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/*

 * Copyright (c) 2009 Lukas Mejdrech

 * All rights reserved.

 *

 * Redistribution and use in source and binary forms, with or without

 * modification, are permitted provided that the following conditions

 * are met:

 *

 * - Redistributions of source code must retain the above copyright

 *   notice, this list of conditions and the following disclaimer.

 * - Redistributions in binary form must reproduce the above copyright

 *   notice, this list of conditions and the following disclaimer in the

 *   documentation and/or other materials provided with the distribution.

 * - The name of the author may not be used to endorse or promote products

 *   derived from this software without specific prior written permission.

 *

 * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR

 * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES

 * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.

 * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,

 * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT

 * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,

 * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY

 * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT

 * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF

 * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

 */

/** @addtogroup nildummy

 *  @{

 */

/** @file

 *  Dummy network interface layer module implementation.

 *  @see nildummy.h

 */

#include <async.h>

#include <malloc.h>

#include <mem.h>

#include <stdio.h>

#include <string.h>

#include <ipc/ipc.h>

#include <ipc/services.h>

#include "../../err.h"

#include "../../messages.h"

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

#include "../../include/device.h"

#include "../../include/netif_interface.h"

#include "../../include/nil_interface.h"

#include "../../include/il_interface.h"

#include "../../structures/measured_strings.h"

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

#include "../nil_module.h"

#include "nildummy.h"

/** Default maximum transmission unit.

 */

#define DEFAULT_MTU 1500

/** Network interface layer module global data.

 */

nildummy_globals_t  nildummy_globals;

/** Processes IPC messages from the registered device driver modules in an infinite loop.

 *  @param iid The message identifier. Input parameter.

 *  @param icall The message parameters. Input/output parameter.

 */

void    nildummy_receiver( ipc_callid_t iid, ipc_call_t * icall );

/** Registers new device or updates the MTU of an existing one.

 *  Determines the device local hardware address.

 *  @param device_id The new device identifier. Input parameter.

 *  @param service The device driver service. Input parameter.

 *  @param mtu The device maximum transmission unit. Input parameter.

 *  @returns EOK on success.

 *  @returns EEXIST if the device with the different service exists.

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

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

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

 */

int nildummy_device_message( device_id_t device_id, services_t service, size_t mtu );

/** Returns the device packet dimensions for sending.

 *  @param device_id The device identifier. Input parameter.

 *  @param addr_len The minimum reserved address length. Output parameter.

 *  @param prefix The minimum reserved prefix size. Output parameter.

 *  @param content The maximum content size. Output parameter.

 *  @param suffix The minimum reserved suffix size. Output parameter.

 *  @returns EOK on success.

 *  @returns EBADMEM if either one of the parameters is NULL.

 *  @returns ENOENT if there is no such device.

 */

int nildummy_packet_space_message( device_id_t device_id, size_t * addr_len, size_t * prefix, size_t * content, size_t * suffix );

/** Registers receiving module service.

 *  Passes received packets for this service.

 *  @param service The module service. Input parameter.

 *  @param phone The service phone. Input parameter.

 *  @returns EOK on success.

 *  @returns ENOENT if the service is not known.

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

 */

int nildummy_register_message( services_t service, int phone );

/** Sends the packet queue.

 *  @param device_id The device identifier. Input parameter.

 *  @param packet The packet queue. Input parameter.

 *  @param sender The sending module service. Input parameter.

 *  @returns EOK on success.

 *  @returns ENOENT if there no such device.

 *  @returns EINVAL if the service parameter is not known.

 */

int nildummy_send_message( device_id_t device_id, packet_t packet, services_t sender );

/** Returns the device hardware address.

 *  @param device_id The device identifier. Input parameter.

 *  @param type Type of the desired address. Input parameter

 *  @param address The device hardware address. Output parameter.

 *  @returns EOK on success.

 *  @returns EBADMEM if the address parameter is NULL.

 *  @returns ENOENT if there no such device.

 */

int nildummy_addr_message( device_id_t device_id, measured_string_ref * address );

DEVICE_MAP_IMPLEMENT( nildummy_devices, nildummy_device_t )

int nil_device_state_msg( int nil_phone, device_id_t device_id, int state ){

    fibril_rwlock_read_lock( & nildummy_globals.protos_lock );

    if( nildummy_globals.proto.phone ) il_device_state_msg( nildummy_globals.proto.phone, device_id, state, nildummy_globals.proto.service );

    fibril_rwlock_read_unlock( & nildummy_globals.protos_lock );

    return EOK;

}

int nil_initialize( int net_phone ){

    ERROR_DECLARE;

    fibril_rwlock_initialize( & nildummy_globals.devices_lock );

    fibril_rwlock_initialize( & nildummy_globals.protos_lock );

    fibril_rwlock_write_lock( & nildummy_globals.devices_lock );

    fibril_rwlock_write_lock( & nildummy_globals.protos_lock );

    nildummy_globals.net_phone = net_phone;

    nildummy_globals.proto.phone = 0;

    ERROR_PROPAGATE( nildummy_devices_initialize( & nildummy_globals.devices ));

    fibril_rwlock_write_unlock( & nildummy_globals.protos_lock );

    fibril_rwlock_write_unlock( & nildummy_globals.devices_lock );

    return EOK;

}

int nildummy_device_message( device_id_t device_id, services_t service, size_t mtu ){

    ERROR_DECLARE;

    nildummy_device_ref device;

    int                 index;

    fibril_rwlock_write_lock( & nildummy_globals.devices_lock );

    // an existing device?

    device = nildummy_devices_find( & nildummy_globals.devices, device_id );

    if( device ){

        if( device->service != service ){

            printf( "Device %d already exists\n", device->device_id );

            fibril_rwlock_write_unlock( & nildummy_globals.devices_lock );

            return EEXIST;

        }else{

            // update mtu

            device->mtu = mtu;

            printf( "Device %d already exists:\tMTU\t= %d\n", device->device_id, device->mtu );

            fibril_rwlock_write_unlock( & nildummy_globals.devices_lock );

            // notify the upper layer module

            fibril_rwlock_read_lock( & nildummy_globals.protos_lock );

            if( nildummy_globals.proto.phone ){

                il_mtu_changed_msg( nildummy_globals.proto.phone, device->device_id, device->mtu, nildummy_globals.proto.service );

            }

            fibril_rwlock_read_unlock( & nildummy_globals.protos_lock );

            return EOK;

        }

    }else{

        // create a new device

        device = ( nildummy_device_ref ) malloc( sizeof( nildummy_device_t ));

        if( ! device ) return ENOMEM;

        device->device_id = device_id;

        device->service = service;

        if( mtu > 0 ){

            device->mtu = mtu;

        }else{

            device->mtu = DEFAULT_MTU;

        }

        // bind the device driver

        device->phone = netif_bind_service( device->service, device->device_id, SERVICE_ETHERNET, nildummy_receiver );

        if( device->phone < 0 ){

            fibril_rwlock_write_unlock( & nildummy_globals.devices_lock );

            free( device );

            return device->phone;

        }

        // get hardware address

        if( ERROR_OCCURRED( netif_get_addr( device->phone, device->device_id, & device->addr, & device->addr_data ))){

            fibril_rwlock_write_unlock( & nildummy_globals.devices_lock );

            free( device );

            return ERROR_CODE;

        }

        // add to the cache

        index = nildummy_devices_add( & nildummy_globals.devices, device->device_id, device );

        if( index < 0 ){

            fibril_rwlock_write_unlock( & nildummy_globals.devices_lock );

            free( device->addr );

            free( device->addr_data );

            free( device );

            return index;

        }

        printf( "New device registered:\n\tid\t= %d\n\tservice\t= %d\n\tMTU\t= %d\n", device->device_id, device->service, device->mtu );

    }

    fibril_rwlock_write_unlock( & nildummy_globals.devices_lock );

    return EOK;

}

int nildummy_addr_message( device_id_t device_id, measured_string_ref * address ){

    nildummy_device_ref device;

    if( ! address ) return EBADMEM;

    fibril_rwlock_read_lock( & nildummy_globals.devices_lock );

    device = nildummy_devices_find( & nildummy_globals.devices, device_id );

    if( ! device ){

        fibril_rwlock_read_unlock( & nildummy_globals.devices_lock );

        return ENOENT;

    }

    * address = device->addr;

    fibril_rwlock_read_unlock( & nildummy_globals.devices_lock );

    return ( * address ) ? EOK : ENOENT;

}

int nildummy_packet_space_message( device_id_t device_id, size_t * addr_len, size_t * prefix, size_t * content, size_t * suffix ){

    nildummy_device_ref device;

    if( !( addr_len && prefix && content && suffix )) return EBADMEM;

    fibril_rwlock_read_lock( & nildummy_globals.devices_lock );

    device = nildummy_devices_find( & nildummy_globals.devices, device_id );

    if( ! device ){

        fibril_rwlock_read_unlock( & nildummy_globals.devices_lock );

        return ENOENT;

    }

    * content = device->mtu;

    fibril_rwlock_read_unlock( & nildummy_globals.devices_lock );

    * addr_len = 0;

    * prefix = 0;

    * suffix = 0;

    return EOK;

}

int nil_received_msg( int nil_phone, device_id_t device_id, packet_t packet, services_t target ){

    packet_t        next;

    fibril_rwlock_read_lock( & nildummy_globals.protos_lock );

    if( nildummy_globals.proto.phone ){

        do{

            next = pq_detach( packet );

            il_received_msg( nildummy_globals.proto.phone, device_id, packet, nildummy_globals.proto.service );

            packet = next;

        }while( packet );

    }

    fibril_rwlock_read_unlock( & nildummy_globals.protos_lock );

    return EOK;

}

int nildummy_register_message( services_t service, int phone ){

    fibril_rwlock_write_lock( & nildummy_globals.protos_lock );

    nildummy_globals.proto.service = service;

    nildummy_globals.proto.phone = phone;

    printf( "New protocol registered:\n\tservice\t= %d\n\tphone\t= %d\n", nildummy_globals.proto.service, nildummy_globals.proto.phone );

    fibril_rwlock_write_unlock( & nildummy_globals.protos_lock );

    return EOK;

}

int nildummy_send_message( device_id_t device_id, packet_t packet, services_t sender ){

    nildummy_device_ref     device;

    fibril_rwlock_read_lock( & nildummy_globals.devices_lock );

    device = nildummy_devices_find( & nildummy_globals.devices, device_id );

    if( ! device ){

        fibril_rwlock_read_unlock( & nildummy_globals.devices_lock );

        return ENOENT;

    }

    // send packet queue

    if( packet ){

        netif_send_msg( device->phone, device_id, packet, SERVICE_NILDUMMY );

    }

    fibril_rwlock_read_unlock( & nildummy_globals.devices_lock );

    return EOK;

}

int nil_message( ipc_callid_t callid, ipc_call_t * call, ipc_call_t * answer, int * answer_count ){

    ERROR_DECLARE;

    measured_string_ref address;

    packet_t            packet;

//  printf( "message %d - %d\n", IPC_GET_METHOD( * call ), NET_NIL_FIRST );

    * answer_count = 0;

    switch( IPC_GET_METHOD( * call )){

        case IPC_M_PHONE_HUNGUP:

            return EOK;

        case NET_NIL_DEVICE:

            return nildummy_device_message( IPC_GET_DEVICE( call ), IPC_GET_SERVICE( call ), IPC_GET_MTU( call ));

        case NET_NIL_SEND:

            ERROR_PROPAGATE( packet_translate( nildummy_globals.net_phone, & packet, IPC_GET_PACKET( call )));

            return nildummy_send_message( IPC_GET_DEVICE( call ), packet, IPC_GET_SERVICE( call ));

        case NET_NIL_PACKET_SPACE:

            ERROR_PROPAGATE( nildummy_packet_space_message( IPC_GET_DEVICE( call ), IPC_SET_ADDR( answer ), IPC_SET_PREFIX( answer ), IPC_SET_CONTENT( answer ), IPC_SET_SUFFIX( answer )));

            * answer_count = 4;

            return EOK;

        case NET_NIL_ADDR:

            ERROR_PROPAGATE( nildummy_addr_message( IPC_GET_DEVICE( call ), & address ));

            return measured_strings_reply( address, 1 );

        case IPC_M_CONNECT_TO_ME:

            return nildummy_register_message( NIL_GET_PROTO( call ), IPC_GET_PHONE( call ));

    }

    return ENOTSUP;

}

void nildummy_receiver( ipc_callid_t iid, ipc_call_t * icall ){

    ERROR_DECLARE;

    packet_t        packet;

    while( true ){

//      printf( "message %d - %d\n", IPC_GET_METHOD( * icall ), NET_NIL_FIRST );

        switch( IPC_GET_METHOD( * icall )){

            case NET_NIL_DEVICE_STATE:

                ERROR_CODE = nil_device_state_msg( 0, IPC_GET_DEVICE( icall ), IPC_GET_STATE( icall ));

                ipc_answer_0( iid, ERROR_CODE );

                break;

            case NET_NIL_RECEIVED:

                if( ! ERROR_OCCURRED( packet_translate( nildummy_globals.net_phone, & packet, IPC_GET_PACKET( icall )))){

                    ERROR_CODE = nil_received_msg( 0, IPC_GET_DEVICE( icall ), packet, 0 );

                }

                ipc_answer_0( iid, ( ipcarg_t ) ERROR_CODE );

                break;

            default:

                ipc_answer_0( iid, ( ipcarg_t ) ENOTSUP );

        }

        iid = async_get_call( icall );

    }

}

/** @}

 */