// Copyright 2024 Proyectos y Sistemas de Mantenimiento SL (eProsima).
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
//     http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.

/**
 * @file ClientSubscriberApp.cpp
 *
 */

#include "ClientSubscriberApp.hpp"

#include <condition_variable>
#include <stdexcept>

#include <fastdds/dds/core/status/SubscriptionMatchedStatus.hpp>
#include <fastdds/dds/domain/DomainParticipantFactory.hpp>
#include <fastdds/dds/subscriber/DataReader.hpp>
#include <fastdds/dds/subscriber/qos/DataReaderQos.hpp>
#include <fastdds/dds/subscriber/qos/SubscriberQos.hpp>
#include <fastdds/dds/subscriber/SampleInfo.hpp>
#include <fastdds/dds/subscriber/Subscriber.hpp>
#include <fastdds/rtps/transport/TCPv4TransportDescriptor.hpp>
#include <fastdds/rtps/transport/TCPv6TransportDescriptor.hpp>
#include <fastdds/rtps/transport/UDPv4TransportDescriptor.hpp>
#include <fastdds/rtps/transport/UDPv6TransportDescriptor.hpp>

#include "CLIParser.hpp"
#include "Application.hpp"

#include "HelloWorldPubSubTypes.hpp"

using namespace eprosima::fastdds::dds;

namespace eprosima {
namespace fastdds {
namespace examples {
namespace discovery_server {

ClientSubscriberApp::ClientSubscriberApp(
        const CLIParser::client_subscriber_config& config)
    : participant_(nullptr)
    , subscriber_(nullptr)
    , topic_(nullptr)
    , reader_(nullptr)
    , type_(new HelloWorldPubSubType())
    , samples_(config.samples)
    , received_samples_(0)
    , stop_(false)
{
    DomainParticipantQos pqos;
    pqos.name("DS-Client_sub");
    pqos.transport().use_builtin_transports = false;

    uint16_t server_port = config.connection_port;

    std::string ip_server_address(config.connection_address);
    // Check if DNS is required
    if (!is_ip(config.connection_address))
    {
        ip_server_address = get_ip_from_dns(config.connection_address, config.transport_kind);
    }

    if (ip_server_address.empty())
    {
        throw std::runtime_error("Invalid connection address");
    }

    // Create DS SERVER locator
    eprosima::fastdds::rtps::Locator server_locator;
    eprosima::fastdds::rtps::IPLocator::setPhysicalPort(server_locator, server_port);

    std::shared_ptr<eprosima::fastdds::rtps::TransportDescriptorInterface> descriptor;

    switch (config.transport_kind)
    {
        case TransportKind::UDPv4:
        {
            auto descriptor_tmp = std::make_shared<eprosima::fastdds::rtps::UDPv4TransportDescriptor>();
            // descriptor_tmp->interfaceWhiteList.push_back(ip_server_address);
            descriptor = descriptor_tmp;

            server_locator.kind = LOCATOR_KIND_UDPv4;
            eprosima::fastdds::rtps::IPLocator::setIPv4(server_locator, ip_server_address);
            break;
        }

        case TransportKind::UDPv6:
        {
            auto descriptor_tmp = std::make_shared<eprosima::fastdds::rtps::UDPv6TransportDescriptor>();
            // descriptor_tmp->interfaceWhiteList.push_back(ip_server_address);
            descriptor = descriptor_tmp;

            server_locator.kind = LOCATOR_KIND_UDPv6;
            eprosima::fastdds::rtps::IPLocator::setIPv6(server_locator, ip_server_address);
            break;
        }

        case TransportKind::TCPv4:
        {
            auto descriptor_tmp = std::make_shared<eprosima::fastdds::rtps::TCPv4TransportDescriptor>();
            // descriptor_tmp->interfaceWhiteList.push_back(ip_server_address);
            // One listening port must be added either in the pub or the sub
            descriptor_tmp->add_listener_port(0);
            descriptor = descriptor_tmp;

            server_locator.kind = LOCATOR_KIND_TCPv4;
            eprosima::fastdds::rtps::IPLocator::setLogicalPort(server_locator, server_port);
            eprosima::fastdds::rtps::IPLocator::setIPv4(server_locator, ip_server_address);
            break;
        }

        case TransportKind::TCPv6:
        {
            auto descriptor_tmp = std::make_shared<eprosima::fastdds::rtps::TCPv6TransportDescriptor>();
            // descriptor_tmp->interfaceWhiteList.push_back(ip_server_address);
            // One listening port must be added either in the pub or the sub
            descriptor_tmp->add_listener_port(0);
            descriptor = descriptor_tmp;

            server_locator.kind = LOCATOR_KIND_TCPv6;
            eprosima::fastdds::rtps::IPLocator::setLogicalPort(server_locator, server_port);
            eprosima::fastdds::rtps::IPLocator::setIPv6(server_locator, ip_server_address);
            break;
        }

        default:
            break;
    }

    // Set participant as DS CLIENT
    pqos.wire_protocol().builtin.discovery_config.discoveryProtocol =
            eprosima::fastdds::rtps::DiscoveryProtocol::CLIENT;

    // Add remote SERVER to CLIENT's list of SERVERs
    pqos.wire_protocol().builtin.discovery_config.m_DiscoveryServers.push_back(server_locator);

    // Add descriptor
    pqos.transport().user_transports.push_back(descriptor);

    // Create the Domainparticipant
    participant_ = DomainParticipantFactory::get_instance()->create_participant(0, pqos, nullptr,
                    StatusMask::all() >> StatusMask::data_on_readers());

    if (participant_ == nullptr)
    {
        throw std::runtime_error("Participant initialization failed");
    }

    std::cout <<
        "Subscriber Participant " << pqos.name() <<
        " created with GUID " << participant_->guid() <<
        " connecting to server <" << server_locator  << "> " <<
        std::endl;

    // Register the type
    type_.register_type(participant_);

    // Create the subscriber
    subscriber_ = participant_->create_subscriber(SUBSCRIBER_QOS_DEFAULT, nullptr);

    if (subscriber_ == nullptr)
    {
        throw std::runtime_error("Subscriber initialization failed");
    }

    // Create the topic
    topic_ = participant_->create_topic(
        config.topic_name,
        type_.get_type_name(),
        TOPIC_QOS_DEFAULT);

    if (topic_ == nullptr)
    {
        throw std::runtime_error("Topic initialization failed");
    }

    // Create the data reader
    DataReaderQos rqos = DATAREADER_QOS_DEFAULT;

    if (config.reliable)
    {
        rqos.reliability().kind = RELIABLE_RELIABILITY_QOS;
    }

    if (config.transient_local)
    {
        rqos.durability().kind = TRANSIENT_LOCAL_DURABILITY_QOS;
    }

    reader_ = subscriber_->create_datareader(topic_, rqos, this);

    if (reader_ == nullptr)
    {
        throw std::runtime_error("DataWriter initialization failed");
    }
}

ClientSubscriberApp::~ClientSubscriberApp()
{
    if (nullptr != participant_)
    {
        // Delete DDS entities contained within the DomainParticipant
        participant_->delete_contained_entities();

        // Delete DomainParticipant
        DomainParticipantFactory::get_instance()->delete_participant(participant_);
    }
}

void ClientSubscriberApp::on_subscription_matched(
        DataReader* /*reader*/,
        const SubscriptionMatchedStatus& info)
{
    if (info.current_count_change == 1)
    {
        std::cout << "Subscriber matched." << std::endl;
    }
    else if (info.current_count_change == -1)
    {
        std::cout << "Subscriber unmatched." << std::endl;
    }
    else
    {
        std::cout << info.current_count_change
                  << " is not a valid value for SubscriptionMatchedStatus current count change" << std::endl;
    }
}

void ClientSubscriberApp::on_data_available(
        DataReader* reader)
{
    SampleInfo info;
    while ((!is_stopped()) && (RETCODE_OK == reader->take_next_sample(&hello_, &info)))
    {
        if ((info.instance_state == ALIVE_INSTANCE_STATE) && info.valid_data)
        {
            received_samples_++;
            // Print Hello world message data
            std::cout << "Message: '" << hello_.message() << "' with index: '" << hello_.index()
                      << "' RECEIVED" << std::endl;
            if (samples_ > 0 && (received_samples_ >= samples_))
            {
                stop();
            }
        }
    }
}

void ClientSubscriberApp::run()
{
    std::unique_lock<std::mutex> lck(terminate_cv_mtx_);
    terminate_cv_.wait(lck, [&]
            {
                return is_stopped();
            });
}

bool ClientSubscriberApp::is_stopped()
{
    return stop_.load();
}

void ClientSubscriberApp::stop()
{
    stop_.store(true);
    terminate_cv_.notify_all();
}

} // namespace discovery_server
} // namespace examples
} // namespace fastdds
} // namespace eprosima