Beispiel #1
0
// notify_interest_done send a CLIENTAGENT_DONE_INTEREST_RESP to the
// interest operation's caller, if one has been set.
void Client::notify_interest_done(uint16_t interest_id, channel_t caller)
{
    if(caller == 0) {
        return;
    }

    DatagramPtr resp = Datagram::create(caller, m_channel, CLIENTAGENT_DONE_INTEREST_RESP);
    resp->add_channel(m_channel);
    resp->add_uint16(interest_id);
    route_datagram(resp);
}
Beispiel #2
0
// notify_interest_done send a CLIENTAGENT_DONE_INTEREST_RESP to the
// interest operation's caller, if one has been set.
void Client::notify_interest_done(const InterestOperation* iop)
{
    if(iop->m_callers.size() == 0) {
        return;
    }

    DatagramPtr resp = Datagram::create(iop->m_callers, m_channel, CLIENTAGENT_DONE_INTEREST_RESP);
    resp->add_channel(m_channel);
    resp->add_uint16(iop->m_interest_id);
    route_datagram(resp);
}
Beispiel #3
0
void DBStateServer::handle_set_fields(DatagramIterator &dgi)
{
    doid_t do_id = dgi.read_doid();
    if(m_loading.find(do_id) != m_loading.end()) {
        // Ignore this message for now, it'll be bounced back to us
        // from the loading object if it succeeds or fails at loading.
        return;
    }

    uint16_t field_count = dgi.read_uint16();

    FieldValues db_fields;
    for(uint16_t i = 0; i < field_count; ++i) {
        uint16_t field_id = dgi.read_uint16();
        const Field* field = g_dcf->get_field_by_id(field_id);
        if(!field) {
            m_log->warning() << "Received invalid field with id " << field_id << " in SetFields.\n";
            return;
        }
        if(field->has_keyword("db")) {
            dgi.unpack_field(field, db_fields[field]);
        } else {
            dgi.skip_field(field);
        }
    }

    if(db_fields.size() > 0) {
        m_log->trace() << "Forwarding SetFields on object with id " << do_id << " to database.\n";

        DatagramPtr dg = Datagram::create(m_db_channel, do_id, DBSERVER_OBJECT_SET_FIELDS);
        dg->add_doid(do_id);
        dg->add_uint16(db_fields.size());
        for(const auto& it : db_fields) {
            dg->add_uint16(it.first->get_id());
            dg->add_data(it.second);
        }
        route_datagram(dg);
    }
}
Beispiel #4
0
bool DistributedObject::handle_one_get(DatagramPtr out, uint16_t field_id,
                                       bool succeed_if_unset, bool is_subfield)
{
    const Field *field = m_dclass->get_field_by_id(field_id);
    if(!field) {
        m_log->error() << "Received get_field for field: " << field_id
                       << ", not valid for class: " << m_dclass->get_name() << ".\n";
        return false;
    }
    m_log->trace() << "Handling query for '" << field->get_name() << "'.\n";

    const MolecularField *molecular = field->as_molecular();
    if(molecular) {
        int n = molecular->get_num_fields();
        out->add_uint16(field_id);
        for(int i = 0; i < n; ++i) {
            if(!handle_one_get(out, molecular->get_field(i)->get_id(), succeed_if_unset, true)) {
                return false;
            }
        }
        return true;
    }

    if(m_required_fields.count(field)) {
        if(!is_subfield) {
            out->add_uint16(field_id);
        }
        out->add_data(m_required_fields[field]);
    } else if(m_ram_fields.count(field)) {
        if(!is_subfield) {
            out->add_uint16(field_id);
        }
        out->add_data(m_ram_fields[field]);
    } else {
        return succeed_if_unset;
    }

    return true;
}
Beispiel #5
0
void DistributedObject::append_required_data(DatagramPtr dg, bool client_only, bool also_owner)
{
    dg->add_doid(m_do_id);
    dg->add_location(m_parent_id, m_zone_id);
    dg->add_uint16(m_dclass->get_id());
    size_t field_count = m_dclass->get_num_fields();
    for(size_t i = 0; i < field_count; ++i) {
        const Field *field = m_dclass->get_field(i);
        if(field->has_keyword("required") && !field->as_molecular() && (!client_only
                || field->has_keyword("broadcast") || field->has_keyword("clrecv")
                || (also_owner && field->has_keyword("ownrecv")))) {
            dg->add_data(m_required_fields[field]);
        }
    }
}
Beispiel #6
0
void DistributedObject::append_other_data(DatagramPtr dg, bool client_only, bool also_owner)
{
    if(client_only) {
        vector<const Field*> broadcast_fields;
        for(auto it = m_ram_fields.begin(); it != m_ram_fields.end(); ++it) {
            if(it->first->has_keyword("broadcast") || it->first->has_keyword("clrecv")
               || (also_owner && it->first->has_keyword("ownrecv"))) {
                broadcast_fields.push_back(it->first);
            }
        }

        dg->add_uint16(broadcast_fields.size());
        for(auto it = broadcast_fields.begin(); it != broadcast_fields.end(); ++it) {
            dg->add_uint16((*it)->get_id());
            dg->add_data(m_ram_fields[*it]);
        }
    } else {
        dg->add_uint16(m_ram_fields.size());
        for(auto it = m_ram_fields.begin(); it != m_ram_fields.end(); ++it) {
            dg->add_uint16(it->first->get_id());
            dg->add_data(it->second);
        }
    }
}
Beispiel #7
0
void DBStateServer::handle_set_field(DatagramIterator &dgi)
{
    doid_t do_id = dgi.read_doid();
    if(m_loading.find(do_id) != m_loading.end()) {
        // Ignore this message for now, it'll be bounced back to us
        // from the loading object if it succeeds or fails at loading.
        return;
    }

    uint16_t field_id = dgi.read_uint16();

    const Field* field = g_dcf->get_field_by_id(field_id);
    if(field && field->has_keyword("db")) {
        m_log->trace() << "Forwarding SetField for field \"" << field->get_name()
                       << "\" on object with id " << do_id << " to database.\n";

        DatagramPtr dg = Datagram::create(m_db_channel, do_id, DBSERVER_OBJECT_SET_FIELD);
        dg->add_doid(do_id);
        dg->add_uint16(field_id);
        dg->add_data(dgi.read_remainder());
        route_datagram(dg);
    }
}
Beispiel #8
0
// handle_datagram is the handler for datagrams received from the Astron cluster
void Client::handle_datagram(DatagramHandle in_dg, DatagramIterator &dgi)
{
    lock_guard<recursive_mutex> lock(m_client_lock);
    if(is_terminated()) {
        return;
    }

    channel_t sender = dgi.read_channel();
    if(sender == m_channel) {
        return;    // ignore messages from ourselves
    }

    uint16_t msgtype = dgi.read_uint16();
    switch(msgtype) {
    case CLIENTAGENT_EJECT: {
        uint16_t reason = dgi.read_uint16();
        string error_string = dgi.read_string();
        send_disconnect(reason, error_string);
        return;
    }
    break;
    case CLIENTAGENT_DROP: {
        handle_drop();
        return;
    }
    break;
    case CLIENTAGENT_SET_STATE: {
        m_state = (ClientState)dgi.read_uint16();
    }
    break;
    case CLIENTAGENT_ADD_INTEREST: {
        uint32_t context = m_next_context++;

        Interest i;
        build_interest(dgi, false, i);
        handle_add_interest(i, context);
        add_interest(i, context, sender);
    }
    break;
    case CLIENTAGENT_ADD_INTEREST_MULTIPLE: {
        uint32_t context = m_next_context++;

        Interest i;
        build_interest(dgi, true, i);
        handle_add_interest(i, context);
        add_interest(i, context, sender);
    }
    break;
    case CLIENTAGENT_REMOVE_INTEREST: {
        uint32_t context = m_next_context++;

        uint16_t id = dgi.read_uint16();
        Interest &i = m_interests[id];
        handle_remove_interest(id, context);
        remove_interest(i, context, sender);
    }
    break;
    case CLIENTAGENT_SET_CLIENT_ID: {
        if(m_channel != m_allocated_channel) {
            unsubscribe_channel(m_channel);
        }

        m_channel = dgi.read_channel();
        subscribe_channel(m_channel);
    }
    break;
    case CLIENTAGENT_SEND_DATAGRAM: {
        DatagramPtr forward = Datagram::create();
        forward->add_data(dgi.read_string());
        forward_datagram(forward);
    }
    break;
    case CLIENTAGENT_OPEN_CHANNEL: {
        subscribe_channel(dgi.read_channel());
    }
    break;
    case CLIENTAGENT_CLOSE_CHANNEL: {
        unsubscribe_channel(dgi.read_channel());
    }
    break;
    case CLIENTAGENT_ADD_POST_REMOVE: {
        add_post_remove(m_allocated_channel, dgi.read_datagram());
    }
    break;
    case CLIENTAGENT_CLEAR_POST_REMOVES: {
        clear_post_removes(m_allocated_channel);
    }
    break;
    case CLIENTAGENT_DECLARE_OBJECT: {
        doid_t do_id = dgi.read_doid();
        uint16_t dc_id = dgi.read_uint16();

        if(m_declared_objects.find(do_id) != m_declared_objects.end()) {
            m_log->warning() << "Received object declaration for previously declared object "
                             << do_id << ".\n";
            return;
        }

        DeclaredObject obj;
        obj.id = do_id;
        obj.dcc = g_dcf->get_class_by_id(dc_id);
        m_declared_objects[do_id] = obj;
    }
    break;
    case CLIENTAGENT_UNDECLARE_OBJECT: {
        doid_t do_id = dgi.read_doid();

        if(m_declared_objects.find(do_id) == m_declared_objects.end()) {
            m_log->warning() << "Received undeclare object for unknown object "
                             << do_id << ".\n";
            return;
        }

        m_declared_objects.erase(do_id);
    }
    break;
    case CLIENTAGENT_SET_FIELDS_SENDABLE: {
        doid_t do_id = dgi.read_doid();
        uint16_t field_count = dgi.read_uint16();

        unordered_set<uint16_t> fields;
        for(uint16_t i{}; i < field_count; ++i) {
            fields.insert(dgi.read_uint16());
        }
        m_fields_sendable[do_id] = fields;
    }
    break;
    case CLIENTAGENT_ADD_SESSION_OBJECT: {
        doid_t do_id = dgi.read_doid();
        if(m_session_objects.find(do_id) != m_session_objects.end()) {
            m_log->warning() << "Received add session object for existing session object "
                             << do_id << ".\n";
            return;
        }

        m_log->debug() << "Added session object with id " << do_id << ".\n";

        m_session_objects.insert(do_id);
    }
    break;
    case CLIENTAGENT_REMOVE_SESSION_OBJECT: {
        doid_t do_id = dgi.read_doid();

        if(m_session_objects.find(do_id) == m_session_objects.end()) {
            m_log->warning() << "Received remove session object for non-session object "
                             << do_id << ".\n";
            return;
        }

        m_log->debug() << "Removed session object with id " << do_id << ".\n";

        m_session_objects.erase(do_id);
    }
    break;
    case CLIENTAGENT_GET_NETWORK_ADDRESS: {
        DatagramPtr resp = Datagram::create(sender, m_channel, CLIENTAGENT_GET_NETWORK_ADDRESS_RESP);
        resp->add_uint32(dgi.read_uint32()); // Context
        resp->add_string(get_remote_address());
        resp->add_uint16(get_remote_port());
        resp->add_string(get_local_address());
        resp->add_uint16(get_local_port());
        route_datagram(resp);
    }
    break;
    case STATESERVER_OBJECT_SET_FIELD: {
        doid_t do_id = dgi.read_doid();
        if(!lookup_object(do_id)) {
            if(try_queue_pending(do_id, in_dg)) {
                return;
            }
            m_log->warning() << "Received server-side field update for unknown object "
                             << do_id << ".\n";
            return;
        }
        if(sender != m_channel) {
            uint16_t field_id = dgi.read_uint16();
            handle_set_field(do_id, field_id, dgi);
        }
    }
    break;
    case STATESERVER_OBJECT_SET_FIELDS: {
        doid_t do_id = dgi.read_doid();
        if(!lookup_object(do_id)) {
            if(try_queue_pending(do_id, in_dg)) {
                return;
            }
            m_log->warning() << "Received server-side multi-field update for unknown object "
                             << do_id << ".\n";
            return;
        }
        if(sender != m_channel) {
            uint16_t num_fields = dgi.read_uint16();
            handle_set_fields(do_id, num_fields, dgi);
        }
    }
    break;
    case STATESERVER_OBJECT_DELETE_RAM: {
        doid_t do_id = dgi.read_doid();

        m_log->trace() << "Received DeleteRam for object with id " << do_id << "\n.";

        if(!lookup_object(do_id)) {
            if(try_queue_pending(do_id, in_dg)) {
                return;
            }
            m_log->warning() << "Received server-side object delete for unknown object "
                             << do_id << ".\n";
            return;
        }

        if(m_session_objects.find(do_id) != m_session_objects.end()) {
            // We have to erase the object from our session_objects here, because
            // the object has already been deleted and we don't want it to be deleted
            // again in the client's destructor.
            m_session_objects.erase(do_id);

            stringstream ss;
            ss << "The session object with id " << do_id << " has been unexpectedly deleted.";
            send_disconnect(CLIENT_DISCONNECT_SESSION_OBJECT_DELETED, ss.str());
            return;
        }

        if(m_seen_objects.find(do_id) != m_seen_objects.end()) {
            handle_remove_object(do_id);
            m_seen_objects.erase(do_id);
        }

        if(m_owned_objects.find(do_id) != m_owned_objects.end()) {
            handle_remove_ownership(do_id);
            m_owned_objects.erase(do_id);
        }

        m_historical_objects.insert(do_id);
        m_visible_objects.erase(do_id);
    }
    break;
    case STATESERVER_OBJECT_ENTER_OWNER_WITH_REQUIRED_OTHER:
    case STATESERVER_OBJECT_ENTER_OWNER_WITH_REQUIRED: {
        doid_t do_id = dgi.read_doid();
        doid_t parent = dgi.read_doid();
        zone_t zone = dgi.read_zone();
        uint16_t dc_id = dgi.read_uint16();
        m_owned_objects.insert(do_id);

        if(m_visible_objects.find(do_id) == m_visible_objects.end()) {
            VisibleObject obj;
            obj.id = do_id;
            obj.parent = parent;
            obj.zone = zone;
            obj.dcc = g_dcf->get_class_by_id(dc_id);
            m_visible_objects[do_id] = obj;
        }

        bool with_other = (msgtype == STATESERVER_OBJECT_ENTER_OWNER_WITH_REQUIRED_OTHER);
        handle_add_ownership(do_id, parent, zone, dc_id, dgi, with_other);
    }
    break;
    case STATESERVER_OBJECT_ENTER_LOCATION_WITH_REQUIRED:
    case STATESERVER_OBJECT_ENTER_LOCATION_WITH_REQUIRED_OTHER: {
        doid_t do_id = dgi.read_doid();
        doid_t parent = dgi.read_doid();
        zone_t zone = dgi.read_zone();
        for(auto& it : m_pending_interests) {
            InterestOperation *interest_operation = it.second;
            if(interest_operation->m_parent == parent &&
               interest_operation->m_zones.find(zone) != interest_operation->m_zones.end()) {

                interest_operation->queue_datagram(in_dg);

                // Add the DoId to m_pending_objects, because while it's not an object
                // from opening the interest, we should begin queueing messages for it
                m_pending_objects.emplace(do_id, it.first);

                return;
            }
        }

        // Object entrance doesn't pertain to any pending iop,
        // so seek back to where we started and handle it normally
        dgi.seek_payload();
        dgi.skip(sizeof(channel_t) + sizeof(uint16_t)); // sender + msgtype

        bool with_other = (msgtype == STATESERVER_OBJECT_ENTER_LOCATION_WITH_REQUIRED_OTHER);
        handle_object_entrance(dgi, with_other);
    }
    break;
    case STATESERVER_OBJECT_ENTER_INTEREST_WITH_REQUIRED:
    case STATESERVER_OBJECT_ENTER_INTEREST_WITH_REQUIRED_OTHER: {
        uint32_t request_context = dgi.read_uint32();
        auto it = m_pending_interests.find(request_context);
        if(it == m_pending_interests.end()) {
            m_log->warning() << "Received object entrance into interest with unknown context "
                             << request_context << ".\n";
            return;
        }

        m_pending_objects.emplace(dgi.read_doid(), request_context);
        it->second->queue_expected(in_dg);
        if(it->second->is_ready()) {
            it->second->finish();
        }
        return;
    }
    break;
    case STATESERVER_OBJECT_GET_ZONES_COUNT_RESP: {
        uint32_t context = dgi.read_uint32();
        // using doid_t because <max_objects_in_zones> == <max_total_objects>
        doid_t count = dgi.read_doid();

        auto it = m_pending_interests.find(context);
        if(it == m_pending_interests.end()) {
            m_log->error() << "Received GET_ZONES_COUNT_RESP for unknown context "
                           << context << ".\n";
            return;
        }

        it->second->set_expected(count);
        if(it->second->is_ready()) {
            it->second->finish();
        }
    }
    break;
    case STATESERVER_OBJECT_CHANGING_LOCATION: {
        doid_t do_id = dgi.read_doid();
        if(try_queue_pending(do_id, in_dg)) {
            // We received a generate for this object, and the generate is sitting in a pending iop
            // we'll just store this dg under the m_pending_datagrams queue on the iop
            return;
        }

        doid_t n_parent = dgi.read_doid();
        zone_t n_zone = dgi.read_zone();

        bool disable = true;
        for(const auto& it : m_interests) {
            const Interest& i = it.second;
            for(const auto& it2 : i.zones) {
                if(it2 == n_zone) {
                    disable = false;
                    break;
                }
            }
        }

        if(m_visible_objects.find(do_id) != m_visible_objects.end()) {
            m_visible_objects[do_id].parent = n_parent;
            m_visible_objects[do_id].zone = n_zone;
        } else {
            // We don't actually *see* this object, we're receiving this
            // message as a fluke.
            return;
        }

        if(disable && m_owned_objects.find(do_id) == m_owned_objects.end()) {
            if(m_session_objects.find(do_id) != m_session_objects.end()) {
                stringstream ss;
                ss << "The session object with id " << do_id
                   << " has unexpectedly left interest.";
                send_disconnect(CLIENT_DISCONNECT_SESSION_OBJECT_DELETED, ss.str());
                return;
            }

            handle_remove_object(do_id);
            m_seen_objects.erase(do_id);
            m_historical_objects.insert(do_id);
            m_visible_objects.erase(do_id);
        } else {
            handle_change_location(do_id, n_parent, n_zone);
        }
    }
    break;
    case STATESERVER_OBJECT_CHANGING_OWNER: {
        doid_t do_id = dgi.read_doid();
        channel_t n_owner = dgi.read_channel();
        dgi.skip(sizeof(channel_t)); // don't care about the old owner

        if(n_owner == m_channel) {
            // We should already own this object, nothing changes and we
            // might get another enter_owner message.
            return;
        }

        if(m_owned_objects.find(do_id) == m_owned_objects.end()) {
            m_log->error() << "Received ChangingOwner for unowned object with id "
                           << do_id << ".\n";
            return;
        }

        if(m_seen_objects.find(do_id) == m_seen_objects.end()) {
            if(m_session_objects.find(do_id) != m_session_objects.end()) {
                stringstream ss;
                ss << "The session object with id " << do_id
                   << " has unexpectedly left ownership.";
                send_disconnect(CLIENT_DISCONNECT_SESSION_OBJECT_DELETED, ss.str());
                return;
            }

            handle_remove_ownership(do_id);
            m_owned_objects.erase(do_id);
            m_historical_objects.insert(do_id);
            m_visible_objects.erase(do_id);
        }
    }
    break;
    default:
        m_log->error() << "Recv'd unknown server msgtype " << msgtype << "\n.";
    }
}
Beispiel #9
0
// add_interest will start a new interest operation and retrieve all the objects an interest
// from the server, subscribing to each zone in the interest.  If the interest already
// exists, the interest will be updated with the new zones passed in by the argument.
void Client::add_interest(Interest &i, uint32_t context, channel_t caller)
{
    unordered_set<zone_t> new_zones;

    for(const auto& it : i.zones) {
        if(lookup_interests(i.parent, it).empty()) {
            new_zones.insert(it);
        }
    }

    if(m_interests.find(i.id) != m_interests.end()) {
        // This is an already-open interest that is actually being altered.
        // Therefore, we need to delete the objects that the client can see
        // through this interest only.

        Interest previous_interest = m_interests[i.id];
        unordered_set<zone_t> killed_zones;

        for(const auto& it : previous_interest.zones) {
            if(lookup_interests(previous_interest.parent, it).size() > 1) {
                // An interest other than the altered one can see this parent/zone,
                // so we don't care about it.
                continue;
            }

            // If we've gotten here: parent,*it is unique, so if the new interest
            // doesn't cover it, we add it to the killed zones.
            if(i.parent != previous_interest.parent || i.zones.find(it) == i.zones.end()) {
                killed_zones.insert(it);
            }
        }

        // Now that we know what zones to kill, let's get to it:
        close_zones(previous_interest.parent, killed_zones);
    }
    m_interests[i.id] = i;

    if(new_zones.empty()) {
        // We aren't requesting any new zones with this operation, so don't
        // bother firing off a State Server request. Instead, let the client
        // know we're already done:

        notify_interest_done(i.id, caller);
        handle_interest_done(i.id, context);

        return;
    }

    uint32_t request_context = m_next_context++;

    InterestOperation *iop = new InterestOperation(this, m_client_agent->m_interest_timeout,
            i.id, context, request_context, i.parent, new_zones, caller);
    m_pending_interests.emplace(request_context, iop);

    DatagramPtr resp = Datagram::create();
    resp->add_server_header(i.parent, m_channel, STATESERVER_OBJECT_GET_ZONES_OBJECTS);
    resp->add_uint32(request_context);
    resp->add_doid(i.parent);
    resp->add_uint16(new_zones.size());
    for(const auto& it : new_zones) {
        resp->add_zone(it);
        subscribe_channel(location_as_channel(i.parent, it));
    }
    route_datagram(resp);
}
Beispiel #10
0
void DBStateServer::handle_get_all_resp(DatagramIterator& dgi)
{
    uint32_t db_context = dgi.read_uint32();
    if(!is_expected_context(db_context)) {
        return;
    }

    // Get the datagram from the db_context
    DatagramPtr dg = m_context_datagrams[db_context];
    m_context_datagrams.erase(db_context);

    // Check to make sure the datagram is appropriate
    DatagramIterator check_dgi = DatagramIterator(dg);
    uint16_t resp_type = check_dgi.get_msg_type();
    if(resp_type != STATESERVER_OBJECT_GET_ALL_RESP) {
        if(resp_type == STATESERVER_OBJECT_GET_FIELD_RESP) {
            m_log->warning() << "Received GetFieldResp, but expecting GetAllResp." << std::endl;
        } else if(resp_type == STATESERVER_OBJECT_GET_FIELDS_RESP) {
            m_log->warning() << "Received GetFieldsResp, but expecting GetAllResp." << std::endl;
        }
        return;
    }

    // Get do_id from datagram
    check_dgi.seek_payload();
    check_dgi.skip(sizeof(channel_t) + sizeof(doid_t)); // skip over sender and context to do_id;
    doid_t do_id = check_dgi.read_doid();

    // Remove cached loading operation
    if(m_inactive_loads[do_id].size() > 1) {
        m_inactive_loads[do_id].erase(db_context);
    } else {
        m_inactive_loads.erase(do_id);
    }

    m_log->trace() << "Received GetAllResp from database." << std::endl;

    // If object not found, just cleanup the context map
    if(dgi.read_bool() != true) {
        return; // Object not found
    }

    // Read object class
    uint16_t dc_id = dgi.read_uint16();
    if(!dc_id) {
        m_log->error() << "Received object from database with unknown dclass"
                       << " - id:" << dc_id << std::endl;
        return;
    }
    const Class* r_class = g_dcf->get_class_by_id(dc_id);

    // Get fields from database
    UnorderedFieldValues required_fields;
    FieldValues ram_fields;
    if(!unpack_db_fields(dgi, r_class, required_fields, ram_fields)) {
        m_log->error() << "Error while unpacking fields from database." << std::endl;
        return;
    }

    // Add class to response
    dg->add_uint16(r_class->get_id());

    // Add required fields to datagram
    int dcc_field_count = r_class->get_num_fields();
    for(int i = 0; i < dcc_field_count; ++i) {
        const Field *field = r_class->get_field(i);
        if(!field->as_molecular() && field->has_keyword("required")) {
            auto req_it = required_fields.find(field);
            if(req_it != required_fields.end()) {
                dg->add_data(req_it->second);
            } else {
                dg->add_data(field->get_default_value());
            }
        }
    }

    // Add ram fields to datagram
    dg->add_uint16(ram_fields.size());
    for(const auto& it : ram_fields) {
        dg->add_uint16(it.first->get_id());
        dg->add_data(it.second);
    }

    // Send response back to caller
    route_datagram(dg);
}
Beispiel #11
0
void DBStateServer::handle_get_fields(channel_t sender, DatagramIterator &dgi)
{
    uint32_t r_context = dgi.read_uint32();
    doid_t r_do_id = dgi.read_doid();
    uint16_t field_count = dgi.read_uint16();
    if(is_activated_object(r_do_id)) {
        return;
    }

    m_log->trace() << "Received GetFields for inactive object with id " << r_do_id << std::endl;

    // Read requested fields from datagram
    std::vector<const Field*> db_fields; // Ram|required db fields in request
    std::vector<const Field*> ram_fields; // Ram|required but not-db fields in request
    for(uint16_t i = 0; i < field_count; ++i) {
        uint16_t field_id = dgi.read_uint16();
        const Field* field = g_dcf->get_field_by_id(field_id);
        if(!field) {
            DatagramPtr dg = Datagram::create(sender, r_do_id, STATESERVER_OBJECT_GET_FIELDS_RESP);
            dg->add_uint32(r_context);
            dg->add_uint8(false);
            route_datagram(dg);
        } else if(field->has_keyword("ram") || field->has_keyword("required")) {
            if(field->has_keyword("db")) {
                db_fields.push_back(field);
            } else {
                ram_fields.push_back(field);
            }
        }
    }

    if(db_fields.size()) {
        // Get context for db query
        uint32_t db_context = m_next_context++;

        // Prepare reponse datagram
        if(m_context_datagrams.find(db_context) == m_context_datagrams.end()) {
            m_context_datagrams[db_context] = Datagram::create(sender, r_do_id,
                                              STATESERVER_OBJECT_GET_FIELDS_RESP);
        }
        m_context_datagrams[db_context]->add_uint32(r_context);
        m_context_datagrams[db_context]->add_bool(true);
        m_context_datagrams[db_context]->add_uint16(ram_fields.size() + db_fields.size());
        for(const auto& it : ram_fields) {
            m_context_datagrams[db_context]->add_uint16(it->get_id());
            m_context_datagrams[db_context]->add_data(it->get_default_value());
        }

        // Send query to database
        DatagramPtr dg = Datagram::create(m_db_channel, r_do_id, DBSERVER_OBJECT_GET_FIELDS);
        dg->add_uint32(db_context);
        dg->add_doid(r_do_id);
        dg->add_uint16(db_fields.size());
        for(const auto& it : db_fields) {
            dg->add_uint16(it->get_id());
        }
        route_datagram(dg);
    } else { // If no database fields exist
        DatagramPtr dg = Datagram::create(sender, r_do_id, STATESERVER_OBJECT_GET_FIELDS_RESP);
        dg->add_uint32(r_context);
        dg->add_bool(true);
        dg->add_uint16(ram_fields.size());
        for(const auto& it : ram_fields) {
            dg->add_uint16(it->get_id());
            dg->add_data(it->get_default_value());
        }
        route_datagram(dg);
    }
}
Beispiel #12
0
void DistributedObject::handle_datagram(DatagramHandle, DatagramIterator &dgi)
{
    channel_t sender = dgi.read_channel();
    uint16_t msgtype = dgi.read_uint16();
    switch(msgtype) {
    case STATESERVER_DELETE_AI_OBJECTS: {
        if(m_ai_channel != dgi.read_channel()) {
            m_log->warning() << " received reset for wrong AI channel.\n";
            break; // Not my AI!
        }
        annihilate(sender);

        break;
    }
    case STATESERVER_OBJECT_DELETE_RAM: {
        if(m_do_id != dgi.read_doid()) {
            break;    // Not meant for me!
        }

        // Delete object
        annihilate(sender);

        break;
    }
    case STATESERVER_OBJECT_DELETE_CHILDREN: {
        doid_t r_do_id = dgi.read_doid();
        if(r_do_id == m_do_id) {
            delete_children(sender);
        } else if(r_do_id == m_parent_id) {
            annihilate(sender, false);
        }
        break;
    }
    case STATESERVER_OBJECT_SET_FIELD: {
        if(m_do_id != dgi.read_doid()) {
            break;    // Not meant for me!
        }
        handle_one_update(dgi, sender);

        break;
    }
    case STATESERVER_OBJECT_SET_FIELDS: {
        if(m_do_id != dgi.read_doid()) {
            break;    // Not meant for me!
        }
        uint16_t field_count = dgi.read_uint16();
        for(int16_t i = 0; i < field_count; ++i) {
            if(!handle_one_update(dgi, sender)) {
                break;
            }
        }
        break;
    }
    case STATESERVER_OBJECT_CHANGING_AI: {
        doid_t r_parent_id = dgi.read_doid();
        channel_t new_channel = dgi.read_channel();
        m_log->trace() << "Received ChangingAI notification from " << r_parent_id << ".\n";
        if(r_parent_id != m_parent_id) {
            m_log->warning() << "Received AI channel from " << r_parent_id
                             << " but my parent_id is " << m_parent_id << ".\n";
            break;
        }
        if(m_ai_explicitly_set) {
            break;
        }
        handle_ai_change(new_channel, sender, false);

        break;
    }
    case STATESERVER_OBJECT_SET_AI: {
        channel_t new_channel = dgi.read_channel();
        m_log->trace() << "Updating AI to " << new_channel << ".\n";
        handle_ai_change(new_channel, sender, true);

        break;
    }
    case STATESERVER_OBJECT_GET_AI: {
        m_log->trace() << "Received AI query from " << sender << ".\n";
        DatagramPtr dg = Datagram::create(sender, m_do_id, STATESERVER_OBJECT_GET_AI_RESP);
        dg->add_uint32(dgi.read_uint32()); // Get context
        dg->add_doid(m_do_id);
        dg->add_channel(m_ai_channel);
        route_datagram(dg);

        break;
    }
    case STATESERVER_OBJECT_GET_AI_RESP: {
        dgi.read_uint32(); // Discard context
        doid_t r_parent_id = dgi.read_doid();
        m_log->trace() << "Received AI query response from " << r_parent_id << ".\n";
        if(r_parent_id != m_parent_id) {
            m_log->warning() << "Received AI channel from " << r_parent_id
                             << " but my parent_id is " << m_parent_id << ".\n";
            break;
        }

        channel_t new_ai = dgi.read_channel();
        if(m_ai_explicitly_set) {
            break;
        }
        handle_ai_change(new_ai, sender, false);

        break;
    }
    case STATESERVER_OBJECT_CHANGING_LOCATION: {
        doid_t child_id = dgi.read_doid();
        doid_t new_parent = dgi.read_doid();
        zone_t new_zone = dgi.read_zone();
        doid_t r_do_id = dgi.read_doid();
        zone_t r_zone = dgi.read_zone();
        if(new_parent == m_do_id) {
            if(m_do_id == r_do_id) {
                if(new_zone == r_zone) {
                    break; // No change, so do nothing.
                }

                auto &children = m_zone_objects[r_zone];
                children.erase(child_id);
                if(children.empty()) {
                    m_zone_objects.erase(r_zone);
                }
            }

            m_zone_objects[new_zone].insert(child_id);

            DatagramPtr dg = Datagram::create(child_id, m_do_id, STATESERVER_OBJECT_LOCATION_ACK);
            dg->add_doid(m_do_id);
            dg->add_zone(new_zone);
            route_datagram(dg);
        } else if(r_do_id == m_do_id) {
            auto &children = m_zone_objects[r_zone];
            children.erase(child_id);
            if(children.empty()) {
                m_zone_objects.erase(r_zone);
            }
        } else {
            m_log->warning() << "Received changing location from " << child_id
                             << " for " << r_do_id << ", but my id is " << m_do_id << ".\n";
        }

        break;
    }
    case STATESERVER_OBJECT_LOCATION_ACK: {
        doid_t r_parent_id = dgi.read_doid();
        zone_t r_zone_id = dgi.read_zone();
        if(r_parent_id != m_parent_id) {
            m_log->trace() << "Received location acknowledgement from " << r_parent_id
                           << " but my parent_id is " << m_parent_id << ".\n";
        } else if(r_zone_id != m_zone_id) {
            m_log->trace() << "Received location acknowledgement for zone " << r_zone_id
                           << " but my zone_id is " << m_zone_id << ".\n";
        } else {
            m_log->trace() << "Parent acknowledged my location change.\n";
            m_parent_synchronized = true;
        }
        break;
    }
    case STATESERVER_OBJECT_SET_LOCATION: {
        doid_t new_parent = dgi.read_doid();
        zone_t new_zone = dgi.read_zone();
        m_log->trace() << "Updating location to Parent: " << new_parent
                       << ", Zone: " << new_zone << ".\n";

        handle_location_change(new_parent, new_zone, sender);

        break;
    }
    case STATESERVER_OBJECT_GET_LOCATION: {
        uint32_t context = dgi.read_uint32();

        DatagramPtr dg = Datagram::create(sender, m_do_id, STATESERVER_OBJECT_GET_LOCATION_RESP);
        dg->add_uint32(context);
        dg->add_doid(m_do_id);
        dg->add_location(m_parent_id, m_zone_id);
        route_datagram(dg);

        break;
    }
    case STATESERVER_OBJECT_GET_LOCATION_RESP: {
        // This case occurs immediately after object creation.
        // A parent expects to receive a location_resp from each
        // of its pre-existing children.

        if(dgi.read_uint32() != STATESERVER_CONTEXT_WAKE_CHILDREN) {
            m_log->warning() << "Received unexpected GetLocationResp from "
                             << dgi.read_uint32() << ".\n";
            break;
        }

        // Get DOID of our child
        doid_t doid = dgi.read_doid();

        // Get location
        doid_t r_parent = dgi.read_doid();
        zone_t r_zone = dgi.read_zone();

        // Update the child count
        if(r_parent == m_do_id) {
            m_zone_objects[r_zone].insert(doid);
        }
        break;
    }
    case STATESERVER_OBJECT_GET_ALL: {
        uint32_t context = dgi.read_uint32();
        if(dgi.read_doid() != m_do_id) {
            return;    // Not meant for this object!
        }
        DatagramPtr dg = Datagram::create(sender, m_do_id, STATESERVER_OBJECT_GET_ALL_RESP);
        dg->add_uint32(context);
        append_required_data(dg);
        append_other_data(dg);
        route_datagram(dg);

        break;
    }
    case STATESERVER_OBJECT_GET_FIELD: {
        uint32_t context = dgi.read_uint32();
        if(dgi.read_doid() != m_do_id) {
            return;    // Not meant for this object!
        }
        uint16_t field_id = dgi.read_uint16();

        DatagramPtr raw_field = Datagram::create();
        bool success = handle_one_get(raw_field, field_id);

        DatagramPtr dg = Datagram::create(sender, m_do_id, STATESERVER_OBJECT_GET_FIELD_RESP);
        dg->add_uint32(context);
        dg->add_bool(success);
        if(success) {
            dg->add_data(raw_field);
        }
        route_datagram(dg);

        break;
    }
    case STATESERVER_OBJECT_GET_FIELDS: {
        uint32_t context = dgi.read_uint32();
        if(dgi.read_doid() != m_do_id) {
            return;    // Not meant for this object!
        }
        uint16_t field_count = dgi.read_uint16();

        // Read our requested fields into a sorted set
        set<uint16_t> requested_fields;
        for(int i = 0; i < field_count; ++i) {
            uint16_t field_id = dgi.read_uint16();
            if(!requested_fields.insert(field_id).second) {
                const dclass::Field* field = m_dclass->get_field_by_id(field_id);
                if(field != nullptr) {
                    // If it is null, handle_one_get will produce a warning for us later
                    m_log->warning() << "Received duplicate field '"
                                     << field->get_name() << "' in get_fields.\n";
                }
            }
        }

        // Try to get the values for all the fields
        bool success = true;
        uint16_t fields_found = 0;
        DatagramPtr raw_fields = Datagram::create();
        for(auto it = requested_fields.begin(); it != requested_fields.end(); ++it) {
            uint16_t field_id = *it;
            uint16_t length = raw_fields->size();
            if(!handle_one_get(raw_fields, field_id, true)) {
                success = false;
                break;
            }
            if(raw_fields->size() > length) {
                fields_found++;
            }
        }

        // Send get fields response
        DatagramPtr dg = Datagram::create(sender, m_do_id, STATESERVER_OBJECT_GET_FIELDS_RESP);
        dg->add_uint32(context);
        dg->add_bool(success);
        if(success) {
            dg->add_uint16(fields_found);
            dg->add_data(raw_fields);
        }
        route_datagram(dg);

        break;
    }
    case STATESERVER_OBJECT_SET_OWNER: {
        channel_t new_owner = dgi.read_channel();
        m_log->trace() << "Updating owner to " << new_owner << "...\n";
        if(new_owner == m_owner_channel) {
            m_log->trace() << "... owner is the same, do nothing.\n";
            return;
        }

        if(m_owner_channel) {
            m_log->trace() << "... broadcasting changing owner...\n";
            DatagramPtr dg = Datagram::create(m_owner_channel, sender, STATESERVER_OBJECT_CHANGING_OWNER);
            dg->add_doid(m_do_id);
            dg->add_channel(new_owner);
            dg->add_channel(m_owner_channel);
            route_datagram(dg);
        }

        m_owner_channel = new_owner;

        if(new_owner) {
            m_log->trace() << "... sending owner entry...\n";
            send_owner_entry(new_owner);
        }

        m_log->trace() << "... updated owner.\n";
        break;
    }
    case STATESERVER_OBJECT_GET_ZONE_OBJECTS:
    case STATESERVER_OBJECT_GET_ZONES_OBJECTS: {
        uint32_t context  = dgi.read_uint32();
        doid_t queried_parent = dgi.read_doid();


        m_log->trace() << "Handling get_zones_objects with parent '" << queried_parent << "'"
                       << ".  My id is " << m_do_id << " and my parent is " << m_parent_id
                       << ".\n";

        uint16_t zone_count = 1;
        if(msgtype == STATESERVER_OBJECT_GET_ZONES_OBJECTS) {
            zone_count = dgi.read_uint16();
        }

        if(queried_parent == m_parent_id) {
            // Query was relayed from parent! See if we match any of the zones
            // and if so, reply:
            for(uint16_t i = 0; i < zone_count; ++i) {
                if(dgi.read_zone() == m_zone_id) {
                    // The parent forwarding this request down to us may or may
                    // not yet know about our presence (and therefore have us
                    // included in the count that it sent to the interested
                    // peer). If we are included in this count, we reply with a
                    // normal interest entry. If not, we reply with a standard
                    // location entry and allow the interested peer to resolve
                    // the difference itself.
                    if(m_parent_synchronized) {
                        send_interest_entry(sender, context);
                    } else {
                        send_location_entry(sender);
                    }
                    break;
                }
            }
        } else if(queried_parent == m_do_id) {
            doid_t child_count = 0;

            // Start datagram to relay to children
            DatagramPtr child_dg = Datagram::create(parent_to_children(m_do_id), sender,
                                                    STATESERVER_OBJECT_GET_ZONES_OBJECTS);
            child_dg->add_uint32(context);
            child_dg->add_doid(queried_parent);
            child_dg->add_uint16(zone_count);

            // Get all zones requested
            for(int i = 0; i < zone_count; ++i) {
                zone_t zone = dgi.read_zone();
                child_count += m_zone_objects[zone].size();
                child_dg->add_zone(zone);
            }

            // Reply to requestor with count of objects expected
            DatagramPtr count_dg = Datagram::create(sender, m_do_id, STATESERVER_OBJECT_GET_ZONES_COUNT_RESP);
            count_dg->add_uint32(context);
            count_dg->add_doid(child_count);
            route_datagram(count_dg);

            // Bounce the message down to all children and have them decide
            // whether or not to reply.
            // TODO: Is this really that efficient?
            if(child_count > 0) {
                route_datagram(child_dg);
            }
        }

        break;
    }

    // zones in Astron don't have meaning to the cluster itself
    // as such, there is no table of zones to query in the network
    // instead, a zone is said to be active if it has at least one object in it
    // to get the active zones, get the keys from m_zone_objects and dump them into a std::set<zone_t>
    // using an std::set ensures that no duplicate zones are sent
    // TODO: evaluate efficiency on large games with many DistributedObjects

    case STATESERVER_GET_ACTIVE_ZONES: {
        uint32_t context = dgi.read_uint32();

        std::unordered_set<zone_t> keys;

        for(auto kv : m_zone_objects) {
            keys.insert(kv.first);
        }

        DatagramPtr dg = Datagram::create(sender, m_do_id, STATESERVER_GET_ACTIVE_ZONES_RESP);

        dg->add_uint32(context);
        dg->add_uint16(keys.size());

        std::unordered_set<zone_t>::iterator it;
        for(it = keys.begin(); it != keys.end(); ++it) {
            dg->add_zone(*it);
        }

        route_datagram(dg);
        break;
    }
    default:
        if(msgtype < STATESERVER_MSGTYPE_MIN || msgtype > STATESERVER_MSGTYPE_MAX) {
            m_log->warning() << "Received unknown message of type " << msgtype << ".\n";
        } else {
            m_log->trace() << "Ignoring stateserver message of type " << msgtype << ".\n";
        }
    }
}