WebSVN – HelenOS – Blame – /branches/network/uspace/srv/net/il/ip/ip.c

Rev	Author	Line No.	Line
3466	mejdrech	1	/*
3912	mejdrech	2	* Copyright (c) 2009 Lukas Mejdrech
3466	mejdrech	3	* All rights reserved.
		4	*
		5	* Redistribution and use in source and binary forms, with or without
		6	* modification, are permitted provided that the following conditions
		7	* are met:
		8	*
		9	* - Redistributions of source code must retain the above copyright
		10	* notice, this list of conditions and the following disclaimer.
		11	* - Redistributions in binary form must reproduce the above copyright
		12	* notice, this list of conditions and the following disclaimer in the
		13	* documentation and/or other materials provided with the distribution.
		14	* - The name of the author may not be used to endorse or promote products
		15	* derived from this software without specific prior written permission.
		16	*
		17	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
		18	* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
		19	* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
		20	* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
		21	* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
		22	* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
		23	* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
		24	* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
		25	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
		26	* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
		27	*/
		28
3912	mejdrech	29	/** @addtogroup ip
		30	* @{
3466	mejdrech	31	*/
		32
		33	/** @file
4702	mejdrech	34	* IP module implementation.
		35	* @see arp.h
		36	* \todo
3466	mejdrech	37	*/
3666	mejdrech	38
3466	mejdrech	39	#include <async.h>
		40	#include <errno.h>
4582	mejdrech	41	#include <fibril_sync.h>
3466	mejdrech	42	#include <stdio.h>
4327	mejdrech	43	#include <string.h>
3846	mejdrech	44
3466	mejdrech	45	#include <ipc/ipc.h>
		46	#include <ipc/services.h>
		47
4505	mejdrech	48	#include <sys/types.h>
		49
3886	mejdrech	50	#include "../../err.h"
		51	#include "../../messages.h"
		52	#include "../../modules.h"
3466	mejdrech	53
4720	mejdrech	54	#include "../../include/arp_interface.h"
4505	mejdrech	55	#include "../../include/byteorder.h"
4743	mejdrech	56	#include "../../include/checksum.h"
4243	mejdrech	57	#include "../../include/device.h"
4720	mejdrech	58	#include "../../include/icmp_client.h"
		59	#include "../../include/icmp_codes.h"
		60	#include "../../include/icmp_interface.h"
4307	mejdrech	61	#include "../../include/il_interface.h"
4720	mejdrech	62	#include "../../include/in.h"
		63	#include "../../include/in6.h"
		64	#include "../../include/inet.h"
4505	mejdrech	65	#include "../../include/ip_client.h"
4307	mejdrech	66	#include "../../include/ip_interface.h"
4720	mejdrech	67	#include "../../include/net_interface.h"
		68	#include "../../include/nil_interface.h"
4505	mejdrech	69	#include "../../include/tl_interface.h"
4720	mejdrech	70	#include "../../include/socket_codes.h"
		71	#include "../../include/socket_errno.h"
3886	mejdrech	72	#include "../../structures/measured_strings.h"
4192	mejdrech	73	#include "../../structures/module_map.h"
3901	mejdrech	74	#include "../../structures/packet/packet_client.h"
3846	mejdrech	75
4307	mejdrech	76	#include "../../nil/nil_messages.h"
		77
		78	#include "../il_messages.h"
		79
3466	mejdrech	80	#include "ip.h"
4505	mejdrech	81	#include "ip_header.h"
		82	#include "ip_messages.h"
3846	mejdrech	83	#include "ip_module.h"
3466	mejdrech	84
4722	mejdrech	85	/** IP version 4.
4702	mejdrech	86	*/
4722	mejdrech	87	#define IPV4 4
4702	mejdrech	88
4722	mejdrech	89	/** Default network interface IP version.
		90	*/
		91	#define NET_DEFAULT_IPV IPV4
		92
		93	/** Default network interface IP routing.
		94	*/
		95	#define NET_DEFAULT_IP_ROUTING false
		96
4702	mejdrech	97	/** Minimum IP packet content.
		98	*/
4505	mejdrech	99	#define IP_MIN_CONTENT 576
3685	mejdrech	100
4702	mejdrech	101	/** ARP module name.
		102	*/
4192	mejdrech	103	#define ARP_NAME "arp"
4702	mejdrech	104
		105	/** ARP module filename.
		106	*/
4192	mejdrech	107	#define ARP_FILENAME "/srv/arp"
		108
4702	mejdrech	109	/** IP packet address length.
		110	*/
4720	mejdrech	111	#define IP_ADDR sizeof( struct sockaddr_in6 )
4702	mejdrech	112
		113	/** IP packet prefix length.
		114	*/
4505	mejdrech	115	#define IP_PREFIX sizeof( ip_header_t )
4702	mejdrech	116
		117	/** IP packet suffix length.
		118	*/
4505	mejdrech	119	#define IP_SUFFIX 0
4702	mejdrech	120
		121	/** IP packet maximum content length.
		122	*/
4505	mejdrech	123	#define IP_MAX_CONTENT 65535
4702	mejdrech	124
4724	mejdrech	125	/** The IP localhost address.
		126	*/
		127	#define IPV4_LOCALHOST_ADDRESS htonl(( 127 << 24 ) + 1 )
		128
4702	mejdrech	129	/** IP global data.
		130	*/
3666	mejdrech	131	ip_globals_t ip_globals;
3466	mejdrech	132
3666	mejdrech	133	DEVICE_MAP_IMPLEMENT( ip_netifs, ip_netif_t )
		134
3846	mejdrech	135	INT_MAP_IMPLEMENT( ip_protos, ip_proto_t )
3685	mejdrech	136
4505	mejdrech	137	GENERIC_FIELD_IMPLEMENT( ip_routes, ip_route_t )
		138
4702	mejdrech	139	/** Updates the device content length according to the new MTU value.
		140	* @param device_id The device identifier. Input parameter.
		141	* @param mtu The new mtu value. Input parameter.
		142	* @returns EOK on success.
		143	* @returns ENOENT if device is not found.
		144	*/
		145	int ip_mtu_changed_message( device_id_t device_id, size_t mtu );
		146
		147	/** Updates the device state.
		148	* @param device_id The device identifier. Input parameter.
		149	* @param state The new state value. Input parameter.
		150	* @returns EOK on success.
		151	* @returns ENOENT if device is not found.
		152	*/
		153	int ip_device_state_message( device_id_t device_id, device_state_t state );
		154
4505	mejdrech	155	int ip_register( int protocol, services_t service, int phone, tl_received_msg_t tl_received_msg );
4702	mejdrech	156
		157	/** Initializes a new network interface specific data.
		158	* Connects to the network interface layer module, reads the netif configuration, starts an ARP module if needed and sets the netif routing table.
		159	* The device identifier and the nil service has to be set.
		160	* @param ip_netif Network interface specific data. Input/output parameter.
		161	* @returns EOK on success.
		162	* @returns ENOTSUP if DHCP is configured.
		163	* @returns ENOTSUP if IPv6 is configured.
		164	* @returns EINVAL if any of the addresses is invalid.
		165	* @returns EINVAL if the used ARP module is not known.
		166	* @returns ENOMEM if there is not enough memory left.
		167	* @returns Other error codes as defined for the net_get_device_conf_req() function.
		168	* @returns Other error codes as defined for the bind_service() function.
		169	* @returns Other error codes as defined for the specific arp_device_req() function.
		170	* @returns Other error codes as defined for the nil_packet_size_req() function.
		171	*/
4505	mejdrech	172	int ip_netif_initialize( ip_netif_ref ip_netif );
3846	mejdrech	173
4707	mejdrech	174	int ip_send_route( packet_t packet, ip_netif_ref netif, ip_route_ref route, in_addr_t * src, in_addr_t dest, services_t error );
4575	mejdrech	175	int ip_prepare_packet( in_addr_t * source, in_addr_t dest, packet_t packet, measured_string_ref destination );
4505	mejdrech	176
4720	mejdrech	177	packet_t ip_split_packet( packet_t packet, size_t prefix, size_t content, size_t suffix, socklen_t addr_len, services_t error );
		178	int ip_fragment_packet( packet_t packet, size_t length, size_t prefix, size_t suffix, socklen_t addr_len );
		179	int ip_fragment_packet_data( packet_t packet, packet_t new_packet, ip_header_ref header, ip_header_ref new_header, size_t length, const struct sockaddr * src, const struct sockaddr * dest, socklen_t addrlen );
4505	mejdrech	180	ip_header_ref ip_create_middle_header( packet_t packet, ip_header_ref last );
4589	mejdrech	181	void ip_create_last_header( ip_header_ref last, ip_header_ref first );
4505	mejdrech	182
4707	mejdrech	183	in_addr_t * ip_netif_address( ip_netif_ref netif );
4505	mejdrech	184	ip_route_ref ip_find_route( in_addr_t destination );
		185	ip_route_ref ip_netif_find_route( ip_netif_ref netif, in_addr_t destination );
		186
4702	mejdrech	187	/** Processes the received IP packet.
		188	* @param device_id The source device identifier. Input parameter.
		189	* @param packet The received packet. Input/output parameter.
		190	* @returns EOK on success and the packet is no longer needed.
		191	* @returns EINVAL if the packet is too small to carry the IP packet.
		192	* @returns EINVAL if the received address lengths differs from the registered values.
		193	* @returns ENOENT if the device is not found in the cache.
		194	* @returns ENOENT if the protocol for the device is not found in the cache.
		195	* @returns ENOMEM if there is not enough memory left.
		196	*/
		197	int ip_receive_message( device_id_t device_id, packet_t packet );
		198
4505	mejdrech	199	int ip_process_packet( device_id_t device_id, packet_t packet );
		200	in_addr_t ip_get_destination( ip_header_ref header );
4707	mejdrech	201	int ip_deliver_local( device_id_t device_id, packet_t packet, ip_header_ref header, services_t error );
4505	mejdrech	202
4707	mejdrech	203	int ip_prepare_icmp_and_get_phone( services_t error, packet_t packet, ip_header_ref header );
		204	int ip_get_icmp_phone( void );
		205	int ip_prepare_icmp( packet_t packet, ip_header_ref header );
		206
4711	mejdrech	207	int ip_release_and_return( packet_t packet, int result );
4707	mejdrech	208
4351	mejdrech	209	int ip_initialize( async_client_conn_t client_connection ){
4192	mejdrech	210	ERROR_DECLARE;
		211
4582	mejdrech	212	fibril_rwlock_initialize( & ip_globals.lock );
		213	fibril_rwlock_write_lock( & ip_globals.lock );
		214	fibril_rwlock_initialize( & ip_globals.protos_lock );
		215	fibril_rwlock_initialize( & ip_globals.netifs_lock );
4505	mejdrech	216	ip_globals.packet_counter = 0;
		217	ip_globals.gateway.address.s_addr = 0;
		218	ip_globals.gateway.netmask.s_addr = 0;
		219	ip_globals.gateway.gateway.s_addr = 0;
		220	ip_globals.gateway.netif = NULL;
4192	mejdrech	221	ERROR_PROPAGATE( ip_netifs_initialize( & ip_globals.netifs ));
		222	ERROR_PROPAGATE( ip_protos_initialize( & ip_globals.protos ));
4351	mejdrech	223	ip_globals.client_connection = client_connection;
4192	mejdrech	224	ERROR_PROPAGATE( modules_initialize( & ip_globals.modules ));
4307	mejdrech	225	ERROR_PROPAGATE( add_module( NULL, & ip_globals.modules, ARP_NAME, ARP_FILENAME, SERVICE_ARP, arp_task_get_id(), arp_connect_module ));
4582	mejdrech	226	fibril_rwlock_write_unlock( & ip_globals.lock );
3466	mejdrech	227	return EOK;
		228	}
		229
4350	mejdrech	230	int ip_device_req( int il_phone, device_id_t device_id, services_t netif ){
3666	mejdrech	231	ERROR_DECLARE;
		232
4505	mejdrech	233	ip_netif_ref ip_netif;
		234	ip_route_ref route;
		235	int index;
		236	char * data;
		237
		238	ip_netif = ( ip_netif_ref ) malloc( sizeof( ip_netif_t ));
		239	if( ! ip_netif ) return ENOMEM;
		240	if( ERROR_OCCURRED( ip_routes_initialize( & ip_netif->routes ))){
		241	free( ip_netif );
		242	return ERROR_CODE;
		243	}
		244	ip_netif->device_id = device_id;
		245	ip_netif->service = netif;
		246	ip_netif->state = NETIF_STOPPED;
4582	mejdrech	247	fibril_rwlock_write_lock( & ip_globals.netifs_lock );
4505	mejdrech	248	if( ERROR_OCCURRED( ip_netif_initialize( ip_netif ))){
4582	mejdrech	249	fibril_rwlock_write_unlock( & ip_globals.netifs_lock );
4505	mejdrech	250	ip_routes_destroy( & ip_netif->routes );
		251	free( ip_netif );
		252	return ERROR_CODE;
		253	}
		254	if( ip_netif->arp ) ++ ip_netif->arp->usage;
		255	// print the settings
		256	printf( "New device registered:\n\tid\t= %d\n\tphone\t= %d\n\tIPV\t= %d\n", ip_netif->device_id, ip_netif->phone, ip_netif->ipv );
		257	printf( "\tconfiguration\t= %s\n", ip_netif->dhcp ? "dhcp" : "static" );
		258	// TODO ipv6 addresses
		259	data = ( char * ) malloc( INET_ADDRSTRLEN );
		260	if( data ){
		261	for( index = 0; index < ip_routes_count( & ip_netif->routes ); ++ index ){
		262	route = ip_routes_get_index( & ip_netif->routes, index );
		263	if( route ){
		264	printf( "\tRouting %d:\n", index );
		265	inet_ntop( AF_INET, ( uint8_t * ) & route->address.s_addr, data, INET_ADDRSTRLEN );
		266	printf( "\t\taddress\t= %s\n", data );
		267	inet_ntop( AF_INET, ( uint8_t * ) & route->netmask.s_addr, data, INET_ADDRSTRLEN );
		268	printf( "\t\tnetmask\t= %s\n", data );
		269	inet_ntop( AF_INET, ( uint8_t * ) & route->gateway.s_addr, data, INET_ADDRSTRLEN );
		270	printf( "\t\tgateway\t= %s\n", data );
		271	}
		272	}
		273	inet_ntop( AF_INET, ( uint8_t * ) & ip_netif->broadcast.s_addr, data, INET_ADDRSTRLEN );
4743	mejdrech	274	printf( "\t\tbroadcast\t= %s\n", data );
4505	mejdrech	275	free( data );
		276	}
4582	mejdrech	277	fibril_rwlock_write_unlock( & ip_globals.netifs_lock );
4505	mejdrech	278	return EOK;
		279	}
		280
		281	int ip_netif_initialize( ip_netif_ref ip_netif ){
		282	ERROR_DECLARE;
		283
4743	mejdrech	284	measured_string_t names[] = {{ "IPV", 3 }, { "IP_CONFIG", 9 }, { "IP_ADDR", 7 }, { "IP_NETMASK", 10 }, { "IP_GATEWAY", 10 }, { "IP_BROADCAST", 12 }, { "ARP", 3 }, { "IP_ROUTING", 10 }};
4307	mejdrech	285	measured_string_ref configuration;
4505	mejdrech	286	size_t count = sizeof( names ) / sizeof( measured_string_t );
4307	mejdrech	287	char * data;
4717	mejdrech	288	measured_string_t address;
4307	mejdrech	289	int index;
4505	mejdrech	290	ip_route_ref route;
		291	in_addr_t gateway;
3666	mejdrech	292
4702	mejdrech	293	ip_netif->arp = NULL;
4506	mejdrech	294	route = NULL;
4722	mejdrech	295	ip_netif->ipv = NET_DEFAULT_IPV;
		296	ip_netif->dhcp = false;
		297	ip_netif->routing = NET_DEFAULT_IP_ROUTING;
4307	mejdrech	298	configuration = & names[ 0 ];
3846	mejdrech	299	// get configuration
4307	mejdrech	300	ERROR_PROPAGATE( net_get_device_conf_req( ip_globals.net_phone, ip_netif->device_id, & configuration, count, & data ));
		301	if( configuration ){
		302	if( configuration[ 0 ].value ){
		303	ip_netif->ipv = strtol( configuration[ 0 ].value, NULL, 0 );
3846	mejdrech	304	}
4332	mejdrech	305	ip_netif->dhcp = ! str_lcmp( configuration[ 1 ].value, "dhcp", configuration[ 1 ].length );
3846	mejdrech	306	if( ip_netif->dhcp ){
		307	// TODO dhcp
4307	mejdrech	308	net_free_settings( configuration, data );
3846	mejdrech	309	return ENOTSUP;
4722	mejdrech	310	}else if( ip_netif->ipv == IPV4 ){
4505	mejdrech	311	route = ( ip_route_ref ) malloc( sizeof( ip_route_t ));
		312	if( ! route ){
		313	net_free_settings( configuration, data );
		314	return ENOMEM;
		315	}
		316	route->address.s_addr = 0;
		317	route->netmask.s_addr = 0;
		318	route->gateway.s_addr = 0;
		319	route->netif = ip_netif;
		320	index = ip_routes_add( & ip_netif->routes, route );
		321	if( index < 0 ){
		322	net_free_settings( configuration, data );
		323	free( route );
		324	return index;
		325	}
		326	if( ERROR_OCCURRED( inet_pton( AF_INET, configuration[ 2 ].value, ( uint8_t * ) & route->address.s_addr ))
		327	\|\| ERROR_OCCURRED( inet_pton( AF_INET, configuration[ 3 ].value, ( uint8_t * ) & route->netmask.s_addr ))
		328	\|\| ( inet_pton( AF_INET, configuration[ 4 ].value, ( uint8_t * ) & gateway.s_addr ) == EINVAL )
4743	mejdrech	329	\|\| ( inet_pton( AF_INET, configuration[ 5 ].value, ( uint8_t * ) & ip_netif->broadcast.s_addr ) == EINVAL )){
4307	mejdrech	330	net_free_settings( configuration, data );
3846	mejdrech	331	return EINVAL;
		332	}
		333	}else{
4505	mejdrech	334	// TODO ipv6 in separate module
4307	mejdrech	335	net_free_settings( configuration, data );
3846	mejdrech	336	return ENOTSUP;
		337	}
4743	mejdrech	338	if( configuration[ 6 ].value ){
		339	ip_netif->arp = get_running_module( & ip_globals.modules, configuration[ 6 ].value );
4192	mejdrech	340	if( ! ip_netif->arp ){
4743	mejdrech	341	printf( "Failed to start the arp %s\n", configuration[ 6 ].value );
4307	mejdrech	342	net_free_settings( configuration, data );
4192	mejdrech	343	return EINVAL;
		344	}
		345	}
4743	mejdrech	346	if( configuration[ 7 ].value ){
		347	ip_netif->routing = ( configuration[ 7 ].value[ 0 ] == 'y' );
4722	mejdrech	348	}
4307	mejdrech	349	net_free_settings( configuration, data );
3846	mejdrech	350	}
4717	mejdrech	351	// binds the netif service which also initializes the device
4743	mejdrech	352	ip_netif->phone = nil_bind_service( ip_netif->service, ( ipcarg_t ) ip_netif->device_id, SERVICE_IP, ip_globals.client_connection );
4192	mejdrech	353	if( ip_netif->phone < 0 ){
4505	mejdrech	354	printf( "Failed to contact the nil service %d\n", ip_netif->service );
4192	mejdrech	355	return ip_netif->phone;
		356	}
4717	mejdrech	357	// has to be after the device netif module initialization
4192	mejdrech	358	if( ip_netif->arp ){
4506	mejdrech	359	if( route ){
4717	mejdrech	360	address.value = ( char * ) & route->address.s_addr;
		361	address.length = CONVERT_SIZE( in_addr_t, char, 1 );
		362	ERROR_PROPAGATE( arp_device_req( ip_netif->arp->phone, ip_netif->device_id, SERVICE_IP, ip_netif->service, & address ));
4506	mejdrech	363	}else{
		364	ip_netif->arp = 0;
		365	}
4192	mejdrech	366	}
4505	mejdrech	367	// get packet dimensions
		368	ERROR_PROPAGATE( nil_packet_size_req( ip_netif->phone, ip_netif->device_id, & ip_netif->addr_len, & ip_netif->prefix, & ip_netif->content, & ip_netif->suffix ));
		369	if( ip_netif->content < IP_MIN_CONTENT ){
		370	printf( "Maximum transmission unit %d bytes is too small, at least %d bytes are needed\n", ip_netif->content, IP_MIN_CONTENT );
		371	ip_netif->content = IP_MIN_CONTENT;
		372	}
4192	mejdrech	373	index = ip_netifs_add( & ip_globals.netifs, ip_netif->device_id, ip_netif );
4505	mejdrech	374	if( index < 0 ) return index;
		375	if( gateway.s_addr ){
		376	// the default gateway
		377	ip_globals.gateway.address.s_addr = 0;
		378	ip_globals.gateway.netmask.s_addr = 0;
		379	ip_globals.gateway.gateway.s_addr = gateway.s_addr;
		380	ip_globals.gateway.netif = ip_netif;
4192	mejdrech	381	}
3846	mejdrech	382	return EOK;
		383	}
		384
4702	mejdrech	385	int ip_mtu_changed_message( device_id_t device_id, size_t mtu ){
4695	mejdrech	386	ip_netif_ref netif;
		387
		388	fibril_rwlock_write_lock( & ip_globals.netifs_lock );
		389	netif = ip_netifs_find( & ip_globals.netifs, device_id );
		390	if( ! netif ){
		391	fibril_rwlock_write_unlock( & ip_globals.netifs_lock );
		392	return ENOENT;
		393	}
		394	netif->content = mtu;
		395	printf( "ip - device %d changed mtu to %d\n\n", device_id, mtu );
		396	fibril_rwlock_write_unlock( & ip_globals.netifs_lock );
		397	return EOK;
		398	}
		399
4702	mejdrech	400	int ip_device_state_message( device_id_t device_id, device_state_t state ){
4243	mejdrech	401	ip_netif_ref netif;
		402
4582	mejdrech	403	fibril_rwlock_write_lock( & ip_globals.netifs_lock );
4731	mejdrech	404	// find the device
4243	mejdrech	405	netif = ip_netifs_find( & ip_globals.netifs, device_id );
4558	mejdrech	406	if( ! netif ){
4582	mejdrech	407	fibril_rwlock_write_unlock( & ip_globals.netifs_lock );
4558	mejdrech	408	return ENOENT;
		409	}
4505	mejdrech	410	netif->state = state;
4307	mejdrech	411	printf( "ip - device %d changed state to %d\n\n", device_id, state );
4582	mejdrech	412	fibril_rwlock_write_unlock( & ip_globals.netifs_lock );
4731	mejdrech	413	return EOK;
4307	mejdrech	414	}
		415
		416	int ip_connect_module( services_t service ){
		417	return EOK;
		418	}
		419
4558	mejdrech	420	int ip_bind_service( services_t service, int protocol, services_t me, async_client_conn_t receiver, tl_received_msg_t received_msg ){
		421	return ip_register( protocol, me, 0, received_msg );
4505	mejdrech	422	}
		423
4558	mejdrech	424	int ip_register( int protocol, services_t service, int phone, tl_received_msg_t received_msg ){
3846	mejdrech	425	ip_proto_ref proto;
4192	mejdrech	426	int index;
3846	mejdrech	427
4558	mejdrech	428	if( !( protocol && service && (( phone > 0 ) \|\| ( received_msg )))) return EINVAL;
3846	mejdrech	429	proto = ( ip_proto_ref ) malloc( sizeof( ip_protos_t ));
		430	if( ! proto ) return ENOMEM;
		431	proto->protocol = protocol;
4505	mejdrech	432	proto->service = service;
3846	mejdrech	433	proto->phone = phone;
4558	mejdrech	434	proto->received_msg = received_msg;
4582	mejdrech	435	fibril_rwlock_write_lock( & ip_globals.protos_lock );
4192	mejdrech	436	index = ip_protos_add( & ip_globals.protos, proto->protocol, proto );
		437	if( index < 0 ){
4582	mejdrech	438	fibril_rwlock_write_unlock( & ip_globals.protos_lock );
3846	mejdrech	439	free( proto );
4192	mejdrech	440	return index;
3846	mejdrech	441	}
4307	mejdrech	442	printf( "New protocol registered:\n\tprotocol\t= %d\n\tphone\t= %d\n", proto->protocol, proto->phone );
4582	mejdrech	443	fibril_rwlock_write_unlock( & ip_globals.protos_lock );
3846	mejdrech	444	return EOK;
		445	}
		446
4707	mejdrech	447	int ip_send_msg( int il_phone, device_id_t device_id, packet_t packet, services_t sender, services_t error ){
4505	mejdrech	448	ERROR_DECLARE;
		449
4720	mejdrech	450	int addrlen;
4505	mejdrech	451	ip_netif_ref netif;
		452	ip_route_ref route;
4720	mejdrech	453	struct sockaddr * addr;
		454	struct sockaddr_in * address_in;
		455	// struct sockaddr_in6 * address_in6;
4575	mejdrech	456	in_addr_t * dest;
4505	mejdrech	457	in_addr_t * src;
4707	mejdrech	458	int phone;
4505	mejdrech	459
		460	// addresses in the host byte order
		461	// should be the next hop address or the target destination address
4720	mejdrech	462	addrlen = packet_get_addr( packet, NULL, ( uint8_t ** ) & addr );
		463	if( addrlen < 0 ){
		464	return ip_release_and_return( packet, addrlen );
4505	mejdrech	465	}
4743	mejdrech	466	if(( size_t ) addrlen < sizeof( struct sockaddr )){
4711	mejdrech	467	return ip_release_and_return( packet, EINVAL );
4505	mejdrech	468	}
4720	mejdrech	469	switch( addr->sa_family ){
		470	case AF_INET:
		471	if( addrlen != sizeof( struct sockaddr_in )){
		472	return ip_release_and_return( packet, EINVAL );
		473	}
		474	address_in = ( struct sockaddr_in * ) addr;
		475	dest = & address_in->sin_addr;
		476	break;
		477	// TODO IPv6
		478	/* case AF_INET6:
		479	if( addrlen != sizeof( struct sockaddr_in6 )) return EINVAL;
		480	address_in6 = ( struct sockaddr_in6 * ) dest;
		481	address_in6.sin6_addr.s6_addr;
		482	*/ default:
		483	return ip_release_and_return( packet, EAFNOSUPPORT );
		484	}
4582	mejdrech	485	fibril_rwlock_read_lock( & ip_globals.netifs_lock );
4505	mejdrech	486	// device specified?
4575	mejdrech	487	if( device_id > 0 ){
4505	mejdrech	488	netif = ip_netifs_find( & ip_globals.netifs, device_id );
4575	mejdrech	489	route = ip_netif_find_route( netif, * dest );
4735	mejdrech	490	if( netif && ( ! route ) && ( ip_globals.gateway.netif == netif )){
		491	route = & ip_globals.gateway;
		492	}
4505	mejdrech	493	}else{
4575	mejdrech	494	route = ip_find_route( * dest );
4505	mejdrech	495	netif = route ? route->netif : NULL;
		496	}
		497	if( !( netif && route )){
4582	mejdrech	498	fibril_rwlock_read_unlock( & ip_globals.netifs_lock );
4707	mejdrech	499	phone = ip_prepare_icmp_and_get_phone( error, packet, NULL );
		500	if( phone >= 0 ){
		501	// unreachable ICMP if no routing
4724	mejdrech	502	icmp_destination_unreachable_msg( phone, ICMP_NET_UNREACH, 0, packet );
4707	mejdrech	503	}
4505	mejdrech	504	return ENOENT;
		505	}
4707	mejdrech	506	if( error ){
		507	// do not send for broadcast, anycast packets or network broadcast
		508	if(( ! dest->s_addr )
		509	\|\| ( !( ~ dest->s_addr ))
		510	\|\| ( !( ~(( dest->s_addr & ( ~ route->netmask.s_addr )) \| route->netmask.s_addr )))
		511	\|\| ( !( dest->s_addr & ( ~ route->netmask.s_addr )))){
4711	mejdrech	512	return ip_release_and_return( packet, EINVAL );
4707	mejdrech	513	}
		514	}
4724	mejdrech	515	if( route->address.s_addr == dest->s_addr ){
		516	// find the loopback device to deliver
		517	dest->s_addr = IPV4_LOCALHOST_ADDRESS;
		518	route = ip_find_route( * dest );
		519	netif = route ? route->netif : NULL;
		520	if( !( netif && route )){
		521	fibril_rwlock_read_unlock( & ip_globals.netifs_lock );
		522	phone = ip_prepare_icmp_and_get_phone( error, packet, NULL );
		523	if( phone >= 0 ){
		524	// unreachable ICMP if no routing
		525	icmp_destination_unreachable_msg( phone, ICMP_HOST_UNREACH, 0, packet );
		526	}
		527	return ENOENT;
		528	}
		529	}
4707	mejdrech	530	src = ip_netif_address( netif );
4505	mejdrech	531	if( ! src ){
4582	mejdrech	532	fibril_rwlock_read_unlock( & ip_globals.netifs_lock );
4711	mejdrech	533	return ip_release_and_return( packet, ENOENT );
4505	mejdrech	534	}
4720	mejdrech	535	ERROR_CODE = ip_send_route( packet, netif, route, src, * dest, error );
4582	mejdrech	536	fibril_rwlock_read_unlock( & ip_globals.netifs_lock );
4505	mejdrech	537	return ERROR_CODE;
		538	}
		539
4707	mejdrech	540	in_addr_t * ip_netif_address( ip_netif_ref netif ){
4505	mejdrech	541	ip_route_ref route;
		542
		543	route = ip_routes_get_index( & netif->routes, 0 );
		544	return route ? & route->address : NULL;
		545	}
		546
4707	mejdrech	547	int ip_send_route( packet_t packet, ip_netif_ref netif, ip_route_ref route, in_addr_t * src, in_addr_t dest, services_t error ){
4505	mejdrech	548	ERROR_DECLARE;
		549
		550	measured_string_t destination;
		551	measured_string_ref translation;
		552	char * data;
4707	mejdrech	553	int phone;
4505	mejdrech	554
		555	// get destination hardware address
4722	mejdrech	556	if( netif->arp && ( route->address.s_addr != dest.s_addr )){
4575	mejdrech	557	destination.value = route->gateway.s_addr ? ( char * ) & route->gateway.s_addr : ( char * ) & dest.s_addr;
4505	mejdrech	558	destination.length = CONVERT_SIZE( dest.s_addr, char, 1 );
		559	if( ERROR_OCCURRED( arp_translate_req( netif->arp->phone, netif->device_id, SERVICE_IP, & destination, & translation, & data ))){
4720	mejdrech	560	// sleep( 1 );
		561	// ERROR_PROPAGATE( arp_translate_req( netif->arp->phone, netif->device_id, SERVICE_IP, & destination, & translation, & data ));
		562	pq_release( ip_globals.net_phone, packet_get_id( packet ));
		563	return ERROR_CODE;
4505	mejdrech	564	}
4707	mejdrech	565	if( !( translation && translation->value )){
		566	if( translation ){
		567	free( translation );
		568	free( data );
		569	}
		570	phone = ip_prepare_icmp_and_get_phone( error, packet, NULL );
		571	if( phone >= 0 ){
		572	// unreachable ICMP if no routing
		573	icmp_destination_unreachable_msg( phone, ICMP_HOST_UNREACH, 0, packet );
		574	}
4505	mejdrech	575	return EINVAL;
		576	}
		577	}else translation = NULL;
4589	mejdrech	578	if( ERROR_OCCURRED( ip_prepare_packet( src, dest, packet, translation ))){
		579	pq_release( ip_globals.net_phone, packet_get_id( packet ));
		580	}else{
4707	mejdrech	581	packet = ip_split_packet( packet, netif->prefix, netif->content, netif->suffix, netif->addr_len, error );
4589	mejdrech	582	if( packet ){
		583	nil_send_msg( netif->phone, netif->device_id, packet, SERVICE_IP );
4505	mejdrech	584	}
4589	mejdrech	585	}
4505	mejdrech	586	if( translation ){
		587	free( translation );
		588	free( data );
		589	}
4589	mejdrech	590	return ERROR_CODE;
3846	mejdrech	591	}
		592
4575	mejdrech	593	int ip_prepare_packet( in_addr_t * source, in_addr_t dest, packet_t packet, measured_string_ref destination ){
4505	mejdrech	594	ERROR_DECLARE;
		595
4558	mejdrech	596	size_t length;
4505	mejdrech	597	ip_header_ref header;
4589	mejdrech	598	ip_header_ref last_header;
		599	ip_header_ref middle_header;
		600	packet_t next;
4505	mejdrech	601
		602	length = packet_get_data_length( packet );
		603	if(( length < sizeof( ip_header_t )) \|\| ( length > IP_MAX_CONTENT )) return EINVAL;
		604	header = ( ip_header_ref ) packet_get_data( packet );
		605	if( destination ){
		606	ERROR_PROPAGATE( packet_set_addr( packet, NULL, ( uint8_t * ) destination->value, CONVERT_SIZE( char, uint8_t, destination->length )));
4722	mejdrech	607	}else{
		608	ERROR_PROPAGATE( packet_set_addr( packet, NULL, NULL, 0 ));
4505	mejdrech	609	}
4722	mejdrech	610	header->version = IPV4;
4731	mejdrech	611	header->fragment_offset_high = 0;
		612	header->fragment_offset_low = 0;
4589	mejdrech	613	header->header_checksum = 0;
4575	mejdrech	614	if( source ) header->source_address = source->s_addr;
		615	header->destination_address = dest.s_addr;
4582	mejdrech	616	fibril_rwlock_write_lock( & ip_globals.lock );
4505	mejdrech	617	++ ip_globals.packet_counter;
		618	header->identification = htons( ip_globals.packet_counter );
4582	mejdrech	619	fibril_rwlock_write_unlock( & ip_globals.lock );
4731	mejdrech	620	// length = packet_get_data_length( packet );
4589	mejdrech	621	if( pq_next( packet )){
		622	last_header = ( ip_header_ref ) malloc( IP_HEADER_LENGTH( header ));
		623	if( ! last_header ) return ENOMEM;
		624	ip_create_last_header( last_header, header );
		625	next = pq_next( packet );
		626	while( pq_next( next )){
		627	middle_header = ( ip_header_ref ) packet_prefix( next, IP_HEADER_LENGTH( last_header ));
		628	if( ! middle_header ) return ENOMEM;
		629	memcpy( middle_header, last_header, IP_HEADER_LENGTH( last_header ));
		630	header->flags \|= IPFLAG_MORE_FRAGMENTS;
		631	middle_header->total_length = htons( packet_get_data_length( next ));
4731	mejdrech	632	middle_header->fragment_offset_high = IP_COMPUTE_FRAGMENT_OFFSET_HIGH( length );
		633	middle_header->fragment_offset_low = IP_COMPUTE_FRAGMENT_OFFSET_LOW( length );
4589	mejdrech	634	middle_header->header_checksum = IP_HEADER_CHECKSUM( middle_header );
		635	if( destination ){
		636	ERROR_PROPAGATE( packet_set_addr( next, NULL, ( uint8_t * ) destination->value, CONVERT_SIZE( char, uint8_t, destination->length )));
		637	}
		638	length += packet_get_data_length( next );
		639	next = pq_next( next );
		640	}
		641	middle_header = ( ip_header_ref ) packet_prefix( next, IP_HEADER_LENGTH( last_header ));
		642	if( ! middle_header ) return ENOMEM;
		643	memcpy( middle_header, last_header, IP_HEADER_LENGTH( last_header ));
		644	middle_header->total_length = htons( packet_get_data_length( next ));
4731	mejdrech	645	middle_header->fragment_offset_high = IP_COMPUTE_FRAGMENT_OFFSET_HIGH( length );
		646	middle_header->fragment_offset_low = IP_COMPUTE_FRAGMENT_OFFSET_LOW( length );
4589	mejdrech	647	middle_header->header_checksum = IP_HEADER_CHECKSUM( middle_header );
		648	if( destination ){
		649	ERROR_PROPAGATE( packet_set_addr( next, NULL, ( uint8_t * ) destination->value, CONVERT_SIZE( char, uint8_t, destination->length )));
		650	}
		651	length += packet_get_data_length( next );
		652	free( last_header );
		653	header->flags \|= IPFLAG_MORE_FRAGMENTS;
		654	}
		655	header->total_length = htons( length );
4505	mejdrech	656	// unnecessary for all protocols
		657	header->header_checksum = IP_HEADER_CHECKSUM( header );
		658	return EOK;
		659	}
		660
3846	mejdrech	661	int ip_message( ipc_callid_t callid, ipc_call_t * call, ipc_call_t * answer, int * answer_count ){
		662	ERROR_DECLARE;
		663
4722	mejdrech	664	packet_t packet;
		665	struct sockaddr * addr;
		666	size_t addrlen;
		667	ip_pseudo_header_ref header;
		668	size_t headerlen;
3846	mejdrech	669
		670	* answer_count = 0;
		671	switch( IPC_GET_METHOD( * call )){
3466	mejdrech	672	case IPC_M_PHONE_HUNGUP:
		673	return EOK;
3666	mejdrech	674	case NET_IL_DEVICE:
4307	mejdrech	675	return ip_device_req( 0, IPC_GET_DEVICE( call ), IPC_GET_SERVICE( call ));
3846	mejdrech	676	case IPC_M_CONNECT_TO_ME:
4505	mejdrech	677	return ip_register( IL_GET_PROTO( call ), IL_GET_SERVICE( call ), IPC_GET_PHONE( call ), NULL );
4307	mejdrech	678	case NET_IL_SEND:
		679	ERROR_PROPAGATE( packet_translate( ip_globals.net_phone, & packet, IPC_GET_PACKET( call )));
4707	mejdrech	680	return ip_send_msg( 0, IPC_GET_DEVICE( call ), packet, 0, IPC_GET_ERROR( call ));
4351	mejdrech	681	case NET_IL_DEVICE_STATE:
4702	mejdrech	682	return ip_device_state_message( IPC_GET_DEVICE( call ), IPC_GET_STATE( call ));
4351	mejdrech	683	case NET_IL_RECEIVED:
		684	ERROR_PROPAGATE( packet_translate( ip_globals.net_phone, & packet, IPC_GET_PACKET( call )));
4702	mejdrech	685	return ip_receive_message( IPC_GET_DEVICE( call ), packet );
4707	mejdrech	686	case NET_IP_RECEIVED_ERROR:
		687	ERROR_PROPAGATE( packet_translate( ip_globals.net_phone, & packet, IPC_GET_PACKET( call )));
		688	return ip_received_error_msg( 0, IPC_GET_DEVICE( call ), packet, IPC_GET_TARGET( call ), IPC_GET_ERROR( call ));
4505	mejdrech	689	case NET_IP_ADD_ROUTE:
		690	return ip_add_route_req( 0, IPC_GET_DEVICE( call ), IP_GET_ADDRESS( call ), IP_GET_NETMASK( call ), IP_GET_GATEWAY( call ));
		691	case NET_IP_SET_GATEWAY:
		692	return ip_set_gateway_req( 0, IPC_GET_DEVICE( call ), IP_GET_GATEWAY( call ));
4722	mejdrech	693	case NET_IP_GET_ROUTE:
		694	ERROR_PROPAGATE( data_receive(( void ** ) & addr, & addrlen ));
		695	ERROR_PROPAGATE( ip_get_route_req( 0, IP_GET_PROTOCOL( call ), addr, ( socklen_t ) addrlen, IPC_SET_DEVICE( answer ), & header, & headerlen ));
		696	* IP_SET_HEADERLEN( answer ) = headerlen;
4735	mejdrech	697	* answer_count = 2;
4722	mejdrech	698	if( ! ERROR_OCCURRED( data_reply( & headerlen, sizeof( headerlen )))){
		699	ERROR_CODE = data_reply( header, headerlen );
		700	}
		701	free( header );
		702	return ERROR_CODE;
4505	mejdrech	703	case NET_IL_PACKET_SPACE:
		704	ERROR_PROPAGATE( ip_packet_size_req( 0, IPC_GET_DEVICE( call ), IPC_SET_ADDR( answer ), IPC_SET_PREFIX( answer ), IPC_SET_CONTENT( answer ), IPC_SET_SUFFIX( answer )));
		705	* answer_count = 3;
		706	return EOK;
4695	mejdrech	707	case NET_IL_MTU_CHANGED:
4702	mejdrech	708	return ip_mtu_changed_message( IPC_GET_DEVICE( call ), IPC_GET_MTU( call ));
3466	mejdrech	709	}
		710	return ENOTSUP;
		711	}
		712
4505	mejdrech	713	int ip_packet_size_req( int ip_phone, device_id_t device_id, size_t * addr_len, size_t * prefix, size_t * content, size_t * suffix ){
		714	ip_netif_ref netif;
4575	mejdrech	715	int index;
4505	mejdrech	716
		717	if( !( addr_len && prefix && content && suffix )) return EBADMEM;
4575	mejdrech	718	* content = IP_MAX_CONTENT - IP_PREFIX;
4582	mejdrech	719	fibril_rwlock_read_lock( & ip_globals.netifs_lock );
4575	mejdrech	720	if( device_id < 0 ){
		721	* addr_len = IP_ADDR;
		722	* prefix = 0;
		723	* suffix = 0;
		724	for( index = ip_netifs_count( & ip_globals.netifs ) - 1; index >= 0; -- index ){
		725	netif = ip_netifs_get_index( & ip_globals.netifs, index );
		726	if( netif ){
		727	if( netif->addr_len > * addr_len ) * addr_len = netif->addr_len;
		728	if( netif->prefix > * prefix ) * prefix = netif->prefix;
		729	if( netif->suffix > * suffix ) * suffix = netif->suffix;
		730	}
		731	}
		732	* prefix = * prefix + IP_PREFIX;
		733	* suffix = * suffix + IP_SUFFIX;
		734	}else{
		735	netif = ip_netifs_find( & ip_globals.netifs, device_id );
		736	if( ! netif ){
4582	mejdrech	737	fibril_rwlock_read_unlock( & ip_globals.netifs_lock );
4575	mejdrech	738	return ENOENT;
		739	}
		740	* addr_len = ( netif->addr_len > IP_ADDR ) ? netif->addr_len : IP_ADDR;
		741	* prefix = netif->prefix + IP_PREFIX;
		742	* suffix = netif->suffix + IP_SUFFIX;
4505	mejdrech	743	}
4582	mejdrech	744	fibril_rwlock_read_unlock( & ip_globals.netifs_lock );
4505	mejdrech	745	return EOK;
		746	}
		747
		748	int ip_add_route_req( int ip_phone, device_id_t device_id, in_addr_t address, in_addr_t netmask, in_addr_t gateway ){
		749	ip_route_ref route;
		750	ip_netif_ref netif;
		751	int index;
		752
4582	mejdrech	753	fibril_rwlock_write_lock( & ip_globals.netifs_lock );
4505	mejdrech	754	netif = ip_netifs_find( & ip_globals.netifs, device_id );
4558	mejdrech	755	if( ! netif ){
4582	mejdrech	756	fibril_rwlock_write_unlock( & ip_globals.netifs_lock );
4558	mejdrech	757	return ENOENT;
		758	}
4505	mejdrech	759	route = ( ip_route_ref ) malloc( sizeof( ip_route_t ));
4558	mejdrech	760	if( ! route ){
4582	mejdrech	761	fibril_rwlock_write_unlock( & ip_globals.netifs_lock );
4558	mejdrech	762	return ENOMEM;
		763	}
4505	mejdrech	764	route->address.s_addr = address.s_addr;
		765	route->netmask.s_addr = netmask.s_addr;
		766	route->gateway.s_addr = gateway.s_addr;
		767	route->netif = netif;
		768	index = ip_routes_add( & netif->routes, route );
		769	if( index < 0 ) free( route );
4582	mejdrech	770	fibril_rwlock_write_unlock( & ip_globals.netifs_lock );
4505	mejdrech	771	return index;
		772	}
		773
		774	ip_route_ref ip_find_route( in_addr_t destination ){
		775	int index;
		776	ip_route_ref route;
		777	ip_netif_ref netif;
		778
		779	// start with the last netif - the newest one
		780	index = ip_netifs_count( & ip_globals.netifs ) - 1;
		781	while( index >= 0 ){
		782	netif = ip_netifs_get_index( & ip_globals.netifs, index );
		783	if( netif && ( netif->state == NETIF_ACTIVE )){
		784	route = ip_netif_find_route( netif, destination );
		785	if( route ) return route;
		786	}
		787	-- index;
		788	}
		789	return & ip_globals.gateway;
		790	}
		791
		792	ip_route_ref ip_netif_find_route( ip_netif_ref netif, in_addr_t destination ){
		793	int index;
		794	ip_route_ref route;
		795
		796	if( netif ){
		797	// start with the first one - the direct route
		798	for( index = 0; index < ip_routes_count( & netif->routes ); ++ index ){
		799	route = ip_routes_get_index( & netif->routes, index );
		800	if( route && (( route->address.s_addr & route->netmask.s_addr ) == ( destination.s_addr & route->netmask.s_addr ))){
		801	return route;
		802	}
		803	}
		804	}
		805	return NULL;
		806	}
		807
		808	int ip_set_gateway_req( int ip_phone, device_id_t device_id, in_addr_t gateway ){
		809	ip_netif_ref netif;
		810
4582	mejdrech	811	fibril_rwlock_write_lock( & ip_globals.netifs_lock );
4505	mejdrech	812	netif = ip_netifs_find( & ip_globals.netifs, device_id );
4558	mejdrech	813	if( ! netif ){
4582	mejdrech	814	fibril_rwlock_write_unlock( & ip_globals.netifs_lock );
4558	mejdrech	815	return ENOENT;
		816	}
4505	mejdrech	817	ip_globals.gateway.address.s_addr = 0;
		818	ip_globals.gateway.netmask.s_addr = 0;
		819	ip_globals.gateway.gateway.s_addr = gateway.s_addr;
		820	ip_globals.gateway.netif = netif;
4582	mejdrech	821	fibril_rwlock_write_unlock( & ip_globals.netifs_lock );
4505	mejdrech	822	return EOK;
		823	}
		824
4720	mejdrech	825	packet_t ip_split_packet( packet_t packet, size_t prefix, size_t content, size_t suffix, socklen_t addr_len, services_t error ){
4505	mejdrech	826	size_t length;
		827	packet_t next;
		828	packet_t new_packet;
4707	mejdrech	829	int result;
		830	int phone;
4505	mejdrech	831
		832	next = packet;
		833	// check all packets
		834	while( next ){
		835	length = packet_get_data_length( next );
		836	// too long?
		837	if( length > content ){
4707	mejdrech	838	result = ip_fragment_packet( next, content, prefix, suffix, addr_len );
		839	if( result != EOK ){
4505	mejdrech	840	new_packet = pq_detach( next );
		841	if( next == packet ){
4707	mejdrech	842	// the new first packet of the queue
4505	mejdrech	843	packet = new_packet;
		844	}
4707	mejdrech	845	// fragmentation needed?
		846	if( result == EPERM ){
		847	phone = ip_prepare_icmp_and_get_phone( error, next, NULL );
		848	if( phone >= 0 ){
		849	// fragmentation necessary ICMP
		850	icmp_destination_unreachable_msg( phone, ICMP_FRAG_NEEDED, content, next );
		851	}
		852	}else{
		853	pq_release( ip_globals.net_phone, packet_get_id( next ));
		854	}
4505	mejdrech	855	next = new_packet;
		856	continue;
		857	}
		858	}
		859	next = pq_next( next );
		860	}
		861	return packet;
		862	}
		863
4720	mejdrech	864	int ip_fragment_packet( packet_t packet, size_t length, size_t prefix, size_t suffix, socklen_t addr_len ){
4505	mejdrech	865	ERROR_DECLARE;
		866
		867	packet_t new_packet;
		868	ip_header_ref header;
		869	ip_header_ref middle_header;
		870	ip_header_ref last_header;
4720	mejdrech	871	struct sockaddr * src;
		872	struct sockaddr * dest;
		873	socklen_t addrlen;
4708	mejdrech	874	int result;
4505	mejdrech	875
4720	mejdrech	876	result = packet_get_addr( packet, ( uint8_t ) & src, ( uint8_t ) & dest );
4708	mejdrech	877	if( result <= 0 ) return EINVAL;
4720	mejdrech	878	addrlen = ( socklen_t ) result;
4505	mejdrech	879	if( packet_get_data_length( packet ) <= sizeof( ip_header_t )) return ENOMEM;
		880	// get header
		881	header = ( ip_header_ref ) packet_get_data( packet );
		882	if( ! header ) return EINVAL;
		883	// fragmentation forbidden?
		884	if( header->flags & IPFLAG_DONT_FRAGMENT ){
		885	return EPERM;
		886	}
		887	// create the last fragment
4720	mejdrech	888	new_packet = packet_get_4( ip_globals.net_phone, prefix, length, suffix, (( addrlen > addr_len ) ? addrlen : addr_len ));
4505	mejdrech	889	if( ! new_packet ) return ENOMEM;
4589	mejdrech	890	// allocate as much as originally
		891	last_header = ( ip_header_ref ) packet_suffix( new_packet, IP_HEADER_LENGTH( header ));
4505	mejdrech	892	if( ! last_header ){
4711	mejdrech	893	return ip_release_and_return( packet, ENOMEM );
4505	mejdrech	894	}
4589	mejdrech	895	ip_create_last_header( last_header, header );
		896	// trim the unused space
		897	if( ERROR_OCCURRED( packet_trim( new_packet, 0, IP_HEADER_LENGTH( header ) - IP_HEADER_LENGTH( last_header )))){
4711	mejdrech	898	return ip_release_and_return( packet, ERROR_CODE );
4589	mejdrech	899	}
4505	mejdrech	900	// biggest multiple of 8 lower than content
		901	// TODO even fragmentation?
		902	length = length & ( ~ 0x7 );// ( content / 8 ) * 8
4731	mejdrech	903	if( ERROR_OCCURRED( ip_fragment_packet_data( packet, new_packet, header, last_header, (( IP_HEADER_DATA_LENGTH( header ) - (( length - IP_HEADER_LENGTH( header )) & ( ~ 0x7 ))) % (( length - IP_HEADER_LENGTH( last_header )) & ( ~ 0x7 ))), src, dest, addrlen ))){
4711	mejdrech	904	return ip_release_and_return( packet, ERROR_CODE );
4505	mejdrech	905	}
		906	// mark the first as fragmented
		907	header->flags \|= IPFLAG_MORE_FRAGMENTS;
		908	// create middle framgents
		909	while( IP_TOTAL_LENGTH( header ) > length ){
4720	mejdrech	910	new_packet = packet_get_4( ip_globals.net_phone, prefix, length, suffix, (( addrlen >= addr_len ) ? addrlen : addr_len ));
4505	mejdrech	911	if( ! new_packet ) return ENOMEM;
		912	middle_header = ip_create_middle_header( new_packet, last_header );
		913	if( ! middle_header ){
4711	mejdrech	914	return ip_release_and_return( packet, ENOMEM );
4505	mejdrech	915	}
4731	mejdrech	916	if( ERROR_OCCURRED( ip_fragment_packet_data( packet, new_packet, header, middle_header, ( length - IP_HEADER_LENGTH( middle_header )) & ( ~ 0x7 ), src, dest, addrlen ))){
4711	mejdrech	917	return ip_release_and_return( packet, ERROR_CODE );
4505	mejdrech	918	}
		919	}
		920	// finish the first fragment
		921	header->header_checksum = IP_HEADER_CHECKSUM( header );
		922	return EOK;
		923	}
		924
4720	mejdrech	925	int ip_fragment_packet_data( packet_t packet, packet_t new_packet, ip_header_ref header, ip_header_ref new_header, size_t length, const struct sockaddr * src, const struct sockaddr * dest, socklen_t addrlen ){
4505	mejdrech	926	ERROR_DECLARE;
		927
		928	void * data;
4731	mejdrech	929	size_t offset;
4505	mejdrech	930
		931	data = packet_suffix( new_packet, length );
		932	if( ! data ) return ENOMEM;
		933	memcpy( data, (( void * ) header ) + IP_TOTAL_LENGTH( header ) - length, length );
		934	ERROR_PROPAGATE( packet_trim( packet, 0, length ));
		935	header->total_length = htons( IP_TOTAL_LENGTH( header ) - length );
		936	new_header->total_length = htons( IP_HEADER_LENGTH( new_header ) + length );
4731	mejdrech	937	offset = IP_FRAGMENT_OFFSET( header ) + IP_HEADER_DATA_LENGTH( header );
		938	new_header->fragment_offset_high = IP_COMPUTE_FRAGMENT_OFFSET_HIGH( offset );
		939	new_header->fragment_offset_low = IP_COMPUTE_FRAGMENT_OFFSET_LOW( offset );
4505	mejdrech	940	new_header->header_checksum = IP_HEADER_CHECKSUM( new_header );
4720	mejdrech	941	ERROR_PROPAGATE( packet_set_addr( new_packet, ( const uint8_t * ) src, ( const uint8_t * ) dest, addrlen ));
4505	mejdrech	942	return pq_insert_after( packet, new_packet );
		943	}
		944
		945	ip_header_ref ip_create_middle_header( packet_t packet, ip_header_ref last ){
		946	ip_header_ref middle;
		947
		948	middle = ( ip_header_ref ) packet_suffix( packet, IP_HEADER_LENGTH( last ));
		949	if( ! middle ) return NULL;
		950	memcpy( middle, last, IP_HEADER_LENGTH( last ));
		951	middle->flags \|= IPFLAG_MORE_FRAGMENTS;
		952	return middle;
		953	}
		954
4589	mejdrech	955	void ip_create_last_header( ip_header_ref last, ip_header_ref first ){
4505	mejdrech	956	ip_option_ref option;
		957	size_t next;
		958	size_t length;
		959
		960	// copy first itself
		961	memcpy( last, first, sizeof( ip_header_t ));
		962	length = sizeof( ip_header_t );
		963	next = sizeof( ip_header_t );
		964	// process all ip options
4728	mejdrech	965	while( next < first->header_length ){
4708	mejdrech	966	option = ( ip_option_ref ) ((( uint8_t * ) first ) + next );
4505	mejdrech	967	// skip end or noop
		968	if(( option->type == IPOPT_END ) \|\| ( option->type == IPOPT_NOOP )){
		969	++ next;
		970	}else{
		971	// copy if said so or skip
		972	if( IPOPT_COPIED( option->type )){
4708	mejdrech	973	memcpy((( uint8_t * ) last ) + length, (( uint8_t * ) first ) + next, option->length );
4505	mejdrech	974	length += option->length;
		975	}
		976	// next option
		977	next += option->length;
		978	}
		979	}
		980	// align 4 byte boundary
		981	if( length % 4 ){
4708	mejdrech	982	bzero((( uint8_t * ) last ) + length, 4 - ( length % 4 ));
4728	mejdrech	983	last->header_length = length / 4 + 1;
4505	mejdrech	984	}else{
4728	mejdrech	985	last->header_length = length / 4;
4505	mejdrech	986	}
4589	mejdrech	987	last->header_checksum = 0;
4505	mejdrech	988	}
		989
4702	mejdrech	990	int ip_receive_message( device_id_t device_id, packet_t packet ){
4505	mejdrech	991	packet_t next;
		992
		993	do{
		994	next = pq_detach( packet );
4707	mejdrech	995	ip_process_packet( device_id, packet );
4505	mejdrech	996	packet = next;
		997	}while( packet );
		998	return EOK;
		999	}
		1000
		1001	int ip_process_packet( device_id_t device_id, packet_t packet ){
		1002	ERROR_DECLARE;
		1003
		1004	ip_header_ref header;
		1005	in_addr_t dest;
		1006	ip_route_ref route;
4707	mejdrech	1007	int phone;
4720	mejdrech	1008	struct sockaddr * addr;
		1009	struct sockaddr_in addr_in;
		1010	// struct sockaddr_in addr_in6;
		1011	socklen_t addrlen;
4505	mejdrech	1012
		1013	header = ( ip_header_ref ) packet_get_data( packet );
4707	mejdrech	1014	if( ! header ){
4711	mejdrech	1015	return ip_release_and_return( packet, ENOMEM );
4707	mejdrech	1016	}
4505	mejdrech	1017	// checksum
		1018	if(( header->header_checksum ) && ( IP_HEADER_CHECKSUM( header ))){
4731	mejdrech	1019	phone = ip_prepare_icmp_and_get_phone( 0, packet, header );
		1020	if( phone >= 0 ){
		1021	// checksum error ICMP
		1022	icmp_parameter_problem_msg( phone, ICMP_PARAM_POINTER, (( size_t ) (( void * ) & header->header_checksum )) - (( size_t ) (( void * ) header )), packet );
		1023	}
		1024	return EINVAL;
4707	mejdrech	1025	}
		1026	if( header->ttl <= 1 ){
		1027	phone = ip_prepare_icmp_and_get_phone( 0, packet, header );
		1028	if( phone >= 0 ){
		1029	// ttl oxceeded ICMP
		1030	icmp_time_exceeded_msg( phone, ICMP_EXC_TTL, packet );
		1031	}
4505	mejdrech	1032	return EINVAL;
		1033	}
		1034	// process ipopt and get destination
		1035	dest = ip_get_destination( header );
4720	mejdrech	1036	// set the addrination address
		1037	switch( header->version ){
		1038	case IPVERSION:
		1039	addrlen = sizeof( addr_in );
		1040	bzero( & addr_in, addrlen );
		1041	addr_in.sin_family = AF_INET;
		1042	memcpy( & addr_in.sin_addr.s_addr, & dest, sizeof( dest ));
		1043	addr = ( struct sockaddr * ) & addr_in;
		1044	break;
		1045	/* case IPv6VERSION:
		1046	addrlen = sizeof( dest_in6 );
		1047	bzero( & dest_in6, addrlen );
		1048	dest_in6.sin6_family = AF_INET6;
		1049	memcpy( & dest_in6.sin6_addr.s6_addr, );
		1050	dest = ( struct sockaddr * ) & dest_in;
		1051	break;
		1052	*/ default:
		1053	return EAFNOSUPPORT;
		1054	}
		1055	ERROR_PROPAGATE( packet_set_addr( packet, NULL, ( uint8_t * ) & addr, addrlen ));
4505	mejdrech	1056	route = ip_find_route( dest );
4707	mejdrech	1057	if( ! route ){
		1058	phone = ip_prepare_icmp_and_get_phone( 0, packet, header );
		1059	if( phone >= 0 ){
		1060	// unreachable ICMP
		1061	icmp_destination_unreachable_msg( phone, ICMP_HOST_UNREACH, 0, packet );
		1062	}
		1063	return ENOENT;
		1064	}
4505	mejdrech	1065	if( route->address.s_addr == dest.s_addr ){
		1066	// local delivery
4707	mejdrech	1067	return ip_deliver_local( device_id, packet, header, 0 );
4505	mejdrech	1068	}else{
4695	mejdrech	1069	// only if routing enabled
		1070	if( route->netif->routing ){
4707	mejdrech	1071	-- header->ttl;
		1072	return ip_send_route( packet, route->netif, route, NULL, dest, 0 );
		1073	}else{
		1074	phone = ip_prepare_icmp_and_get_phone( 0, packet, header );
		1075	if( phone >= 0 ){
		1076	// unreachable ICMP if no routing
		1077	icmp_destination_unreachable_msg( phone, ICMP_HOST_UNREACH, 0, packet );
		1078	}
4695	mejdrech	1079	return ENOENT;
		1080	}
4505	mejdrech	1081	}
		1082	}
		1083
4707	mejdrech	1084	int ip_received_error_msg( int ip_phone, device_id_t device_id, packet_t packet, services_t target, services_t error ){
		1085	uint8_t * data;
		1086	int offset;
		1087	icmp_type_t type;
		1088	icmp_code_t code;
		1089	ip_netif_ref netif;
		1090	measured_string_t address;
		1091	ip_route_ref route;
		1092	ip_header_ref header;
		1093
		1094	switch( error ){
		1095	case SERVICE_ICMP:
		1096	offset = icmp_client_process_packet( packet, & type, & code, NULL, NULL );
		1097	if( offset < 0 ){
4711	mejdrech	1098	return ip_release_and_return( packet, ENOMEM );
4707	mejdrech	1099	}
		1100	data = packet_get_data( packet );
4720	mejdrech	1101	header = ( ip_header_ref )( data + offset );
4707	mejdrech	1102	// destination host unreachable?
		1103	if(( type == ICMP_DEST_UNREACH ) && ( code == ICMP_HOST_UNREACH )){
		1104	fibril_rwlock_read_lock( & ip_globals.netifs_lock );
		1105	netif = ip_netifs_find( & ip_globals.netifs, device_id );
		1106	if( netif && netif->arp ){
		1107	route = ip_routes_get_index( & netif->routes, 0 );
		1108	// from the same network?
		1109	if( route && (( route->address.s_addr & route->netmask.s_addr ) == ( header->destination_address & route->netmask.s_addr ))){
		1110	// clear the ARP mapping if any
		1111	address.value = ( char * ) & header->destination_address;
		1112	address.length = CONVERT_SIZE( uint8_t, char, sizeof( header->destination_address ));
		1113	arp_clear_address_req( netif->arp->phone, netif->device_id, SERVICE_IP, & address );
		1114	}
		1115	}
		1116	fibril_rwlock_read_unlock( & ip_globals.netifs_lock );
		1117	}
		1118	break;
		1119	default:
4711	mejdrech	1120	return ip_release_and_return( packet, ENOTSUP );
4707	mejdrech	1121	}
		1122	return ip_deliver_local( device_id, packet, header, error );
		1123	}
		1124
		1125	int ip_deliver_local( device_id_t device_id, packet_t packet, ip_header_ref header, services_t error ){
4505	mejdrech	1126	ERROR_DECLARE;
		1127
		1128	ip_proto_ref proto;
4707	mejdrech	1129	int phone;
4720	mejdrech	1130	services_t service;
		1131	tl_received_msg_t received_msg;
		1132	struct sockaddr * src;
		1133	struct sockaddr * dest;
		1134	struct sockaddr_in src_in;
		1135	struct sockaddr_in dest_in;
		1136	// struct sockaddr_in src_in6;
		1137	// struct sockaddr_in dest_in6;
		1138	socklen_t addrlen;
4505	mejdrech	1139
4731	mejdrech	1140	if(( header->flags & IPFLAG_MORE_FRAGMENTS ) \|\| IP_FRAGMENT_OFFSET( header )){
4505	mejdrech	1141	// TODO fragmented
		1142	return ENOTSUP;
		1143	}else{
4720	mejdrech	1144	switch( header->version ){
		1145	case IPVERSION:
		1146	addrlen = sizeof( src_in );
		1147	bzero( & src_in, addrlen );
		1148	src_in.sin_family = AF_INET;
		1149	memcpy( & dest_in, & src_in, addrlen );
		1150	memcpy( & src_in.sin_addr.s_addr, & header->source_address, sizeof( header->source_address ));
		1151	memcpy( & dest_in.sin_addr.s_addr, & header->destination_address, sizeof( header->destination_address ));
		1152	src = ( struct sockaddr * ) & src_in;
		1153	dest = ( struct sockaddr * ) & dest_in;
		1154	break;
		1155	/* case IPv6VERSION:
		1156	addrlen = sizeof( src_in6 );
		1157	bzero( & src_in6, addrlen );
		1158	src_in6.sin6_family = AF_INET6;
		1159	memcpy( & dest_in6, & src_in6, addrlen );
		1160	memcpy( & src_in6.sin6_addr.s6_addr, );
		1161	memcpy( & dest_in6.sin6_addr.s6_addr, );
		1162	src = ( struct sockaddr * ) & src_in;
		1163	dest = ( struct sockaddr * ) & dest_in;
		1164	break;
		1165	*/ default:
4735	mejdrech	1166	return ip_release_and_return( packet, EAFNOSUPPORT );
4720	mejdrech	1167	}
4735	mejdrech	1168	if( ERROR_OCCURRED( packet_set_addr( packet, ( uint8_t * ) src, ( uint8_t * ) dest, addrlen ))){
		1169	return ip_release_and_return( packet, ERROR_CODE );
		1170	}
		1171	// trim padding if present
		1172	if(( ! error ) && ( IP_TOTAL_LENGTH( header ) < packet_get_data_length( packet ))){
		1173	if( ERROR_OCCURRED( packet_trim( packet, 0, packet_get_data_length( packet ) - IP_TOTAL_LENGTH( header )))){
		1174	return ip_release_and_return( packet, ERROR_CODE );
		1175	}
		1176	}
4582	mejdrech	1177	fibril_rwlock_read_lock( & ip_globals.protos_lock );
4505	mejdrech	1178	proto = ip_protos_find( & ip_globals.protos, header->protocol );
4558	mejdrech	1179	if( ! proto ){
4582	mejdrech	1180	fibril_rwlock_read_unlock( & ip_globals.protos_lock );
4707	mejdrech	1181	phone = ip_prepare_icmp_and_get_phone( error, packet, header );
		1182	if( phone >= 0 ){
		1183	// unreachable ICMP
		1184	icmp_destination_unreachable_msg( phone, ICMP_PROT_UNREACH, 0, packet );
		1185	}
4558	mejdrech	1186	return ENOENT;
		1187	}
		1188	if( proto->received_msg ){
4720	mejdrech	1189	service = proto->service;
		1190	received_msg = proto->received_msg;
		1191	fibril_rwlock_read_unlock( & ip_globals.protos_lock );
		1192	ERROR_CODE = received_msg( device_id, packet, service, error );
4505	mejdrech	1193	}else{
4707	mejdrech	1194	ERROR_CODE = tl_received_msg( proto->phone, device_id, packet, proto->service, error );
4720	mejdrech	1195	fibril_rwlock_read_unlock( & ip_globals.protos_lock );
4505	mejdrech	1196	}
4558	mejdrech	1197	return ERROR_CODE;
4505	mejdrech	1198	}
		1199	}
		1200
		1201	in_addr_t ip_get_destination( ip_header_ref header ){
		1202	in_addr_t destination;
		1203
		1204	// TODO search set ipopt route?
4707	mejdrech	1205	destination.s_addr = header->destination_address;
4505	mejdrech	1206	return destination;
		1207	}
		1208
4707	mejdrech	1209	int ip_prepare_icmp( packet_t packet, ip_header_ref header ){
		1210	packet_t next;
4720	mejdrech	1211	struct sockaddr * dest;
		1212	struct sockaddr_in dest_in;
		1213	// struct sockaddr_in dest_in6;
		1214	socklen_t addrlen;
4707	mejdrech	1215
		1216	// detach the first packet and release the others
		1217	next = pq_detach( packet );
		1218	if( next ){
		1219	pq_release( ip_globals.net_phone, packet_get_id( next ));
		1220	}
		1221	if( ! header ){
		1222	if( packet_get_data_length( packet ) <= sizeof( ip_header_t )) return ENOMEM;
		1223	// get header
		1224	header = ( ip_header_ref ) packet_get_data( packet );
		1225	if( ! header ) return EINVAL;
		1226	}
		1227	// only for the first fragment
4731	mejdrech	1228	if( IP_FRAGMENT_OFFSET( header )) return EINVAL;
4707	mejdrech	1229	// set the destination address
4720	mejdrech	1230	switch( header->version ){
		1231	case IPVERSION:
		1232	addrlen = sizeof( dest_in );
		1233	bzero( & dest_in, addrlen );
		1234	dest_in.sin_family = AF_INET;
		1235	memcpy( & dest_in.sin_addr.s_addr, & header->source_address, sizeof( header->source_address ));
		1236	dest = ( struct sockaddr * ) & dest_in;
		1237	break;
		1238	/* case IPv6VERSION:
		1239	addrlen = sizeof( dest_in6 );
		1240	bzero( & dest_in6, addrlen );
		1241	dest_in6.sin6_family = AF_INET6;
		1242	memcpy( & dest_in6.sin6_addr.s6_addr, );
		1243	dest = ( struct sockaddr * ) & dest_in;
		1244	break;
		1245	*/ default:
		1246	return EAFNOSUPPORT;
		1247	}
		1248	return packet_set_addr( packet, NULL, ( uint8_t * ) dest, addrlen );
4707	mejdrech	1249	}
		1250
		1251	int ip_get_icmp_phone( void ){
		1252	ip_proto_ref proto;
		1253	int phone;
		1254
		1255	fibril_rwlock_read_lock( & ip_globals.protos_lock );
		1256	proto = ip_protos_find( & ip_globals.protos, IPPROTO_ICMP );
		1257	phone = proto ? proto->phone : ENOENT;
		1258	fibril_rwlock_read_unlock( & ip_globals.protos_lock );
		1259	return phone;
		1260	}
		1261
		1262	int ip_prepare_icmp_and_get_phone( services_t error, packet_t packet, ip_header_ref header ){
		1263	int phone;
		1264
		1265	phone = ip_get_icmp_phone();
		1266	if( error \|\| ( phone < 0 ) \|\| ip_prepare_icmp( packet, header )){
4711	mejdrech	1267	return ip_release_and_return( packet, EINVAL );
4707	mejdrech	1268	}
		1269	return phone;
		1270	}
		1271
4711	mejdrech	1272	int ip_release_and_return( packet_t packet, int result ){
4707	mejdrech	1273	pq_release( ip_globals.net_phone, packet_get_id( packet ));
		1274	return result;
		1275	}
		1276
4722	mejdrech	1277	int ip_get_route_req( int ip_phone, ip_protocol_t protocol, const struct sockaddr * destination, socklen_t addrlen, device_id_t * device_id, ip_pseudo_header_ref * header, size_t * headerlen ){
		1278	struct sockaddr_in * address_in;
		1279	// struct sockaddr_in6 * address_in6;
		1280	in_addr_t * dest;
		1281	in_addr_t * src;
		1282	ip_route_ref route;
		1283	ipv4_pseudo_header_ref header_in;
		1284
		1285	if( !( destination && ( addrlen > 0 ))) return EINVAL;
		1286	if( !( device_id && header && headerlen )) return EBADMEM;
4743	mejdrech	1287	if(( size_t ) addrlen < sizeof( struct sockaddr )){
4722	mejdrech	1288	return EINVAL;
		1289	}
		1290	switch( destination->sa_family ){
		1291	case AF_INET:
		1292	if( addrlen != sizeof( struct sockaddr_in )){
		1293	return EINVAL;
		1294	}
		1295	address_in = ( struct sockaddr_in * ) destination;
		1296	dest = & address_in->sin_addr;
		1297	break;
		1298	// TODO IPv6
		1299	/* case AF_INET6:
		1300	if( addrlen != sizeof( struct sockaddr_in6 )) return EINVAL;
		1301	address_in6 = ( struct sockaddr_in6 * ) dest;
		1302	address_in6.sin6_addr.s6_addr;
		1303	*/ default:
		1304	return EAFNOSUPPORT;
		1305	}
		1306	fibril_rwlock_read_lock( & ip_globals.lock );
		1307	route = ip_find_route( * dest );
		1308	if( !( route && route->netif )){
		1309	fibril_rwlock_read_unlock( & ip_globals.lock );
		1310	return ENOENT;
		1311	}
		1312	* device_id = route->netif->device_id;
		1313	src = ip_netif_address( route->netif );
		1314	fibril_rwlock_read_unlock( & ip_globals.lock );
		1315	* headerlen = sizeof( * header_in );
		1316	header_in = ( ipv4_pseudo_header_ref ) malloc( * headerlen );
		1317	if( ! header_in ) return ENOMEM;
		1318	bzero( header_in, * headerlen );
		1319	header_in->destination_address = dest->s_addr;
		1320	header_in->source_address = src->s_addr;
		1321	header_in->protocol = protocol;
		1322	header_in->data_length = 0;
		1323	* header = ( ip_pseudo_header_ref ) header_in;
		1324	return EOK;
		1325	}
		1326
3466	mejdrech	1327	/** @}
		1328	*/

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(root)/branches/network/uspace/srv/net/il/ip/ip.c – Rev 4743