/* * Amanda, The Advanced Maryland Automatic Network Disk Archiver * Copyright (c) 1991-1999 University of Maryland at College Park * Copyright (c) 2007-2012 Zmanda, Inc. All Rights Reserved. * Copyright (c) 2013-2016 Carbonite, Inc. All Rights Reserved. * All Rights Reserved. * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name of U.M. not be used in advertising or * publicity pertaining to distribution of the software without specific, * written prior permission. U.M. makes no representations about the * suitability of this software for any purpose. It is provided "as is" * without express or implied warranty. * * U.M. DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE, INCLUDING ALL * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS, IN NO EVENT SHALL U.M. * BE LIABLE FOR ANY SPECIAL, 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. * * Authors: the Amanda Development Team. Its members are listed in a * file named AUTHORS, in the root directory of this distribution. */ /* * $Id: bsdudp-security.c,v 1.7 2006/07/05 13:18:20 martinea Exp $ * * "BSD" security module */ #include "amanda.h" #include "amutil.h" #include "clock.h" #include "dgram.h" #include "event.h" #include "packet.h" #include "security.h" #include "security-util.h" #include "stream.h" #ifndef SO_RCVBUF #undef DUMPER_SOCKET_BUFFERING #endif /* * Interface functions */ static void bsdudp_connect(const char *, char *(*)(char *, void *), void (*)(void *, security_handle_t *, security_status_t), void *, void *); static void bsdudp_accept(const struct security_driver *, char *(*)(char *, void *), int, int, void (*)(security_handle_t *, pkt_t *), void *); static void bsdudp_close(void *); /* * This is our interface to the outside world */ const security_driver_t bsdudp_security_driver = { "BSDUDP", bsdudp_connect, bsdudp_accept, sec_get_authenticated_peer_name_hostname, bsdudp_close, udpbsd_sendpkt, udp_recvpkt, udp_recvpkt_cancel, tcp1_stream_server, tcp1_stream_accept, tcp1_stream_client, tcpma_stream_close, tcpma_stream_close_async, sec_stream_auth, sec_stream_id, tcpm_stream_write, tcpm_stream_write_async, tcpm_stream_read, tcpm_stream_read_sync, tcpm_stream_read_to_shm_ring, tcpm_stream_read_cancel, tcpm_stream_pause, tcpm_stream_resume, sec_close_connection_none, NULL, NULL, generic_data_write, generic_data_write_non_blocking, generic_data_read }; /* * This is data local to the datagram socket. We have one datagram * per process, so it is global. */ static udp_handle_t netfd4; static udp_handle_t netfd6; static int not_init4 = 1; static int not_init6 = 1; /* generate new handles from here */ static unsigned int newhandle = 0; /* * Setup and return a handle outgoing to a client */ static void bsdudp_connect( const char *hostname, char * (*conf_fn)(char *, void *), void (*fn)(void *, security_handle_t *, security_status_t), void * arg, void * datap) { struct sec_handle *bh; in_port_t port; struct timeval sequence_time; int sequence; char *handle; int result; char *canonname; struct addrinfo *res = NULL, *res_addr; int result_bind; char *service; char *bind_msg = NULL; (void)conf_fn; /* Quiet unused parameter warning */ (void)datap; /* Quiet unused parameter warning */ assert(hostname != NULL); bh = g_new0(struct sec_handle, 1); bh->dle_hostname = g_strdup(hostname); bh->proto_handle=NULL; bh->rc = NULL; security_handleinit(&bh->sech, &bsdudp_security_driver); result = resolve_hostname(hostname, SOCK_DGRAM, &res, &canonname); if(result != 0) { dbprintf(_("resolve_hostname(%s): %s\n"), hostname, gai_strerror(result)); security_seterror(&bh->sech, _("resolve_hostname(%s): %s"), hostname, gai_strerror(result)); (*fn)(arg, &bh->sech, S_ERROR); return; } if (canonname == NULL) { dbprintf(_("resolve_hostname(%s) did not return a canonical name\n"), hostname); security_seterror(&bh->sech, _("resolve_hostname(%s) did not return a canonical name"), hostname); (*fn)(arg, &bh->sech, S_ERROR); if (res) freeaddrinfo(res); return; } if (res == NULL) { dbprintf(_("resolve_hostname(%s): no results\n"), hostname); security_seterror(&bh->sech, _("resolve_hostname(%s): no results"), hostname); (*fn)(arg, &bh->sech, S_ERROR); amfree(canonname); return; } for (res_addr = res; res_addr != NULL; res_addr = res_addr->ai_next) { #ifdef WORKING_IPV6 /* IPv6 socket already bound */ if (res_addr->ai_addr->sa_family == AF_INET6 && not_init6 == 0) { break; } /* * Only init the IPv6 socket once */ if (res_addr->ai_addr->sa_family == AF_INET6 && not_init6 == 1) { dgram_zero(&netfd6.dgram); result_bind = dgram_bind(&netfd6.dgram, res_addr->ai_addr->sa_family, &port, 1, &bind_msg); if (bind_msg != 0) { continue; } if (result_bind != 0) { continue; } netfd6.handle = NULL; netfd6.pkt.body = NULL; netfd6.recv_security_ok = &bsd_recv_security_ok; netfd6.prefix_packet = &bsd_prefix_packet; netfd6.need_priv_port = 1; /* * We must have a reserved port. Bomb if we didn't get one. */ if (port >= IPPORT_RESERVED) { security_seterror(&bh->sech, _("unable to bind to a reserved port (got port %u)"), (unsigned int)port); (*fn)(arg, &bh->sech, S_ERROR); freeaddrinfo(res); amfree(canonname); return; } not_init6 = 0; bh->udp = &netfd6; break; } #endif /* IPv4 socket already bound */ if (res_addr->ai_addr->sa_family == AF_INET && not_init4 == 0) { break; } /* * Only init the IPv4 socket once */ if (res_addr->ai_addr->sa_family == AF_INET && not_init4 == 1) { dgram_zero(&netfd4.dgram); result_bind = dgram_bind(&netfd4.dgram, res_addr->ai_addr->sa_family, &port, 1, &bind_msg); if (bind_msg != 0) { continue; } if (result_bind != 0) { continue; } netfd4.handle = NULL; netfd4.pkt.body = NULL; netfd4.recv_security_ok = &bsd_recv_security_ok; netfd4.prefix_packet = &bsd_prefix_packet; netfd4.need_priv_port = 1; /* * We must have a reserved port. Bomb if we didn't get one. */ if (port >= IPPORT_RESERVED) { security_seterror(&bh->sech, "unable to bind to a reserved port (got port %u)", (unsigned int)port); (*fn)(arg, &bh->sech, S_ERROR); freeaddrinfo(res); amfree(canonname); return; } not_init4 = 0; bh->udp = &netfd4; break; } } if (bind_msg) { g_debug("%s", bind_msg); security_seterror(&bh->sech, "%s", bind_msg); (*fn)(arg, &bh->sech, S_ERROR); amfree(canonname); if (res) freeaddrinfo(res); g_free(bind_msg); return; } if (res_addr == NULL) { dbprintf(_("Can't bind a socket to connect to %s\n"), hostname); security_seterror(&bh->sech, _("Can't bind a socket to connect to %s"), hostname); (*fn)(arg, &bh->sech, S_ERROR); amfree(canonname); if (res) freeaddrinfo(res); return; } #ifdef WORKING_IPV6 if (res_addr->ai_addr->sa_family == AF_INET6) bh->udp = &netfd6; else #endif bh->udp = &netfd4; auth_debug(1, _("Resolved hostname=%s\n"), canonname); if (conf_fn) { service = conf_fn("client_port", datap); if (!service || strlen(service) <= 1) service = AMANDA_SERVICE_NAME; } else { service = AMANDA_SERVICE_NAME; } port = find_port_for_service(service, "udp"); if (port == 0) { security_seterror(&bh->sech, _("%s/udp unknown protocol"), service); (*fn)(arg, &bh->sech, S_ERROR); amfree(canonname); if (res) freeaddrinfo(res); return; } amanda_gettimeofday(&sequence_time); sequence = (int)sequence_time.tv_sec ^ (int)sequence_time.tv_usec; handle=g_malloc(15); g_snprintf(handle,14,"000-%08x", newhandle++); if (udp_inithandle(bh->udp, bh, canonname, (sockaddr_union *)res_addr->ai_addr, port, handle, sequence) < 0) { (*fn)(arg, &bh->sech, S_ERROR); amfree(bh->hostname); amfree(bh); } else { (*fn)(arg, &bh->sech, S_OK); } amfree(handle); amfree(canonname); if (res) freeaddrinfo(res); } /* * Setup to accept new incoming connections */ static void bsdudp_accept( const struct security_driver *driver, char * (*conf_fn)(char *, void *), int in, int out, void (*fn)(security_handle_t *, pkt_t *), void *datap) { (void)driver; /* Quiet unused parameter warning */ (void)out; /* Quiet unused parameter warning */ (void)conf_fn; (void)datap; assert(in >= 0 && out >= 0); assert(fn != NULL); /* * We assume in and out point to the same socket, and just use * in. */ dgram_socket(&netfd4.dgram, in); dgram_socket(&netfd6.dgram, in); /* * Assign the function and return. When they call recvpkt later, * the recvpkt callback will call this function when it discovers * new incoming connections */ netfd4.accept_fn = fn; netfd4.recv_security_ok = &bsd_recv_security_ok; netfd4.prefix_packet = &bsd_prefix_packet; netfd4.need_priv_port = 1; netfd4.driver = &bsdudp_security_driver; udp_addref(&netfd4, &udp_netfd_read_callback); } /* * Frees a handle allocated by the above */ static void bsdudp_close( void *cookie) { struct sec_handle *bh = cookie; if(bh->proto_handle == NULL) { return; } auth_debug(1, _("bsdudp: close handle '%s'\n"), bh->proto_handle); udp_recvpkt_cancel(bh); if(bh->next) { bh->next->prev = bh->prev; } else { if (!not_init6 && netfd6.bh_last == bh) netfd6.bh_last = bh->prev; else netfd4.bh_last = bh->prev; } if(bh->prev) { bh->prev->next = bh->next; } else { if (!not_init6 && netfd6.bh_first == bh) netfd6.bh_first = bh->next; else netfd4.bh_first = bh->next; } amfree(bh->proto_handle); amfree(bh->hostname); amfree(bh); }