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#include "../../modules.h"

#include "../../modules.h"

#include "../../structures/dynamic_fifo.h"

#include "../../structures/dynamic_fifo.h"

#include "../../structures/packet/packet_client.h"

#include "../../structures/packet/packet_client.h"

#include "../../include/in.h"

#include "../../include/in.h"

#include "../../include/in6.h"

#include "../../include/in6.h"

#include "../../include/inet.h"

#include "../../include/inet.h"

#include "../../include/ip_client.h"

#include "../../include/ip_client.h"

#include "../../include/ip_interface.h"

#include "../../include/ip_interface.h"

#include "../../include/ip_protocols.h"

#include "../../include/ip_protocols.h"

#include "../../include/icmp_client.h"

#include "../../include/icmp_client.h"

#include "../../include/icmp_interface.h"

#include "../../include/icmp_interface.h"

#include "../../include/socket_codes.h"

#include "../../include/socket_codes.h"

#include "../../include/socket_errno.h"

#include "../../include/socket_errno.h"

#include "../../socket/socket_core.h"

#include "../../socket/socket_core.h"

#include "../../socket/socket_messages.h"

#include "../../socket/socket_messages.h"

#include "udp.h"

#include "udp.h"

#include "udp_header.h"

#include "udp_header.h"

#include "udp_module.h"

#include "udp_module.h"

/** Maximum UDP fragment size.

/** Maximum UDP fragment size.

 */

 */

#define MAX_UDP_FRAGMENT_SIZE   65535

#define MAX_UDP_FRAGMENT_SIZE   65535

/** Free ports pool start.

/** Free ports pool start.

 *  @returns ENOTSOCK if the socket is not found.

 *  @returns ENOTSOCK if the socket is not found.

 *  @returns NO_DATA if there are no received packets or data.

 *  @returns NO_DATA if there are no received packets or data.

 *  @returns ENOMEM if there is not enough memory left.

 *  @returns ENOMEM if there is not enough memory left.

 *  @returns EINVAL if the received address is not an IP address.

 *  @returns EINVAL if the received address is not an IP address.

 *  @returns Other error codes as defined for the packet_translate() function.

 *  @returns Other error codes as defined for the packet_translate() function.

 */

 */

int udp_recvfrom_message( socket_cores_ref local_sockets, int socket_id, int flags, size_t * addrlen );

int udp_recvfrom_message( socket_cores_ref local_sockets, int socket_id, int flags, size_t * addrlen );

/*@}*/

/*@}*/

/** Receives data from the socket into a packet.

/** Receives data from the socket into a packet.

 *  @param packet The new created packet. Output parameter.

 *  @param packet The new created packet. Output parameter.

 *  @param prefix Reserved packet data prefix length. Input parameter.

 *  @param prefix Reserved packet data prefix length. Input parameter.

 *  @param addr The destination address. Input parameter.

 *  @param addr The destination address. Input parameter.

 *  @param addrlen The address length. Input parameter.

 *  @param addrlen The address length. Input parameter.

 *  @returns ENOMEM if there is not enough memory left.

 *  @returns ENOMEM if there is not enough memory left.

 *  @returns Other error codes as defined for the ipc_data_read_finalize() function.

 *  @returns Other error codes as defined for the ipc_data_read_finalize() function.

 */

 */

int socket_read_packet_data( packet_ref packet, size_t prefix, const struct sockaddr * addr, socklen_t addrlen );

int socket_read_packet_data( packet_ref packet, size_t prefix, const struct sockaddr * addr, socklen_t addrlen );

/** Sets the address port.

/** Sets the address port.

 *  Supports AF_INET and AF_INET6 address families.

 *  Supports AF_INET and AF_INET6 address families.

 *  @param addr The address to be updated. Input/output parameter.

 *  @param addr The address to be updated. Input/output parameter.

 *  @param addrlen The address length. Input parameter.

 *  @param addrlen The address length. Input parameter.

 *  @param port The port to be set. Input parameter.

 *  @param port The port to be set. Input parameter.

udp_globals_t   udp_globals;

udp_globals_t   udp_globals;

int udp_initialize( async_client_conn_t client_connection ){

int udp_initialize( async_client_conn_t client_connection ){

    ERROR_DECLARE;

    ERROR_DECLARE;

    fibril_rwlock_initialize( & udp_globals.lock );

    fibril_rwlock_initialize( & udp_globals.lock );

    fibril_rwlock_write_lock( & udp_globals.lock );

    fibril_rwlock_write_lock( & udp_globals.lock );

    udp_globals.icmp_phone = icmp_connect_module( SERVICE_ICMP );

    udp_globals.icmp_phone = icmp_connect_module( SERVICE_ICMP );

    if( udp_globals.icmp_phone < 0 ){

    if( udp_globals.icmp_phone < 0 ){

        return udp_globals.icmp_phone;

        return udp_globals.icmp_phone;

    ERROR_PROPAGATE( ip_packet_size_req( udp_globals.ip_phone, -1, & udp_globals.addr_len, & udp_globals.prefix, & udp_globals.content, & udp_globals.suffix ));

    ERROR_PROPAGATE( ip_packet_size_req( udp_globals.ip_phone, -1, & udp_globals.addr_len, & udp_globals.prefix, & udp_globals.content, & udp_globals.suffix ));

    ERROR_PROPAGATE( socket_ports_initialize( & udp_globals.sockets ));

    ERROR_PROPAGATE( socket_ports_initialize( & udp_globals.sockets ));

    udp_globals.prefix += sizeof( udp_header_t );

    udp_globals.prefix += sizeof( udp_header_t );

    udp_globals.content -= sizeof( udp_header_t );

    udp_globals.content -= sizeof( udp_header_t );

    udp_globals.last_used_port = UDP_FREE_PORTS_START - 1;

    udp_globals.last_used_port = UDP_FREE_PORTS_START - 1;

    fibril_rwlock_write_unlock( & udp_globals.lock );

    fibril_rwlock_write_unlock( & udp_globals.lock );

    return EOK;

    return EOK;

}

}

int udp_received_msg( device_id_t device_id, packet_t packet, services_t receiver, services_t error ){

int udp_received_msg( device_id_t device_id, packet_t packet, services_t receiver, services_t error ){

    uint8_t *       data;

    uint8_t *       data;

    udp_header_ref  header;

    udp_header_ref  header;

    socket_core_ref *   socket;

    socket_core_ref *   socket;

    packet_t        next_packet;

    packet_t        next_packet;

    size_t          total_length;

    size_t          total_length;

    int             fragments;

    int             fragments;

    packet_t        tmp_packet;

    packet_t        tmp_packet;

    icmp_type_t     type;

    icmp_type_t     type;

    icmp_code_t     code;

    icmp_code_t     code;

    if( error ){

    if( error ){

        switch( error ){

        switch( error ){

            case SERVICE_ICMP:

            case SERVICE_ICMP:

                // process error

                // process error

    ERROR_PROPAGATE( packet_trim( packet, offset, 0 ));

    ERROR_PROPAGATE( packet_trim( packet, offset, 0 ));

    // count the received packet fragments

    // count the received packet fragments

    next_packet = packet;

    next_packet = packet;

    fragments = 0;

    fragments = 0;

    total_length = ntohs( header->len );

    total_length = ntohs( header->len );

    do{

    do{

        ++ fragments;

        ++ fragments;

        if( length <= 0 ){

        if( length <= 0 ){

            return udp_release_and_return( packet, NO_DATA );

            return udp_release_and_return( packet, NO_DATA );

        }

        }

        if( total_length < length ){

        if( total_length < length ){

            if( ERROR_OCCURRED( packet_trim( next_packet, 0, length - total_length ))){

            if( ERROR_OCCURRED( packet_trim( next_packet, 0, length - total_length ))){

                return udp_release_and_return( packet, ERROR_CODE );

                return udp_release_and_return( packet, ERROR_CODE );

            }

            }

            // relese the rest of the packet fragments

            // relese the rest of the packet fragments

            tmp_packet = pq_next( next_packet );

            tmp_packet = pq_next( next_packet );

            while( tmp_packet ){

            while( tmp_packet ){

                next_packet = pq_detach( tmp_packet );

                next_packet = pq_detach( tmp_packet );

                pq_release( udp_globals.net_phone, packet_get_id( tmp_packet ));

                pq_release( udp_globals.net_phone, packet_get_id( tmp_packet ));

                tmp_packet = next_packet;

                tmp_packet = next_packet;

            }

            }

            break;

            break;

        }

        }

        total_length -= length;

        total_length -= length;

        }

        }

    }while(( next_packet = pq_next( next_packet )) && ( total_length > 0 ));

    }while(( next_packet = pq_next( next_packet )) && ( total_length > 0 ));

    // queue the received packet

    // queue the received packet

    if( ERROR_OCCURRED( dyn_fifo_push( &( ** socket ).received, packet_get_id( packet ), SOCKET_MAX_RECEIVED_SIZE ))){

    if( ERROR_OCCURRED( dyn_fifo_push( &( ** socket ).received, packet_get_id( packet ), SOCKET_MAX_RECEIVED_SIZE ))){

        return udp_release_and_return( packet, ERROR_CODE );

        return udp_release_and_return( packet, ERROR_CODE );

    }

    }

                * SOCKET_SET_HEADER_SIZE( answer ) = sizeof( udp_header_t );

                * SOCKET_SET_HEADER_SIZE( answer ) = sizeof( udp_header_t );

                * SOCKET_SET_DATA_FRAGMENT_SIZE( answer ) = MAX_UDP_FRAGMENT_SIZE;

                * SOCKET_SET_DATA_FRAGMENT_SIZE( answer ) = MAX_UDP_FRAGMENT_SIZE;

                answer_count = 3;

                answer_count = 3;

                break;

                break;

            case NET_SOCKET_BIND:

            case NET_SOCKET_BIND:

                if( res == EOK ){

                if( res == EOK ){

                    fibril_rwlock_write_lock( & lock );

                    fibril_rwlock_write_lock( & lock );

                    fibril_rwlock_write_lock( & udp_globals.lock );

                    fibril_rwlock_write_lock( & udp_globals.lock );

                    res = socket_bind( & local_sockets, & udp_globals.sockets, SOCKET_GET_SOCKET_ID( call ), addr, addrlen, UDP_FREE_PORTS_START, UDP_FREE_PORTS_END, udp_globals.last_used_port );

                    res = socket_bind( & local_sockets, & udp_globals.sockets, SOCKET_GET_SOCKET_ID( call ), addr, addrlen, UDP_FREE_PORTS_START, UDP_FREE_PORTS_END, udp_globals.last_used_port );

                    fibril_rwlock_write_unlock( & udp_globals.lock );

                    fibril_rwlock_write_unlock( & udp_globals.lock );

                    fibril_rwlock_write_unlock( & lock );

                    fibril_rwlock_write_unlock( & lock );

                    free( addr );

                    free( addr );

                }

                }

                break;

                break;

            case NET_SOCKET_SENDTO:

            case NET_SOCKET_SENDTO:

                if( res == EOK ){

                if( res == EOK ){

                    fibril_rwlock_read_lock( & lock );

                    fibril_rwlock_read_lock( & lock );

                    fibril_rwlock_read_lock( & udp_globals.lock );

                    fibril_rwlock_read_lock( & udp_globals.lock );

                    res = udp_sendto_message( & local_sockets, SOCKET_GET_SOCKET_ID( call ), addr, addrlen, SOCKET_GET_DATA_FRAGMENTS( call ), SOCKET_GET_FLAGS( call ));

                    res = udp_sendto_message( & local_sockets, SOCKET_GET_SOCKET_ID( call ), addr, addrlen, SOCKET_GET_DATA_FRAGMENTS( call ), SOCKET_GET_FLAGS( call ));

                    fibril_rwlock_read_unlock( & udp_globals.lock );

                    fibril_rwlock_read_unlock( & udp_globals.lock );

    udp_header_ref          header;

    udp_header_ref          header;

    int                     index;

    int                     index;

    size_t                  total_length;

    size_t                  total_length;

    int                     result;

    int                     result;

    uint16_t                dest_port;

    uint16_t                dest_port;

    if( addrlen < sizeof( struct sockaddr )) return EINVAL;

    if( addrlen < sizeof( struct sockaddr )) return EINVAL;

    switch( addr->sa_family ){

    switch( addr->sa_family ){

        case AF_INET:

        case AF_INET:

            if( addrlen != sizeof( struct sockaddr_in )) return EINVAL;

            if( addrlen != sizeof( struct sockaddr_in )) return EINVAL;

        fibril_rwlock_write_unlock( & udp_globals.lock );

        fibril_rwlock_write_unlock( & udp_globals.lock );

        fibril_rwlock_read_lock( & udp_globals.lock );

        fibril_rwlock_read_lock( & udp_globals.lock );

    }

    }

    // TODO do not ask all the time

    // TODO do not ask all the time

    // read the first packet fragment

    // read the first packet fragment

    result = socket_read_packet_data( & packet, sizeof( udp_header_t ), addr, addrlen );

    result = socket_read_packet_data( & packet, sizeof( udp_header_t ), addr, addrlen );

    if( result < 0 ) return result;

    if( result < 0 ) return result;

    total_length = ( size_t ) result;

    total_length = ( size_t ) result;

    // prefix the udp header

    // prefix the udp header

    header = PACKET_PREFIX( packet, udp_header_t );

    header = PACKET_PREFIX( packet, udp_header_t );

    if( ! header ){

    if( ! header ){

    }

    }

    // read the rest of the packet fragments

    // read the rest of the packet fragments

    for( index = 1; index < fragments; ++ index ){

    for( index = 1; index < fragments; ++ index ){

        result = socket_read_packet_data( & next_packet, 0, addr, addrlen );

        result = socket_read_packet_data( & next_packet, 0, addr, addrlen );

        if( result < 0 ){

        if( result < 0 ){

            return udp_release_and_return( packet, result );

            return udp_release_and_return( packet, result );

        }

        }

        packet = pq_add( packet, next_packet, index, 0 );

        packet = pq_add( packet, next_packet, index, 0 );

        total_length += ( size_t ) result;

        total_length += ( size_t ) result;

    }

    }

    // set the udp header

    // set the udp header

    header->source = htons( socket->port );

    header->source = htons( socket->port );

    header->dest = htons( dest_port );

    header->dest = htons( dest_port );

    header->len = htons( total_length + sizeof( udp_header_t ));

    header->len = htons( total_length + sizeof( udp_header_t ));

    header->check = 0;

    header->check = 0;

    // prepare the first packet fragment

    // prepare the first packet fragment

    if( ERROR_OCCURRED( ip_client_prepare_packet( packet, IPPROTO_UDP, 0, 0, 0, 0 ))){

    if( ERROR_OCCURRED( ip_client_prepare_packet( packet, IPPROTO_UDP, 0, 0, 0, 0 ))){

    }

    }

    // send the packet

    // send the packet

}

}

int udp_recvfrom_message( socket_cores_ref local_sockets, int socket_id, int flags, size_t * addrlen ){

int udp_recvfrom_message( socket_cores_ref local_sockets, int socket_id, int flags, size_t * addrlen ){

    ERROR_DECLARE;

    ERROR_DECLARE;

        pq_release( udp_globals.net_phone, packet_id );

        pq_release( udp_globals.net_phone, packet_id );

        return ERROR_CODE;

        return ERROR_CODE;

    }

    }

    * addrlen = ( size_t ) result;

    * addrlen = ( size_t ) result;

    // send the source address

    // send the source address

    next_packet = pq_next( packet );

    next_packet = pq_next( packet );

    if( ! next_packet ){

    if( ! next_packet ){

        // write all if only one fragment

        // write all if only one fragment

        // store the total length

        // store the total length

        length = packet_get_data_length( packet ) - sizeof( udp_header_t );

        length = packet_get_data_length( packet ) - sizeof( udp_header_t );

    }else{

    }else{

        // count the packet fragments

        // count the packet fragments

        fragments = 1;

        fragments = 1;

            lengths[ index ] = packet_get_data_length( next_packet );

            lengths[ index ] = packet_get_data_length( next_packet );

            lengths[ fragments ] += lengths[ index ];

            lengths[ fragments ] += lengths[ index ];

            next_packet = pq_next( packet );

            next_packet = pq_next( packet );

        }while( next_packet );

        }while( next_packet );

        // write the fragment lengths

        // write the fragment lengths

        // write the first fragment

        // write the first fragment

        next_packet = pq_next( packet );

        next_packet = pq_next( packet );

        // write the rest of the fragments

        // write the rest of the fragments

        for( index = 1; index < fragments; ++ index ){

        for( index = 1; index < fragments; ++ index ){

            next_packet = pq_next( packet );

            next_packet = pq_next( packet );

        }while( next_packet );

        }while( next_packet );

        // store the total length

        // store the total length

        length = lengths[ fragments ];

        length = lengths[ fragments ];

        free( lengths );

        free( lengths );

    pq_release( udp_globals.net_phone, packet_get_id( packet ));

    pq_release( udp_globals.net_phone, packet_get_id( packet ));

    // return the total length

    // return the total length

    return ( int ) length;

    return ( int ) length;

}

}

int socket_read_packet_data( packet_ref packet, size_t prefix, const struct sockaddr * addr, socklen_t addrlen ){

int socket_read_packet_data( packet_ref packet, size_t prefix, const struct sockaddr * addr, socklen_t addrlen ){

    ERROR_DECLARE;

    ERROR_DECLARE;

    ipc_callid_t    callid;

    ipc_callid_t    callid;

    size_t          length;

    size_t          length;

    * packet = packet_get_4( udp_globals.net_phone, length, udp_globals.addr_len, prefix + udp_globals.prefix, udp_globals.suffix );

    * packet = packet_get_4( udp_globals.net_phone, length, udp_globals.addr_len, prefix + udp_globals.prefix, udp_globals.suffix );

    if( ! packet ) return ENOMEM;

    if( ! packet ) return ENOMEM;

    // allocate space in the packet

    // allocate space in the packet

    data = packet_suffix( * packet, length );

    data = packet_suffix( * packet, length );

    if( ! data ){

    if( ! data ){

    }

    }

    // read the data into the packet

    // read the data into the packet

    if( ERROR_OCCURRED( ipc_data_write_finalize( callid, data, length ))

    if( ERROR_OCCURRED( ipc_data_write_finalize( callid, data, length ))

    // set the packet destination address

    // set the packet destination address

    || ERROR_OCCURRED( packet_set_addr( * packet, NULL, ( uint8_t * ) addr, addrlen ))){

    || ERROR_OCCURRED( packet_set_addr( * packet, NULL, ( uint8_t * ) addr, addrlen ))){

    }

    }

    return ( int ) length;

    return ( int ) length;

}

}

int udp_release_and_return( packet_t packet, int result ){

int udp_release_and_return( packet_t packet, int result ){