Subversion Repositories HelenOS

/*

 * Copyright (c) 2008 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 net

 * @{

 */

/** @file

 */

#include <async.h>

#include <ctype.h>

#include <errno.h>

#include <malloc.h>

#include <stdio.h>

#include <task.h>

#include <unistd.h>

#include <ipc/ipc.h>

#include <ipc/services.h>

#include "../char_map.h"

#include "../err.h"

#include "../generic_char_map.h"

#include "../measured_strings.h"

#include "../messages.h"

#include "../modules.h"

//#include "../self_test.h"

#include "../ip/ip_messages.h"

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

#if IP_BUNDLE

	#include "../ip/ip_module.h"

#endif

#if TCP_BUNDLE

	#include "../tcp/tcp_module.h"

#endif

#define LO_NAME				"lo"

#define LO_FILENAME			"/sbin/lo"

#define DP8390_ISA_NAME			"dp8390_isa"

#define DP8390_ISA_FILENAME		"/sbin/dp8380_isa"

#define ETHERNET_NAME			"ethernet"

#define ETHERNET_FILENAME		"/sbin/ethernet"

#define IP_NAME				"ip"

#define IP_FILENAME			"/sbin/ip"

typedef struct module_struct	module_t;

typedef module_t *		module_ref;

typedef struct netif		netif_t;

typedef netif_t *		netif_ref;

typedef struct networking_globals	networking_globals_t;

DEVICE_MAP_DECLARE( netifs, netif_t )

GENERIC_CHAR_MAP_DECLARE( measured_strings, measured_string_t )

GENERIC_CHAR_MAP_DECLARE( modules, module_t )

struct module_struct{

	task_id_t	task_id;

	services_t	service;

	int		phone;

	int		usage;

	const char *	name;

	const char *	filename;

};

/** A present network interface device.

 */

struct netif{

	/** A system-unique network interface identifier.

	 */

	device_id_t		id;

	/** A serving network interface driver module index.

	 */

	module_ref		driver;

	/** A serving link layer module index.

	 */

	module_ref		nil;

	/** A serving internet layer module index.

	 */

	module_ref		il;

	/** A system-unique network interface name.

	 */

	char *			name;

	/** Configuration.

	 */

	measured_strings_t	configuration;

};

/** A networking module global variables.

 */

struct networking_globals{

	/** Present network interfaces.

	 */

	netifs_t		netifs;

	/** Network interface structure indices by names.

	 */

	char_map_t		netif_names;

	/** Available modules.

	 */

	modules_t		modules;

	/** Global configuration.

	 */

	measured_strings_t	configuration;

};

int		add_module( module_ref * module, modules_ref modules, const char const * name, const char const * filename, services_t service, task_id_t task_id );

static void	client_connection( ipc_callid_t iid, ipc_call_t * icall );

measured_string_ref	configuration_find( measured_strings_ref configuration, const char * name );

int		main( int argc, char * argv[] );

int		networking_initialize( void );

int		networking_message( ipcarg_t method, ipcarg_t arg1, ipcarg_t arg2, ipcarg_t arg3, ipcarg_t * result1, ipcarg_t * result2, ipcarg_t * result3 );

//int		parse_line( measured_strings_ref configuration, char * line );

int		add_configuration( measured_strings_ref configuration, const char * name, const char * value );

int		read_configuration( void );

task_id_t	spawn( const char * fname );

int		startup( void );

device_id_t	generate_new_device_id( void );

static networking_globals_t	networking_globals;

DEVICE_MAP_IMPLEMENT( netifs, netif_t )

GENERIC_CHAR_MAP_IMPLEMENT( measured_strings, measured_string_t )

GENERIC_CHAR_MAP_IMPLEMENT( modules, module_t )

int add_module( module_ref * module, modules_ref modules, const char * name, const char * filename, services_t service, task_id_t task_id ){

	ERROR_DECLARE;

	module_ref	tmp_module;

	tmp_module = ( module_ref ) malloc( sizeof( module_t ));

	if( ! tmp_module ) return ENOMEM;

	tmp_module->task_id = task_id;

	tmp_module->phone = 0;

	tmp_module->usage = 0;

	tmp_module->name = name;

	tmp_module->filename = filename;

	tmp_module->service = service;

	if( ERROR_OCCURED( modules_add( modules, tmp_module->name, 0, tmp_module ))){

		free( tmp_module );

		return ERROR_CODE;

	}

	if( module ) * module = tmp_module;

	return EOK;

}

static void client_connection( ipc_callid_t iid, ipc_call_t * icall ){

	ipc_callid_t	callid;

	ipc_call_t	call;

	ipcarg_t	arg1, arg2, arg3;

	int		res;

	/*

	 * Accept the connection

	 *  - Answer the first IPC_M_CONNECT_ME_TO call.

	 */

//	printf( "\nNET-%d got %d on %x from %x", fibril_get_id(), IPC_GET_METHOD( * icall ), icall->in_phone_hash, iid );

	ipc_answer_0( iid, EOK );

	while( true ){

		callid = async_get_call( & call );

		arg1 = 0;

		arg2 = 0;

		arg3 = 0;

//		printf( "\nNET-%d got %d on %x from %x", fibril_get_id(), IPC_GET_METHOD( call ), call.in_phone_hash, callid );

#ifdef NETWORKING_module

		if( IS_NET_IL_MESSAGE( call ) || IS_NET_IP_MESSAGE( call )){

			res = ip_message( IPC_GET_METHOD( call ), IPC_GET_ARG1( call ), IPC_GET_ARG2( call ), IPC_GET_ARG3( call ), & arg1, & arg2, & arg3 );

/*		}else if( IS_NET_ARP_MESSAGE( call )){

			res = arp_message( IPC_GET_METHOD( call ), IPC_GET_ARG1( call ), IPC_GET_ARG2( call ), IPC_GET_ARG3( call ), & arg1, & arg2, & arg3 );

*//*		}else if( IS_NET_RARP_MESSAGE( call )){

			res = rarp_message( IPC_GET_METHOD( call ), IPC_GET_ARG1( call ), IPC_GET_ARG2( call ), IPC_GET_ARG3( call ), & arg1, & arg2, & arg3 );

*//*		}else if( IS_NET_ICMP_MESSAGE( call )){

			res = icmp_message( IPC_GET_METHOD( call ), IPC_GET_ARG1( call ), IPC_GET_ARG2( call ), IPC_GET_ARG3( call ), & arg1, & arg2, & arg3 );

*//*		}else if( IS_NET_UDP_MESSAGE( call )){

			res = udp_message( IPC_GET_METHOD( call ), IPC_GET_ARG1( call ), IPC_GET_ARG2( call ), IPC_GET_ARG3( call ), & arg1, & arg2, & arg3 );

*/		}else if( IS_NET_TCP_MESSAGE( call )){

			res = tcp_message( IPC_GET_METHOD( call ), IPC_GET_ARG1( call ), IPC_GET_ARG2( call ), IPC_GET_ARG3( call ), & arg1, & arg2, & arg3 );

/*		}else if( IS_NET_SOCKET_MESSAGE( call )){

			res = socket_message( IPC_GET_METHOD( call ), IPC_GET_ARG1( call ), IPC_GET_ARG2( call ), IPC_GET_ARG3( call ), & arg1, & arg2, & arg3 );

*//*		}else if( IS_NET_NIL_MESSAGE( call ) || IS_NET_ETHERNET_MESSAGE( call )){

			res = ethernet_message( IPC_GET_METHOD( call ), IPC_GET_ARG1( call ), IPC_GET_ARG2( call ), IPC_GET_ARG3( call ), & arg1, & arg2, & arg3 );

*/		}else{

#endif

			res = networking_message( IPC_GET_METHOD( call ), IPC_GET_ARG1( call ), IPC_GET_ARG2( call ), IPC_GET_ARG3( call ), & arg1, & arg2, & arg3 );

#ifdef NETWORKING_module

		}

#endif

		ipc_answer_2( callid, res, arg1, arg2 );

	}

}

int main( int argc, char * argv[] ){

	ERROR_DECLARE;

	ipcarg_t	phonehash;

	printf("\nTask %d - HelenOS Networking subsystem", task_get_id());

	async_set_client_connection( client_connection );

	ERROR_PROPAGATE( networking_initialize());

	ERROR_PROPAGATE( REGISTER_ME( SERVICE_NETWORKING, & phonehash ));

	async_manager();

	return EOK;

}

int networking_initialize( void ){

	ERROR_DECLARE;

	task_id_t	task_id;

	netifs_initialize( & networking_globals.netifs );

	char_map_initialize( & networking_globals.netif_names );

	modules_initialize( & networking_globals.modules );

	measured_strings_initialize( & networking_globals.configuration );

	// run self tests

//	ERROR_PROPAGATE( self_test());

	ERROR_PROPAGATE( add_module( NULL, & networking_globals.modules, LO_NAME, LO_FILENAME, SERVICE_LO, 0 ));

	ERROR_PROPAGATE( add_module( NULL, & networking_globals.modules, DP8390_ISA_NAME, DP8390_ISA_FILENAME, SERVICE_DP8390_ISA, 0 ));

	ERROR_PROPAGATE( add_module( NULL, & networking_globals.modules, ETHERNET_NAME, ETHERNET_FILENAME, SERVICE_ETHERNET, 0 ));

#ifdef NETWORKING_modular

	task_id = spawn( "/sbin/ip" );

	if( ! task_id ) return EINVAL;

	ERROR_PROPAGATE( add_module( NULL, & networking_globals.modules, IP_NAME, IP_FILENAME, SERVICE_IP, task_id ));

//	if( ! spawn( "/sbin/udp" )) return EINVAL;

	if( ! spawn( "/sbin/tcp" )) return EINVAL;

//	if( ! spawn( "/sbin/socket" )) return EINVAL;

//	not always necesssary

//	if( ! spawn( "/sbin/arp" )) return EINVAL;

//	if( ! spawn( "/sbin/rarp" )) return EINVAL;

//	if( ! spawn( "/sbin/icmp" )) return EINVAL;

#else

#ifdef NETWORKING_module

	ipcarg_t	phonehash;

	ERROR_PROPAGATE( REGISTER_ME( SERVICE_IP, & phonehash ));

	ERROR_PROPAGATE( add_module( NULL, & networking_globals.modules, IP_NAME, IP_FILENAME, SERVICE_IP, task_get_id()));

	ERROR_PROPAGATE( ip_initialize());

//	ERROR_PROPAGATE( REGISTER_ME( SERVICE_ARP, & phonehash ));

//	ERROR_PROPAGATE( arp_initialize());

//	ERROR_PROPAGATE( REGISTER_ME( SERVICE_RARP, & phonehash ));

//	ERROR_PROPAGATE( rarp_initialize());

//	ERROR_PROPAGATE( REGISTER_ME( SERVICE_ICMP, & phonehash ));

//	ERROR_PROPAGATE( icmp_initialize());

//	ERROR_PROPAGATE( REGISTER_ME( SERVICE_UDP, & phonehash ));

//	ERROR_PROPAGATE( udp_initialize());

	ERROR_PROPAGATE( REGISTER_ME( SERVICE_TCP, & phonehash ));

	ERROR_PROPAGATE( tcp_initialize());

//	ERROR_PROPAGATE( REGISTER_ME( SERVICE_SOCKET, & phonehash ));

//	ERROR_PROPAGATE( socket_initialize());

//	ERROR_PROPAGATE( REGISTER_ME( SERVICE_ETHERNET, & phonehash ));

//	ERROR_PROPAGATE( ethernet_initialize());

#endif

#endif

	return EOK;

}

int networking_message( ipcarg_t method, ipcarg_t arg1, ipcarg_t arg2, ipcarg_t arg3, ipcarg_t * result1, ipcarg_t * result2, ipcarg_t * result3 ){

	ERROR_DECLARE;

	measured_string_ref	strings;

	char *			data;

	int			index;

	measured_string_ref	setting;

	measured_strings_ref	configuration;

	netif_ref		netif;

	switch( method ){

		case IPC_M_PHONE_HUNGUP:

			return EOK;

		case NET_NET_DEVICE:

			// TODO configure, register

			// arg1 = netif id

			printf( "\nNetworking: new netif %d", arg1 );

			return EOK;

		case NET_NET_GET_DEVICE_CONF:

			// arg1 = netif id

			// arg2 = count

			ERROR_PROPAGATE( measured_strings_receive( & strings, & data, arg2 ));

			netif = netifs_find( & networking_globals.netifs, arg1 );

			if( netif ){

				configuration = & netif->configuration;

			}else{

				configuration = NULL;

			}

			for( index = 0; index < arg2; ++ index ){

				setting = measured_strings_find( configuration, strings[ index ].value, 0 );

				if( ! setting ){

					setting = measured_strings_find( & networking_globals.configuration, strings[ index ].value, 0 );

				}

				if( setting ){

					strings[ index ].length = setting->length;

					strings[ index ].value = setting->value;

				}else{

					strings[ index ].length = 0;

					strings[ index ].value = NULL;

				}

			}

			// strings should not contain received data anymore

			free( data );

			ERROR_CODE = measured_strings_reply( strings, arg2 );

			free( strings );

			return ERROR_CODE;

		case NET_NET_GET_CONF:

			// arg1 = count

			ERROR_PROPAGATE( measured_strings_receive( & strings, & data, arg1 ));

			for( index = 0; index < arg1; ++ index ){

				setting = measured_strings_find( & networking_globals.configuration, strings[ index ].value, 0 );

				if( setting ){

					strings[ index ].length = setting->length;

					strings[ index ].value = setting->value;

				}else{

					strings[ index ].length = 0;

					strings[ index ].value = NULL;

				}

			}

			// strings should not contain received data anymore

			free( data );

			ERROR_CODE = measured_strings_reply( strings, arg1 );

			free( strings );

			return ERROR_CODE;

		case NET_NET_STARTUP:

			return startup();

	}

	return ENOTSUP;

}

/*

int parse_line( measured_strings_ref configuration, char * line ){

	ERROR_DECLARE;

	measured_string_ref	setting;

	char *			name;

	char *			value;

	// from the beginning

	name = line;

	// skip spaces

	while( isspace( * name )) ++ name;

	// remember the name start

	value = name;

	// skip the name

	while( isalnum( * value ) || ( * value == '_' )){

		// make uppercase

//		* value = toupper( * value );

		++ value;

	}

	if( * value == '=' ){

		// terminate the name

		* value = '\0';

	}else{

		// terminate the name

		* value = '\0';

		// skip until '='

		++ value;

		while(( * value ) && ( * value != '=' )) ++ value;

		// not found?

		if( * value != '=' ) return EINVAL;

	}

	++ value;

	// skip spaces

	while( isspace( * value )) ++ value;

	// create a bulk measured string till the end

	setting = measured_string_create_bulk( value, -1 );

	if( ! setting ) return ENOMEM;

	// add the configuration setting

	if( ERROR_OCCURED( measured_strings_add( configuration, name, 0, setting ))){

		free( setting );

		return ERROR_CODE;

	}

	return EOK;

}

*/

int add_configuration( measured_strings_ref configuration, const char * name, const char * value ){

	ERROR_DECLARE;

	measured_string_ref	setting;

	setting = measured_string_create_bulk( value, 0 );

	if( ! setting ) return ENOMEM;

	// add the configuration setting

	if( ERROR_OCCURED( measured_strings_add( configuration, name, 0, setting ))){

		free( setting );

		return ERROR_CODE;

	}

	return EOK;

}

device_id_t generate_new_device_id( void ){

	return netifs_count( & networking_globals.netifs ) + 1;

}

int read_configuration( void ){

	ERROR_DECLARE;

	netif_ref		netif;

	measured_string_ref	setting;

	services_t		internet_service;

	int			index;

	// read general configuration

	ERROR_PROPAGATE( add_configuration( & networking_globals.configuration, "IPV", "4" ));

	// read network interfaces configuration

	// static loopback initialization

//	printf( "\nloopback initialization" );

	netif = ( netif_ref ) malloc( sizeof( netif_t ));

	if( ! netif ) return ENOMEM;

	netif->id = generate_new_device_id();

	ERROR_PROPAGATE( measured_strings_initialize( & netif->configuration ));

	if( ERROR_OCCURED( add_configuration( & netif->configuration, "NAME", LO_NAME ))

	|| ERROR_OCCURED( add_configuration( & netif->configuration, "NETIF", LO_NAME ))

	|| ERROR_OCCURED( add_configuration( & netif->configuration, "IL", IP_NAME ))

	|| ERROR_OCCURED( add_configuration( & netif->configuration, "MTU", "1500" ))

	|| ERROR_OCCURED( add_configuration( & netif->configuration, "IP_CONFIG", "STATIC" ))

	|| ERROR_OCCURED( add_configuration( & netif->configuration, "IP_ADDR", "127.0.0.1" ))

	|| ERROR_OCCURED( add_configuration( & netif->configuration, "NETMASK", "255.0.0.0" ))){

		measured_strings_destroy( & netif->configuration );

		free( netif );

		return ERROR_CODE;

	}

	// mandatory name

//	printf( "\n\tname" );

	setting = measured_strings_find( & netif->configuration, "NAME", 0 );

	if( ! setting ){

		measured_strings_destroy( & netif->configuration );

		free( netif );

		return EINVAL;

	}

	netif->name = setting->value;

//	printf( " %s OK", netif->name );

	// mandatory netif

//	printf( "\n\tnetif" );

	setting = measured_strings_find( & netif->configuration, "NETIF", 0 );

	if( ! setting ){

//		printf( " unknown" );

		measured_strings_destroy( & netif->configuration );

		free( netif );

		return EINVAL;

	}

//	printf( " find %s in %d?", setting->value, modules_count( & networking_globals.modules ));

	netif->driver = modules_find( & networking_globals.modules, setting->value, 0 );

	if( ! netif->driver ){

//		printf( " not found" );

		// TODO register the unknown one

		measured_strings_destroy( & netif->configuration );

		free( netif );

		return EINVAL;

	}

//	printf( " found" );

	if( ! netif->driver->task_id ){

		netif->driver->task_id = spawn( netif->driver->filename );

		if( ! netif->driver->task_id ){

			measured_strings_destroy( & netif->configuration );

			free( netif );

			return EINVAL;

		}

	}

//	printf( " OK" );

	// optional link layer

//	printf( "\n\tlink layer" );

	setting = measured_strings_find( & netif->configuration, "NIL", 0 );

	if( setting ){

		netif->nil = modules_find( & networking_globals.modules, setting->value, 0 );

		if( ! netif->nil ){

			// TODO register the unknown one

			-- netif->driver->usage;

			measured_strings_destroy( & netif->configuration );

			free( netif );

			return EINVAL;

		}

		if( ! netif->nil->task_id ){

			netif->nil->task_id = spawn( netif->nil->filename );

			if( ! netif->nil->task_id ){

				-- netif->driver->usage;

				measured_strings_destroy( & netif->configuration );

				free( netif );

				return EINVAL;

			}

		}

	}else{

		netif->nil = NULL;

	}

	// mandatory internet layer

//	printf( "\n\tinternet layer" );

	setting = measured_strings_find( & netif->configuration, "IL", 0 );

	if( ! setting ){

		-- netif->driver->usage;

		-- netif->nil->usage;

		measured_strings_destroy( & netif->configuration );

		free( netif );

		return EINVAL;

	}

//	printf( " set %s", setting->value );

	netif->il = modules_find( & networking_globals.modules, setting->value, 0 );

	if( ! netif->il ){

		// TODO register the unknown one

		-- netif->driver->usage;

		-- netif->nil->usage;

		measured_strings_destroy( & netif->configuration );

		free( netif );

		return EINVAL;

	}

//	printf( " found" );

	if( ! netif->il->task_id ){

		netif->il->task_id = spawn( netif->il->filename );

		if( ! netif->il->task_id ){

			-- netif->driver->usage;

			-- netif->nil->usage;

			measured_strings_destroy( & netif->configuration );

			free( netif );

			return EINVAL;

		}

	}

	index = netifs_add( & networking_globals.netifs, netif->id, netif );

	if( index < 0 ){

		free( netif );

		return ERROR_CODE;

	}

	if( ERROR_OCCURED( char_map_add( & networking_globals.netif_names, netif->name, 0, index ))){

		netifs_exclude_index( & networking_globals.netifs, index );

		return ERROR_CODE;

	}

//	printf( "\nloopback OK" );

	// end of the static loopback initialization

	// startup the loopback interface

	if( ! netif->driver->phone ){

//		printf( " connect?" );

		netif->driver->phone = connect_to_service( netif->driver->service );

	}

//	printf( " connected" );

	// TODO io, irq

	ERROR_PROPAGATE( async_req_3_0( netif->driver->phone, NET_NETIF_PROBE, netif->id, 0, 0 ));

	++ netif->driver->usage;

	if( netif->nil ){

		if( ! netif->nil->phone ){

			netif->nil->phone = connect_to_service( netif->nil->service );

		}

		ERROR_PROPAGATE( async_req_2_0( netif->nil->phone, NET_NIL_DEVICE, netif->id, netif->driver->service ));

		++ netif->nil->usage;

		internet_service = netif->nil->service;

//		printf( " OK" );

	}else{

		internet_service = netif->driver->service;

//		printf( " none" );

	}

	if( ! netif->il->phone ){

//		printf( " connect" );

		netif->il->phone = connect_to_service( netif->il->service );

	}

	// TODO IL_BUNDLE

	ERROR_PROPAGATE( async_req_2_0( netif->il->phone, NET_IL_DEVICE, netif->id, internet_service ));

	++ netif->il->usage;

	// TODO startup?

	ERROR_PROPAGATE( async_req_1_0( netif->driver->phone, NET_NETIF_START, netif->id ));

//	printf( "\n LO OK" );

	return EOK;

}

task_id_t spawn( const char * fname ){

	const char	* argv[ 2 ];

	task_id_t	res;

//	printf( "Spawning %s\n", fname );

	argv[ 0 ] = fname;

	argv[ 1 ] = NULL;

	res = task_spawn( fname, argv );

	if( res != 0 ){

		/* Success */

		usleep( 50000 );

	}

	return res;

}

int startup( void ){

	ERROR_DECLARE;

	// read configuration files

	if( ERROR_OCCURED( read_configuration())) return ERROR_CODE;

	// start network interfaces and needed modules

//	start_device( "/sbin/lo", "/sbin/dummy_link_layer" );

	return EOK;

}

/** @}

 */