/* Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed with * this work for additional information regarding copyright ownership. * The ASF licenses this file to You under the Apache License, Version 2.0 * (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "fspr_arch_networkio.h" #include "fspr_network_io.h" #include "fspr_strings.h" #include "fspr_support.h" #include "fspr_portable.h" #include "fspr_arch_inherit.h" #ifdef BEOS_R5 #undef close #define close closesocket #endif /* BEOS_R5 */ static char generic_inaddr_any[16] = {0}; /* big enough for IPv4 or IPv6 */ static fspr_status_t socket_cleanup(void *sock) { fspr_socket_t *thesocket = sock; if (!thesocket) { return APR_ENOTSOCK; } if (thesocket->socketdes == -1) { return APR_SUCCESS; } if (close(thesocket->socketdes) == 0) { thesocket->socketdes = -1; return APR_SUCCESS; } else { return errno; } } static void set_socket_vars(fspr_socket_t *sock, int family, int type, int protocol) { sock->type = type; sock->protocol = protocol; fspr_sockaddr_vars_set(sock->local_addr, family, 0); fspr_sockaddr_vars_set(sock->remote_addr, family, 0); sock->options = 0; #if defined(BEOS) && !defined(BEOS_BONE) /* BeOS pre-BONE has TCP_NODELAY on by default and it can't be * switched off! */ sock->options |= APR_TCP_NODELAY; #endif } static void alloc_socket(fspr_socket_t **new, fspr_pool_t *p) { *new = (fspr_socket_t *)fspr_pcalloc(p, sizeof(fspr_socket_t)); (*new)->pool = p; (*new)->local_addr = (fspr_sockaddr_t *)fspr_pcalloc((*new)->pool, sizeof(fspr_sockaddr_t)); (*new)->local_addr->pool = p; (*new)->remote_addr = (fspr_sockaddr_t *)fspr_pcalloc((*new)->pool, sizeof(fspr_sockaddr_t)); (*new)->remote_addr->pool = p; (*new)->remote_addr_unknown = 1; #ifndef WAITIO_USES_POLL /* Create a pollset with room for one descriptor. */ /* ### check return codes */ (void) fspr_pollset_create(&(*new)->pollset, 1, p, 0); #endif } fspr_status_t fspr_socket_protocol_get(fspr_socket_t *sock, int *protocol) { *protocol = sock->protocol; return APR_SUCCESS; } fspr_status_t fspr_socket_create(fspr_socket_t **new, int ofamily, int type, int protocol, fspr_pool_t *cont) { int family = ofamily; if (family == APR_UNSPEC) { #if APR_HAVE_IPV6 family = APR_INET6; #else family = APR_INET; #endif } alloc_socket(new, cont); #ifndef BEOS_R5 (*new)->socketdes = socket(family, type, protocol); #else /* For some reason BeOS R5 has an unconventional protocol numbering, * so we need to translate here. */ switch (protocol) { case 0: (*new)->socketdes = socket(family, type, 0); break; case APR_PROTO_TCP: (*new)->socketdes = socket(family, type, IPPROTO_TCP); break; case APR_PROTO_UDP: (*new)->socketdes = socket(family, type, IPPROTO_UDP); break; case APR_PROTO_SCTP: default: errno = EPROTONOSUPPORT; (*new)->socketdes = -1; break; } #endif /* BEOS_R5 */ #if APR_HAVE_IPV6 if ((*new)->socketdes < 0 && ofamily == APR_UNSPEC) { family = APR_INET; (*new)->socketdes = socket(family, type, protocol); } #endif if ((*new)->socketdes < 0) { return errno; } set_socket_vars(*new, family, type, protocol); (*new)->timeout = -1; (*new)->inherit = 0; fspr_pool_cleanup_register((*new)->pool, (void *)(*new), socket_cleanup, socket_cleanup); return APR_SUCCESS; } fspr_status_t fspr_socket_shutdown(fspr_socket_t *thesocket, fspr_shutdown_how_e how) { return (shutdown(thesocket->socketdes, how) == -1) ? errno : APR_SUCCESS; } fspr_status_t fspr_socket_close(fspr_socket_t *thesocket) { return fspr_pool_cleanup_run(thesocket->pool, thesocket, socket_cleanup); } fspr_status_t fspr_socket_bind(fspr_socket_t *sock, fspr_sockaddr_t *sa) { if (bind(sock->socketdes, (struct sockaddr *)&sa->sa, sa->salen) == -1) { return errno; } else { sock->local_addr = sa; /* XXX IPv6 - this assumes sin_port and sin6_port at same offset */ if (sock->local_addr->sa.sin.sin_port == 0) { /* no need for ntohs() when comparing w/ 0 */ sock->local_port_unknown = 1; /* kernel got us an ephemeral port */ } return APR_SUCCESS; } } fspr_status_t fspr_socket_listen(fspr_socket_t *sock, fspr_int32_t backlog) { if (listen(sock->socketdes, backlog) == -1) return errno; else return APR_SUCCESS; } fspr_status_t fspr_socket_accept(fspr_socket_t **new, fspr_socket_t *sock, fspr_pool_t *connection_context) { alloc_socket(new, connection_context); set_socket_vars(*new, sock->local_addr->sa.sin.sin_family, SOCK_STREAM, sock->protocol); #ifndef HAVE_POLL (*new)->connected = 1; #endif (*new)->timeout = -1; (*new)->socketdes = accept(sock->socketdes, (struct sockaddr *)&(*new)->remote_addr->sa, &(*new)->remote_addr->salen); if ((*new)->socketdes < 0) { return errno; } #ifdef TPF if ((*new)->socketdes == 0) { /* 0 is an invalid socket for TPF */ return APR_EINTR; } #endif (*new)->remote_addr_unknown = 0; *(*new)->local_addr = *sock->local_addr; /* The above assignment just overwrote the pool entry. Setting the local_addr pool for the accepted socket back to what it should be. Otherwise all allocations for this socket will come from a server pool that is not freed until the process goes down.*/ (*new)->local_addr->pool = connection_context; /* fix up any pointers which are no longer valid */ if (sock->local_addr->sa.sin.sin_family == AF_INET) { (*new)->local_addr->ipaddr_ptr = &(*new)->local_addr->sa.sin.sin_addr; } #if APR_HAVE_IPV6 else if (sock->local_addr->sa.sin.sin_family == AF_INET6) { (*new)->local_addr->ipaddr_ptr = &(*new)->local_addr->sa.sin6.sin6_addr; } #endif (*new)->remote_addr->port = ntohs((*new)->remote_addr->sa.sin.sin_port); if (sock->local_port_unknown) { /* not likely for a listening socket, but theoretically possible :) */ (*new)->local_port_unknown = 1; } #if APR_TCP_NODELAY_INHERITED if (fspr_is_option_set(sock, APR_TCP_NODELAY) == 1) { fspr_set_option(*new, APR_TCP_NODELAY, 1); } #endif /* TCP_NODELAY_INHERITED */ #if APR_O_NONBLOCK_INHERITED if (fspr_is_option_set(sock, APR_SO_NONBLOCK) == 1) { fspr_set_option(*new, APR_SO_NONBLOCK, 1); } #endif /* APR_O_NONBLOCK_INHERITED */ if (sock->local_interface_unknown || !memcmp(sock->local_addr->ipaddr_ptr, generic_inaddr_any, sock->local_addr->ipaddr_len)) { /* If the interface address inside the listening socket's local_addr wasn't * up-to-date, we don't know local interface of the connected socket either. * * If the listening socket was not bound to a specific interface, we * don't know the local_addr of the connected socket. */ (*new)->local_interface_unknown = 1; } (*new)->inherit = 0; fspr_pool_cleanup_register((*new)->pool, (void *)(*new), socket_cleanup, socket_cleanup); return APR_SUCCESS; } fspr_status_t fspr_socket_connect(fspr_socket_t *sock, fspr_sockaddr_t *sa) { int rc; do { rc = connect(sock->socketdes, (const struct sockaddr *)&sa->sa.sin, sa->salen); } while (rc == -1 && errno == EINTR); /* we can see EINPROGRESS the first time connect is called on a non-blocking * socket; if called again, we can see EALREADY */ if ((rc == -1) && (errno == EINPROGRESS || errno == EALREADY) && (sock->timeout > 0)) { rc = fspr_wait_for_io_or_timeout(NULL, sock, 0); if (rc != APR_SUCCESS) { return rc; } #ifdef SO_ERROR { int error; fspr_socklen_t len = sizeof(error); if ((rc = getsockopt(sock->socketdes, SOL_SOCKET, SO_ERROR, (char *)&error, &len)) < 0) { return errno; } if (error) { return error; } } #endif /* SO_ERROR */ } if (rc == -1 && errno != EISCONN) { return errno; } if (memcmp(sa->ipaddr_ptr, generic_inaddr_any, sa->ipaddr_len)) { /* A real remote address was passed in. If the unspecified * address was used, the actual remote addr will have to be * determined using getpeername() if required. */ /* ### this should probably be a structure copy + fixup as per * _accept()'s handling of local_addr */ sock->remote_addr = sa; sock->remote_addr_unknown = 0; } if (sock->local_addr->port == 0) { /* connect() got us an ephemeral port */ sock->local_port_unknown = 1; } if (!memcmp(sock->local_addr->ipaddr_ptr, generic_inaddr_any, sock->local_addr->ipaddr_len)) { /* not bound to specific local interface; connect() had to assign * one for the socket */ sock->local_interface_unknown = 1; } #ifndef HAVE_POLL sock->connected=1; #endif return APR_SUCCESS; } fspr_status_t fspr_socket_type_get(fspr_socket_t *sock, int *type) { *type = sock->type; return APR_SUCCESS; } fspr_status_t fspr_socket_data_get(void **data, const char *key, fspr_socket_t *sock) { sock_userdata_t *cur = sock->userdata; *data = NULL; while (cur) { if (!strcmp(cur->key, key)) { *data = cur->data; break; } cur = cur->next; } return APR_SUCCESS; } fspr_status_t fspr_socket_data_set(fspr_socket_t *sock, void *data, const char *key, fspr_status_t (*cleanup) (void *)) { sock_userdata_t *new = fspr_palloc(sock->pool, sizeof(sock_userdata_t)); new->key = fspr_pstrdup(sock->pool, key); new->data = data; new->next = sock->userdata; sock->userdata = new; if (cleanup) { fspr_pool_cleanup_register(sock->pool, data, cleanup, cleanup); } return APR_SUCCESS; } fspr_status_t fspr_os_sock_get(fspr_os_sock_t *thesock, fspr_socket_t *sock) { *thesock = sock->socketdes; return APR_SUCCESS; } fspr_status_t fspr_os_sock_make(fspr_socket_t **fspr_sock, fspr_os_sock_info_t *os_sock_info, fspr_pool_t *cont) { alloc_socket(fspr_sock, cont); set_socket_vars(*fspr_sock, os_sock_info->family, os_sock_info->type, os_sock_info->protocol); (*fspr_sock)->timeout = -1; (*fspr_sock)->socketdes = *os_sock_info->os_sock; if (os_sock_info->local) { memcpy(&(*fspr_sock)->local_addr->sa.sin, os_sock_info->local, (*fspr_sock)->local_addr->salen); /* XXX IPv6 - this assumes sin_port and sin6_port at same offset */ (*fspr_sock)->local_addr->port = ntohs((*fspr_sock)->local_addr->sa.sin.sin_port); } else { (*fspr_sock)->local_port_unknown = (*fspr_sock)->local_interface_unknown = 1; } if (os_sock_info->remote) { #ifndef HAVE_POLL (*fspr_sock)->connected = 1; #endif memcpy(&(*fspr_sock)->remote_addr->sa.sin, os_sock_info->remote, (*fspr_sock)->remote_addr->salen); /* XXX IPv6 - this assumes sin_port and sin6_port at same offset */ (*fspr_sock)->remote_addr->port = ntohs((*fspr_sock)->remote_addr->sa.sin.sin_port); } else { (*fspr_sock)->remote_addr_unknown = 1; } (*fspr_sock)->inherit = 0; fspr_pool_cleanup_register((*fspr_sock)->pool, (void *)(*fspr_sock), socket_cleanup, socket_cleanup); return APR_SUCCESS; } fspr_status_t fspr_os_sock_put(fspr_socket_t **sock, fspr_os_sock_t *thesock, fspr_pool_t *cont) { /* XXX Bogus assumption that *sock points at anything legit */ if ((*sock) == NULL) { alloc_socket(sock, cont); /* XXX IPv6 figure out the family here! */ /* XXX figure out the actual socket type here */ /* *or* just decide that fspr_os_sock_put() has to be told the family and type */ set_socket_vars(*sock, APR_INET, SOCK_STREAM, 0); (*sock)->timeout = -1; } (*sock)->local_port_unknown = (*sock)->local_interface_unknown = 1; (*sock)->remote_addr_unknown = 1; (*sock)->socketdes = *thesock; return APR_SUCCESS; } APR_POOL_IMPLEMENT_ACCESSOR(socket) APR_IMPLEMENT_INHERIT_SET(socket, inherit, pool, socket_cleanup) APR_IMPLEMENT_INHERIT_UNSET(socket, inherit, pool, socket_cleanup)