/* Copyright (c) 2009-2020 Roger Light All rights reserved. This program and the accompanying materials are made available under the terms of the Eclipse Public License v1.0 and Eclipse Distribution License v1.0 which accompany this distribution. The Eclipse Public License is available at http://www.eclipse.org/legal/epl-v10.html and the Eclipse Distribution License is available at http://www.eclipse.org/org/documents/edl-v10.php. Contributors: Roger Light - initial implementation and documentation. */ #include "config.h" #include #include #ifdef WITH_BROKER # include "mosquitto_broker_internal.h" # include "sys_tree.h" #else # define G_PUB_BYTES_SENT_INC(A) #endif #include "mosquitto.h" #include "mosquitto_internal.h" #include "logging_mosq.h" #include "mqtt_protocol.h" #include "memory_mosq.h" #include "net_mosq.h" #include "packet_mosq.h" #include "property_mosq.h" #include "send_mosq.h" int send__publish(struct mosquitto *mosq, uint16_t mid, const char *topic, uint32_t payloadlen, const void *payload, int qos, bool retain, bool dup, const mosquitto_property *cmsg_props, const mosquitto_property *store_props, uint32_t expiry_interval) { #ifdef WITH_BROKER size_t len; #ifdef WITH_BRIDGE int i; struct mosquitto__bridge_topic *cur_topic; bool match; int rc; char *mapped_topic = NULL; char *topic_temp = NULL; #endif #endif assert(mosq); #if defined(WITH_BROKER) && defined(WITH_WEBSOCKETS) if(mosq->sock == INVALID_SOCKET && !mosq->wsi) return MOSQ_ERR_NO_CONN; #else if(mosq->sock == INVALID_SOCKET) return MOSQ_ERR_NO_CONN; #endif #ifdef WITH_BROKER if(mosq->listener && mosq->listener->mount_point){ len = strlen(mosq->listener->mount_point); if(len < strlen(topic)){ topic += len; }else{ /* Invalid topic string. Should never happen, but silently swallow the message anyway. */ return MOSQ_ERR_SUCCESS; } } #ifdef WITH_BRIDGE if(mosq->bridge && mosq->bridge->topics && mosq->bridge->topic_remapping){ for(i=0; ibridge->topic_count; i++){ cur_topic = &mosq->bridge->topics[i]; if((cur_topic->direction == bd_both || cur_topic->direction == bd_out) && (cur_topic->remote_prefix || cur_topic->local_prefix)){ /* Topic mapping required on this topic if the message matches */ rc = mosquitto_topic_matches_sub(cur_topic->local_topic, topic, &match); if(rc){ return rc; } if(match){ mapped_topic = mosquitto__strdup(topic); if(!mapped_topic) return MOSQ_ERR_NOMEM; if(cur_topic->local_prefix){ /* This prefix needs removing. */ if(!strncmp(cur_topic->local_prefix, mapped_topic, strlen(cur_topic->local_prefix))){ topic_temp = mosquitto__strdup(mapped_topic+strlen(cur_topic->local_prefix)); mosquitto__free(mapped_topic); if(!topic_temp){ return MOSQ_ERR_NOMEM; } mapped_topic = topic_temp; } } if(cur_topic->remote_prefix){ /* This prefix needs adding. */ len = strlen(mapped_topic) + strlen(cur_topic->remote_prefix)+1; topic_temp = mosquitto__malloc(len+1); if(!topic_temp){ mosquitto__free(mapped_topic); return MOSQ_ERR_NOMEM; } snprintf(topic_temp, len, "%s%s", cur_topic->remote_prefix, mapped_topic); topic_temp[len] = '\0'; mosquitto__free(mapped_topic); mapped_topic = topic_temp; } log__printf(NULL, MOSQ_LOG_DEBUG, "Sending PUBLISH to %s (d%d, q%d, r%d, m%d, '%s', ... (%ld bytes))", mosq->id, dup, qos, retain, mid, mapped_topic, (long)payloadlen); G_PUB_BYTES_SENT_INC(payloadlen); rc = send__real_publish(mosq, mid, mapped_topic, payloadlen, payload, qos, retain, dup, cmsg_props, store_props, expiry_interval); mosquitto__free(mapped_topic); return rc; } } } } #endif log__printf(NULL, MOSQ_LOG_DEBUG, "Sending PUBLISH to %s (d%d, q%d, r%d, m%d, '%s', ... (%ld bytes))", mosq->id, dup, qos, retain, mid, topic, (long)payloadlen); G_PUB_BYTES_SENT_INC(payloadlen); #else log__printf(mosq, MOSQ_LOG_DEBUG, "Client %s sending PUBLISH (d%d, q%d, r%d, m%d, '%s', ... (%ld bytes))", mosq->id, dup, qos, retain, mid, topic, (long)payloadlen); #endif return send__real_publish(mosq, mid, topic, payloadlen, payload, qos, retain, dup, cmsg_props, store_props, expiry_interval); } int send__real_publish(struct mosquitto *mosq, uint16_t mid, const char *topic, uint32_t payloadlen, const void *payload, int qos, bool retain, bool dup, const mosquitto_property *cmsg_props, const mosquitto_property *store_props, uint32_t expiry_interval) { struct mosquitto__packet *packet = NULL; int packetlen; int proplen = 0, varbytes; int rc; mosquitto_property expiry_prop; assert(mosq); if(topic){ packetlen = 2+strlen(topic) + payloadlen; }else{ packetlen = 2 + payloadlen; } if(qos > 0) packetlen += 2; /* For message id */ if(mosq->protocol == mosq_p_mqtt5){ proplen = 0; proplen += property__get_length_all(cmsg_props); proplen += property__get_length_all(store_props); if(expiry_interval > 0){ expiry_prop.next = NULL; expiry_prop.value.i32 = expiry_interval; expiry_prop.identifier = MQTT_PROP_MESSAGE_EXPIRY_INTERVAL; expiry_prop.client_generated = false; proplen += property__get_length_all(&expiry_prop); } varbytes = packet__varint_bytes(proplen); if(varbytes > 4){ /* FIXME - Properties too big, don't publish any - should remove some first really */ cmsg_props = NULL; store_props = NULL; expiry_interval = 0; }else{ packetlen += proplen + varbytes; } } if(packet__check_oversize(mosq, packetlen)){ #ifdef WITH_BROKER log__printf(NULL, MOSQ_LOG_NOTICE, "Dropping too large outgoing PUBLISH for %s (%d bytes)", mosq->id, packetlen); #else log__printf(NULL, MOSQ_LOG_NOTICE, "Dropping too large outgoing PUBLISH (%d bytes)", packetlen); #endif return MOSQ_ERR_OVERSIZE_PACKET; } packet = mosquitto__calloc(1, sizeof(struct mosquitto__packet)); if(!packet) return MOSQ_ERR_NOMEM; packet->mid = mid; packet->command = CMD_PUBLISH | ((dup&0x1)<<3) | (qos<<1) | retain; packet->remaining_length = packetlen; rc = packet__alloc(packet); if(rc){ mosquitto__free(packet); return rc; } /* Variable header (topic string) */ if(topic){ packet__write_string(packet, topic, strlen(topic)); }else{ packet__write_uint16(packet, 0); } if(qos > 0){ packet__write_uint16(packet, mid); } if(mosq->protocol == mosq_p_mqtt5){ packet__write_varint(packet, proplen); property__write_all(packet, cmsg_props, false); property__write_all(packet, store_props, false); if(expiry_interval > 0){ property__write_all(packet, &expiry_prop, false); } } /* Payload */ if(payloadlen){ packet__write_bytes(packet, payload, payloadlen); } return packet__queue(mosq, packet); }