/* dnstap support for Unbound */ /* * Copyright (c) 2013-2014, Farsight Security, Inc. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * 3. Neither the name of the copyright holder nor the names of its * contributors may be used to endorse or promote products derived from * this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "dnstap/dnstap_config.h" #ifdef USE_DNSTAP #include "config.h" #include #include #include "sldns/sbuffer.h" #include "util/config_file.h" #include "util/net_help.h" #include "util/netevent.h" #include "util/log.h" #include #include #include "dnstap/dnstap.h" #include "dnstap/dnstap.pb-c.h" #define DNSTAP_CONTENT_TYPE "protobuf:dnstap.Dnstap" #define DNSTAP_INITIAL_BUF_SIZE 256 struct dt_msg { void *buf; size_t len_buf; Dnstap__Dnstap d; Dnstap__Message m; }; static int dt_pack(const Dnstap__Dnstap *d, void **buf, size_t *sz) { ProtobufCBufferSimple sbuf; memset(&sbuf, 0, sizeof(sbuf)); sbuf.base.append = protobuf_c_buffer_simple_append; sbuf.len = 0; sbuf.alloced = DNSTAP_INITIAL_BUF_SIZE; sbuf.data = malloc(sbuf.alloced); if (sbuf.data == NULL) return 0; sbuf.must_free_data = 1; *sz = dnstap__dnstap__pack_to_buffer(d, (ProtobufCBuffer *) &sbuf); if (sbuf.data == NULL) return 0; *buf = sbuf.data; return 1; } static void dt_send(const struct dt_env *env, void *buf, size_t len_buf) { fstrm_res res; if (!buf) return; res = fstrm_iothr_submit(env->iothr, env->ioq, buf, len_buf, fstrm_free_wrapper, NULL); if (res != fstrm_res_success) free(buf); } static void dt_msg_init(const struct dt_env *env, struct dt_msg *dm, Dnstap__Message__Type mtype) { memset(dm, 0, sizeof(*dm)); dm->d.base.descriptor = &dnstap__dnstap__descriptor; dm->m.base.descriptor = &dnstap__message__descriptor; dm->d.type = DNSTAP__DNSTAP__TYPE__MESSAGE; dm->d.message = &dm->m; dm->m.type = mtype; if (env->identity != NULL) { dm->d.identity.data = (uint8_t *) env->identity; dm->d.identity.len = (size_t) env->len_identity; dm->d.has_identity = 1; } if (env->version != NULL) { dm->d.version.data = (uint8_t *) env->version; dm->d.version.len = (size_t) env->len_version; dm->d.has_version = 1; } } struct dt_env * dt_create(const char *socket_path, unsigned num_workers) { fstrm_res res; struct dt_env *env; struct fstrm_iothr_options *fopt; struct fstrm_unix_writer_options *fuwopt; struct fstrm_writer *fw; struct fstrm_writer_options *fwopt; verbose(VERB_OPS, "attempting to connect to dnstap socket %s", socket_path); log_assert(socket_path != NULL); log_assert(num_workers > 0); env = (struct dt_env *) calloc(1, sizeof(struct dt_env)); if (!env) return NULL; fwopt = fstrm_writer_options_init(); res = fstrm_writer_options_add_content_type(fwopt, DNSTAP_CONTENT_TYPE, sizeof(DNSTAP_CONTENT_TYPE) - 1); log_assert(res == fstrm_res_success); fuwopt = fstrm_unix_writer_options_init(); fstrm_unix_writer_options_set_socket_path(fuwopt, socket_path); fw = fstrm_unix_writer_init(fuwopt, fwopt); log_assert(fw != NULL); fopt = fstrm_iothr_options_init(); fstrm_iothr_options_set_num_input_queues(fopt, num_workers); env->iothr = fstrm_iothr_init(fopt, &fw); if (env->iothr == NULL) { verbose(VERB_DETAIL, "dt_create: fstrm_iothr_init() failed"); fstrm_writer_destroy(&fw); free(env); env = NULL; } fstrm_iothr_options_destroy(&fopt); fstrm_unix_writer_options_destroy(&fuwopt); fstrm_writer_options_destroy(&fwopt); return env; } static void dt_apply_identity(struct dt_env *env, struct config_file *cfg) { char buf[MAXHOSTNAMELEN+1]; if (!cfg->dnstap_send_identity) return; free(env->identity); if (cfg->dnstap_identity == NULL || cfg->dnstap_identity[0] == 0) { if (gethostname(buf, MAXHOSTNAMELEN) == 0) { buf[MAXHOSTNAMELEN] = 0; env->identity = strdup(buf); } else { fatal_exit("dt_apply_identity: gethostname() failed"); } } else { env->identity = strdup(cfg->dnstap_identity); } if (env->identity == NULL) fatal_exit("dt_apply_identity: strdup() failed"); env->len_identity = (unsigned int)strlen(env->identity); verbose(VERB_OPS, "dnstap identity field set to \"%s\"", env->identity); } static void dt_apply_version(struct dt_env *env, struct config_file *cfg) { if (!cfg->dnstap_send_version) return; free(env->version); if (cfg->dnstap_version == NULL || cfg->dnstap_version[0] == 0) env->version = strdup(PACKAGE_STRING); else env->version = strdup(cfg->dnstap_version); if (env->version == NULL) fatal_exit("dt_apply_version: strdup() failed"); env->len_version = (unsigned int)strlen(env->version); verbose(VERB_OPS, "dnstap version field set to \"%s\"", env->version); } void dt_apply_cfg(struct dt_env *env, struct config_file *cfg) { if (!cfg->dnstap) return; dt_apply_identity(env, cfg); dt_apply_version(env, cfg); if ((env->log_resolver_query_messages = (unsigned int) cfg->dnstap_log_resolver_query_messages)) { verbose(VERB_OPS, "dnstap Message/RESOLVER_QUERY enabled"); } if ((env->log_resolver_response_messages = (unsigned int) cfg->dnstap_log_resolver_response_messages)) { verbose(VERB_OPS, "dnstap Message/RESOLVER_RESPONSE enabled"); } if ((env->log_client_query_messages = (unsigned int) cfg->dnstap_log_client_query_messages)) { verbose(VERB_OPS, "dnstap Message/CLIENT_QUERY enabled"); } if ((env->log_client_response_messages = (unsigned int) cfg->dnstap_log_client_response_messages)) { verbose(VERB_OPS, "dnstap Message/CLIENT_RESPONSE enabled"); } if ((env->log_forwarder_query_messages = (unsigned int) cfg->dnstap_log_forwarder_query_messages)) { verbose(VERB_OPS, "dnstap Message/FORWARDER_QUERY enabled"); } if ((env->log_forwarder_response_messages = (unsigned int) cfg->dnstap_log_forwarder_response_messages)) { verbose(VERB_OPS, "dnstap Message/FORWARDER_RESPONSE enabled"); } } int dt_init(struct dt_env *env) { env->ioq = fstrm_iothr_get_input_queue(env->iothr); if (env->ioq == NULL) return 0; return 1; } void dt_delete(struct dt_env *env) { if (!env) return; verbose(VERB_OPS, "closing dnstap socket"); fstrm_iothr_destroy(&env->iothr); free(env->identity); free(env->version); free(env); } static void dt_fill_timeval(const struct timeval *tv, uint64_t *time_sec, protobuf_c_boolean *has_time_sec, uint32_t *time_nsec, protobuf_c_boolean *has_time_nsec) { #ifndef S_SPLINT_S *time_sec = tv->tv_sec; *time_nsec = tv->tv_usec * 1000; #endif *has_time_sec = 1; *has_time_nsec = 1; } static void dt_fill_buffer(sldns_buffer *b, ProtobufCBinaryData *p, protobuf_c_boolean *has) { log_assert(b != NULL); p->len = sldns_buffer_limit(b); p->data = sldns_buffer_begin(b); *has = 1; } static void dt_msg_fill_net(struct dt_msg *dm, struct sockaddr_storage *ss, enum comm_point_type cptype, ProtobufCBinaryData *addr, protobuf_c_boolean *has_addr, uint32_t *port, protobuf_c_boolean *has_port) { log_assert(ss->ss_family == AF_INET6 || ss->ss_family == AF_INET); if (ss->ss_family == AF_INET6) { struct sockaddr_in6 *s = (struct sockaddr_in6 *) ss; /* socket_family */ dm->m.socket_family = DNSTAP__SOCKET_FAMILY__INET6; dm->m.has_socket_family = 1; /* addr: query_address or response_address */ addr->data = s->sin6_addr.s6_addr; addr->len = 16; /* IPv6 */ *has_addr = 1; /* port: query_port or response_port */ *port = ntohs(s->sin6_port); *has_port = 1; } else if (ss->ss_family == AF_INET) { struct sockaddr_in *s = (struct sockaddr_in *) ss; /* socket_family */ dm->m.socket_family = DNSTAP__SOCKET_FAMILY__INET; dm->m.has_socket_family = 1; /* addr: query_address or response_address */ addr->data = (uint8_t *) &s->sin_addr.s_addr; addr->len = 4; /* IPv4 */ *has_addr = 1; /* port: query_port or response_port */ *port = ntohs(s->sin_port); *has_port = 1; } log_assert(cptype == comm_udp || cptype == comm_tcp); if (cptype == comm_udp) { /* socket_protocol */ dm->m.socket_protocol = DNSTAP__SOCKET_PROTOCOL__UDP; dm->m.has_socket_protocol = 1; } else if (cptype == comm_tcp) { /* socket_protocol */ dm->m.socket_protocol = DNSTAP__SOCKET_PROTOCOL__TCP; dm->m.has_socket_protocol = 1; } } void dt_msg_send_client_query(struct dt_env *env, struct sockaddr_storage *qsock, enum comm_point_type cptype, sldns_buffer *qmsg) { struct dt_msg dm; struct timeval qtime; gettimeofday(&qtime, NULL); /* type */ dt_msg_init(env, &dm, DNSTAP__MESSAGE__TYPE__CLIENT_QUERY); /* query_time */ dt_fill_timeval(&qtime, &dm.m.query_time_sec, &dm.m.has_query_time_sec, &dm.m.query_time_nsec, &dm.m.has_query_time_nsec); /* query_message */ dt_fill_buffer(qmsg, &dm.m.query_message, &dm.m.has_query_message); /* socket_family, socket_protocol, query_address, query_port */ log_assert(cptype == comm_udp || cptype == comm_tcp); dt_msg_fill_net(&dm, qsock, cptype, &dm.m.query_address, &dm.m.has_query_address, &dm.m.query_port, &dm.m.has_query_port); if (dt_pack(&dm.d, &dm.buf, &dm.len_buf)) dt_send(env, dm.buf, dm.len_buf); } void dt_msg_send_client_response(struct dt_env *env, struct sockaddr_storage *qsock, enum comm_point_type cptype, sldns_buffer *rmsg) { struct dt_msg dm; struct timeval rtime; gettimeofday(&rtime, NULL); /* type */ dt_msg_init(env, &dm, DNSTAP__MESSAGE__TYPE__CLIENT_RESPONSE); /* response_time */ dt_fill_timeval(&rtime, &dm.m.response_time_sec, &dm.m.has_response_time_sec, &dm.m.response_time_nsec, &dm.m.has_response_time_nsec); /* response_message */ dt_fill_buffer(rmsg, &dm.m.response_message, &dm.m.has_response_message); /* socket_family, socket_protocol, query_address, query_port */ log_assert(cptype == comm_udp || cptype == comm_tcp); dt_msg_fill_net(&dm, qsock, cptype, &dm.m.query_address, &dm.m.has_query_address, &dm.m.query_port, &dm.m.has_query_port); if (dt_pack(&dm.d, &dm.buf, &dm.len_buf)) dt_send(env, dm.buf, dm.len_buf); } void dt_msg_send_outside_query(struct dt_env *env, struct sockaddr_storage *rsock, enum comm_point_type cptype, uint8_t *zone, size_t zone_len, sldns_buffer *qmsg) { struct dt_msg dm; struct timeval qtime; uint16_t qflags; gettimeofday(&qtime, NULL); qflags = sldns_buffer_read_u16_at(qmsg, 2); /* type */ if (qflags & BIT_RD) { if (!env->log_forwarder_query_messages) return; dt_msg_init(env, &dm, DNSTAP__MESSAGE__TYPE__FORWARDER_QUERY); } else { if (!env->log_resolver_query_messages) return; dt_msg_init(env, &dm, DNSTAP__MESSAGE__TYPE__RESOLVER_QUERY); } /* query_zone */ dm.m.query_zone.data = zone; dm.m.query_zone.len = zone_len; dm.m.has_query_zone = 1; /* query_time_sec, query_time_nsec */ dt_fill_timeval(&qtime, &dm.m.query_time_sec, &dm.m.has_query_time_sec, &dm.m.query_time_nsec, &dm.m.has_query_time_nsec); /* query_message */ dt_fill_buffer(qmsg, &dm.m.query_message, &dm.m.has_query_message); /* socket_family, socket_protocol, response_address, response_port */ log_assert(cptype == comm_udp || cptype == comm_tcp); dt_msg_fill_net(&dm, rsock, cptype, &dm.m.response_address, &dm.m.has_response_address, &dm.m.response_port, &dm.m.has_response_port); if (dt_pack(&dm.d, &dm.buf, &dm.len_buf)) dt_send(env, dm.buf, dm.len_buf); } void dt_msg_send_outside_response(struct dt_env *env, struct sockaddr_storage *rsock, enum comm_point_type cptype, uint8_t *zone, size_t zone_len, uint8_t *qbuf, size_t qbuf_len, const struct timeval *qtime, const struct timeval *rtime, sldns_buffer *rmsg) { struct dt_msg dm; uint16_t qflags; log_assert(qbuf_len >= sizeof(qflags)); memcpy(&qflags, qbuf, sizeof(qflags)); qflags = ntohs(qflags); /* type */ if (qflags & BIT_RD) { if (!env->log_forwarder_response_messages) return; dt_msg_init(env, &dm, DNSTAP__MESSAGE__TYPE__FORWARDER_RESPONSE); } else { if (!env->log_resolver_query_messages) return; dt_msg_init(env, &dm, DNSTAP__MESSAGE__TYPE__RESOLVER_RESPONSE); } /* query_zone */ dm.m.query_zone.data = zone; dm.m.query_zone.len = zone_len; dm.m.has_query_zone = 1; /* query_time_sec, query_time_nsec */ dt_fill_timeval(qtime, &dm.m.query_time_sec, &dm.m.has_query_time_sec, &dm.m.query_time_nsec, &dm.m.has_query_time_nsec); /* response_time_sec, response_time_nsec */ dt_fill_timeval(rtime, &dm.m.response_time_sec, &dm.m.has_response_time_sec, &dm.m.response_time_nsec, &dm.m.has_response_time_nsec); /* response_message */ dt_fill_buffer(rmsg, &dm.m.response_message, &dm.m.has_response_message); /* socket_family, socket_protocol, response_address, response_port */ log_assert(cptype == comm_udp || cptype == comm_tcp); dt_msg_fill_net(&dm, rsock, cptype, &dm.m.response_address, &dm.m.has_response_address, &dm.m.response_port, &dm.m.has_response_port); if (dt_pack(&dm.d, &dm.buf, &dm.len_buf)) dt_send(env, dm.buf, dm.len_buf); } #endif /* USE_DNSTAP */