// Copyright 2019 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.

#ifndef _FASTDDS_UDP_TRANSPORT_INTERFACE_H_
#define _FASTDDS_UDP_TRANSPORT_INTERFACE_H_

#include <asio.hpp>
#include <thread>

#include <fastdds/rtps/transport/TransportInterface.h>
#include <fastdds/rtps/transport/UDPChannelResource.h>
#include <fastdds/rtps/transport/UDPTransportDescriptor.h>
#include <fastrtps/utils/IPFinder.h>

#include <vector>
#include <memory>
#include <map>
#include <mutex>

namespace eprosima{
namespace fastdds{
namespace rtps{

class UDPTransportInterface : public TransportInterface
{
public:

   virtual ~UDPTransportInterface() override;

   void clean();

   //! Removes the listening socket for the specified port.
   virtual bool CloseInputChannel(const fastrtps::rtps::Locator_t&) override;

   //! Removes all outbound sockets on the given port.
   void CloseOutputChannel(eProsimaUDPSocket& socket);

   //! Reports whether Locators correspond to the same port.
   virtual bool DoInputLocatorsMatch(const fastrtps::rtps::Locator_t&, const fastrtps::rtps::Locator_t&) const override;

   virtual const UDPTransportDescriptor* configuration() const = 0;

   bool init() override;

   //! Checks whether there are open and bound sockets for the given port.
   virtual bool IsInputChannelOpen(const fastrtps::rtps::Locator_t&) const override;

   //! Checks for TCP kinds.
   virtual bool IsLocatorSupported(const fastrtps::rtps::Locator_t&) const override;

   //! Opens a socket on the given address and port (as long as they are white listed).
   virtual bool OpenOutputChannel(
           SendResourceList& sender_resource_list,
           const fastrtps::rtps::Locator_t&) override;

   /**
   * Converts a given remote locator (that is, a locator referring to a remote
   * destination) to the main local locator whose channel can write to that
   * destination. In this case it will return a 0.0.0.0 address on that port.
   */
   virtual fastrtps::rtps::Locator_t RemoteToMainLocal(const fastrtps::rtps::Locator_t&) const override;

    /**
     * Transforms a remote locator into a locator optimized for local communications.
     *
     * If the remote locator corresponds to one of the local interfaces, it is converted
     * to the corresponding local address.
     *
     * @param [in]  remote_locator Locator to be converted.
     * @param [out] result_locator Converted locator.
     *
     * @return false if the input locator is not supported/allowed by this transport, true otherwise.
     */
    virtual bool transform_remote_locator(
            const fastrtps::rtps::Locator_t& remote_locator,
            fastrtps::rtps::Locator_t& result_locator) const override;

   /**
   * Blocking Send through the specified channel. In both modes, using a localLocator of 0.0.0.0 will
   * send through all whitelisted interfaces provided the channel is open.
   * @param send_buffer Slice into the raw data to send.
   * @param send_buffer_size Size of the raw data. It will be used as a bounds check for the previous argument.
   * It must not exceed the send_buffer_size fed to this class during construction.
   * @param socket channel we're sending from.
   * @param destination_locators_begin pointer to destination locators iterator begin, the iterator can be advanced inside this fuction
   * so should not be reuse.
   * @param destination_locators_end pointer to destination locators iterator end, the iterator can be advanced inside this fuction
   * so should not be reuse.
   * @param only_multicast_purpose
   * @param max_blocking_time_point maximum blocking time.
   */
   virtual bool send(
           const fastrtps::rtps::octet* send_buffer,
           uint32_t send_buffer_size,
           eProsimaUDPSocket& socket,
           fastrtps::rtps::LocatorsIterator* destination_locators_begin,
           fastrtps::rtps::LocatorsIterator* destination_locators_end,
           bool only_multicast_purpose,
           const std::chrono::steady_clock::time_point& max_blocking_time_point);

    /**
     * Performs the locator selection algorithm for this transport.
     *
     * It basically consists of the following steps
     *   - selector.transport_starts is called
     *   - transport handles the selection state of each locator
     *   - if a locator from an entry is selected, selector.select is called for that entry
     *
     * In the case of UDP, multicast locators are selected when present in more than one entry,
     * otherwise unicast locators are selected.
     *
     * @param [in, out] selector Locator selector.
     */
    virtual void select_locators(fastrtps::rtps::LocatorSelector& selector) const override;

    virtual bool fillMetatrafficMulticastLocator(fastrtps::rtps::Locator_t &locator,
        uint32_t metatraffic_multicast_port) const override;

    virtual bool fillMetatrafficUnicastLocator(fastrtps::rtps::Locator_t &locator, uint32_t metatraffic_unicast_port) const override;

    virtual bool configureInitialPeerLocator(fastrtps::rtps::Locator_t &locator, const fastrtps::rtps::PortParameters &port_params, uint32_t domainId,
        fastrtps::rtps::LocatorList_t& list) const override;

    virtual bool fillUnicastLocator(fastrtps::rtps::Locator_t &locator, uint32_t well_known_port) const override;

    virtual uint32_t max_recv_buffer_size() const override
    {
        return configuration()->maxMessageSize;
    }

protected:

    friend class UDPChannelResource;

    // For UDPv6, the notion of channel corresponds to a port + direction tuple.
    asio::io_service io_service_;
    std::vector<fastrtps::rtps::IPFinder::info_IP> currentInterfaces;

    mutable std::recursive_mutex mInputMapMutex;
    std::map<uint16_t, std::vector<UDPChannelResource*>> mInputSockets;

    uint32_t mSendBufferSize;
    uint32_t mReceiveBufferSize;

    UDPTransportInterface(int32_t transport_kind);

    virtual bool compare_locator_ip(const fastrtps::rtps::Locator_t& lh, const fastrtps::rtps::Locator_t& rh) const = 0;
    virtual bool compare_locator_ip_and_port(const fastrtps::rtps::Locator_t& lh, const fastrtps::rtps::Locator_t& rh) const = 0;

    virtual void endpoint_to_locator(asio::ip::udp::endpoint& endpoint, fastrtps::rtps::Locator_t& locator) = 0;
    virtual void fill_local_ip(fastrtps::rtps::Locator_t& loc) const = 0;

    virtual asio::ip::udp::endpoint GenerateAnyAddressEndpoint(uint16_t port) = 0;
    virtual asio::ip::udp::endpoint generate_endpoint(uint16_t port) = 0;
    virtual asio::ip::udp::endpoint generate_endpoint(const std::string& sIp, uint16_t port) = 0;
    virtual asio::ip::udp::endpoint generate_endpoint(const fastrtps::rtps::Locator_t& loc, uint16_t port) = 0;
    virtual asio::ip::udp::endpoint generate_local_endpoint(const fastrtps::rtps::Locator_t& loc, uint16_t port) = 0;
    virtual asio::ip::udp generate_protocol() const = 0;
    virtual void get_ips(std::vector<fastrtps::rtps::IPFinder::info_IP>& locNames, bool return_loopback = false) = 0;

    //! Checks if the interfaces white list is empty.
    virtual bool is_interface_whitelist_empty() const = 0;

    //! Checks if the given interface is allowed by the white list.
    virtual bool is_interface_allowed(const std::string& interface) const = 0;

    /**
    * Method to get a list of interfaces to bind the socket associated to the given locator.
    * @return Vector of interfaces in string format.
    */
    virtual std::vector<std::string> get_binding_interfaces_list() = 0;

    bool OpenAndBindInputSockets(const fastrtps::rtps::Locator_t& locator, TransportReceiverInterface* receiver, bool is_multicast,
        uint32_t maxMsgSize);
    UDPChannelResource* CreateInputChannelResource(const std::string& sInterface, const fastrtps::rtps::Locator_t& locator,
        bool is_multicast, uint32_t maxMsgSize, TransportReceiverInterface* receiver);
    virtual eProsimaUDPSocket OpenAndBindInputSocket(const std::string& sIp, uint16_t port, bool is_multicast) = 0;
    eProsimaUDPSocket OpenAndBindUnicastOutputSocket(const asio::ip::udp::endpoint& endpoint, uint16_t& port);

    virtual void set_receive_buffer_size(uint32_t size) = 0;
    virtual void set_send_buffer_size(uint32_t size) = 0;
    virtual void SetSocketOutboundInterface(eProsimaUDPSocket&, const std::string&) = 0;

    /**
     * Send a buffer to a destination
     */
    bool send(
        const fastrtps::rtps::octet* send_buffer,
        uint32_t send_buffer_size,
        eProsimaUDPSocket& socket,
        const fastrtps::rtps::Locator_t& remote_locator,
        bool only_multicast_purpose,
        const std::chrono::microseconds& timeout);
};

} // namespace rtps
} // namespace fastdds
} // namespace eprosima

#endif // _FASTDDS_UDP_TRANSPORT_INTERFACE_H_