/*
* 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) 2002-2005 OpenVPN Solutions LLC <info@openvpn.net>
*
* 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
*/
#ifndef TUN_H
#define TUN_H
#ifdef WIN32
#include <winioctl.h>
#include "tap-win32/common.h"
#endif
#include "buffer.h"
#include "error.h"
#include "mtu.h"
#include "win32.h"
#include "event.h"
#include "proto.h"
#include "misc.h"
#ifdef WIN32
/* time constants for --ip-win32 adaptive */
#define IPW32_SET_ADAPTIVE_DELAY_WINDOW 300
#define IPW32_SET_ADAPTIVE_TRY_NETSH 20
struct tuntap_options {
/* --ip-win32 options */
bool ip_win32_defined;
# define IPW32_SET_MANUAL 0 /* "--ip-win32 manual" */
# define IPW32_SET_NETSH 1 /* "--ip-win32 netsh" */
# define IPW32_SET_IPAPI 2 /* "--ip-win32 ipapi" */
# define IPW32_SET_DHCP_MASQ 3 /* "--ip-win32 dynamic" */
# define IPW32_SET_ADAPTIVE 4 /* "--ip-win32 adaptive" */
# define IPW32_SET_N 5
int ip_win32_type;
/* --ip-win32 dynamic options */
bool dhcp_masq_custom_offset;
int dhcp_masq_offset;
int dhcp_lease_time;
/* --tap-sleep option */
int tap_sleep;
/* --dhcp-option options */
bool dhcp_options;
const char *domain; /* DOMAIN (15) */
const char *netbios_scope; /* NBS (47) */
int netbios_node_type; /* NBT 1,2,4,8 (46) */
#define N_DHCP_ADDR 4 /* Max # of addresses allowed for
DNS, WINS, etc. */
/* DNS (6) */
in_addr_t dns[N_DHCP_ADDR];
int dns_len;
/* WINS (44) */
in_addr_t wins[N_DHCP_ADDR];
int wins_len;
/* NTP (42) */
in_addr_t ntp[N_DHCP_ADDR];
int ntp_len;
/* NBDD (45) */
in_addr_t nbdd[N_DHCP_ADDR];
int nbdd_len;
/* DISABLE_NBT (43, Vendor option 001) */
bool disable_nbt;
bool dhcp_renew;
bool dhcp_pre_release;
bool dhcp_release;
};
#elif TARGET_LINUX
struct tuntap_options {
int txqueuelen;
};
#else
struct tuntap_options {
int dummy; /* not used */
};
#endif
/*
* Define a TUN/TAP dev.
*/
struct tuntap
{
# define TUNNEL_TYPE(tt) ((tt) ? ((tt)->type) : DEV_TYPE_UNDEF)
int type; /* DEV_TYPE_x as defined in proto.h */
# define TUNNEL_TOPOLOGY(tt) ((tt) ? ((tt)->topology) : TOP_UNDEF)
int topology; /* one of the TOP_x values */
bool did_ifconfig_setup;
bool did_ifconfig;
bool ipv6;
struct tuntap_options options; /* options set on command line */
char *actual_name; /* actual name of TUN/TAP dev, usually including unit number */
/* number of TX buffers */
int txqueuelen;
/* ifconfig parameters */
in_addr_t local;
in_addr_t remote_netmask;
in_addr_t broadcast;
#ifdef WIN32
HANDLE hand;
struct overlapped_io reads;
struct overlapped_io writes;
struct rw_handle rw_handle;
/* used for setting interface address via IP Helper API
or DHCP masquerade */
bool ipapi_context_defined;
ULONG ipapi_context;
ULONG ipapi_instance;
in_addr_t adapter_netmask;
/* Windows adapter index for TAP-Win32 adapter,
~0 if undefined */
DWORD adapter_index;
int standby_iter;
#else
int fd; /* file descriptor for TUN/TAP dev */
#endif
#ifdef TARGET_SOLARIS
int ip_fd;
#endif
/* used for printing status info only */
unsigned int rwflags_debug;
/* Some TUN/TAP drivers like to be ioctled for mtu
after open */
int post_open_mtu;
};
static inline bool
tuntap_defined (const struct tuntap *tt)
{
#ifdef WIN32
return tt && tt->hand != NULL;
#else
return tt && tt->fd >= 0;
#endif
}
/*
* Function prototypes
*/
void clear_tuntap (struct tuntap *tuntap);
void open_tun (const char *dev, const char *dev_type, const char *dev_node,
bool ipv6, struct tuntap *tt);
void close_tun (struct tuntap *tt);
int write_tun (struct tuntap* tt, uint8_t *buf, int len);
int read_tun (struct tuntap* tt, uint8_t *buf, int len);
void tuncfg (const char *dev, const char *dev_type, const char *dev_node,
bool ipv6, int persist_mode);
const char *guess_tuntap_dev (const char *dev,
const char *dev_type,
const char *dev_node,
struct gc_arena *gc);
struct tuntap *init_tun (const char *dev, /* --dev option */
const char *dev_type, /* --dev-type option */
int topology, /* one of the TOP_x values */
const char *ifconfig_local_parm, /* --ifconfig parm 1 */
const char *ifconfig_remote_netmask_parm, /* --ifconfig parm 2 */
in_addr_t local_public,
in_addr_t remote_public,
const bool strict_warn,
struct env_set *es);
void init_tun_post (struct tuntap *tt,
const struct frame *frame,
const struct tuntap_options *options);
void do_ifconfig (struct tuntap *tt,
const char *actual, /* actual device name */
int tun_mtu,
const struct env_set *es);
const char *dev_component_in_dev_node (const char *dev_node);
bool is_dev_type (const char *dev, const char *dev_type, const char *match_type);
int dev_type_enum (const char *dev, const char *dev_type);
const char *dev_type_string (const char *dev, const char *dev_type);
const char *ifconfig_options_string (const struct tuntap* tt, bool remote, bool disable, struct gc_arena *gc);
bool is_tun_p2p (const struct tuntap *tt);
/*
* Inline functions
*/
static inline void
tun_adjust_frame_parameters (struct frame* frame, int size)
{
frame_add_to_extra_tun (frame, size);
}
/*
* Should ifconfig be called before or after
* tun dev open?
*/
#define IFCONFIG_BEFORE_TUN_OPEN 0
#define IFCONFIG_AFTER_TUN_OPEN 1
#define IFCONFIG_DEFAULT IFCONFIG_AFTER_TUN_OPEN
static inline int
ifconfig_order(void)
{
#if defined(TARGET_LINUX)
return IFCONFIG_AFTER_TUN_OPEN;
#elif defined(TARGET_SOLARIS)
return IFCONFIG_AFTER_TUN_OPEN;
#elif defined(TARGET_OPENBSD)
return IFCONFIG_BEFORE_TUN_OPEN;
#elif defined(TARGET_DARWIN)
return IFCONFIG_AFTER_TUN_OPEN;
#elif defined(TARGET_NETBSD)
return IFCONFIG_AFTER_TUN_OPEN;
#elif defined(WIN32)
return IFCONFIG_BEFORE_TUN_OPEN;
#else
return IFCONFIG_DEFAULT;
#endif
}
#ifdef WIN32
#define TUN_PASS_BUFFER
struct tap_reg
{
const char *guid;
struct tap_reg *next;
};
struct panel_reg
{
const char *name;
const char *guid;
struct panel_reg *next;
};
int ascii2ipset (const char* name);
const char *ipset2ascii (int index);
const char *ipset2ascii_all (struct gc_arena *gc);
void verify_255_255_255_252 (in_addr_t local, in_addr_t remote);
const IP_ADAPTER_INFO *get_adapter_info_list (struct gc_arena *gc);
const IP_ADAPTER_INFO *get_tun_adapter (const struct tuntap *tt, const IP_ADAPTER_INFO *list);
const IP_ADAPTER_INFO *get_adapter_info (DWORD index, struct gc_arena *gc);
const IP_PER_ADAPTER_INFO *get_per_adapter_info (const DWORD index, struct gc_arena *gc);
bool is_adapter_up (const struct tuntap *tt, const IP_ADAPTER_INFO *list);
bool is_ip_in_adapter_subnet (const IP_ADAPTER_INFO *ai, const in_addr_t ip, in_addr_t *highest_netmask);
DWORD adapter_index_of_ip (const IP_ADAPTER_INFO *list, const in_addr_t ip, int *count);
void show_tap_win32_adapters (int msglev, int warnlev);
void show_adapters (int msglev);
void tap_allow_nonadmin_access (const char *dev_node);
void show_valid_win32_tun_subnets (void);
const char *tap_win32_getinfo (const struct tuntap *tt, struct gc_arena *gc);
void tun_show_debug (struct tuntap *tt);
bool dhcp_release (const struct tuntap *tt);
bool dhcp_renew (const struct tuntap *tt);
void tun_standby_init (struct tuntap *tt);
bool tun_standby (struct tuntap *tt);
int tun_read_queue (struct tuntap *tt, int maxsize);
int tun_write_queue (struct tuntap *tt, struct buffer *buf);
int tun_finalize (HANDLE h, struct overlapped_io *io, struct buffer *buf);
void get_auto_userid (char *username, const int capacity);
static inline bool
tuntap_stop (int status)
{
/*
* This corresponds to the STATUS_NO_SUCH_DEVICE
* error in tapdrvr.c.
*/
if (status < 0)
{
return openvpn_errno () == ERROR_FILE_NOT_FOUND;
}
return false;
}
static inline int
tun_write_win32 (struct tuntap *tt, struct buffer *buf)
{
int err = 0;
int status = 0;
if (overlapped_io_active (&tt->writes))
{
status = tun_finalize (tt->hand, &tt->writes, NULL);
if (status < 0)
err = GetLastError ();
}
tun_write_queue (tt, buf);
if (status < 0)
{
SetLastError (err);
return status;
}
else
return BLEN (buf);
}
static inline int
read_tun_buffered (struct tuntap *tt, struct buffer *buf, int maxsize)
{
return tun_finalize (tt->hand, &tt->reads, buf);
}
static inline int
write_tun_buffered (struct tuntap *tt, struct buffer *buf)
{
return tun_write_win32 (tt, buf);
}
#else
static inline bool
tuntap_stop (int status)
{
return false;
}
static inline void
tun_standby_init (struct tuntap *tt)
{
}
static inline bool
tun_standby (struct tuntap *tt)
{
return true;
}
#endif
/*
* TUN/TAP I/O wait functions
*/
static inline event_t
tun_event_handle (const struct tuntap *tt)
{
#ifdef WIN32
return &tt->rw_handle;
#else
return tt->fd;
#endif
}
static inline unsigned int
tun_set (struct tuntap *tt,
struct event_set *es,
unsigned int rwflags,
void *arg,
unsigned int *persistent)
{
if (tuntap_defined (tt))
{
/* if persistent is defined, call event_ctl only if rwflags has changed since last call */
if (!persistent || *persistent != rwflags)
{
event_ctl (es, tun_event_handle (tt), rwflags, arg);
if (persistent)
*persistent = rwflags;
}
#ifdef WIN32
if (rwflags & EVENT_READ)
tun_read_queue (tt, 0);
#endif
tt->rwflags_debug = rwflags;
}
return rwflags;
}
const char *tun_stat (const struct tuntap *tt, unsigned int rwflags, struct gc_arena *gc);
#endif /* TUN_H */