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Line 46... Line 46...
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#include "../../structures/measured_strings.h"
 47 
#include "../../structures/measured_strings.h"
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#include "../../structures/packet/packet_client.h"
 48 
#include "../../structures/packet/packet_client.h"
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 49 
 
50 
#include "../netif.h"
 50 
#include "../netif.h"
- 
 
 51 
#include "../netif_interface.h"
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 52 
 
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#define DEFAULT_MTU 1500
 53 
#define DEFAULT_MTU 1500
53 
 
 54 
 
- 
 
 55 
#define DEFAULT_ADDR        "\0\0\0\0\0\0"
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 56 
#define DEFAULT_ADDR_LEN    ( sizeof( DEFAULT_ADDR ) / sizeof( char ))
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 57 
 
54 
#define NAME    "lo - loopback interface"
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#define NAME    "lo - loopback interface"
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 59 
 
56 
netif_globals_t netif_globals;
 60 
netif_globals_t netif_globals;
57 
 
 61 
 
58 
static struct lo_globals{
 62 
static struct lo_globals{
59 
    measured_string_ref addr;
 - 
 
60 
    int mtu;
 63 
    int mtu;
61 
} lo_globals;
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} lo_globals;
62 
 
 65 
 
63 
int change_state_message( device_id_t device_id, device_state_t state );
 66 
int change_state_message( device_id_t device_id, device_state_t state );
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int create( device_id_t device_id, device_ref * device );
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int create( device_id_t device_id, device_ref * device );
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int initialize( void );
 - 
 
66 
void    netif_print_name( void );
 68 
void    netif_print_name( void );
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int probe_auto_message( void );
 - 
 
68 
int probe_message( device_id_t device_id, int irq, int io );
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int send_message( device_id_t device_id, packet_t packet );
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int start_message( device_id_t device_id );
 - 
 
71 
int stop_message( device_id_t device_id );
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72 
measured_string_ref get_addr_message( device_id_t device_id );
 - 
 
73 
 
 69 
 
- 
 
 70 
int specific_message( ipc_callid_t callid, ipc_call_t * call, ipc_call_t * answer, int * answer_count ){
- 
 
 71 
    return ENOTSUP;
- 
 
 72 
}
- 
 
 73 
 
- 
 
 74 
int get_addr_message( device_id_t device_id, measured_string_ref address ){
- 
 
 75 
    if( ! address ) return EBADMEM;
- 
 
 76 
    address->value = DEFAULT_ADDR;
- 
 
 77 
    address->length = DEFAULT_ADDR_LEN;
- 
 
 78 
}
- 
 
 79 
 
- 
 
 80 
int get_device_stats( device_id_t device_id, device_stats_ref stats ){
- 
 
 81 
    ERROR_DECLARE;
- 
 
 82 
 
- 
 
 83 
    device_ref  device;
- 
 
 84 
 
- 
 
 85 
    if( ! stats ) return EBADMEM;
74 
measured_string_ref get_addr_message( device_id_t device_id ){
 86 
    ERROR_PROPAGATE( find_device( device_id, & device ));
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 87 
    memcpy( stats, ( device_stats_ref ) device->specific, sizeof( device_stats_t ));
75 
    return lo_globals.addr;
 88 
    return EOK;
76 
}
 89 
}
77 
 
 90 
 
78 
int change_state_message( device_id_t device_id, device_state_t state ){
 91 
int change_state_message( device_id_t device_id, device_state_t state ){
79 
    ERROR_DECLARE;
 92 
    ERROR_DECLARE;
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 93 
 
Line 88... Line 101...
88 
    }
 101 
    }
89 
    return EOK;
 102 
    return EOK;
90 
}
 103 
}
91 
 
 104 
 
92 
int create( device_id_t device_id, device_ref * device ){
 105 
int create( device_id_t device_id, device_ref * device ){
93 
    ERROR_DECLARE;
 106 
    int index;
94 
 
 107 
 
95 
    if( device_map_count( & netif_globals.device_map ) > 0 ){
 108 
    if( device_map_count( & netif_globals.device_map ) > 0 ){
96 
        return EXDEV;
 109 
        return EXDEV;
97 
    }else{
 110 
    }else{
98 
        * device = ( device_ref ) malloc( sizeof( device_t ));
 111 
        * device = ( device_ref ) malloc( sizeof( device_t ));
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        if( !( * device )) return ENOMEM;
 112 
        if( !( * device )) return ENOMEM;
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 113 
        ( ** device ).specific = malloc( sizeof( device_stats_t ));
- 
 
 114 
        if( ! ( ** device ).specific ){
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 115 
            free( * device );
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 116 
            return ENOMEM;
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 117 
        }
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 118 
        null_device_stats(( device_stats_ref )( ** device ).specific );
100 
        ( ** device ).device_id = device_id;
 119 
        ( ** device ).device_id = device_id;
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        ( ** device ).nil_phone = -1;
 120 
        ( ** device ).nil_phone = -1;
102 
        ( ** device ).specific = NULL;
 - 
 
103 
        null_device_stats( &(( ** device ).stats ));
 - 
 
104 
        ( ** device ).state = NETIF_STOPPED;
 121 
        ( ** device ).state = NETIF_STOPPED;
105 
        if( ERROR_OCCURRED( device_map_add( & netif_globals.device_map, ( ** device ).device_id, * device ))){
 122 
        index = device_map_add( & netif_globals.device_map, ( ** device ).device_id, * device );
- 
 
 123 
        if( index < 0 ){
106 
            free( * device );
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            free( * device );
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 125 
            free(( ** device ).specific );
107 
            * device = NULL;
 126 
            * device = NULL;
108 
            return ERROR_CODE;
 127 
            return index;
109 
        }
 128 
        }
110 
    }
 129 
    }
111 
    return EOK;
 130 
    return EOK;
112 
}
 131 
}
113 
 
 132 
 
114 
int initialize( void ){
 133 
int initialize( void ){
115 
    ipcarg_t    phonehash;
 134 
    ipcarg_t    phonehash;
116 
 
 135 
 
117 
    lo_globals.addr = measured_string_create_bulk( "\0\0\0\0\0\0", 0 );
 - 
 
118 
    if( ! lo_globals.addr ) return ENOMEM;
 - 
 
119 
    return REGISTER_ME( SERVICE_LO, & phonehash );
 136 
    return REGISTER_ME( SERVICE_LO, & phonehash );
120 
}
 137 
}
121 
 
 138 
 
122 
void netif_print_name( void ){
 139 
void netif_print_name( void ){
123 
    printf( NAME );
 140 
    printf( NAME );
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141 
    ipc_call_t      answer;
 158 
    ipc_call_t      answer;
142 
    measured_string_t   configuration[ 1 ] = {{ "MTU", 3 }};
 159 
    measured_string_t   configuration[ 1 ] = {{ "MTU", 3 }};
143 
    int         count = 1;
 160 
    int         count = 1;
144 
    measured_string_ref settings;
 161 
    measured_string_ref settings;
145 
    char *          data;
 162 
    char *          data;
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 163 
    ipcarg_t        result;
146 
 
 164 
 
147 
    // create a new device
 165 
    // create a new device
148 
    ERROR_PROPAGATE( create( device_id, & device ));
 166 
    ERROR_PROPAGATE( create( device_id, & device ));
149 
    // get configuration
 167 
    // get configuration
150 
    message = async_send_2( netif_globals.networking_phone, NET_NET_GET_DEVICE_CONF, device->device_id, count, & answer );
 168 
    message = async_send_2( netif_globals.networking_phone, NET_NET_GET_DEVICE_CONF, device->device_id, count, & answer );
Line 152... Line 170...
152 
    if( ERROR_OCCURRED( measured_strings_send( netif_globals.networking_phone, configuration, count ))
 170 
    if( ERROR_OCCURRED( measured_strings_send( netif_globals.networking_phone, configuration, count ))
153 
    || ERROR_OCCURRED( measured_strings_return( netif_globals.networking_phone, & settings, & data, count ))){
 171 
    || ERROR_OCCURRED( measured_strings_return( netif_globals.networking_phone, & settings, & data, count ))){
154 
        async_wait_for( message, NULL );
 172 
        async_wait_for( message, NULL );
155 
        return ERROR_CODE;
 173 
        return ERROR_CODE;
156 
    }
 174 
    }
- 
 
 175 
    // end request
- 
 
 176 
    async_wait_for( message, & result );
- 
 
 177 
    if( ERROR_OCCURRED( result )){
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 178 
        if( settings ){
- 
 
 179 
            free( settings );
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 180 
            free( data );
- 
 
 181 
        }
- 
 
 182 
        return ERROR_CODE;
- 
 
 183 
    }
157 
    // MTU is the first one
 184 
    // MTU is the first one
158 
    if( settings && ( settings[ 0 ].value )){
 185 
    if( settings && ( settings[ 0 ].value )){
159 
        lo_globals.mtu = strtoul( settings[ 0 ].value, NULL, 0 );
 186 
        lo_globals.mtu = strtoul( settings[ 0 ].value, NULL, 0 );
- 
 
 187 
        free( settings );
- 
 
 188 
        free( data );
160 
    }else{
 189 
    }else{
161 
        lo_globals.mtu = DEFAULT_MTU;
 190 
        lo_globals.mtu = DEFAULT_MTU;
162 
    }
 191 
    }
163 
    free( settings );
 - 
 
164 
    free( data );
 - 
 
165 
    // end request
 - 
 
166 
    async_wait_for( message, NULL );
 - 
 
167 
    // print the settings
 192 
    // print the settings
168 
    printf("\nNew device registered:\n\tid\t= %d\n\tMTU\t= %d", device->device_id, lo_globals.mtu );
 193 
    printf("\nNew device registered:\n\tid\t= %d\n\tMTU\t= %d", device->device_id, lo_globals.mtu );
169 
    return EOK;
 194 
    return EOK;
170 
}
 195 
}
171 
 
 196 
 
Line 178... Line 203...
178 
 
 203 
 
179 
    ERROR_PROPAGATE( find_device( device_id, & device ));
 204 
    ERROR_PROPAGATE( find_device( device_id, & device ));
180 
    if( device->state != NETIF_ACTIVE ) return EPERM;
 205 
    if( device->state != NETIF_ACTIVE ) return EPERM;
181 
    next = packet;
 206 
    next = packet;
182 
    do{
 207 
    do{
183 
        ++ device->stats.tx_packets;
 208 
        ++ (( device_stats_ref ) device->specific )->tx_packets;
184 
        ++ device->stats.rx_packets;
 209 
        ++ (( device_stats_ref ) device->specific )->rx_packets;
185 
        length = packet_get_data_length( next );
 210 
        length = packet_get_data_length( next );
186 
        device->stats.tx_bytes += length;
 211 
        (( device_stats_ref ) device->specific )->tx_bytes += length;
187 
        device->stats.rx_bytes += length;
 212 
        (( device_stats_ref ) device->specific )->rx_bytes += length;
188 
        next = pq_next( next );
 213 
        next = pq_next( next );
189 
    }while( next );
 214 
    }while( next );
190 
    nil_message( device, NET_NIL_RECEIVED, packet_get_id( packet ), PACKET_SELF );
 215 
    nil_message( device, NET_NIL_RECEIVED, packet_get_id( packet ), PACKET_SELF );
191 
    return EOK;
 216 
    return EOK;
192 
}
 217 
}