// L2TPNS Global Stuff // $Id: l2tpns.h,v 1.2 2004/03/05 00:09:03 fred_nerk Exp $ #include #include #include "config.h" #define VERSION "1.1.0" // Limits #define MAXTUNNEL 500 // could be up to 65535 #define MAXSESSION 50000 // could be up to 65535 #define MAXRADIUS 255 #define MAXCONTROL 1000 // max length control message we ever send... #define MAXETHER (1500+18) // max packet we try sending to tap #define MAXTEL 96 // telephone number #define MAXPLUGINS 20 // maximum number of plugins to load #define MAXRADSERVER 10 // max radius servers #define MAXROUTE 10 // max static routes per session #define MAXIPPOOL 131072 // max number of ip addresses in pool #define RINGBUFFER_SIZE 10000 // Number of ringbuffer entries to allocate #define MAX_LOG_LENGTH 512 // Maximum size of log message #define ECHO_TIMEOUT 60 // Time between last packet sent and LCP ECHO generation #define IDLE_TIMEOUT 240 // Time between last packet sent and LCP ECHO generation // Constants #define STATISTICS #define STAT_CALLS #define RINGBUFFER #define TAPDEVICE "/dev/net/tun" #define UDP 17 #define HOMEDIR "/home/l2tpns/" // Base dir for data #define STATEFILE "/tmp/l2tpns.dump" // State dump file #define NOSTATEFILE "/tmp/l2tpns.no_state_reload" // If exists, state will not be reloaded #define CONFIGFILE ETCDIR "l2tpns.cfg" // Configuration file #define CLIUSERS ETCDIR "l2tpns.users" // CLI Users file #define IPPOOLFILE ETCDIR "l2tpns.ip_pool" // Address pool configuration #ifndef LIBDIR #define LIBDIR "/usr/lib/l2tpns" #endif #define ACCT_TIME 3000 // 5 minute accounting interval #define L2TPPORT 1701 // L2TP port #define RADPORT 1645 // old radius port... #define RADAPORT 1646 // old radius accounting port #define PKTARP 0x0806 // ARP packet type #define PKTIP 0x0800 // IP packet type #define PSEUDOMAC 0x0200 // pseudo MAC prefix (local significant MAC) #define PPPPAP 0xC023 #define PPPCHAP 0xC223 #define PPPLCP 0xC021 #define PPPIPCP 0x8021 #define PPPCCP 0x80FD #define PPPIP 0x0021 #define PPPMP 0x003D enum { ConfigReq = 1, ConfigAck, ConfigNak, ConfigRej, TerminateReq, TerminateAck, CodeRej, ProtocolRej, EchoReq, EchoReply, DiscardRequest }; // Types typedef unsigned short u16; typedef unsigned int u32; typedef unsigned char u8; typedef u32 ipt; typedef u16 portt; typedef u16 sessionidt; typedef u16 tunnelidt; typedef u32 clockt; typedef u8 hasht[16]; // dump header: update number if internal format changes #define DUMP_MAGIC "L2TPNS#" VERSION "#" // structures typedef struct routes // route { ipt ip; ipt mask; } routet; typedef struct controls // control message { struct controls *next; // next in queue u16 length; // length u8 buf[MAXCONTROL]; } controlt; typedef struct stbft { struct stbft *next; char handle[10]; char in_use; int mark; } tbft; // 336 bytes per session typedef struct sessions { sessionidt next; // next session in linked list sessionidt far; // far end session ID tunnelidt tunnel; // tunnel ID ipt ip; // IP of session set by RADIUS response int ip_pool_index; // index to IP pool unsigned long sid; // session id for hsddb u16 nr; // next receive u16 ns; // next send u32 magic; // ppp magic number u32 cin, cout; // byte counts u32 pin, pout; // packet counts u32 total_cin; // This counter is never reset while a session is open u32 total_cout; // This counter is never reset while a session is open u32 id; // session id clockt opened; // when started clockt die; // being closed, when to finally free time_t last_packet; // Last packet from the user (used for idle timeouts) ipt dns1, dns2; // DNS servers routet route[MAXROUTE]; // static routes u8 radius; // which radius session is being used (0 for not waiting on authentication) u8 flags; // various bit flags u8 snoop; // are we snooping this session? u8 throttle; // is this session throttled? u8 servicenet; // is this session servicenetted? u16 mru; // maximum receive unit u16 tbf; // filter bucket for throttling char random_vector[MAXTEL]; int random_vector_length; char user[129]; // user (needed in seesion for radius stop messages) char called[MAXTEL]; // called number char calling[MAXTEL]; // calling number unsigned long tx_connect_speed; unsigned long rx_connect_speed; } sessiont; #define SESSIONPFC 1 // PFC negotiated flags #define SESSIONACFC 2 // ACFC negotiated flags // 168 bytes per tunnel typedef struct tunnels { tunnelidt far; // far end tunnel ID ipt ip; // Ip for far end portt port; // port for far end u16 window; // Rx window u16 nr; // next receive u16 ns; // next send int state; // current state (tunnelstate enum) clockt last; // when last control message sent (used for resend timeout) clockt retry; // when to try resenting pending control clockt die; // being closed, when to finally free clockt lastrec; // when the last control message was received char hostname[128]; // tunnel hostname char vendor[128]; // LAC vendor u8 try; // number of retrys on a control message u16 controlc; // outstaind messages in queue controlt *controls; // oldest message controlt *controle; // newest message } tunnelt; // 180 bytes per radius session typedef struct radiuss // outstanding RADIUS requests { sessionidt session; // which session this applies to hasht auth; // request authenticator clockt retry; // when to try next char calling[MAXTEL]; // calling number char pass[129]; // password u8 id; // ID for PPP response u8 try; // which try we are on u8 state; // state of radius requests u8 chap; // set if CHAP used (is CHAP identifier) } radiust; typedef struct { ipt address; char assigned; // 1 if assigned, 0 if free clockt last; // last used char user[129]; // user (try to have ip addresses persistent) } ippoolt; #ifdef RINGBUFFER struct Tringbuffer { struct { char level; sessionidt session; tunnelidt tunnel; ipt address; char message[MAX_LOG_LENGTH]; } buffer[RINGBUFFER_SIZE]; int head; int tail; }; #endif /* * Possible tunnel states * TUNNELFREE -> TUNNELOPEN -> TUNNELDIE -> TUNNELFREE */ enum { TUNNELFREE, // Not in use TUNNELOPEN, // Active tunnel TUNNELDIE, // Currently closing TUNNELOPENING // Busy opening }; enum { RADIUSNULL, // Not in use RADIUSCHAP, // sending CHAP down PPP RADIUSAUTH, // sending auth to RADIUS server RADIUSIPCP, // sending IPCP to end user RADIUSSTART, // sending start accounting to RADIUS server RADIUSSTOP, // sending stop accounting to RADIUS server RADIUSWAIT // waiting timeout before available, in case delayed replies }; struct Tstats { time_t start_time; time_t last_reset; unsigned long tap_rx_packets; unsigned long tap_tx_packets; unsigned long tap_rx_bytes; unsigned long tap_tx_bytes; unsigned long tap_rx_errors; unsigned long tap_tx_errors; unsigned long tunnel_rx_packets; unsigned long tunnel_tx_packets; unsigned long tunnel_rx_bytes; unsigned long tunnel_tx_bytes; unsigned long tunnel_rx_errors; unsigned long tunnel_tx_errors; unsigned long tunnel_retries; unsigned long radius_retries; unsigned long arp_errors; unsigned long arp_replies; unsigned long arp_discarded; unsigned long arp_sent; unsigned long arp_recv; unsigned long packets_snooped; unsigned long tunnel_created; unsigned long session_created; unsigned long tunnel_timeout; unsigned long session_timeout; unsigned long radius_timeout; unsigned long radius_overflow; unsigned long tunnel_overflow; unsigned long session_overflow; unsigned long ip_allocated; unsigned long ip_freed; #ifdef STAT_CALLS unsigned long call_processtap; unsigned long call_processarp; unsigned long call_processipout; unsigned long call_processudp; unsigned long call_sessionbyip; unsigned long call_sessionbyuser; unsigned long call_sendarp; unsigned long call_sendipcp; unsigned long call_tunnelsend; unsigned long call_sessionkill; unsigned long call_sessionshutdown; unsigned long call_tunnelkill; unsigned long call_tunnelshutdown; unsigned long call_assign_ip_address; unsigned long call_free_ip_address; unsigned long call_dump_acct_info; unsigned long call_sessionsetup; unsigned long call_processpap; unsigned long call_processchap; unsigned long call_processlcp; unsigned long call_processipcp; unsigned long call_processipin; unsigned long call_processccp; unsigned long call_sendchap; unsigned long call_processrad; unsigned long call_radiussend; unsigned long call_radiusretry; #endif }; #ifdef STATISTICS #define STAT(x) _statistics->x++ #define INC_STAT(x,y) _statistics->x += y #define GET_STAT(x) _statistics->x #define SET_STAT(x, y) _statistics->x = y #else #define STAT(x) #define INC_STAT(x,y) #define GET_STAT(x) 0 #define SET_STAT(x, y) #endif struct configt { int debug; // debugging level time_t start_time; // time when l2tpns was started char bandwidth[256]; // current bandwidth char config_file[128]; int reload_config; // flag to re-read config (set by cli) char tapdevice[10]; // tap device name char log_filename[128]; char l2tpsecret[64]; char radiussecret[64]; int radius_accounting; ipt radiusserver[MAXRADSERVER]; // radius servers u8 numradiusservers; // radius server count ipt default_dns1, default_dns2; ipt snoop_destination_host; u16 snoop_destination_port; unsigned long rl_rate; int save_state; uint32_t cluster_address; int ignore_cluster_updates; char accounting_dir[128]; ipt bind_address; int target_uid; int dump_speed; char plugins[64][MAXPLUGINS]; char old_plugins[64][MAXPLUGINS]; }; struct config_descriptt { char *key; int offset; int size; enum { INT, STRING, UNSIGNED_LONG, SHORT, BOOL, IP } type; }; // arp.c void sendarp(int ifr_idx, const unsigned char* mac, ipt ip); // ppp.c void processpap(tunnelidt t, sessionidt s, u8 * p, u16 l); void processchap(tunnelidt t, sessionidt s, u8 * p, u16 l); void processlcp(tunnelidt t, sessionidt s, u8 * p, u16 l); void processipcp(tunnelidt t, sessionidt s, u8 * p, u16 l); void processipin(tunnelidt t, sessionidt s, u8 * p, u16 l); void processccp(tunnelidt t, sessionidt s, u8 * p, u16 l); void sendchap(tunnelidt t, sessionidt s); u8 *makeppp(u8 * b, u8 * p, int l, tunnelidt t, sessionidt s, u16 mtype); u8 *findppp(u8 * b, u8 mtype); void initlcp(tunnelidt t, sessionidt s); void dumplcp(char *p, int l); // radius.c void initrad(void); void radiussend(u8 r, u8 state); void processrad(u8 *buf, int len); void radiusretry(u8 r); u8 radiusnew(sessionidt s); void radiusclear(u8 r, sessionidt s); // throttle.c int throttle_session(sessionidt s, int throttle); // rl.c void init_rl(); u16 rl_create_tbf(); u16 rl_get_tbf(); void rl_done_tbf(u16 t); void rl_destroy_tbf(u16 t); // l2tpns.c clockt now(void); clockt backoff(u8 try); void routeset(ipt ip, ipt mask, ipt gw, u8 add); void inittap(void); void initudp(void); void initdata(void); void initippool(); sessionidt sessionbyip(ipt ip); sessionidt sessionbyuser(char *username); void sessionshutdown(sessionidt s, char *reason); void sessionsendarp(sessionidt s); void send_garp(ipt ip); void sessionkill(sessionidt s, char *reason); void control16(controlt * c, u16 avp, u16 val, u8 m); void control32(controlt * c, u16 avp, u32 val, u8 m); void controls(controlt * c, u16 avp, char *val, u8 m); void controlb(controlt * c, u16 avp, char *val, unsigned int len, u8 m); controlt *controlnew(u16 mtype); void controlnull(tunnelidt t); void controladd(controlt * c, tunnelidt t, sessionidt s); void tunnelsend(u8 * buf, u16 l, tunnelidt t); void tunnelkill(tunnelidt t, char *reason); void tunnelshutdown(tunnelidt t, char *reason); void sendipcp(tunnelidt t, sessionidt s); void processipout(u8 * buf, int len); void processarp(u8 * buf, int len); void processudp(u8 * buf, int len, struct sockaddr_in *addr); void processtap(u8 * buf, int len); void processcontrol(u8 * buf, int len, struct sockaddr_in *addr); int assign_ip_address(sessionidt s); void free_ip_address(sessionidt s); void snoop_send_packet(char *packet, u16 size); void dump_acct_info(); void mainloop(void); #define log _log #ifndef log_hex #define log_hex(a,b,c,d) do{if (a <= config->debug) _log_hex(a,0,0,0,b,c,d);}while (0) #endif void _log(int level, ipt address, sessionidt s, tunnelidt t, const char *format, ...); void _log_hex(int level, ipt address, sessionidt s, tunnelidt t, const char *title, const char *data, int maxsize); void build_chap_response(char *challenge, u8 id, u16 challenge_length, char **challenge_response); int sessionsetup(tunnelidt t, sessionidt s, u8 routes); int cluster_send_session(int s); int cluster_send_tunnel(int t); int cluster_send_goodbye(); void init_cli(); void cli_do_file(FILE *fh); void cli_do(int sockfd); #ifdef RINGBUFFER void ringbuffer_dump(FILE *stream); #endif void initplugins(); int run_plugins(int plugin_type, void *data); void add_plugin(char *plugin_name); void remove_plugin(char *plugin_name); void tunnelclear(tunnelidt t); void host_unreachable(ipt destination, u16 id, ipt source, char *packet, int packet_len); extern tunnelt *tunnel; extern sessiont *session; #define sessionfree (session[0].next)