/* * OpenVPN -- An application to securely tunnel IP networks * over a single TCP/UDP port, with support for SSL/TLS-based * session authentication and key exchange, * packet encryption, packet authentication, and * packet compression. * * Copyright (C) 2002-2010 OpenVPN Technologies, Inc. * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 * as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program (see the file COPYING included with this * distribution); if not, write to the Free Software Foundation, Inc., * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* * Support routines for adding/deleting network routes. */ #ifndef ROUTE_H #define ROUTE_H #include "basic.h" #include "tun.h" #include "misc.h" #ifdef WIN32 /* * Windows route methods */ #define ROUTE_METHOD_ADAPTIVE 0 /* try IP helper first then route.exe */ #define ROUTE_METHOD_IPAPI 1 /* use IP helper API */ #define ROUTE_METHOD_EXE 2 /* use route.exe */ #define ROUTE_METHOD_MASK 3 #endif /* * Route add/delete flags (must stay clear of ROUTE_METHOD bits) */ #define ROUTE_DELETE_FIRST (1<<2) #define ROUTE_REF_GW (1<<3) struct route_bypass { # define N_ROUTE_BYPASS 8 int n_bypass; in_addr_t bypass[N_ROUTE_BYPASS]; }; struct route_special_addr { /* bits indicating which members below are defined */ # define RTSA_REMOTE_ENDPOINT (1<<0) # define RTSA_REMOTE_HOST (1<<1) # define RTSA_DEFAULT_METRIC (1<<2) unsigned int flags; in_addr_t remote_endpoint; in_addr_t remote_host; int remote_host_local; /* TLA_x value */ struct route_bypass bypass; int default_metric; }; struct route_option { struct route_option *next; const char *network; const char *netmask; const char *gateway; const char *metric; }; /* redirect-gateway flags */ #define RG_ENABLE (1<<0) #define RG_LOCAL (1<<1) #define RG_DEF1 (1<<2) #define RG_BYPASS_DHCP (1<<3) #define RG_BYPASS_DNS (1<<4) #define RG_REROUTE_GW (1<<5) #define RG_AUTO_LOCAL (1<<6) #define RG_BLOCK_LOCAL (1<<7) struct route_option_list { unsigned int flags; /* RG_x flags */ struct route_option *routes; struct gc_arena *gc; }; struct route_ipv6_option { struct route_ipv6_option *next; const char *prefix; /* e.g. "2001:db8:1::/64" */ const char *gateway; /* e.g. "2001:db8:0::2" */ const char *metric; /* e.g. "5" */ }; struct route_ipv6_option_list { unsigned int flags; /* RG_x flags, see route_option-list */ struct route_ipv6_option *routes_ipv6; struct gc_arena *gc; }; struct route_ipv4 { # define RT_DEFINED (1<<0) # define RT_ADDED (1<<1) # define RT_METRIC_DEFINED (1<<2) struct route_ipv4 *next; unsigned int flags; const struct route_option *option; in_addr_t network; in_addr_t netmask; in_addr_t gateway; int metric; }; struct route_ipv6 { struct route_ipv6 *next; unsigned int flags; /* RT_ flags, see route_ipv4 */ struct in6_addr network; unsigned int netbits; struct in6_addr gateway; int metric; /* gateway interface */ # ifdef WIN32 DWORD adapter_index; /* interface or ~0 if undefined */ #else char * iface; /* interface name (null terminated) */ #endif }; struct route_gateway_address { in_addr_t addr; in_addr_t netmask; }; struct route_gateway_info { # define RGI_ADDR_DEFINED (1<<0) /* set if gateway.addr defined */ # define RGI_NETMASK_DEFINED (1<<1) /* set if gateway.netmask defined */ # define RGI_HWADDR_DEFINED (1<<2) /* set if hwaddr is defined */ # define RGI_IFACE_DEFINED (1<<3) /* set if iface is defined */ # define RGI_OVERFLOW (1<<4) /* set if more interface addresses than will fit in addrs */ # define RGI_ON_LINK (1<<5) unsigned int flags; /* gateway interface */ # ifdef WIN32 DWORD adapter_index; /* interface or ~0 if undefined */ #else char iface[16]; /* interface name (null terminated), may be empty */ #endif /* gateway interface hardware address */ uint8_t hwaddr[6]; /* gateway/router address */ struct route_gateway_address gateway; /* address/netmask pairs bound to interface */ # define RGI_N_ADDRESSES 8 int n_addrs; /* len of addrs, may be 0 */ struct route_gateway_address addrs[RGI_N_ADDRESSES]; /* local addresses attached to iface */ }; struct route_ipv6_gateway_address { struct in6_addr addr_ipv6; int netbits_ipv6; }; struct route_ipv6_gateway_info { /* RGI_ flags used as in route_gateway_info */ unsigned int flags; /* gateway interface */ # ifdef WIN32 DWORD adapter_index; /* interface or ~0 if undefined */ #else char iface[16]; /* interface name (null terminated), may be empty */ #endif /* gateway interface hardware address */ uint8_t hwaddr[6]; /* gateway/router address */ struct route_ipv6_gateway_address gateway; /* address/netmask pairs bound to interface */ # define RGI_N_ADDRESSES 8 int n_addrs; /* len of addrs, may be 0 */ struct route_ipv6_gateway_address addrs[RGI_N_ADDRESSES]; /* local addresses attached to iface */ }; struct route_list { # define RL_DID_REDIRECT_DEFAULT_GATEWAY (1<<0) # define RL_DID_LOCAL (1<<1) # define RL_ROUTES_ADDED (1<<2) unsigned int iflags; struct route_special_addr spec; struct route_gateway_info rgi; unsigned int flags; /* RG_x flags */ struct route_ipv4 *routes; struct gc_arena gc; }; struct route_ipv6_list { unsigned int iflags; /* RL_ flags, see route_list */ unsigned int spec_flags; /* RTSA_ flags, route_special_addr */ struct in6_addr remote_endpoint_ipv6; /* inside tun */ struct in6_addr remote_host_ipv6; /* --remote address */ int default_metric; struct route_ipv6_gateway_info rgi6; unsigned int flags; /* RG_x flags, see route_option_list */ struct route_ipv6 *routes_ipv6; struct gc_arena gc; }; #if P2MP /* internal OpenVPN route */ struct iroute { in_addr_t network; int netbits; struct iroute *next; }; struct iroute_ipv6 { struct in6_addr network; unsigned int netbits; struct iroute_ipv6 *next; }; #endif struct route_option_list *new_route_option_list (struct gc_arena *a); struct route_ipv6_option_list *new_route_ipv6_option_list (struct gc_arena *a); struct route_option_list *clone_route_option_list (const struct route_option_list *src, struct gc_arena *a); struct route_ipv6_option_list *clone_route_ipv6_option_list (const struct route_ipv6_option_list *src, struct gc_arena *a); void copy_route_option_list (struct route_option_list *dest, const struct route_option_list *src, struct gc_arena *a); void copy_route_ipv6_option_list (struct route_ipv6_option_list *dest, const struct route_ipv6_option_list *src, struct gc_arena *a); void add_route_ipv6 (struct route_ipv6 *r, const struct tuntap *tt, unsigned int flags, const struct env_set *es); void delete_route_ipv6 (const struct route_ipv6 *r, const struct tuntap *tt, unsigned int flags, const struct env_set *es); void add_route (struct route_ipv4 *r, const struct tuntap *tt, unsigned int flags, const struct route_gateway_info *rgi, const struct env_set *es); void add_route_to_option_list (struct route_option_list *l, const char *network, const char *netmask, const char *gateway, const char *metric); void add_route_ipv6_to_option_list (struct route_ipv6_option_list *l, const char *prefix, const char *gateway, const char *metric); bool init_route_list (struct route_list *rl, const struct route_option_list *opt, const char *remote_endpoint, int default_metric, in_addr_t remote_host, struct env_set *es); bool init_route_ipv6_list (struct route_ipv6_list *rl6, const struct route_ipv6_option_list *opt6, const char *remote_endpoint, int default_metric, const struct in6_addr *remote_host, struct env_set *es); void route_list_add_vpn_gateway (struct route_list *rl, struct env_set *es, const in_addr_t addr); void add_routes (struct route_list *rl, struct route_ipv6_list *rl6, const struct tuntap *tt, unsigned int flags, const struct env_set *es); void delete_routes (struct route_list *rl, struct route_ipv6_list *rl6, const struct tuntap *tt, unsigned int flags, const struct env_set *es); void setenv_routes (struct env_set *es, const struct route_list *rl); void setenv_routes_ipv6 (struct env_set *es, const struct route_ipv6_list *rl6); bool is_special_addr (const char *addr_str); void get_default_gateway (struct route_gateway_info *rgi); void get_default_gateway_ipv6 (struct route_ipv6_gateway_info *rgi, const struct in6_addr *dest); void print_default_gateway(const int msglevel, const struct route_gateway_info *rgi, const struct route_ipv6_gateway_info *rgi6); /* * Test if addr is reachable via a local interface (return ILA_LOCAL), * or if it needs to be routed via the default gateway (return * ILA_NONLOCAL). If the current platform doesn't implement this * function, return ILA_NOT_IMPLEMENTED. */ #define TLA_NOT_IMPLEMENTED 0 #define TLA_NONLOCAL 1 #define TLA_LOCAL 2 int test_local_addr (const in_addr_t addr, const struct route_gateway_info *rgi); #ifndef ENABLE_SMALL void print_route_options (const struct route_option_list *rol, int level); #endif void print_routes (const struct route_list *rl, int level); #ifdef WIN32 void show_routes (int msglev); bool test_routes (const struct route_list *rl, const struct tuntap *tt); bool add_route_ipapi (const struct route_ipv4 *r, const struct tuntap *tt, DWORD adapter_index); bool del_route_ipapi (const struct route_ipv4 *r, const struct tuntap *tt); #else static inline bool test_routes (const struct route_list *rl, const struct tuntap *tt) { return true; } #endif bool netmask_to_netbits (const in_addr_t network, const in_addr_t netmask, int *netbits); int netmask_to_netbits2 (in_addr_t netmask); static inline in_addr_t netbits_to_netmask (const int netbits) { const int addrlen = sizeof (in_addr_t) * 8; in_addr_t mask = 0; if (netbits > 0 && netbits <= addrlen) mask = IPV4_NETMASK_HOST << (addrlen-netbits); return mask; } static inline bool route_list_vpn_gateway_needed (const struct route_list *rl) { if (!rl) return false; else return !(rl->spec.flags & RTSA_REMOTE_ENDPOINT); } static inline int route_did_redirect_default_gateway(const struct route_list *rl) { return rl && BOOL_CAST(rl->iflags & RL_DID_REDIRECT_DEFAULT_GATEWAY); } #endif