put(mctx, manager, sizeof(*manager)); isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "pipe() %s: %s", isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed"), strbuf); return (ISC_R_UNEXPECTED); } RUNTIME_CHECK(make_nonblock(manager->pipe_fds[0]) == ISC_R_SUCCESS); #if 0 RUNTIME_CHECK(make_nonblock(manager->pipe_fds[1]) == ISC_R_SUCCESS); #endif #else /* ISC_PLATFORM_USETHREADS */ manager->refs = 1; #endif /* ISC_PLATFORM_USETHREADS */ /* * Set up initial state for the select loop */ FD_ZERO(&manager->read_fds); FD_ZERO(&manager->write_fds); #ifdef ISC_PLATFORM_USETHREADS FD_SET(manager->pipe_fds[0], &manager->read_fds); manager->maxfd = manager->pipe_fds[0]; #else /* ISC_PLATFORM_USETHREADS */ manager->maxfd = 0; #endif /* ISC_PLATFORM_USETHREADS */ memset(manager->fdstate, 0, sizeof(manager->fdstate)); #ifdef ISC_PLATFORM_USETHREADS /* * Start up the select/poll thread. */ if (isc_thread_create(watcher, manager, &manager->watcher) != ISC_R_SUCCESS) { (void)close(manager->pipe_fds[0]); (void)close(manager->pipe_fds[1]); DESTROYLOCK(&manager->lock); isc_mem_put(mctx, manager, sizeof(*manager)); UNEXPECTED_ERROR(__FILE__, __LINE__, "isc_thread_create() %s", isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed")); return (ISC_R_UNEXPECTED); } #endif /* ISC_PLATFORM_USETHREADS */ isc_mem_attach(mctx, &manager->mctx); #ifndef ISC_PLATFORM_USETHREADS socketmgr = manager; #endif /* ISC_PLATFORM_USETHREADS */ *managerp = manager; return (ISC_R_SUCCESS); } void isc_socketmgr_destroy(isc_socketmgr_t **managerp) { isc_socketmgr_t *manager; int i; isc_mem_t *mctx; /* * Destroy a socket manager. */ REQUIRE(managerp != NULL); manager = *managerp; REQUIRE(VALID_MANAGER(manager)); #ifndef ISC_PLATFORM_USETHREADS if (manager->refs > 1) { manager->refs--; *managerp = NULL; return; } #endif /* ISC_PLATFORM_USETHREADS */ LOCK(&manager->lock); #ifdef ISC_PLATFORM_USETHREADS /* * Wait for all sockets to be destroyed. */ while (!ISC_LIST_EMPTY(manager->socklist)) { manager_log(manager, CREATION, isc_msgcat_get(isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_SOCKETSREMAIN, "sockets exist")); WAIT(&manager->shutdown_ok, &manager->lock); } #else /* ISC_PLATFORM_USETHREADS */ /* * Hope all sockets have been destroyed. */ if (!ISC_LIST_EMPTY(manager->socklist)) { manager_log(manager, CREATION, isc_msgcat_get(isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_SOCKETSREMAIN, "sockets exist")); INSIST(0); } #endif /* ISC_PLATFORM_USETHREADS */ UNLOCK(&manager->lock); /* * Here, poke our select/poll thread. Do this by closing the write * half of the pipe, which will send EOF to the read half. * This is currently a no-op in the non-threaded case. */ select_poke(manager, 0, SELECT_POKE_SHUTDOWN); #ifdef ISC_PLATFORM_USETHREADS /* * Wait for thread to exit. */ if (isc_thread_join(manager->watcher, NULL) != ISC_R_SUCCESS) UNEXPECTED_ERROR(__FILE__, __LINE__, "isc_thread_join() %s", isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed")); #endif /* ISC_PLATFORM_USETHREADS */ /* * Clean up. */ #ifdef ISC_PLATFORM_USETHREADS (void)close(manager->pipe_fds[0]); (void)close(manager->pipe_fds[1]); (void)isc_condition_destroy(&manager->shutdown_ok); #endif /* ISC_PLATFORM_USETHREADS */ for (i = 0; i < (int)FD_SETSIZE; i++) if (manager->fdstate[i] == CLOSE_PENDING) (void)close(i); DESTROYLOCK(&manager->lock); manager->magic = 0; mctx= manager->mctx; isc_mem_put(mctx, manager, sizeof(*manager)); isc_mem_detach(&mctx); *managerp = NULL; } static isc_result_t socket_recv(isc_socket_t *sock, isc_socketevent_t *dev, isc_task_t *task, unsigned int flags) { int io_state; isc_boolean_t have_lock = ISC_FALSE; isc_task_t *ntask = NULL; isc_result_t result = ISC_R_SUCCESS; dev->ev_sender = task; if (sock->type == isc_sockettype_udp) { io_state = doio_recv(sock, dev); } else { LOCK(&sock->lock); have_lock = ISC_TRUE; if (ISC_LIST_EMPTY(sock->recv_list)) io_state = doio_recv(sock, dev); else io_state = DOIO_SOFT; } switch (io_state) { case DOIO_SOFT: /* * We couldn't read all or part of the request right now, so * queue it. * * Attach to socket and to task */ isc_task_attach(task, &ntask); dev->attributes |= ISC_SOCKEVENTATTR_ATTACHED; if (!have_lock) { LOCK(&sock->lock); have_lock = ISC_TRUE; } /* * Enqueue the request. If the socket was previously not being * watched, poke the watcher to start paying attention to it. */ if (ISC_LIST_EMPTY(sock->recv_list)) select_poke(sock->manager, sock->fd, SELECT_POKE_READ); ISC_LIST_ENQUEUE(sock->recv_list, dev, ev_link); socket_log(sock, NULL, EVENT, NULL, 0, 0, "socket_recv: event %p -> task %p", dev, ntask); if ((flags & ISC_SOCKFLAG_IMMEDIATE) != 0) result = ISC_R_INPROGRESS; break; case DOIO_EOF: dev->result = ISC_R_EOF; /* fallthrough */ case DOIO_HARD: case DOIO_SUCCESS: if ((flags & ISC_SOCKFLAG_IMMEDIATE) == 0) send_recvdone_event(sock, &dev); break; } if (have_lock) UNLOCK(&sock->lock); return (result); } isc_result_t isc_socket_recvv(isc_socket_t *sock, isc_bufferlist_t *buflist, unsigned int minimum, isc_task_t *task, isc_taskaction_t action, const void *arg) { isc_socketevent_t *dev; isc_socketmgr_t *manager; unsigned int iocount; isc_buffer_t *buffer; REQUIRE(VALID_SOCKET(sock)); REQUIRE(buflist != NULL); REQUIRE(!ISC_LIST_EMPTY(*buflist)); REQUIRE(task != NULL); REQUIRE(action != NULL); manager = sock->manager; REQUIRE(VALID_MANAGER(manager)); iocount = isc_bufferlist_availablecount(buflist); REQUIRE(iocount > 0); INSIST(sock->bound); dev = allocate_socketevent(sock, ISC_SOCKEVENT_RECVDONE, action, arg); if (dev == NULL) { return (ISC_R_NOMEMORY); } /* * UDP sockets are always partial read */ if (sock->type == isc_sockettype_udp) dev->minimum = 1; else { if (minimum == 0) dev->minimum = iocount; else dev->minimum = minimum; } /* * Move each buffer from the passed in list to our internal one. */ buffer = ISC_LIST_HEAD(*buflist); while (buffer != NULL) { ISC_LIST_DEQUEUE(*buflist, buffer, link); ISC_LIST_ENQUEUE(dev->bufferlist, buffer, link); buffer = ISC_LIST_HEAD(*buflist); } return (socket_recv(sock, dev, task, 0)); } isc_result_t isc_socket_recv(isc_socket_t *sock, isc_region_t *region, unsigned int minimum, isc_task_t *task, isc_taskaction_t action, const void *arg) { isc_socketevent_t *dev; isc_socketmgr_t *manager; REQUIRE(VALID_SOCKET(sock)); REQUIRE(action != NULL); manager = sock->manager; REQUIRE(VALID_MANAGER(manager)); INSIST(sock->bound); dev = allocate_socketevent(sock, ISC_SOCKEVENT_RECVDONE, action, arg); if (dev == NULL) return (ISC_R_NOMEMORY); return (isc_socket_recv2(sock, region, minimum, task, dev, 0)); } isc_result_t isc_socket_recv2(isc_socket_t *sock, isc_region_t *region, unsigned int minimum, isc_task_t *task, isc_socketevent_t *event, unsigned int flags) { event->ev_sender = sock; event->result = ISC_R_UNEXPECTED; ISC_LIST_INIT(event->bufferlist); event->region = *region; event->n = 0; event->offset = 0; event->attributes = 0; /* * UDP sockets are always partial read. */ if (sock->type == isc_sockettype_udp) event->minimum = 1; else { if (minimum == 0) event->minimum = region->length; else event->minimum = minimum; } return (socket_recv(sock, event, task, flags)); } static isc_result_t socket_send(isc_socket_t *sock, isc_socketevent_t *dev, isc_task_t *task, isc_sockaddr_t *address, struct in6_pktinfo *pktinfo, unsigned int flags) { int io_state; isc_boolean_t have_lock = ISC_FALSE; isc_task_t *ntask = NULL; isc_result_t result = ISC_R_SUCCESS; dev->ev_sender = task; set_dev_address(address, sock, dev); if (pktinfo != NULL) { dev->attributes |= ISC_SOCKEVENTATTR_PKTINFO; dev->pktinfo = *pktinfo; if (!isc_sockaddr_issitelocal(&dev->address) && !isc_sockaddr_islinklocal(&dev->address)) { socket_log(sock, NULL, TRACE, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_PKTINFOPROVIDED, "pktinfo structure provided, ifindex %u " "(set to 0)", pktinfo->ipi6_ifindex); /* * Set the pktinfo index to 0 here, to let the * kernel decide what interface it should send on. */ dev->pktinfo.ipi6_ifindex = 0; } } if (sock->type == isc_sockettype_udp) io_state = doio_send(sock, dev); else { LOCK(&sock->lock); have_lock = ISC_TRUE; if (ISC_LIST_EMPTY(sock->send_list)) io_state = doio_send(sock, dev); else io_state = DOIO_SOFT; } switch (io_state) { case DOIO_SOFT: /* * We couldn't send all or part of the request right now, so * queue it unless ISC_SOCKFLAG_NORETRY is set. */ if ((flags & ISC_SOCKFLAG_NORETRY) == 0) { isc_task_attach(task, &ntask); dev->attributes |= ISC_SOCKEVENTATTR_ATTACHED; if (!have_lock) { LOCK(&sock->lock); have_lock = ISC_TRUE; } /* * Enqueue the request. If the socket was previously * not being watched, poke the watcher to start * paying attention to it. */ if (ISC_LIST_EMPTY(sock->send_list)) select_poke(sock->manager, sock->fd, SELECT_POKE_WRITE); ISC_LIST_ENQUEUE(sock->send_list, dev, ev_link); socket_log(sock, NULL, EVENT, NULL, 0, 0, "socket_send: event %p -> task %p", dev, ntask); if ((flags & ISC_SOCKFLAG_IMMEDIATE) != 0) result = ISC_R_INPROGRESS; break; } case DOIO_HARD: case DOIO_SUCCESS: if ((flags & ISC_SOCKFLAG_IMMEDIATE) == 0) send_senddone_event(sock, &dev); break; } if (have_lock) UNLOCK(&sock->lock); return (result); } isc_result_t isc_socket_send(isc_socket_t *sock, isc_region_t *region, isc_task_t *task, isc_taskaction_t action, const void *arg) { /* * REQUIRE() checking is performed in isc_socket_sendto(). */ return (isc_socket_sendto(sock, region, task, action, arg, NULL, NULL)); } isc_result_t isc_socket_sendto(isc_socket_t *sock, isc_region_t *region, isc_task_t *task, isc_taskaction_t action, const void *arg, isc_sockaddr_t *address, struct in6_pktinfo *pktinfo) { isc_socketevent_t *dev; isc_socketmgr_t *manager; REQUIRE(VALID_SOCKET(sock)); REQUIRE(region != NULL); REQUIRE(task != NULL); REQUIRE(action != NULL); manager = sock->manager; REQUIRE(VALID_MANAGER(manager)); INSIST(sock->bound); dev = allocate_socketevent(sock, ISC_SOCKEVENT_SENDDONE, action, arg); if (dev == NULL) { return (ISC_R_NOMEMORY); } dev->region = *region; return (socket_send(sock, dev, task, address, pktinfo, 0)); } isc_result_t isc_socket_sendv(isc_socket_t *sock, isc_bufferlist_t *buflist, isc_task_t *task, isc_taskaction_t action, const void *arg) { return (isc_socket_sendtov(sock, buflist, task, action, arg, NULL, NULL)); } isc_result_t isc_socket_sendtov(isc_socket_t *sock, isc_bufferlist_t *buflist, isc_task_t *task, isc_taskaction_t action, const void *arg, isc_sockaddr_t *address, struct in6_pktinfo *pktinfo) { isc_socketevent_t *dev; isc_socketmgr_t *manager; unsigned int iocount; isc_buffer_t *buffer; REQUIRE(VALID_SOCKET(sock)); REQUIRE(buflist != NULL); REQUIRE(!ISC_LIST_EMPTY(*buflist)); REQUIRE(task != NULL); REQUIRE(action != NULL); manager = sock->manager; REQUIRE(VALID_MANAGER(manager)); iocount = isc_bufferlist_usedcount(buflist); REQUIRE(iocount > 0); dev = allocate_socketevent(sock, ISC_SOCKEVENT_SENDDONE, action, arg); if (dev == NULL) { return (ISC_R_NOMEMORY); } /* * Move each buffer from the passed in list to our internal one. */ buffer = ISC_LIST_HEAD(*buflist); while (buffer != NULL) { ISC_LIST_DEQUEUE(*buflist, buffer, link); ISC_LIST_ENQUEUE(dev->bufferlist, buffer, link); buffer = ISC_LIST_HEAD(*buflist); } return (socket_send(sock, dev, task, address, pktinfo, 0)); } isc_result_t isc_socket_sendto2(isc_socket_t *sock, isc_region_t *region, isc_task_t *task, isc_sockaddr_t *address, struct in6_pktinfo *pktinfo, isc_socketevent_t *event, unsigned int flags) { REQUIRE((flags & ~(ISC_SOCKFLAG_IMMEDIATE|ISC_SOCKFLAG_NORETRY)) == 0); if ((flags & ISC_SOCKFLAG_NORETRY) != 0) REQUIRE(sock->type == isc_sockettype_udp); event->ev_sender = sock; event->result = ISC_R_UNEXPECTED; ISC_LIST_INIT(event->bufferlist); event->region = *region; event->n = 0; event->offset = 0; event->attributes = 0; return (socket_send(sock, event, task, address, pktinfo, flags)); } isc_result_t isc_socket_bind(isc_socket_t *sock, isc_sockaddr_t *sockaddr) { char strbuf[ISC_STRERRORSIZE]; int on = 1; LOCK(&sock->lock); INSIST(!sock->bound); if (sock->pf != sockaddr->type.sa.sa_family) { UNLOCK(&sock->lock); return (ISC_R_FAMILYMISMATCH); } /* * Only set SO_REUSEADDR when we want a specific port. */ if (isc_sockaddr_getport(sockaddr) != (in_port_t)0 && setsockopt(sock->fd, SOL_SOCKET, SO_REUSEADDR, (void *)&on, sizeof(on)) < 0) { UNEXPECTED_ERROR(__FILE__, __LINE__, "setsockopt(%d) %s", sock->fd, isc_msgcat_get(isc_msgcat, ISC_MSGSET_GENERAL, ISC_MSG_FAILED, "failed")); /* Press on... */ } if (bind(sock->fd, &sockaddr->type.sa, sockaddr->length) < 0) { UNLOCK(&sock->lock); switch (errno) { case EACCES: return (ISC_R_NOPERM); case EADDRNOTAVAIL: return (ISC_R_ADDRNOTAVAIL); case EADDRINUSE: return (ISC_R_ADDRINUSE); case EINVAL: return (ISC_R_BOUND); default: isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "bind: %s", strbuf); return (ISC_R_UNEXPECTED); } } socket_log(sock, sockaddr, TRACE, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_BOUND, "bound"); sock->bound = 1; UNLOCK(&sock->lock); return (ISC_R_SUCCESS); } isc_result_t isc_socket_filter(isc_socket_t *sock, const char *filter) { #ifdef SO_ACCEPTFILTER char strbuf[ISC_STRERRORSIZE]; struct accept_filter_arg afa; #else UNUSED(sock); UNUSED(filter); #endif REQUIRE(VALID_SOCKET(sock)); #ifdef SO_ACCEPTFILTER bzero(&afa, sizeof(afa)); strncpy(afa.af_name, filter, sizeof(afa.af_name)); if (setsockopt(sock->fd, SOL_SOCKET, SO_ACCEPTFILTER, &afa, sizeof(afa)) == -1) { isc__strerror(errno, strbuf, sizeof(strbuf)); socket_log(sock, NULL, CREATION, isc_msgcat, ISC_MSGSET_SOCKET, ISC_MSG_FILTER, "setsockopt(SO_ACCEPTFILTER): %s", strbuf); return (ISC_R_FAILURE); } return (ISC_R_SUCCESS); #else return (ISC_R_NOTIMPLEMENTED); #endif } /* * Set up to listen on a given socket. We do this by creating an internal * event that will be dispatched when the socket has read activity. The * watcher will send the internal event to the task when there is a new * connection. * * Unlike in read, we don't preallocate a done event here. Every time there * is a new connection we'll have to allocate a new one anyway, so we might * as well keep things simple rather than having to track them. */ isc_result_t isc_socket_listen(isc_socket_t *sock, unsigned int backlog) { char strbuf[ISC_STRERRORSIZE]; REQUIRE(VALID_SOCKET(sock)); LOCK(&sock->lock); REQUIRE(!sock->listener); REQUIRE(sock->bound); REQUIRE(sock->type == isc_sockettype_tcp); if (backlog == 0) backlog = SOMAXCONN; if (listen(sock->fd, (int)backlog) < 0) { UNLOCK(&sock->lock); isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "listen: %s", strbuf); return (ISC_R_UNEXPECTED); } sock->listener = 1; UNLOCK(&sock->lock); return (ISC_R_SUCCESS); } /* * This should try to do agressive accept() XXXMLG */ isc_result_t isc_socket_accept(isc_socket_t *sock, isc_task_t *task, isc_taskaction_t action, const void *arg) { isc_socket_newconnev_t *dev; isc_socketmgr_t *manager; isc_task_t *ntask = NULL; isc_socket_t *nsock; isc_result_t ret; isc_boolean_t do_poke = ISC_FALSE; REQUIRE(VALID_SOCKET(sock)); manager = sock->manager; REQUIRE(VALID_MANAGER(manager)); LOCK(&sock->lock); REQUIRE(sock->listener); /* * Sender field is overloaded here with the task we will be sending * this event to. Just before the actual event is delivered the * actual ev_sender will be touched up to be the socket. */ dev = (isc_socket_newconnev_t *) isc_event_allocate(manager->mctx, task, ISC_SOCKEVENT_NEWCONN, action, arg, sizeof(*dev)); if (dev == NULL) { UNLOCK(&sock->lock); return (ISC_R_NOMEMORY); } ISC_LINK_INIT(dev, ev_link); ret = allocate_socket(manager, sock->type, &nsock); if (ret != ISC_R_SUCCESS) { isc_event_free(ISC_EVENT_PTR(&dev)); UNLOCK(&sock->lock); return (ret); } /* * Attach to socket and to task. */ isc_task_attach(task, &ntask); nsock->references++; dev->ev_sender = ntask; dev->newsocket = nsock; /* * Poke watcher here. We still have the socket locked, so there * is no race condition. We will keep the lock for such a short * bit of time waking it up now or later won't matter all that much. */ if (ISC_LIST_EMPTY(sock->accept_list)) do_poke = ISC_TRUE; ISC_LIST_ENQUEUE(sock->accept_list, dev, ev_link); if (do_poke) select_poke(manager, sock->fd, SELECT_POKE_ACCEPT); UNLOCK(&sock->lock); return (ISC_R_SUCCESS); } isc_result_t isc_socket_connect(isc_socket_t *sock, isc_sockaddr_t *addr, isc_task_t *task, isc_taskaction_t action, const void *arg) { isc_socket_connev_t *dev; isc_task_t *ntask = NULL; isc_socketmgr_t *manager; int cc; char strbuf[ISC_STRERRORSIZE]; REQUIRE(VALID_SOCKET(sock)); REQUIRE(addr != NULL); REQUIRE(task != NULL); REQUIRE(action != NULL); manager = sock->manager; REQUIRE(VALID_MANAGER(manager)); REQUIRE(addr != NULL); if (isc_sockaddr_ismulticast(addr)) return (ISC_R_MULTICAST); LOCK(&sock->lock); REQUIRE(!sock->connecting); dev = (isc_socket_connev_t *)isc_event_allocate(manager->mctx, sock, ISC_SOCKEVENT_CONNECT, action, arg, sizeof(*dev)); if (dev == NULL) { UNLOCK(&sock->lock); return (ISC_R_NOMEMORY); } ISC_LINK_INIT(dev, ev_link); /* * Try to do the connect right away, as there can be only one * outstanding, and it might happen to complete. */ sock->address = *addr; cc = connect(sock->fd, &addr->type.sa, addr->length); if (cc < 0) { if (SOFT_ERROR(errno) || errno == EINPROGRESS) goto queue; switch (errno) { #define ERROR_MATCH(a, b) case a: dev->result = b; goto err_exit; ERROR_MATCH(EACCES, ISC_R_NOPERM); ERROR_MATCH(EADDRNOTAVAIL, ISC_R_ADDRNOTAVAIL); ERROR_MATCH(EAFNOSUPPORT, ISC_R_ADDRNOTAVAIL); ERROR_MATCH(ECONNREFUSED, ISC_R_CONNREFUSED); ERROR_MATCH(EHOSTUNREACH, ISC_R_HOSTUNREACH); #ifdef EHOSTDOWN ERROR_MATCH(EHOSTDOWN, ISC_R_HOSTUNREACH); #endif ERROR_MATCH(ENETUNREACH, ISC_R_NETUNREACH); ERROR_MATCH(ENOBUFS, ISC_R_NORESOURCES); ERROR_MATCH(EPERM, ISC_R_HOSTUNREACH); ERROR_MATCH(EPIPE, ISC_R_NOTCONNECTED); ERROR_MATCH(ECONNRESET, ISC_R_CONNECTIONRESET); #undef ERROR_MATCH } sock->connected = 0; isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "%d/%s", errno, strbuf); UNLOCK(&sock->lock); isc_event_free(ISC_EVENT_PTR(&dev)); return (ISC_R_UNEXPECTED); err_exit: sock->connected = 0; isc_task_send(task, ISC_EVENT_PTR(&dev)); UNLOCK(&sock->lock); return (ISC_R_SUCCESS); } /* * If connect completed, fire off the done event. */ if (cc == 0) { sock->connected = 1; sock->bound = 1; dev->result = ISC_R_SUCCESS; isc_task_send(task, ISC_EVENT_PTR(&dev)); UNLOCK(&sock->lock); return (ISC_R_SUCCESS); } queue: /* * Attach to task. */ isc_task_attach(task, &ntask); sock->connecting = 1; dev->ev_sender = ntask; /* * Poke watcher here. We still have the socket locked, so there * is no race condition. We will keep the lock for such a short * bit of time waking it up now or later won't matter all that much. */ if (sock->connect_ev == NULL) select_poke(manager, sock->fd, SELECT_POKE_CONNECT); sock->connect_ev = dev; UNLOCK(&sock->lock); return (ISC_R_SUCCESS); } /* * Called when a socket with a pending connect() finishes. */ static void internal_connect(isc_task_t *me, isc_event_t *ev) { isc_socket_t *sock; isc_socket_connev_t *dev; isc_task_t *task; int cc; ISC_SOCKADDR_LEN_T optlen; char strbuf[ISC_STRERRORSIZE]; char peerbuf[ISC_SOCKADDR_FORMATSIZE]; UNUSED(me); INSIST(ev->ev_type == ISC_SOCKEVENT_INTW); sock = ev->ev_sender; INSIST(VALID_SOCKET(sock)); LOCK(&sock->lock); /* * When the internal event was sent the reference count was bumped * to keep the socket around for us. Decrement the count here. */ INSIST(sock->references > 0); sock->references--; if (sock->references == 0) { UNLOCK(&sock->lock); destroy(&sock); return; } /* * Has this event been canceled? */ dev = sock->connect_ev; if (dev == NULL) { INSIST(!sock->connecting); UNLOCK(&sock->lock); return; } INSIST(sock->connecting); sock->connecting = 0; /* * Get any possible error status here. */ optlen = sizeof(cc); if (getsockopt(sock->fd, SOL_SOCKET, SO_ERROR, (void *)&cc, (void *)&optlen) < 0) cc = errno; else errno = cc; if (errno != 0) { /* * If the error is EAGAIN, just re-select on this * fd and pretend nothing strange happened. */ if (SOFT_ERROR(errno) || errno == EINPROGRESS) { sock->connecting = 1; select_poke(sock->manager, sock->fd, SELECT_POKE_CONNECT); UNLOCK(&sock->lock); return; } /* * Translate other errors into ISC_R_* flavors. */ switch (errno) { #define ERROR_MATCH(a, b) case a: dev->result = b; break; ERROR_MATCH(EACCES, ISC_R_NOPERM); ERROR_MATCH(EADDRNOTAVAIL, ISC_R_ADDRNOTAVAIL); ERROR_MATCH(EAFNOSUPPORT, ISC_R_ADDRNOTAVAIL); ERROR_MATCH(ECONNREFUSED, ISC_R_CONNREFUSED); ERROR_MATCH(EHOSTUNREACH, ISC_R_HOSTUNREACH); #ifdef EHOSTDOWN ERROR_MATCH(EHOSTDOWN, ISC_R_HOSTUNREACH); #endif ERROR_MATCH(ENETUNREACH, ISC_R_NETUNREACH); ERROR_MATCH(ENOBUFS, ISC_R_NORESOURCES); ERROR_MATCH(EPERM, ISC_R_HOSTUNREACH); ERROR_MATCH(EPIPE, ISC_R_NOTCONNECTED); ERROR_MATCH(ETIMEDOUT, ISC_R_TIMEDOUT); ERROR_MATCH(ECONNRESET, ISC_R_CONNECTIONRESET); #undef ERROR_MATCH default: dev->result = ISC_R_UNEXPECTED; isc_sockaddr_format(&sock->address, peerbuf, sizeof(peerbuf)); isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "internal_connect: connect(%s) %s", peerbuf, strbuf); } } else { dev->result = ISC_R_SUCCESS; sock->connected = 1; sock->bound = 1; } sock->connect_ev = NULL; UNLOCK(&sock->lock); task = dev->ev_sender; dev->ev_sender = sock; isc_task_sendanddetach(&task, ISC_EVENT_PTR(&dev)); } isc_result_t isc_socket_getpeername(isc_socket_t *sock, isc_sockaddr_t *addressp) { isc_result_t ret; REQUIRE(VALID_SOCKET(sock)); REQUIRE(addressp != NULL); LOCK(&sock->lock); if (sock->connected) { *addressp = sock->address; ret = ISC_R_SUCCESS; } else { ret = ISC_R_NOTCONNECTED; } UNLOCK(&sock->lock); return (ret); } isc_result_t isc_socket_getsockname(isc_socket_t *sock, isc_sockaddr_t *addressp) { ISC_SOCKADDR_LEN_T len; isc_result_t ret; char strbuf[ISC_STRERRORSIZE]; REQUIRE(VALID_SOCKET(sock)); REQUIRE(addressp != NULL); LOCK(&sock->lock); if (!sock->bound) { ret = ISC_R_NOTBOUND; goto out; } ret = ISC_R_SUCCESS; len = sizeof(addressp->type); if (getsockname(sock->fd, &addressp->type.sa, (void *)&len) < 0) { isc__strerror(errno, strbuf, sizeof(strbuf)); UNEXPECTED_ERROR(__FILE__, __LINE__, "getsockname: %s", strbuf); ret = ISC_R_UNEXPECTED; goto out; } addressp->length = (unsigned int)len; out: UNLOCK(&sock->lock); return (ret); } /* * Run through the list of events on this socket, and cancel the ones * queued for task "task" of type "how". "how" is a bitmask. */ void isc_socket_cancel(isc_socket_t *sock, isc_task_t *task, unsigned int how) { REQUIRE(VALID_SOCKET(sock)); /* * Quick exit if there is nothing to do. Don't even bother locking * in this case. */ if (how == 0) return; LOCK(&sock->lock); /* * All of these do the same thing, more or less. * Each will: * o If the internal event is marked as "posted" try to * remove it from the task's queue. If this fails, mark it * as canceled instead, and let the task clean it up later. * o For each I/O request for that task of that type, post * its done event with status of "ISC_R_CANCELED". * o Reset any state needed. */ if (((how & ISC_SOCKCANCEL_RECV) == ISC_SOCKCANCEL_RECV) && !ISC_LIST_EMPTY(sock->recv_list)) { isc_socketevent_t *dev; isc_socketevent_t *next; isc_task_t *current_task; dev = ISC_LIST_HEAD(sock->recv_list); while (dev != NULL) { current_task = dev->ev_sender; next = ISC_LIST_NEXT(dev, ev_link); if ((task == NULL) || (task == current_task)) { dev->result = ISC_R_CANCELED; send_recvdone_event(sock, &dev); } dev = next; } } if (((how & ISC_SOCKCANCEL_SEND) == ISC_SOCKCANCEL_SEND) && !ISC_LIST_EMPTY(sock->send_list)) { isc_socketevent_t *dev; isc_socketevent_t *next; isc_task_t *current_task; dev = ISC_LIST_HEAD(sock->send_list); while (dev != NULL) { current_task = dev->ev_sender; next = ISC_LIST_NEXT(dev, ev_link); if ((task == NULL) || (task == current_task)) { dev->result = ISC_R_CANCELED; send_senddone_event(sock, &dev); } dev = next; } } if (((how & ISC_SOCKCANCEL_ACCEPT) == ISC_SOCKCANCEL_ACCEPT) && !ISC_LIST_EMPTY(sock->accept_list)) { isc_socket_newconnev_t *dev; isc_socket_newconnev_t *next; isc_task_t *current_task; dev = ISC_LIST_HEAD(sock->accept_list); while (dev != NULL) { current_task = dev->ev_sender; next = ISC_LIST_NEXT(dev, ev_link); if ((task == NULL) || (task == current_task)) { ISC_LIST_UNLINK(sock->accept_list, dev, ev_link); dev->newsocket->references--; free_socket(&dev->newsocket); dev->result = ISC_R_CANCELED; dev->ev_sender = sock; isc_task_sendanddetach(¤t_task, ISC_EVENT_PTR(&dev)); } dev = next; } } /* * Connecting is not a list. */ if (((how & ISC_SOCKCANCEL_CONNECT) == ISC_SOCKCANCEL_CONNECT) && sock->connect_ev != NULL) { isc_socket_connev_t *dev; isc_task_t *current_task; INSIST(sock->connecting); sock->connecting = 0; dev = sock->connect_ev; current_task = dev->ev_sender; if ((task == NULL) || (task == current_task)) { sock->connect_ev = NULL; dev->result = ISC_R_CANCELED; dev->ev_sender = sock; isc_task_sendanddetach(¤t_task, ISC_EVENT_PTR(&dev)); } } UNLOCK(&sock->lock); } isc_sockettype_t isc_socket_gettype(isc_socket_t *sock) { REQUIRE(VALID_SOCKET(sock)); return (sock->type); } isc_boolean_t isc_socket_isbound(isc_socket_t *sock) { isc_boolean_t val; LOCK(&sock->lock); val = ((sock->bound) ? ISC_TRUE : ISC_FALSE); UNLOCK(&sock->lock); return (val); } void isc_socket_ipv6only(isc_socket_t *sock, isc_boolean_t yes) { #if defined(IPV6_V6ONLY) int onoff = yes ? 1 : 0; #else UNUSED(yes); UNUSED(sock); #endif REQUIRE(VALID_SOCKET(sock)); #ifdef IPV6_V6ONLY if (sock->pf == AF_INET6) { (void)setsockopt(sock->fd, IPPROTO_IPV6, IPV6_V6ONLY, (void *)&onoff, sizeof(onoff)); } #endif } #ifndef ISC_PLATFORM_USETHREADS void isc__socketmgr_getfdsets(fd_set *readset, fd_set *writeset, int *maxfd) { if (socketmgr == NULL) *maxfd = 0; else { *readset = socketmgr->read_fds; *writeset = socketmgr->write_fds; *maxfd = socketmgr->maxfd + 1; } } isc_result_t isc__socketmgr_dispatch(fd_set *readset, fd_set *writeset, int maxfd) { isc_socketmgr_t *manager = socketmgr; if (manager == NULL) return (ISC_R_NOTFOUND); process_fds(manager, maxfd, readset, writeset); return (ISC_R_SUCCESS); } #endif /* ISC_PLATFORM_USETHREADS */