/* Serval Directory Service client When servald starts, load the SID, IP (or domain name) & port of a directory server. When an interface comes up with a route to this server, and periodically thereafter, send our SID name and number to the configured server. When we perform a lookup, send an additional copy of the request to the directory server. */ #include "serval.h" #include "overlay_address.h" struct subscriber *directory_service; static void directory_update(struct sched_ent *alarm); static struct profile_total directory_timing={ .name="directory_update", }; struct sched_ent directory_alarm={ .function=directory_update, .stats=&directory_timing, }; #define DIRECTORY_UPDATE_INTERVAL 300000 // send a registration packet static void directory_send(struct subscriber *directory_service, const unsigned char *sid, const char *did, const char *name){ overlay_mdp_frame request; memset(&request, 0, sizeof(overlay_mdp_frame)); request.packetTypeAndFlags = MDP_TX; bcopy(sid, request.out.src.sid, SID_SIZE); request.out.src.port=MDP_PORT_NOREPLY; bcopy(directory_service->sid, request.out.dst.sid, SID_SIZE); request.out.dst.port=MDP_PORT_DIRECTORY; request.out.payload_length = snprintf((char *)request.out.payload, sizeof(request.out.payload), "%s|%s", did, name); // Used by tests INFOF("Sending directory registration for %s, %s, %s to %s", alloca_tohex(sid,7), did, name, alloca_tohex(directory_service->sid, 7)); overlay_mdp_dispatch(&request, 0, NULL, 0); } // send a registration packet for each unlocked identity static void directory_send_keyring(struct subscriber *directory_service){ int cn=0, in=0, kp=0, k2; for (; !keyring_sanitise_position(keyring, &cn, &in, &kp); ++kp){ keyring_identity *i = keyring->contexts[cn]->identities[in]; if (i->keypairs[kp]->type == KEYTYPE_CRYPTOBOX){ const unsigned char *packedSid = i->keypairs[0]->public_key; for(k2=0; k2 < i->keypair_count; k2++){ if (i->keypairs[k2]->type==KEYTYPE_DID){ const char *unpackedDid = (const char *) i->keypairs[k2]->private_key; const char *name = (const char *) i->keypairs[k2]->public_key; directory_send(directory_service, packedSid, unpackedDid, name); // send the first DID only break; } } } } } static int load_directory_config(){ if (!directory_service){ const char *sid_hex = confValueGet("directory.service", NULL); if (!sid_hex) return 0; unsigned char sid[SID_SIZE]; if (stowSid(sid, 0, sid_hex)==-1) return WHYF("Invalid directory server SID %s", sid_hex); directory_service = find_subscriber(sid, SID_SIZE, 1); if (!directory_service) return WHYF("Failed to create subscriber record"); // used by tests INFOF("ADD DIRECTORY SERVICE %s", alloca_tohex_sid(directory_service->sid)); } // always attempt to reload the address, may depend on DNS resolution return load_subscriber_address(directory_service); } static void directory_update(struct sched_ent *alarm){ load_directory_config(); if (directory_service){ if (subscriber_is_reachable(directory_service) != REACHABLE_NONE){ directory_send_keyring(directory_service); alarm->alarm = gettime_ms() + DIRECTORY_UPDATE_INTERVAL; alarm->deadline = alarm->alarm + 10000; schedule(alarm); }else DEBUGF("Directory service is not reachable"); } } int directory_service_init(){ directory_update(&directory_alarm); return 0; } // called when we discover a route to the directory service SID int directory_registration(){ // give the route & SAS keys a moment to propagate unschedule(&directory_alarm); directory_alarm.alarm = gettime_ms() + 200; directory_alarm.deadline = directory_alarm.alarm + 10000; schedule(&directory_alarm); return 0; }