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|
/*
* 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) 2002-2018 OpenVPN Inc <sales@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; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#elif defined(_MSC_VER)
#include "config-msvc.h"
#endif
#include "syshead.h"
#include "socket.h"
#include "fdmisc.h"
#include "misc.h"
#include "gremlin.h"
#include "plugin.h"
#include "ps.h"
#include "run_command.h"
#include "manage.h"
#include "misc.h"
#include "manage.h"
#include "openvpn.h"
#include "forward.h"
#include "memdbg.h"
const int proto_overhead[] = { /* indexed by PROTO_x */
0,
IPv4_UDP_HEADER_SIZE, /* IPv4 */
IPv4_TCP_HEADER_SIZE,
IPv4_TCP_HEADER_SIZE,
IPv6_UDP_HEADER_SIZE, /* IPv6 */
IPv6_TCP_HEADER_SIZE,
IPv6_TCP_HEADER_SIZE,
IPv6_TCP_HEADER_SIZE,
};
/*
* Convert sockflags/getaddr_flags into getaddr_flags
*/
static unsigned int
sf2gaf(const unsigned int getaddr_flags,
const unsigned int sockflags)
{
if (sockflags & SF_HOST_RANDOMIZE)
{
return getaddr_flags | GETADDR_RANDOMIZE;
}
else
{
return getaddr_flags;
}
}
/*
* Functions related to the translation of DNS names to IP addresses.
*/
static int
get_addr_generic(sa_family_t af, unsigned int flags, const char *hostname,
void *network, unsigned int *netbits,
int resolve_retry_seconds, volatile int *signal_received,
int msglevel)
{
char *endp, *sep, *var_host = NULL;
struct addrinfo *ai = NULL;
unsigned long bits;
uint8_t max_bits;
int ret = -1;
if (!hostname)
{
msg(M_NONFATAL, "Can't resolve null hostname!");
goto out;
}
/* assign family specific default values */
switch (af)
{
case AF_INET:
bits = 0;
max_bits = sizeof(in_addr_t) * 8;
break;
case AF_INET6:
bits = 64;
max_bits = sizeof(struct in6_addr) * 8;
break;
default:
msg(M_WARN,
"Unsupported AF family passed to getaddrinfo for %s (%d)",
hostname, af);
goto out;
}
/* we need to modify the hostname received as input, but we don't want to
* touch it directly as it might be a constant string.
*
* Therefore, we clone the string here and free it at the end of the
* function */
var_host = strdup(hostname);
if (!var_host)
{
msg(M_NONFATAL | M_ERRNO,
"Can't allocate hostname buffer for getaddrinfo");
goto out;
}
/* check if this hostname has a /bits suffix */
sep = strchr(var_host, '/');
if (sep)
{
bits = strtoul(sep + 1, &endp, 10);
if ((*endp != '\0') || (bits > max_bits))
{
msg(msglevel, "IP prefix '%s': invalid '/bits' spec (%s)", hostname,
sep + 1);
goto out;
}
*sep = '\0';
}
ret = openvpn_getaddrinfo(flags & ~GETADDR_HOST_ORDER, var_host, NULL,
resolve_retry_seconds, signal_received, af, &ai);
if ((ret == 0) && network)
{
struct in6_addr *ip6;
in_addr_t *ip4;
switch (af)
{
case AF_INET:
ip4 = network;
*ip4 = ((struct sockaddr_in *)ai->ai_addr)->sin_addr.s_addr;
if (flags & GETADDR_HOST_ORDER)
{
*ip4 = ntohl(*ip4);
}
break;
case AF_INET6:
ip6 = network;
*ip6 = ((struct sockaddr_in6 *)ai->ai_addr)->sin6_addr;
break;
default:
/* can't get here because 'af' was previously checked */
msg(M_WARN,
"Unsupported AF family for %s (%d)", var_host, af);
goto out;
}
}
if (netbits)
{
*netbits = bits;
}
/* restore '/' separator, if any */
if (sep)
{
*sep = '/';
}
out:
freeaddrinfo(ai);
free(var_host);
return ret;
}
in_addr_t
getaddr(unsigned int flags,
const char *hostname,
int resolve_retry_seconds,
bool *succeeded,
volatile int *signal_received)
{
in_addr_t addr;
int status;
status = get_addr_generic(AF_INET, flags, hostname, &addr, NULL,
resolve_retry_seconds, signal_received,
M_WARN);
if (status==0)
{
if (succeeded)
{
*succeeded = true;
}
return addr;
}
else
{
if (succeeded)
{
*succeeded = false;
}
return 0;
}
}
bool
get_ipv6_addr(const char *hostname, struct in6_addr *network,
unsigned int *netbits, int msglevel)
{
if (get_addr_generic(AF_INET6, GETADDR_RESOLVE, hostname, network, netbits,
0, NULL, msglevel) < 0)
{
return false;
}
return true; /* parsing OK, values set */
}
static inline bool
streqnull(const char *a, const char *b)
{
if (a == NULL && b == NULL)
{
return true;
}
else if (a == NULL || b == NULL)
{
return false;
}
else
{
return streq(a, b);
}
}
/*
* get_cached_dns_entry return 0 on success and -1
* otherwise. (like getaddrinfo)
*/
static int
get_cached_dns_entry(struct cached_dns_entry *dns_cache,
const char *hostname,
const char *servname,
int ai_family,
int resolve_flags,
struct addrinfo **ai)
{
struct cached_dns_entry *ph;
int flags;
/* Only use flags that are relevant for the structure */
flags = resolve_flags & GETADDR_CACHE_MASK;
for (ph = dns_cache; ph; ph = ph->next)
{
if (streqnull(ph->hostname, hostname)
&& streqnull(ph->servname, servname)
&& ph->ai_family == ai_family
&& ph->flags == flags)
{
*ai = ph->ai;
return 0;
}
}
return -1;
}
static int
do_preresolve_host(struct context *c,
const char *hostname,
const char *servname,
const int af,
const int flags)
{
struct addrinfo *ai;
int status;
if (get_cached_dns_entry(c->c1.dns_cache,
hostname,
servname,
af,
flags,
&ai) == 0)
{
/* entry already cached, return success */
return 0;
}
status = openvpn_getaddrinfo(flags, hostname, servname,
c->options.resolve_retry_seconds, NULL,
af, &ai);
if (status == 0)
{
struct cached_dns_entry *ph;
ALLOC_OBJ_CLEAR_GC(ph, struct cached_dns_entry, &c->gc);
ph->ai = ai;
ph->hostname = hostname;
ph->servname = servname;
ph->flags = flags & GETADDR_CACHE_MASK;
if (!c->c1.dns_cache)
{
c->c1.dns_cache = ph;
}
else
{
struct cached_dns_entry *prev = c->c1.dns_cache;
while (prev->next)
{
prev = prev->next;
}
prev->next = ph;
}
gc_addspecial(ai, &gc_freeaddrinfo_callback, &c->gc);
}
return status;
}
void
do_preresolve(struct context *c)
{
int i;
struct connection_list *l = c->options.connection_list;
const unsigned int preresolve_flags = GETADDR_RESOLVE
|GETADDR_UPDATE_MANAGEMENT_STATE
|GETADDR_MENTION_RESOLVE_RETRY
|GETADDR_FATAL;
for (i = 0; i < l->len; ++i)
{
int status;
const char *remote;
int flags = preresolve_flags;
struct connection_entry *ce = c->options.connection_list->array[i];
if (proto_is_dgram(ce->proto))
{
flags |= GETADDR_DATAGRAM;
}
if (c->options.sockflags & SF_HOST_RANDOMIZE)
{
flags |= GETADDR_RANDOMIZE;
}
if (c->options.ip_remote_hint)
{
remote = c->options.ip_remote_hint;
}
else
{
remote = ce->remote;
}
/* HTTP remote hostname does not need to be resolved */
if (!ce->http_proxy_options)
{
status = do_preresolve_host(c, remote, ce->remote_port, ce->af, flags);
if (status != 0)
{
goto err;
}
}
/* Preresolve proxy */
if (ce->http_proxy_options)
{
status = do_preresolve_host(c,
ce->http_proxy_options->server,
ce->http_proxy_options->port,
ce->af,
preresolve_flags);
if (status != 0)
{
goto err;
}
}
if (ce->socks_proxy_server)
{
status = do_preresolve_host(c,
ce->socks_proxy_server,
ce->socks_proxy_port,
ce->af,
flags);
if (status != 0)
{
goto err;
}
}
if (ce->bind_local)
{
flags |= GETADDR_PASSIVE;
flags &= ~GETADDR_RANDOMIZE;
status = do_preresolve_host(c, ce->local, ce->local_port, ce->af, flags);
if (status != 0)
{
goto err;
}
}
}
return;
err:
throw_signal_soft(SIGHUP, "Preresolving failed");
}
/*
* Translate IPv4/IPv6 addr or hostname into struct addrinfo
* If resolve error, try again for resolve_retry_seconds seconds.
*/
int
openvpn_getaddrinfo(unsigned int flags,
const char *hostname,
const char *servname,
int resolve_retry_seconds,
volatile int *signal_received,
int ai_family,
struct addrinfo **res)
{
struct addrinfo hints;
int status;
int sigrec = 0;
int msglevel = (flags & GETADDR_FATAL) ? M_FATAL : D_RESOLVE_ERRORS;
struct gc_arena gc = gc_new();
const char *print_hostname;
const char *print_servname;
ASSERT(res);
ASSERT(hostname || servname);
ASSERT(!(flags & GETADDR_HOST_ORDER));
if (servname)
{
print_servname = servname;
}
else
{
print_servname = "";
}
if (flags & GETADDR_MSG_VIRT_OUT)
{
msglevel |= M_MSG_VIRT_OUT;
}
if ((flags & (GETADDR_FATAL_ON_SIGNAL|GETADDR_WARN_ON_SIGNAL))
&& !signal_received)
{
signal_received = &sigrec;
}
/* try numeric ipv6 addr first */
CLEAR(hints);
hints.ai_family = ai_family;
hints.ai_flags = AI_NUMERICHOST;
if (flags & GETADDR_PASSIVE)
{
hints.ai_flags |= AI_PASSIVE;
}
if (flags & GETADDR_DATAGRAM)
{
hints.ai_socktype = SOCK_DGRAM;
}
else
{
hints.ai_socktype = SOCK_STREAM;
}
status = getaddrinfo(hostname, servname, &hints, res);
if (status != 0) /* parse as numeric address failed? */
{
const int fail_wait_interval = 5; /* seconds */
/* Add +4 to cause integer division rounding up (1 + 4) = 5, (0+4)/5=0 */
int resolve_retries = (flags & GETADDR_TRY_ONCE) ? 1 :
((resolve_retry_seconds + 4)/ fail_wait_interval);
const char *fmt;
int level = 0;
if (hostname && (flags & GETADDR_RANDOMIZE))
{
hostname = hostname_randomize(hostname, &gc);
}
if (hostname)
{
print_hostname = hostname;
}
else
{
print_hostname = "undefined";
}
fmt = "RESOLVE: Cannot resolve host address: %s:%s (%s)";
if ((flags & GETADDR_MENTION_RESOLVE_RETRY)
&& !resolve_retry_seconds)
{
fmt = "RESOLVE: Cannot resolve host address: %s:%s (%s) (I would have retried this name query if you had specified the --resolv-retry option.)";
}
if (!(flags & GETADDR_RESOLVE) || status == EAI_FAIL)
{
msg(msglevel, "RESOLVE: Cannot parse IP address: %s:%s (%s)",
print_hostname,print_servname, gai_strerror(status));
goto done;
}
#ifdef ENABLE_MANAGEMENT
if (flags & GETADDR_UPDATE_MANAGEMENT_STATE)
{
if (management)
{
management_set_state(management,
OPENVPN_STATE_RESOLVE,
NULL,
NULL,
NULL,
NULL,
NULL);
}
}
#endif
/*
* Resolve hostname
*/
while (true)
{
#ifndef _WIN32
res_init();
#endif
/* try hostname lookup */
hints.ai_flags &= ~AI_NUMERICHOST;
dmsg(D_SOCKET_DEBUG, "GETADDRINFO flags=0x%04x ai_family=%d ai_socktype=%d",
flags, hints.ai_family, hints.ai_socktype);
status = getaddrinfo(hostname, servname, &hints, res);
if (signal_received)
{
get_signal(signal_received);
if (*signal_received) /* were we interrupted by a signal? */
{
if (*signal_received == SIGUSR1) /* ignore SIGUSR1 */
{
msg(level, "RESOLVE: Ignored SIGUSR1 signal received during DNS resolution attempt");
*signal_received = 0;
}
else
{
/* turn success into failure (interrupted syscall) */
if (0 == status)
{
ASSERT(res);
freeaddrinfo(*res);
*res = NULL;
status = EAI_AGAIN; /* = temporary failure */
errno = EINTR;
}
goto done;
}
}
}
/* success? */
if (0 == status)
{
break;
}
/* resolve lookup failed, should we
* continue or fail? */
level = msglevel;
if (resolve_retries > 0)
{
level = D_RESOLVE_ERRORS;
}
msg(level,
fmt,
print_hostname,
print_servname,
gai_strerror(status));
if (--resolve_retries <= 0)
{
goto done;
}
management_sleep(fail_wait_interval);
}
ASSERT(res);
/* hostname resolve succeeded */
/*
* Do not choose an IP Addresse by random or change the order *
* of IP addresses, doing so will break RFC 3484 address selection *
*/
}
else
{
/* IP address parse succeeded */
if (flags & GETADDR_RANDOMIZE)
{
msg(M_WARN, "WARNING: ignoring --remote-random-hostname because the hostname is an IP address");
}
}
done:
if (signal_received && *signal_received)
{
int level = 0;
if (flags & GETADDR_FATAL_ON_SIGNAL)
{
level = M_FATAL;
}
else if (flags & GETADDR_WARN_ON_SIGNAL)
{
level = M_WARN;
}
msg(level, "RESOLVE: signal received during DNS resolution attempt");
}
gc_free(&gc);
return status;
}
/*
* We do our own inet_aton because the glibc function
* isn't very good about error checking.
*/
int
openvpn_inet_aton(const char *dotted_quad, struct in_addr *addr)
{
unsigned int a, b, c, d;
CLEAR(*addr);
if (sscanf(dotted_quad, "%u.%u.%u.%u", &a, &b, &c, &d) == 4)
{
if (a < 256 && b < 256 && c < 256 && d < 256)
{
addr->s_addr = htonl(a<<24 | b<<16 | c<<8 | d);
return OIA_IP; /* good dotted quad */
}
}
if (string_class(dotted_quad, CC_DIGIT|CC_DOT, 0))
{
return OIA_ERROR; /* probably a badly formatted dotted quad */
}
else
{
return OIA_HOSTNAME; /* probably a hostname */
}
}
bool
ip_addr_dotted_quad_safe(const char *dotted_quad)
{
/* verify non-NULL */
if (!dotted_quad)
{
return false;
}
/* verify length is within limits */
if (strlen(dotted_quad) > 15)
{
return false;
}
/* verify that all chars are either numeric or '.' and that no numeric
* substring is greater than 3 chars */
{
int nnum = 0;
const char *p = dotted_quad;
int c;
while ((c = *p++))
{
if (c >= '0' && c <= '9')
{
++nnum;
if (nnum > 3)
{
return false;
}
}
else if (c == '.')
{
nnum = 0;
}
else
{
return false;
}
}
}
/* verify that string will convert to IP address */
{
struct in_addr a;
return openvpn_inet_aton(dotted_quad, &a) == OIA_IP;
}
}
bool
ipv6_addr_safe(const char *ipv6_text_addr)
{
/* verify non-NULL */
if (!ipv6_text_addr)
{
return false;
}
/* verify length is within limits */
if (strlen(ipv6_text_addr) > INET6_ADDRSTRLEN)
{
return false;
}
/* verify that string will convert to IPv6 address */
{
struct in6_addr a6;
return inet_pton( AF_INET6, ipv6_text_addr, &a6 ) == 1;
}
}
static bool
dns_addr_safe(const char *addr)
{
if (addr)
{
const size_t len = strlen(addr);
return len > 0 && len <= 255 && string_class(addr, CC_ALNUM|CC_DASH|CC_DOT, 0);
}
else
{
return false;
}
}
bool
ip_or_dns_addr_safe(const char *addr, const bool allow_fqdn)
{
if (ip_addr_dotted_quad_safe(addr))
{
return true;
}
else if (allow_fqdn)
{
return dns_addr_safe(addr);
}
else
{
return false;
}
}
bool
mac_addr_safe(const char *mac_addr)
{
/* verify non-NULL */
if (!mac_addr)
{
return false;
}
/* verify length is within limits */
if (strlen(mac_addr) > 17)
{
return false;
}
/* verify that all chars are either alphanumeric or ':' and that no
* alphanumeric substring is greater than 2 chars */
{
int nnum = 0;
const char *p = mac_addr;
int c;
while ((c = *p++))
{
if ( (c >= '0' && c <= '9') || (c >= 'a' && c <= 'f') || (c >= 'A' && c <= 'F') )
{
++nnum;
if (nnum > 2)
{
return false;
}
}
else if (c == ':')
{
nnum = 0;
}
else
{
return false;
}
}
}
/* error-checking is left to script invoked in lladdr.c */
return true;
}
static int
socket_get_sndbuf(int sd)
{
#if defined(HAVE_GETSOCKOPT) && defined(SOL_SOCKET) && defined(SO_SNDBUF)
int val;
socklen_t len;
len = sizeof(val);
if (getsockopt(sd, SOL_SOCKET, SO_SNDBUF, (void *) &val, &len) == 0
&& len == sizeof(val))
{
return val;
}
#endif
return 0;
}
static void
socket_set_sndbuf(int sd, int size)
{
#if defined(HAVE_SETSOCKOPT) && defined(SOL_SOCKET) && defined(SO_SNDBUF)
if (setsockopt(sd, SOL_SOCKET, SO_SNDBUF, (void *) &size, sizeof(size)) != 0)
{
msg(M_WARN, "NOTE: setsockopt SO_SNDBUF=%d failed", size);
}
#endif
}
static int
socket_get_rcvbuf(int sd)
{
#if defined(HAVE_GETSOCKOPT) && defined(SOL_SOCKET) && defined(SO_RCVBUF)
int val;
socklen_t len;
len = sizeof(val);
if (getsockopt(sd, SOL_SOCKET, SO_RCVBUF, (void *) &val, &len) == 0
&& len == sizeof(val))
{
return val;
}
#endif
return 0;
}
static bool
socket_set_rcvbuf(int sd, int size)
{
#if defined(HAVE_SETSOCKOPT) && defined(SOL_SOCKET) && defined(SO_RCVBUF)
if (setsockopt(sd, SOL_SOCKET, SO_RCVBUF, (void *) &size, sizeof(size)) != 0)
{
msg(M_WARN, "NOTE: setsockopt SO_RCVBUF=%d failed", size);
return false;
}
return true;
#endif
}
static void
socket_set_buffers(int fd, const struct socket_buffer_size *sbs)
{
if (sbs)
{
const int sndbuf_old = socket_get_sndbuf(fd);
const int rcvbuf_old = socket_get_rcvbuf(fd);
if (sbs->sndbuf)
{
socket_set_sndbuf(fd, sbs->sndbuf);
}
if (sbs->rcvbuf)
{
socket_set_rcvbuf(fd, sbs->rcvbuf);
}
msg(D_OSBUF, "Socket Buffers: R=[%d->%d] S=[%d->%d]",
rcvbuf_old,
socket_get_rcvbuf(fd),
sndbuf_old,
socket_get_sndbuf(fd));
}
}
/*
* Set other socket options
*/
static bool
socket_set_tcp_nodelay(int sd, int state)
{
#if defined(_WIN32) || (defined(HAVE_SETSOCKOPT) && defined(IPPROTO_TCP) && defined(TCP_NODELAY))
if (setsockopt(sd, IPPROTO_TCP, TCP_NODELAY, (void *) &state, sizeof(state)) != 0)
{
msg(M_WARN, "NOTE: setsockopt TCP_NODELAY=%d failed", state);
return false;
}
else
{
dmsg(D_OSBUF, "Socket flags: TCP_NODELAY=%d succeeded", state);
return true;
}
#else /* if defined(_WIN32) || (defined(HAVE_SETSOCKOPT) && defined(IPPROTO_TCP) && defined(TCP_NODELAY)) */
msg(M_WARN, "NOTE: setsockopt TCP_NODELAY=%d failed (No kernel support)", state);
return false;
#endif
}
static inline void
socket_set_mark(int sd, int mark)
{
#if defined(TARGET_LINUX) && HAVE_DECL_SO_MARK
if (mark && setsockopt(sd, SOL_SOCKET, SO_MARK, (void *) &mark, sizeof(mark)) != 0)
{
msg(M_WARN, "NOTE: setsockopt SO_MARK=%d failed", mark);
}
#endif
}
static bool
socket_set_flags(int sd, unsigned int sockflags)
{
if (sockflags & SF_TCP_NODELAY)
{
return socket_set_tcp_nodelay(sd, 1);
}
else
{
return true;
}
}
bool
link_socket_update_flags(struct link_socket *ls, unsigned int sockflags)
{
if (ls && socket_defined(ls->sd))
{
return socket_set_flags(ls->sd, ls->sockflags = sockflags);
}
else
{
return false;
}
}
void
link_socket_update_buffer_sizes(struct link_socket *ls, int rcvbuf, int sndbuf)
{
if (ls && socket_defined(ls->sd))
{
ls->socket_buffer_sizes.sndbuf = sndbuf;
ls->socket_buffer_sizes.rcvbuf = rcvbuf;
socket_set_buffers(ls->sd, &ls->socket_buffer_sizes);
}
}
/*
* SOCKET INITIALIZATION CODE.
* Create a TCP/UDP socket
*/
socket_descriptor_t
create_socket_tcp(struct addrinfo *addrinfo)
{
socket_descriptor_t sd;
ASSERT(addrinfo);
ASSERT(addrinfo->ai_socktype == SOCK_STREAM);
if ((sd = socket(addrinfo->ai_family, addrinfo->ai_socktype, addrinfo->ai_protocol)) < 0)
{
msg(M_ERR, "Cannot create TCP socket");
}
#ifndef _WIN32 /* using SO_REUSEADDR on Windows will cause bind to succeed on port conflicts! */
/* set SO_REUSEADDR on socket */
{
int on = 1;
if (setsockopt(sd, SOL_SOCKET, SO_REUSEADDR,
(void *) &on, sizeof(on)) < 0)
{
msg(M_ERR, "TCP: Cannot setsockopt SO_REUSEADDR on TCP socket");
}
}
#endif
/* set socket file descriptor to not pass across execs, so that
* scripts don't have access to it */
set_cloexec(sd);
return sd;
}
static socket_descriptor_t
create_socket_udp(struct addrinfo *addrinfo, const unsigned int flags)
{
socket_descriptor_t sd;
ASSERT(addrinfo);
ASSERT(addrinfo->ai_socktype == SOCK_DGRAM);
if ((sd = socket(addrinfo->ai_family, addrinfo->ai_socktype, addrinfo->ai_protocol)) < 0)
{
msg(M_ERR, "UDP: Cannot create UDP/UDP6 socket");
}
#if ENABLE_IP_PKTINFO
else if (flags & SF_USE_IP_PKTINFO)
{
int pad = 1;
if (addrinfo->ai_family == AF_INET)
{
#if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST)
if (setsockopt(sd, SOL_IP, IP_PKTINFO,
(void *)&pad, sizeof(pad)) < 0)
{
msg(M_ERR, "UDP: failed setsockopt for IP_PKTINFO");
}
#elif defined(IP_RECVDSTADDR)
if (setsockopt(sd, IPPROTO_IP, IP_RECVDSTADDR,
(void *)&pad, sizeof(pad)) < 0)
{
msg(M_ERR, "UDP: failed setsockopt for IP_RECVDSTADDR");
}
#else /* if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST) */
#error ENABLE_IP_PKTINFO is set without IP_PKTINFO xor IP_RECVDSTADDR (fix syshead.h)
#endif
}
else if (addrinfo->ai_family == AF_INET6)
{
#ifndef IPV6_RECVPKTINFO /* Some older Darwin platforms require this */
if (setsockopt(sd, IPPROTO_IPV6, IPV6_PKTINFO,
(void *)&pad, sizeof(pad)) < 0)
#else
if (setsockopt(sd, IPPROTO_IPV6, IPV6_RECVPKTINFO,
(void *)&pad, sizeof(pad)) < 0)
#endif
{ msg(M_ERR, "UDP: failed setsockopt for IPV6_RECVPKTINFO");}
}
}
#endif /* if ENABLE_IP_PKTINFO */
/* set socket file descriptor to not pass across execs, so that
* scripts don't have access to it */
set_cloexec(sd);
return sd;
}
static void
bind_local(struct link_socket *sock, const sa_family_t ai_family)
{
/* bind to local address/port */
if (sock->bind_local)
{
if (sock->socks_proxy && sock->info.proto == PROTO_UDP)
{
socket_bind(sock->ctrl_sd, sock->info.lsa->bind_local,
ai_family, "SOCKS", false);
}
else
{
socket_bind(sock->sd, sock->info.lsa->bind_local,
ai_family,
"TCP/UDP", sock->info.bind_ipv6_only);
}
}
}
static void
create_socket(struct link_socket *sock, struct addrinfo *addr)
{
if (addr->ai_protocol == IPPROTO_UDP || addr->ai_socktype == SOCK_DGRAM)
{
sock->sd = create_socket_udp(addr, sock->sockflags);
sock->sockflags |= SF_GETADDRINFO_DGRAM;
/* Assume that control socket and data socket to the socks proxy
* are using the same IP family */
if (sock->socks_proxy)
{
/* Construct a temporary addrinfo to create the socket,
* currently resolve two remote addresses is not supported,
* TODO: Rewrite the whole resolve_remote */
struct addrinfo addrinfo_tmp = *addr;
addrinfo_tmp.ai_socktype = SOCK_STREAM;
addrinfo_tmp.ai_protocol = IPPROTO_TCP;
sock->ctrl_sd = create_socket_tcp(&addrinfo_tmp);
}
}
else if (addr->ai_protocol == IPPROTO_TCP || addr->ai_socktype == SOCK_STREAM)
{
sock->sd = create_socket_tcp(addr);
}
else
{
ASSERT(0);
}
/* set socket buffers based on --sndbuf and --rcvbuf options */
socket_set_buffers(sock->sd, &sock->socket_buffer_sizes);
/* set socket to --mark packets with given value */
socket_set_mark(sock->sd, sock->mark);
#if defined(TARGET_LINUX)
if (sock->bind_dev)
{
msg (M_INFO, "Using bind-dev %s", sock->bind_dev);
if (setsockopt (sock->sd, SOL_SOCKET, SO_BINDTODEVICE, sock->bind_dev, strlen (sock->bind_dev) + 1) != 0)
{
msg(M_WARN|M_ERRNO, "WARN: setsockopt SO_BINDTODEVICE=%s failed", sock->bind_dev);
}
}
#endif
bind_local(sock, addr->ai_family);
}
#ifdef TARGET_ANDROID
static void
protect_fd_nonlocal(int fd, const struct sockaddr *addr)
{
/* pass socket FD to management interface to pass on to VPNService API
* as "protected socket" (exempt from being routed into tunnel)
*/
if (addr_local(addr))
{
msg(D_SOCKET_DEBUG, "Address is local, not protecting socket fd %d", fd);
return;
}
msg(D_SOCKET_DEBUG, "Protecting socket fd %d", fd);
management->connection.fdtosend = fd;
management_android_control(management, "PROTECTFD", __func__);
}
#endif
/*
* Functions used for establishing a TCP stream connection.
*/
static void
socket_do_listen(socket_descriptor_t sd,
const struct addrinfo *local,
bool do_listen,
bool do_set_nonblock)
{
struct gc_arena gc = gc_new();
if (do_listen)
{
ASSERT(local);
msg(M_INFO, "Listening for incoming TCP connection on %s",
print_sockaddr(local->ai_addr, &gc));
if (listen(sd, 32))
{
msg(M_ERR, "TCP: listen() failed");
}
}
/* set socket to non-blocking mode */
if (do_set_nonblock)
{
set_nonblock(sd);
}
gc_free(&gc);
}
socket_descriptor_t
socket_do_accept(socket_descriptor_t sd,
struct link_socket_actual *act,
const bool nowait)
{
/* af_addr_size WILL return 0 in this case if AFs other than AF_INET
* are compiled because act is empty here.
* could use getsockname() to support later remote_len check
*/
socklen_t remote_len_af = af_addr_size(act->dest.addr.sa.sa_family);
socklen_t remote_len = sizeof(act->dest.addr);
socket_descriptor_t new_sd = SOCKET_UNDEFINED;
CLEAR(*act);
#ifdef HAVE_GETPEERNAME
if (nowait)
{
new_sd = getpeername(sd, &act->dest.addr.sa, &remote_len);
if (!socket_defined(new_sd))
{
msg(D_LINK_ERRORS | M_ERRNO, "TCP: getpeername() failed");
}
else
{
new_sd = sd;
}
}
#else /* ifdef HAVE_GETPEERNAME */
if (nowait)
{
msg(M_WARN, "TCP: this OS does not provide the getpeername() function");
}
#endif
else
{
new_sd = accept(sd, &act->dest.addr.sa, &remote_len);
}
#if 0 /* For debugging only, test the effect of accept() failures */
{
static int foo = 0;
++foo;
if (foo & 1)
{
new_sd = -1;
}
}
#endif
if (!socket_defined(new_sd))
{
msg(D_LINK_ERRORS | M_ERRNO, "TCP: accept(%d) failed", (int)sd);
}
/* only valid if we have remote_len_af!=0 */
else if (remote_len_af && remote_len != remote_len_af)
{
msg(D_LINK_ERRORS, "TCP: Received strange incoming connection with unknown address length=%d", remote_len);
openvpn_close_socket(new_sd);
new_sd = SOCKET_UNDEFINED;
}
else
{
/* set socket file descriptor to not pass across execs, so that
* scripts don't have access to it */
set_cloexec(sd);
}
return new_sd;
}
static void
tcp_connection_established(const struct link_socket_actual *act)
{
struct gc_arena gc = gc_new();
msg(M_INFO, "TCP connection established with %s",
print_link_socket_actual(act, &gc));
gc_free(&gc);
}
static socket_descriptor_t
socket_listen_accept(socket_descriptor_t sd,
struct link_socket_actual *act,
const char *remote_dynamic,
const struct addrinfo *local,
bool do_listen,
bool nowait,
volatile int *signal_received)
{
struct gc_arena gc = gc_new();
/* struct openvpn_sockaddr *remote = &act->dest; */
struct openvpn_sockaddr remote_verify = act->dest;
socket_descriptor_t new_sd = SOCKET_UNDEFINED;
CLEAR(*act);
socket_do_listen(sd, local, do_listen, true);
while (true)
{
int status;
fd_set reads;
struct timeval tv;
FD_ZERO(&reads);
openvpn_fd_set(sd, &reads);
tv.tv_sec = 0;
tv.tv_usec = 0;
status = select(sd + 1, &reads, NULL, NULL, &tv);
get_signal(signal_received);
if (*signal_received)
{
gc_free(&gc);
return sd;
}
if (status < 0)
{
msg(D_LINK_ERRORS | M_ERRNO, "TCP: select() failed");
}
if (status <= 0)
{
management_sleep(1);
continue;
}
new_sd = socket_do_accept(sd, act, nowait);
if (socket_defined(new_sd))
{
struct addrinfo *ai = NULL;
if (remote_dynamic)
{
openvpn_getaddrinfo(0, remote_dynamic, NULL, 1, NULL,
remote_verify.addr.sa.sa_family, &ai);
}
if (ai && !addrlist_match(&remote_verify, ai))
{
msg(M_WARN,
"TCP NOTE: Rejected connection attempt from %s due to --remote setting",
print_link_socket_actual(act, &gc));
if (openvpn_close_socket(new_sd))
{
msg(M_ERR, "TCP: close socket failed (new_sd)");
}
freeaddrinfo(ai);
}
else
{
if (ai)
{
freeaddrinfo(ai);
}
break;
}
}
management_sleep(1);
}
if (!nowait && openvpn_close_socket(sd))
{
msg(M_ERR, "TCP: close socket failed (sd)");
}
tcp_connection_established(act);
gc_free(&gc);
return new_sd;
}
/* older mingw versions and WinXP do not have this define,
* but Vista and up support the functionality - just define it here
*/
#ifdef _WIN32
#ifndef IPV6_V6ONLY
#define IPV6_V6ONLY 27
#endif
#endif
void
socket_bind(socket_descriptor_t sd,
struct addrinfo *local,
int ai_family,
const char *prefix,
bool ipv6only)
{
struct gc_arena gc = gc_new();
/* FIXME (schwabe)
* getaddrinfo for the bind address might return multiple AF_INET/AF_INET6
* entries for the requested protocol.
* For example if an address has multiple A records
* What is the correct way to deal with it?
*/
struct addrinfo *cur;
ASSERT(local);
/* find the first addrinfo with correct ai_family */
for (cur = local; cur; cur = cur->ai_next)
{
if (cur->ai_family == ai_family)
{
break;
}
}
if (!cur)
{
msg(M_FATAL, "%s: Socket bind failed: Addr to bind has no %s record",
prefix, addr_family_name(ai_family));
}
if (ai_family == AF_INET6)
{
int v6only = ipv6only ? 1 : 0; /* setsockopt must have an "int" */
msg(M_INFO, "setsockopt(IPV6_V6ONLY=%d)", v6only);
if (setsockopt(sd, IPPROTO_IPV6, IPV6_V6ONLY, (void *) &v6only, sizeof(v6only)))
{
msg(M_NONFATAL|M_ERRNO, "Setting IPV6_V6ONLY=%d failed", v6only);
}
}
if (bind(sd, cur->ai_addr, cur->ai_addrlen))
{
msg(M_FATAL | M_ERRNO, "%s: Socket bind failed on local address %s",
prefix,
print_sockaddr_ex(local->ai_addr, ":", PS_SHOW_PORT, &gc));
}
gc_free(&gc);
}
int
openvpn_connect(socket_descriptor_t sd,
const struct sockaddr *remote,
int connect_timeout,
volatile int *signal_received)
{
int status = 0;
#ifdef TARGET_ANDROID
protect_fd_nonlocal(sd, remote);
#endif
#ifdef CONNECT_NONBLOCK
set_nonblock(sd);
status = connect(sd, remote, af_addr_size(remote->sa_family));
if (status)
{
status = openvpn_errno();
}
if (
#ifdef _WIN32
status == WSAEWOULDBLOCK
#else
status == EINPROGRESS
#endif
)
{
while (true)
{
#if POLL
struct pollfd fds[1];
fds[0].fd = sd;
fds[0].events = POLLOUT;
status = poll(fds, 1, 0);
#else
fd_set writes;
struct timeval tv;
FD_ZERO(&writes);
openvpn_fd_set(sd, &writes);
tv.tv_sec = 0;
tv.tv_usec = 0;
status = select(sd + 1, NULL, &writes, NULL, &tv);
#endif
if (signal_received)
{
get_signal(signal_received);
if (*signal_received)
{
status = 0;
break;
}
}
if (status < 0)
{
status = openvpn_errno();
break;
}
if (status <= 0)
{
if (--connect_timeout < 0)
{
#ifdef _WIN32
status = WSAETIMEDOUT;
#else
status = ETIMEDOUT;
#endif
break;
}
management_sleep(1);
continue;
}
/* got it */
{
int val = 0;
socklen_t len;
len = sizeof(val);
if (getsockopt(sd, SOL_SOCKET, SO_ERROR, (void *) &val, &len) == 0
&& len == sizeof(val))
{
status = val;
}
else
{
status = openvpn_errno();
}
break;
}
}
}
#else /* ifdef CONNECT_NONBLOCK */
status = connect(sd, remote, af_addr_size(remote->sa_family));
if (status)
{
status = openvpn_errno();
}
#endif /* ifdef CONNECT_NONBLOCK */
return status;
}
void
set_actual_address(struct link_socket_actual *actual, struct addrinfo *ai)
{
CLEAR(*actual);
ASSERT(ai);
if (ai->ai_family == AF_INET)
{
actual->dest.addr.in4 =
*((struct sockaddr_in *) ai->ai_addr);
}
else if (ai->ai_family == AF_INET6)
{
actual->dest.addr.in6 =
*((struct sockaddr_in6 *) ai->ai_addr);
}
else
{
ASSERT(0);
}
}
static void
socket_connect(socket_descriptor_t *sd,
const struct sockaddr *dest,
const int connect_timeout,
struct signal_info *sig_info)
{
struct gc_arena gc = gc_new();
int status;
#ifdef CONNECT_NONBLOCK
msg(M_INFO, "Attempting to establish TCP connection with %s [nonblock]",
print_sockaddr(dest, &gc));
#else
msg(M_INFO, "Attempting to establish TCP connection with %s",
print_sockaddr(dest, &gc));
#endif
#ifdef ENABLE_MANAGEMENT
if (management)
{
management_set_state(management,
OPENVPN_STATE_TCP_CONNECT,
NULL,
NULL,
NULL,
NULL,
NULL);
}
#endif
/* Set the actual address */
status = openvpn_connect(*sd, dest, connect_timeout, &sig_info->signal_received);
get_signal(&sig_info->signal_received);
if (sig_info->signal_received)
{
goto done;
}
if (status)
{
msg(D_LINK_ERRORS, "TCP: connect to %s failed: %s",
print_sockaddr(dest, &gc), strerror(status));
openvpn_close_socket(*sd);
*sd = SOCKET_UNDEFINED;
sig_info->signal_received = SIGUSR1;
sig_info->source = SIG_SOURCE_CONNECTION_FAILED;
}
else
{
msg(M_INFO, "TCP connection established with %s",
print_sockaddr(dest, &gc));
}
done:
gc_free(&gc);
}
/*
* Stream buffer handling prototypes -- stream_buf is a helper class
* to assist in the packetization of stream transport protocols
* such as TCP.
*/
static void
stream_buf_init(struct stream_buf *sb, struct buffer *buf,
const unsigned int sockflags, const int proto);
static void
stream_buf_close(struct stream_buf *sb);
static bool
stream_buf_added(struct stream_buf *sb, int length_added);
/* For stream protocols, allocate a buffer to build up packet.
* Called after frame has been finalized. */
static void
socket_frame_init(const struct frame *frame, struct link_socket *sock)
{
#ifdef _WIN32
overlapped_io_init(&sock->reads, frame, FALSE, false);
overlapped_io_init(&sock->writes, frame, TRUE, false);
sock->rw_handle.read = sock->reads.overlapped.hEvent;
sock->rw_handle.write = sock->writes.overlapped.hEvent;
#endif
if (link_socket_connection_oriented(sock))
{
#ifdef _WIN32
stream_buf_init(&sock->stream_buf,
&sock->reads.buf_init,
sock->sockflags,
sock->info.proto);
#else
alloc_buf_sock_tun(&sock->stream_buf_data,
frame,
false,
FRAME_HEADROOM_MARKER_READ_STREAM);
stream_buf_init(&sock->stream_buf,
&sock->stream_buf_data,
sock->sockflags,
sock->info.proto);
#endif
}
}
/*
* Adjust frame structure based on a Path MTU value given
* to us by the OS.
*/
void
frame_adjust_path_mtu(struct frame *frame, int pmtu, int proto)
{
frame_set_mtu_dynamic(frame, pmtu - datagram_overhead(proto), SET_MTU_UPPER_BOUND);
}
static void
resolve_bind_local(struct link_socket *sock, const sa_family_t af)
{
struct gc_arena gc = gc_new();
/* resolve local address if undefined */
if (!sock->info.lsa->bind_local)
{
int flags = GETADDR_RESOLVE | GETADDR_WARN_ON_SIGNAL
|GETADDR_FATAL | GETADDR_PASSIVE;
int status;
if (proto_is_dgram(sock->info.proto))
{
flags |= GETADDR_DATAGRAM;
}
/* will return AF_{INET|INET6}from local_host */
status = get_cached_dns_entry(sock->dns_cache,
sock->local_host,
sock->local_port,
af,
flags,
&sock->info.lsa->bind_local);
if (status)
{
status = openvpn_getaddrinfo(flags, sock->local_host, sock->local_port, 0,
NULL, af, &sock->info.lsa->bind_local);
}
if (status !=0)
{
msg(M_FATAL, "getaddrinfo() failed for local \"%s:%s\": %s",
sock->local_host, sock->local_port,
gai_strerror(status));
}
}
gc_free(&gc);
}
static void
resolve_remote(struct link_socket *sock,
int phase,
const char **remote_dynamic,
volatile int *signal_received)
{
struct gc_arena gc = gc_new();
/* resolve remote address if undefined */
if (!sock->info.lsa->remote_list)
{
if (sock->remote_host)
{
unsigned int flags = sf2gaf(GETADDR_RESOLVE|GETADDR_UPDATE_MANAGEMENT_STATE, sock->sockflags);
int retry = 0;
int status = -1;
struct addrinfo *ai;
if (proto_is_dgram(sock->info.proto))
{
flags |= GETADDR_DATAGRAM;
}
if (sock->resolve_retry_seconds == RESOLV_RETRY_INFINITE)
{
if (phase == 2)
{
flags |= (GETADDR_TRY_ONCE | GETADDR_FATAL);
}
retry = 0;
}
else if (phase == 1)
{
if (sock->resolve_retry_seconds)
{
retry = 0;
}
else
{
flags |= (GETADDR_FATAL | GETADDR_MENTION_RESOLVE_RETRY);
retry = 0;
}
}
else if (phase == 2)
{
if (sock->resolve_retry_seconds)
{
flags |= GETADDR_FATAL;
retry = sock->resolve_retry_seconds;
}
else
{
ASSERT(0);
}
}
else
{
ASSERT(0);
}
status = get_cached_dns_entry(sock->dns_cache,
sock->remote_host,
sock->remote_port,
sock->info.af,
flags, &ai);
if (status)
{
status = openvpn_getaddrinfo(flags, sock->remote_host, sock->remote_port,
retry, signal_received, sock->info.af, &ai);
}
if (status == 0)
{
sock->info.lsa->remote_list = ai;
sock->info.lsa->current_remote = ai;
dmsg(D_SOCKET_DEBUG, "RESOLVE_REMOTE flags=0x%04x phase=%d rrs=%d sig=%d status=%d",
flags,
phase,
retry,
signal_received ? *signal_received : -1,
status);
}
if (signal_received)
{
if (*signal_received)
{
goto done;
}
}
if (status!=0)
{
if (signal_received)
{
*signal_received = SIGUSR1;
}
goto done;
}
}
}
/* should we re-use previous active remote address? */
if (link_socket_actual_defined(&sock->info.lsa->actual))
{
msg(M_INFO, "TCP/UDP: Preserving recently used remote address: %s",
print_link_socket_actual(&sock->info.lsa->actual, &gc));
if (remote_dynamic)
{
*remote_dynamic = NULL;
}
}
else
{
CLEAR(sock->info.lsa->actual);
if (sock->info.lsa->current_remote)
{
set_actual_address(&sock->info.lsa->actual,
sock->info.lsa->current_remote);
}
}
done:
gc_free(&gc);
}
struct link_socket *
link_socket_new(void)
{
struct link_socket *sock;
ALLOC_OBJ_CLEAR(sock, struct link_socket);
sock->sd = SOCKET_UNDEFINED;
sock->ctrl_sd = SOCKET_UNDEFINED;
return sock;
}
void
link_socket_init_phase1(struct link_socket *sock,
const char *local_host,
const char *local_port,
const char *remote_host,
const char *remote_port,
struct cached_dns_entry *dns_cache,
int proto,
sa_family_t af,
bool bind_ipv6_only,
int mode,
const struct link_socket *accept_from,
struct http_proxy_info *http_proxy,
struct socks_proxy_info *socks_proxy,
#ifdef ENABLE_DEBUG
int gremlin,
#endif
bool bind_local,
bool remote_float,
int inetd,
struct link_socket_addr *lsa,
const char *ipchange_command,
const struct plugin_list *plugins,
int resolve_retry_seconds,
int mtu_discover_type,
int rcvbuf,
int sndbuf,
int mark,
const char *bind_dev,
struct event_timeout *server_poll_timeout,
unsigned int sockflags)
{
ASSERT(sock);
sock->local_host = local_host;
sock->local_port = local_port;
sock->remote_host = remote_host;
sock->remote_port = remote_port;
sock->dns_cache = dns_cache;
sock->http_proxy = http_proxy;
sock->socks_proxy = socks_proxy;
sock->bind_local = bind_local;
sock->inetd = inetd;
sock->resolve_retry_seconds = resolve_retry_seconds;
sock->mtu_discover_type = mtu_discover_type;
#ifdef ENABLE_DEBUG
sock->gremlin = gremlin;
#endif
sock->socket_buffer_sizes.rcvbuf = rcvbuf;
sock->socket_buffer_sizes.sndbuf = sndbuf;
sock->sockflags = sockflags;
sock->mark = mark;
sock->bind_dev = bind_dev;
sock->info.proto = proto;
sock->info.af = af;
sock->info.remote_float = remote_float;
sock->info.lsa = lsa;
sock->info.bind_ipv6_only = bind_ipv6_only;
sock->info.ipchange_command = ipchange_command;
sock->info.plugins = plugins;
sock->server_poll_timeout = server_poll_timeout;
sock->mode = mode;
if (mode == LS_MODE_TCP_ACCEPT_FROM)
{
ASSERT(accept_from);
ASSERT(sock->info.proto == PROTO_TCP_SERVER);
ASSERT(!sock->inetd);
sock->sd = accept_from->sd;
/* inherit (possibly guessed) info AF from parent context */
sock->info.af = accept_from->info.af;
}
/* are we running in HTTP proxy mode? */
if (sock->http_proxy)
{
ASSERT(sock->info.proto == PROTO_TCP_CLIENT);
ASSERT(!sock->inetd);
/* the proxy server */
sock->remote_host = http_proxy->options.server;
sock->remote_port = http_proxy->options.port;
/* the OpenVPN server we will use the proxy to connect to */
sock->proxy_dest_host = remote_host;
sock->proxy_dest_port = remote_port;
}
/* or in Socks proxy mode? */
else if (sock->socks_proxy)
{
ASSERT(!sock->inetd);
/* the proxy server */
sock->remote_host = socks_proxy->server;
sock->remote_port = socks_proxy->port;
/* the OpenVPN server we will use the proxy to connect to */
sock->proxy_dest_host = remote_host;
sock->proxy_dest_port = remote_port;
}
else
{
sock->remote_host = remote_host;
sock->remote_port = remote_port;
}
/* bind behavior for TCP server vs. client */
if (sock->info.proto == PROTO_TCP_SERVER)
{
if (sock->mode == LS_MODE_TCP_ACCEPT_FROM)
{
sock->bind_local = false;
}
else
{
sock->bind_local = true;
}
}
/* were we started by inetd or xinetd? */
if (sock->inetd)
{
ASSERT(sock->info.proto != PROTO_TCP_CLIENT);
ASSERT(socket_defined(inetd_socket_descriptor));
sock->sd = inetd_socket_descriptor;
set_cloexec(sock->sd); /* not created by create_socket*() */
}
else if (mode != LS_MODE_TCP_ACCEPT_FROM)
{
if (sock->bind_local)
{
resolve_bind_local(sock, sock->info.af);
}
resolve_remote(sock, 1, NULL, NULL);
}
}
static
void
phase2_inetd(struct link_socket *sock, const struct frame *frame,
const char *remote_dynamic, volatile int *signal_received)
{
bool remote_changed = false;
if (sock->info.proto == PROTO_TCP_SERVER)
{
/* AF_INET as default (and fallback) for inetd */
sock->info.lsa->actual.dest.addr.sa.sa_family = AF_INET;
#ifdef HAVE_GETSOCKNAME
{
/* inetd: hint family type for dest = local's */
struct openvpn_sockaddr local_addr;
socklen_t addrlen = sizeof(local_addr);
if (getsockname(sock->sd, &local_addr.addr.sa, &addrlen) == 0)
{
sock->info.lsa->actual.dest.addr.sa.sa_family = local_addr.addr.sa.sa_family;
dmsg(D_SOCKET_DEBUG, "inetd(%s): using sa_family=%d from getsockname(%d)",
proto2ascii(sock->info.proto, sock->info.af, false),
local_addr.addr.sa.sa_family, (int)sock->sd);
}
else
{
msg(M_WARN, "inetd(%s): getsockname(%d) failed, using AF_INET",
proto2ascii(sock->info.proto, sock->info.af, false), (int)sock->sd);
}
}
#else /* ifdef HAVE_GETSOCKNAME */
msg(M_WARN, "inetd(%s): this OS does not provide the getsockname() "
"function, using AF_INET",
proto2ascii(sock->info.proto, false));
#endif /* ifdef HAVE_GETSOCKNAME */
sock->sd =
socket_listen_accept(sock->sd,
&sock->info.lsa->actual,
remote_dynamic,
sock->info.lsa->bind_local,
false,
sock->inetd == INETD_NOWAIT,
signal_received);
}
ASSERT(!remote_changed);
}
static void
phase2_set_socket_flags(struct link_socket *sock)
{
/* set misc socket parameters */
socket_set_flags(sock->sd, sock->sockflags);
/* set socket to non-blocking mode */
set_nonblock(sock->sd);
/* set Path MTU discovery options on the socket */
set_mtu_discover_type(sock->sd, sock->mtu_discover_type, sock->info.af);
#if EXTENDED_SOCKET_ERROR_CAPABILITY
/* if the OS supports it, enable extended error passing on the socket */
set_sock_extended_error_passing(sock->sd);
#endif
}
static void
linksock_print_addr(struct link_socket *sock)
{
struct gc_arena gc = gc_new();
const int msglevel = (sock->mode == LS_MODE_TCP_ACCEPT_FROM) ? D_INIT_MEDIUM : M_INFO;
/* print local address */
if (sock->inetd)
{
msg(msglevel, "%s link local: [inetd]", proto2ascii(sock->info.proto, sock->info.af, true));
}
else if (sock->bind_local)
{
sa_family_t ai_family = sock->info.lsa->actual.dest.addr.sa.sa_family;
/* Socket is always bound on the first matching address,
* For bound sockets with no remote addr this is the element of
* the list */
struct addrinfo *cur;
for (cur = sock->info.lsa->bind_local; cur; cur = cur->ai_next)
{
if (!ai_family || ai_family == cur->ai_family)
{
break;
}
}
ASSERT(cur);
msg(msglevel, "%s link local (bound): %s",
proto2ascii(sock->info.proto, sock->info.af, true),
print_sockaddr(cur->ai_addr,&gc));
}
else
{
msg(msglevel, "%s link local: (not bound)",
proto2ascii(sock->info.proto, sock->info.af, true));
}
/* print active remote address */
msg(msglevel, "%s link remote: %s",
proto2ascii(sock->info.proto, sock->info.af, true),
print_link_socket_actual_ex(&sock->info.lsa->actual,
":",
PS_SHOW_PORT_IF_DEFINED,
&gc));
gc_free(&gc);
}
static void
phase2_tcp_server(struct link_socket *sock, const char *remote_dynamic,
volatile int *signal_received)
{
switch (sock->mode)
{
case LS_MODE_DEFAULT:
sock->sd = socket_listen_accept(sock->sd,
&sock->info.lsa->actual,
remote_dynamic,
sock->info.lsa->bind_local,
true,
false,
signal_received);
break;
case LS_MODE_TCP_LISTEN:
socket_do_listen(sock->sd,
sock->info.lsa->bind_local,
true,
false);
break;
case LS_MODE_TCP_ACCEPT_FROM:
sock->sd = socket_do_accept(sock->sd,
&sock->info.lsa->actual,
false);
if (!socket_defined(sock->sd))
{
*signal_received = SIGTERM;
return;
}
tcp_connection_established(&sock->info.lsa->actual);
break;
default:
ASSERT(0);
}
}
static void
phase2_tcp_client(struct link_socket *sock, struct signal_info *sig_info)
{
bool proxy_retry = false;
do
{
socket_connect(&sock->sd,
sock->info.lsa->current_remote->ai_addr,
get_server_poll_remaining_time(sock->server_poll_timeout),
sig_info);
if (sig_info->signal_received)
{
return;
}
if (sock->http_proxy)
{
proxy_retry = establish_http_proxy_passthru(sock->http_proxy,
sock->sd,
sock->proxy_dest_host,
sock->proxy_dest_port,
sock->server_poll_timeout,
&sock->stream_buf.residual,
&sig_info->signal_received);
}
else if (sock->socks_proxy)
{
establish_socks_proxy_passthru(sock->socks_proxy,
sock->sd,
sock->proxy_dest_host,
sock->proxy_dest_port,
&sig_info->signal_received);
}
if (proxy_retry)
{
openvpn_close_socket(sock->sd);
sock->sd = create_socket_tcp(sock->info.lsa->current_remote);
}
} while (proxy_retry);
}
static void
phase2_socks_client(struct link_socket *sock, struct signal_info *sig_info)
{
socket_connect(&sock->ctrl_sd,
sock->info.lsa->current_remote->ai_addr,
get_server_poll_remaining_time(sock->server_poll_timeout),
sig_info);
if (sig_info->signal_received)
{
return;
}
establish_socks_proxy_udpassoc(sock->socks_proxy,
sock->ctrl_sd,
sock->sd,
&sock->socks_relay.dest,
&sig_info->signal_received);
if (sig_info->signal_received)
{
return;
}
sock->remote_host = sock->proxy_dest_host;
sock->remote_port = sock->proxy_dest_port;
addr_zero_host(&sock->info.lsa->actual.dest);
if (sock->info.lsa->remote_list)
{
freeaddrinfo(sock->info.lsa->remote_list);
sock->info.lsa->current_remote = NULL;
sock->info.lsa->remote_list = NULL;
}
resolve_remote(sock, 1, NULL, &sig_info->signal_received);
}
/* finalize socket initialization */
void
link_socket_init_phase2(struct link_socket *sock,
const struct frame *frame,
struct signal_info *sig_info)
{
const char *remote_dynamic = NULL;
int sig_save = 0;
ASSERT(sock);
ASSERT(sig_info);
if (sig_info->signal_received)
{
sig_save = sig_info->signal_received;
sig_info->signal_received = 0;
}
/* initialize buffers */
socket_frame_init(frame, sock);
/*
* Pass a remote name to connect/accept so that
* they can test for dynamic IP address changes
* and throw a SIGUSR1 if appropriate.
*/
if (sock->resolve_retry_seconds)
{
remote_dynamic = sock->remote_host;
}
/* were we started by inetd or xinetd? */
if (sock->inetd)
{
phase2_inetd(sock, frame, remote_dynamic, &sig_info->signal_received);
if (sig_info->signal_received)
{
goto done;
}
}
else
{
/* Second chance to resolv/create socket */
resolve_remote(sock, 2, &remote_dynamic, &sig_info->signal_received);
/* If a valid remote has been found, create the socket with its addrinfo */
if (sock->info.lsa->current_remote)
{
create_socket(sock, sock->info.lsa->current_remote);
}
/* If socket has not already been created create it now */
if (sock->sd == SOCKET_UNDEFINED)
{
/* If we have no --remote and have still not figured out the
* protocol family to use we will use the first of the bind */
if (sock->bind_local && !sock->remote_host && sock->info.lsa->bind_local)
{
/* Warn if this is because neither v4 or v6 was specified
* and we should not connect a remote */
if (sock->info.af == AF_UNSPEC)
{
msg(M_WARN, "Could not determine IPv4/IPv6 protocol. Using %s",
addr_family_name(sock->info.lsa->bind_local->ai_family));
sock->info.af = sock->info.lsa->bind_local->ai_family;
}
create_socket(sock, sock->info.lsa->bind_local);
}
}
/* Socket still undefined, give a warning and abort connection */
if (sock->sd == SOCKET_UNDEFINED)
{
msg(M_WARN, "Could not determine IPv4/IPv6 protocol");
sig_info->signal_received = SIGUSR1;
goto done;
}
if (sig_info->signal_received)
{
goto done;
}
if (sock->info.proto == PROTO_TCP_SERVER)
{
phase2_tcp_server(sock, remote_dynamic,
&sig_info->signal_received);
}
else if (sock->info.proto == PROTO_TCP_CLIENT)
{
phase2_tcp_client(sock, sig_info);
}
else if (sock->info.proto == PROTO_UDP && sock->socks_proxy)
{
phase2_socks_client(sock, sig_info);
}
#ifdef TARGET_ANDROID
if (sock->sd != -1)
{
protect_fd_nonlocal(sock->sd, &sock->info.lsa->actual.dest.addr.sa);
}
#endif
if (sig_info->signal_received)
{
goto done;
}
}
phase2_set_socket_flags(sock);
linksock_print_addr(sock);
done:
if (sig_save)
{
if (!sig_info->signal_received)
{
sig_info->signal_received = sig_save;
}
}
}
void
link_socket_close(struct link_socket *sock)
{
if (sock)
{
#ifdef ENABLE_DEBUG
const int gremlin = GREMLIN_CONNECTION_FLOOD_LEVEL(sock->gremlin);
#else
const int gremlin = 0;
#endif
if (socket_defined(sock->sd))
{
#ifdef _WIN32
close_net_event_win32(&sock->listen_handle, sock->sd, 0);
#endif
if (!gremlin)
{
msg(D_LOW, "TCP/UDP: Closing socket");
if (openvpn_close_socket(sock->sd))
{
msg(M_WARN | M_ERRNO, "TCP/UDP: Close Socket failed");
}
}
sock->sd = SOCKET_UNDEFINED;
#ifdef _WIN32
if (!gremlin)
{
overlapped_io_close(&sock->reads);
overlapped_io_close(&sock->writes);
}
#endif
}
if (socket_defined(sock->ctrl_sd))
{
if (openvpn_close_socket(sock->ctrl_sd))
{
msg(M_WARN | M_ERRNO, "TCP/UDP: Close Socket (ctrl_sd) failed");
}
sock->ctrl_sd = SOCKET_UNDEFINED;
}
stream_buf_close(&sock->stream_buf);
free_buf(&sock->stream_buf_data);
if (!gremlin)
{
free(sock);
}
}
}
/* for stream protocols, allow for packet length prefix */
void
socket_adjust_frame_parameters(struct frame *frame, int proto)
{
if (link_socket_proto_connection_oriented(proto))
{
frame_add_to_extra_frame(frame, sizeof(packet_size_type));
}
}
void
setenv_trusted(struct env_set *es, const struct link_socket_info *info)
{
setenv_link_socket_actual(es, "trusted", &info->lsa->actual, SA_IP_PORT);
}
static void
ipchange_fmt(const bool include_cmd, struct argv *argv, const struct link_socket_info *info, struct gc_arena *gc)
{
const char *host = print_sockaddr_ex(&info->lsa->actual.dest.addr.sa, " ", PS_SHOW_PORT, gc);
if (include_cmd)
{
argv_parse_cmd(argv, info->ipchange_command);
argv_printf_cat(argv, "%s", host);
}
else
{
argv_printf(argv, "%s", host);
}
}
void
link_socket_connection_initiated(struct link_socket_info *info,
const struct link_socket_actual *act,
const char *common_name,
struct env_set *es)
{
struct gc_arena gc = gc_new();
info->lsa->actual = *act; /* Note: skip this line for --force-dest */
setenv_trusted(es, info);
info->connection_established = true;
/* Print connection initiated message, with common name if available */
{
struct buffer out = alloc_buf_gc(256, &gc);
if (common_name)
{
buf_printf(&out, "[%s] ", common_name);
}
buf_printf(&out, "Peer Connection Initiated with %s", print_link_socket_actual(&info->lsa->actual, &gc));
msg(M_INFO, "%s", BSTR(&out));
}
/* set environmental vars */
setenv_str(es, "common_name", common_name);
/* Process --ipchange plugin */
if (plugin_defined(info->plugins, OPENVPN_PLUGIN_IPCHANGE))
{
struct argv argv = argv_new();
ipchange_fmt(false, &argv, info, &gc);
if (plugin_call(info->plugins, OPENVPN_PLUGIN_IPCHANGE, &argv, NULL, es) != OPENVPN_PLUGIN_FUNC_SUCCESS)
{
msg(M_WARN, "WARNING: ipchange plugin call failed");
}
argv_free(&argv);
}
/* Process --ipchange option */
if (info->ipchange_command)
{
struct argv argv = argv_new();
setenv_str(es, "script_type", "ipchange");
ipchange_fmt(true, &argv, info, &gc);
openvpn_run_script(&argv, es, 0, "--ipchange");
argv_free(&argv);
}
gc_free(&gc);
}
void
link_socket_bad_incoming_addr(struct buffer *buf,
const struct link_socket_info *info,
const struct link_socket_actual *from_addr)
{
struct gc_arena gc = gc_new();
struct addrinfo *ai;
switch (from_addr->dest.addr.sa.sa_family)
{
case AF_INET:
case AF_INET6:
msg(D_LINK_ERRORS,
"TCP/UDP: Incoming packet rejected from %s[%d], expected peer address: %s (allow this incoming source address/port by removing --remote or adding --float)",
print_link_socket_actual(from_addr, &gc),
(int)from_addr->dest.addr.sa.sa_family,
print_sockaddr_ex(info->lsa->remote_list->ai_addr,":",PS_SHOW_PORT, &gc));
/* print additional remote addresses */
for (ai = info->lsa->remote_list->ai_next; ai; ai = ai->ai_next)
{
msg(D_LINK_ERRORS,"or from peer address: %s",
print_sockaddr_ex(ai->ai_addr,":",PS_SHOW_PORT, &gc));
}
break;
}
buf->len = 0;
gc_free(&gc);
}
void
link_socket_bad_outgoing_addr(void)
{
dmsg(D_READ_WRITE, "TCP/UDP: No outgoing address to send packet");
}
in_addr_t
link_socket_current_remote(const struct link_socket_info *info)
{
const struct link_socket_addr *lsa = info->lsa;
/*
* This logic supports "redirect-gateway" semantic, which
* makes sense only for PF_INET routes over PF_INET endpoints
*
* Maybe in the future consider PF_INET6 endpoints also ...
* by now just ignore it
*
* For --remote entries with multiple addresses this
* only return the actual endpoint we have successfully connected to
*/
if (lsa->actual.dest.addr.sa.sa_family != AF_INET)
{
return IPV4_INVALID_ADDR;
}
if (link_socket_actual_defined(&lsa->actual))
{
return ntohl(lsa->actual.dest.addr.in4.sin_addr.s_addr);
}
else if (lsa->current_remote)
{
return ntohl(((struct sockaddr_in *)lsa->current_remote->ai_addr)
->sin_addr.s_addr);
}
else
{
return 0;
}
}
const struct in6_addr *
link_socket_current_remote_ipv6(const struct link_socket_info *info)
{
const struct link_socket_addr *lsa = info->lsa;
/* This logic supports "redirect-gateway" semantic,
* for PF_INET6 routes over PF_INET6 endpoints
*
* For --remote entries with multiple addresses this
* only return the actual endpoint we have successfully connected to
*/
if (lsa->actual.dest.addr.sa.sa_family != AF_INET6)
{
return NULL;
}
if (link_socket_actual_defined(&lsa->actual))
{
return &(lsa->actual.dest.addr.in6.sin6_addr);
}
else if (lsa->current_remote)
{
return &(((struct sockaddr_in6 *)lsa->current_remote->ai_addr)->sin6_addr);
}
else
{
return NULL;
}
}
/*
* Return a status string describing socket state.
*/
const char *
socket_stat(const struct link_socket *s, unsigned int rwflags, struct gc_arena *gc)
{
struct buffer out = alloc_buf_gc(64, gc);
if (s)
{
if (rwflags & EVENT_READ)
{
buf_printf(&out, "S%s",
(s->rwflags_debug & EVENT_READ) ? "R" : "r");
#ifdef _WIN32
buf_printf(&out, "%s",
overlapped_io_state_ascii(&s->reads));
#endif
}
if (rwflags & EVENT_WRITE)
{
buf_printf(&out, "S%s",
(s->rwflags_debug & EVENT_WRITE) ? "W" : "w");
#ifdef _WIN32
buf_printf(&out, "%s",
overlapped_io_state_ascii(&s->writes));
#endif
}
}
else
{
buf_printf(&out, "S?");
}
return BSTR(&out);
}
/*
* Stream buffer functions, used to packetize a TCP
* stream connection.
*/
static inline void
stream_buf_reset(struct stream_buf *sb)
{
dmsg(D_STREAM_DEBUG, "STREAM: RESET");
sb->residual_fully_formed = false;
sb->buf = sb->buf_init;
buf_reset(&sb->next);
sb->len = -1;
}
static void
stream_buf_init(struct stream_buf *sb,
struct buffer *buf,
const unsigned int sockflags,
const int proto)
{
sb->buf_init = *buf;
sb->maxlen = sb->buf_init.len;
sb->buf_init.len = 0;
sb->residual = alloc_buf(sb->maxlen);
sb->error = false;
#if PORT_SHARE
sb->port_share_state = ((sockflags & SF_PORT_SHARE) && (proto == PROTO_TCP_SERVER))
? PS_ENABLED
: PS_DISABLED;
#endif
stream_buf_reset(sb);
dmsg(D_STREAM_DEBUG, "STREAM: INIT maxlen=%d", sb->maxlen);
}
static inline void
stream_buf_set_next(struct stream_buf *sb)
{
/* set up 'next' for next i/o read */
sb->next = sb->buf;
sb->next.offset = sb->buf.offset + sb->buf.len;
sb->next.len = (sb->len >= 0 ? sb->len : sb->maxlen) - sb->buf.len;
dmsg(D_STREAM_DEBUG, "STREAM: SET NEXT, buf=[%d,%d] next=[%d,%d] len=%d maxlen=%d",
sb->buf.offset, sb->buf.len,
sb->next.offset, sb->next.len,
sb->len, sb->maxlen);
ASSERT(sb->next.len > 0);
ASSERT(buf_safe(&sb->buf, sb->next.len));
}
static inline void
stream_buf_get_final(struct stream_buf *sb, struct buffer *buf)
{
dmsg(D_STREAM_DEBUG, "STREAM: GET FINAL len=%d",
buf_defined(&sb->buf) ? sb->buf.len : -1);
ASSERT(buf_defined(&sb->buf));
*buf = sb->buf;
}
static inline void
stream_buf_get_next(struct stream_buf *sb, struct buffer *buf)
{
dmsg(D_STREAM_DEBUG, "STREAM: GET NEXT len=%d",
buf_defined(&sb->next) ? sb->next.len : -1);
ASSERT(buf_defined(&sb->next));
*buf = sb->next;
}
bool
stream_buf_read_setup_dowork(struct link_socket *sock)
{
if (sock->stream_buf.residual.len && !sock->stream_buf.residual_fully_formed)
{
ASSERT(buf_copy(&sock->stream_buf.buf, &sock->stream_buf.residual));
ASSERT(buf_init(&sock->stream_buf.residual, 0));
sock->stream_buf.residual_fully_formed = stream_buf_added(&sock->stream_buf, 0);
dmsg(D_STREAM_DEBUG, "STREAM: RESIDUAL FULLY FORMED [%s], len=%d",
sock->stream_buf.residual_fully_formed ? "YES" : "NO",
sock->stream_buf.residual.len);
}
if (!sock->stream_buf.residual_fully_formed)
{
stream_buf_set_next(&sock->stream_buf);
}
return !sock->stream_buf.residual_fully_formed;
}
static bool
stream_buf_added(struct stream_buf *sb,
int length_added)
{
dmsg(D_STREAM_DEBUG, "STREAM: ADD length_added=%d", length_added);
if (length_added > 0)
{
sb->buf.len += length_added;
}
/* if length unknown, see if we can get the length prefix from
* the head of the buffer */
if (sb->len < 0 && sb->buf.len >= (int) sizeof(packet_size_type))
{
packet_size_type net_size;
#if PORT_SHARE
if (sb->port_share_state == PS_ENABLED)
{
if (!is_openvpn_protocol(&sb->buf))
{
msg(D_STREAM_ERRORS, "Non-OpenVPN client protocol detected");
sb->port_share_state = PS_FOREIGN;
sb->error = true;
return false;
}
else
{
sb->port_share_state = PS_DISABLED;
}
}
#endif
ASSERT(buf_read(&sb->buf, &net_size, sizeof(net_size)));
sb->len = ntohps(net_size);
if (sb->len < 1 || sb->len > sb->maxlen)
{
msg(M_WARN, "WARNING: Bad encapsulated packet length from peer (%d), which must be > 0 and <= %d -- please ensure that --tun-mtu or --link-mtu is equal on both peers -- this condition could also indicate a possible active attack on the TCP link -- [Attempting restart...]", sb->len, sb->maxlen);
stream_buf_reset(sb);
sb->error = true;
return false;
}
}
/* is our incoming packet fully read? */
if (sb->len > 0 && sb->buf.len >= sb->len)
{
/* save any residual data that's part of the next packet */
ASSERT(buf_init(&sb->residual, 0));
if (sb->buf.len > sb->len)
{
ASSERT(buf_copy_excess(&sb->residual, &sb->buf, sb->len));
}
dmsg(D_STREAM_DEBUG, "STREAM: ADD returned TRUE, buf_len=%d, residual_len=%d",
BLEN(&sb->buf),
BLEN(&sb->residual));
return true;
}
else
{
dmsg(D_STREAM_DEBUG, "STREAM: ADD returned FALSE (have=%d need=%d)", sb->buf.len, sb->len);
stream_buf_set_next(sb);
return false;
}
}
static void
stream_buf_close(struct stream_buf *sb)
{
free_buf(&sb->residual);
}
/*
* The listen event is a special event whose sole purpose is
* to tell us that there's a new incoming connection on a
* TCP socket, for use in server mode.
*/
event_t
socket_listen_event_handle(struct link_socket *s)
{
#ifdef _WIN32
if (!defined_net_event_win32(&s->listen_handle))
{
init_net_event_win32(&s->listen_handle, FD_ACCEPT, s->sd, 0);
}
return &s->listen_handle;
#else /* ifdef _WIN32 */
return s->sd;
#endif
}
/*
* Format IP addresses in ascii
*/
const char *
print_sockaddr_ex(const struct sockaddr *sa,
const char *separator,
const unsigned int flags,
struct gc_arena *gc)
{
struct buffer out = alloc_buf_gc(128, gc);
bool addr_is_defined = false;
char hostaddr[NI_MAXHOST] = "";
char servname[NI_MAXSERV] = "";
int status;
socklen_t salen = 0;
switch (sa->sa_family)
{
case AF_INET:
if (!(flags & PS_DONT_SHOW_FAMILY))
{
buf_puts(&out, "[AF_INET]");
}
salen = sizeof(struct sockaddr_in);
addr_is_defined = ((struct sockaddr_in *) sa)->sin_addr.s_addr != 0;
break;
case AF_INET6:
if (!(flags & PS_DONT_SHOW_FAMILY))
{
buf_puts(&out, "[AF_INET6]");
}
salen = sizeof(struct sockaddr_in6);
addr_is_defined = !IN6_IS_ADDR_UNSPECIFIED(&((struct sockaddr_in6 *) sa)->sin6_addr);
break;
case AF_UNSPEC:
if (!(flags & PS_DONT_SHOW_FAMILY))
{
return "[AF_UNSPEC]";
}
else
{
return "";
}
default:
ASSERT(0);
}
status = getnameinfo(sa, salen, hostaddr, sizeof(hostaddr),
servname, sizeof(servname), NI_NUMERICHOST | NI_NUMERICSERV);
if (status!=0)
{
buf_printf(&out,"[nameinfo() err: %s]",gai_strerror(status));
return BSTR(&out);
}
if (!(flags & PS_DONT_SHOW_ADDR))
{
if (addr_is_defined)
{
buf_puts(&out, hostaddr);
}
else
{
buf_puts(&out, "[undef]");
}
}
if ((flags & PS_SHOW_PORT) || (flags & PS_SHOW_PORT_IF_DEFINED))
{
if (separator)
{
buf_puts(&out, separator);
}
buf_puts(&out, servname);
}
return BSTR(&out);
}
const char *
print_link_socket_actual(const struct link_socket_actual *act, struct gc_arena *gc)
{
return print_link_socket_actual_ex(act, ":", PS_SHOW_PORT|PS_SHOW_PKTINFO, gc);
}
#ifndef IF_NAMESIZE
#define IF_NAMESIZE 16
#endif
const char *
print_link_socket_actual_ex(const struct link_socket_actual *act,
const char *separator,
const unsigned int flags,
struct gc_arena *gc)
{
if (act)
{
char ifname[IF_NAMESIZE] = "[undef]";
struct buffer out = alloc_buf_gc(128, gc);
buf_printf(&out, "%s", print_sockaddr_ex(&act->dest.addr.sa, separator, flags, gc));
#if ENABLE_IP_PKTINFO
if ((flags & PS_SHOW_PKTINFO) && addr_defined_ipi(act))
{
switch (act->dest.addr.sa.sa_family)
{
case AF_INET:
{
struct openvpn_sockaddr sa;
CLEAR(sa);
sa.addr.in4.sin_family = AF_INET;
#if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST)
sa.addr.in4.sin_addr = act->pi.in4.ipi_spec_dst;
if_indextoname(act->pi.in4.ipi_ifindex, ifname);
#elif defined(IP_RECVDSTADDR)
sa.addr.in4.sin_addr = act->pi.in4;
ifname[0] = 0;
#else /* if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST) */
#error ENABLE_IP_PKTINFO is set without IP_PKTINFO xor IP_RECVDSTADDR (fix syshead.h)
#endif
buf_printf(&out, " (via %s%%%s)",
print_sockaddr_ex(&sa.addr.sa, separator, 0, gc),
ifname);
}
break;
case AF_INET6:
{
struct sockaddr_in6 sin6;
char buf[INET6_ADDRSTRLEN] = "[undef]";
CLEAR(sin6);
sin6.sin6_family = AF_INET6;
sin6.sin6_addr = act->pi.in6.ipi6_addr;
if_indextoname(act->pi.in6.ipi6_ifindex, ifname);
if (getnameinfo((struct sockaddr *)&sin6, sizeof(struct sockaddr_in6),
buf, sizeof(buf), NULL, 0, NI_NUMERICHOST) == 0)
{
buf_printf(&out, " (via %s%%%s)", buf, ifname);
}
else
{
buf_printf(&out, " (via [getnameinfo() err]%%%s)", ifname);
}
}
break;
}
}
#endif /* if ENABLE_IP_PKTINFO */
return BSTR(&out);
}
else
{
return "[NULL]";
}
}
/*
* Convert an in_addr_t in host byte order
* to an ascii dotted quad.
*/
const char *
print_in_addr_t(in_addr_t addr, unsigned int flags, struct gc_arena *gc)
{
struct in_addr ia;
struct buffer out = alloc_buf_gc(64, gc);
if (addr || !(flags & IA_EMPTY_IF_UNDEF))
{
CLEAR(ia);
ia.s_addr = (flags & IA_NET_ORDER) ? addr : htonl(addr);
buf_printf(&out, "%s", inet_ntoa(ia));
}
return BSTR(&out);
}
/*
* Convert an in6_addr in host byte order
* to an ascii representation of an IPv6 address
*/
const char *
print_in6_addr(struct in6_addr a6, unsigned int flags, struct gc_arena *gc)
{
struct buffer out = alloc_buf_gc(64, gc);
char tmp_out_buf[64]; /* inet_ntop wants pointer to buffer */
if (memcmp(&a6, &in6addr_any, sizeof(a6)) != 0
|| !(flags & IA_EMPTY_IF_UNDEF))
{
inet_ntop(AF_INET6, &a6, tmp_out_buf, sizeof(tmp_out_buf)-1);
buf_printf(&out, "%s", tmp_out_buf );
}
return BSTR(&out);
}
#ifndef UINT8_MAX
#define UINT8_MAX 0xff
#endif
/* add some offset to an ipv6 address
* (add in steps of 8 bits, taking overflow into next round)
*/
struct in6_addr
add_in6_addr( struct in6_addr base, uint32_t add )
{
int i;
for (i = 15; i>=0 && add > 0; i--)
{
register int carry;
register uint32_t h;
h = (unsigned char) base.s6_addr[i];
base.s6_addr[i] = (h+add) & UINT8_MAX;
/* using explicit carry for the 8-bit additions will catch
* 8-bit and(!) 32-bit overruns nicely
*/
carry = ((h & 0xff) + (add & 0xff)) >> 8;
add = (add>>8) + carry;
}
return base;
}
/* set environmental variables for ip/port in *addr */
void
setenv_sockaddr(struct env_set *es, const char *name_prefix, const struct openvpn_sockaddr *addr, const unsigned int flags)
{
char name_buf[256];
char buf[128];
switch (addr->addr.sa.sa_family)
{
case AF_INET:
if (flags & SA_IP_PORT)
{
openvpn_snprintf(name_buf, sizeof(name_buf), "%s_ip", name_prefix);
}
else
{
openvpn_snprintf(name_buf, sizeof(name_buf), "%s", name_prefix);
}
setenv_str(es, name_buf, inet_ntoa(addr->addr.in4.sin_addr));
if ((flags & SA_IP_PORT) && addr->addr.in4.sin_port)
{
openvpn_snprintf(name_buf, sizeof(name_buf), "%s_port", name_prefix);
setenv_int(es, name_buf, ntohs(addr->addr.in4.sin_port));
}
break;
case AF_INET6:
if (IN6_IS_ADDR_V4MAPPED( &addr->addr.in6.sin6_addr ))
{
struct in_addr ia;
memcpy(&ia.s_addr, &addr->addr.in6.sin6_addr.s6_addr[12],
sizeof(ia.s_addr));
openvpn_snprintf(name_buf, sizeof(name_buf), "%s_ip", name_prefix);
openvpn_snprintf(buf, sizeof(buf), "%s", inet_ntoa(ia) );
}
else
{
openvpn_snprintf(name_buf, sizeof(name_buf), "%s_ip6", name_prefix);
getnameinfo(&addr->addr.sa, sizeof(struct sockaddr_in6),
buf, sizeof(buf), NULL, 0, NI_NUMERICHOST);
}
setenv_str(es, name_buf, buf);
if ((flags & SA_IP_PORT) && addr->addr.in6.sin6_port)
{
openvpn_snprintf(name_buf, sizeof(name_buf), "%s_port", name_prefix);
setenv_int(es, name_buf, ntohs(addr->addr.in6.sin6_port));
}
break;
}
}
void
setenv_in_addr_t(struct env_set *es, const char *name_prefix, in_addr_t addr, const unsigned int flags)
{
if (addr || !(flags & SA_SET_IF_NONZERO))
{
struct openvpn_sockaddr si;
CLEAR(si);
si.addr.in4.sin_family = AF_INET;
si.addr.in4.sin_addr.s_addr = htonl(addr);
setenv_sockaddr(es, name_prefix, &si, flags);
}
}
void
setenv_in6_addr(struct env_set *es,
const char *name_prefix,
const struct in6_addr *addr,
const unsigned int flags)
{
if (!IN6_IS_ADDR_UNSPECIFIED(addr) || !(flags & SA_SET_IF_NONZERO))
{
struct openvpn_sockaddr si;
CLEAR(si);
si.addr.in6.sin6_family = AF_INET6;
si.addr.in6.sin6_addr = *addr;
setenv_sockaddr(es, name_prefix, &si, flags);
}
}
void
setenv_link_socket_actual(struct env_set *es,
const char *name_prefix,
const struct link_socket_actual *act,
const unsigned int flags)
{
setenv_sockaddr(es, name_prefix, &act->dest, flags);
}
/*
* Convert protocol names between index and ascii form.
*/
struct proto_names {
const char *short_form;
const char *display_form;
sa_family_t proto_af;
int proto;
};
/* Indexed by PROTO_x */
static const struct proto_names proto_names[] = {
{"proto-uninitialized", "proto-NONE", AF_UNSPEC, PROTO_NONE},
/* try IPv4 and IPv6 (client), bind dual-stack (server) */
{"udp", "UDP", AF_UNSPEC, PROTO_UDP},
{"tcp-server", "TCP_SERVER", AF_UNSPEC, PROTO_TCP_SERVER},
{"tcp-client", "TCP_CLIENT", AF_UNSPEC, PROTO_TCP_CLIENT},
{"tcp", "TCP", AF_UNSPEC, PROTO_TCP},
/* force IPv4 */
{"udp4", "UDPv4", AF_INET, PROTO_UDP},
{"tcp4-server","TCPv4_SERVER", AF_INET, PROTO_TCP_SERVER},
{"tcp4-client","TCPv4_CLIENT", AF_INET, PROTO_TCP_CLIENT},
{"tcp4", "TCPv4", AF_INET, PROTO_TCP},
/* force IPv6 */
{"udp6","UDPv6", AF_INET6, PROTO_UDP},
{"tcp6-server","TCPv6_SERVER", AF_INET6, PROTO_TCP_SERVER},
{"tcp6-client","TCPv6_CLIENT", AF_INET6, PROTO_TCP_CLIENT},
{"tcp6","TCPv6", AF_INET6, PROTO_TCP},
};
bool
proto_is_net(int proto)
{
if (proto < 0 || proto >= PROTO_N)
{
ASSERT(0);
}
return proto != PROTO_NONE;
}
bool
proto_is_dgram(int proto)
{
return proto_is_udp(proto);
}
bool
proto_is_udp(int proto)
{
if (proto < 0 || proto >= PROTO_N)
{
ASSERT(0);
}
return proto == PROTO_UDP;
}
bool
proto_is_tcp(int proto)
{
if (proto < 0 || proto >= PROTO_N)
{
ASSERT(0);
}
return proto == PROTO_TCP_CLIENT || proto == PROTO_TCP_SERVER;
}
int
ascii2proto(const char *proto_name)
{
int i;
for (i = 0; i < SIZE(proto_names); ++i)
{
if (!strcmp(proto_name, proto_names[i].short_form))
{
return proto_names[i].proto;
}
}
return -1;
}
sa_family_t
ascii2af(const char *proto_name)
{
int i;
for (i = 0; i < SIZE(proto_names); ++i)
{
if (!strcmp(proto_name, proto_names[i].short_form))
{
return proto_names[i].proto_af;
}
}
return 0;
}
const char *
proto2ascii(int proto, sa_family_t af, bool display_form)
{
unsigned int i;
for (i = 0; i < SIZE(proto_names); ++i)
{
if (proto_names[i].proto_af == af && proto_names[i].proto == proto)
{
if (display_form)
{
return proto_names[i].display_form;
}
else
{
return proto_names[i].short_form;
}
}
}
return "[unknown protocol]";
}
const char *
proto2ascii_all(struct gc_arena *gc)
{
struct buffer out = alloc_buf_gc(256, gc);
int i;
for (i = 0; i < SIZE(proto_names); ++i)
{
if (i)
{
buf_printf(&out, " ");
}
buf_printf(&out, "[%s]", proto_names[i].short_form);
}
return BSTR(&out);
}
const char *
addr_family_name(int af)
{
switch (af)
{
case AF_INET: return "AF_INET";
case AF_INET6: return "AF_INET6";
}
return "AF_UNSPEC";
}
/*
* Given a local proto, return local proto
* if !remote, or compatible remote proto
* if remote.
*
* This is used for options compatibility
* checking.
*
* IPv6 and IPv4 protocols are comptabile but OpenVPN
* has always sent UDPv4, TCPv4 over the wire. Keep these
* strings for backward compatibility
*/
const char *
proto_remote(int proto, bool remote)
{
ASSERT(proto >= 0 && proto < PROTO_N);
if (proto == PROTO_UDP)
{
return "UDPv4";
}
if ( (remote && proto == PROTO_TCP_CLIENT)
|| (!remote && proto == PROTO_TCP_SERVER))
{
return "TCPv4_SERVER";
}
if ( (remote && proto == PROTO_TCP_SERVER)
|| (!remote && proto == PROTO_TCP_CLIENT))
{
return "TCPv4_CLIENT";
}
ASSERT(0);
return ""; /* Make the compiler happy */
}
/*
* Bad incoming address lengths that differ from what
* we expect are considered to be fatal errors.
*/
void
bad_address_length(int actual, int expected)
{
msg(M_FATAL, "ERROR: received strange incoming packet with an address length of %d -- we only accept address lengths of %d.",
actual,
expected);
}
/*
* Socket Read Routines
*/
int
link_socket_read_tcp(struct link_socket *sock,
struct buffer *buf)
{
int len = 0;
if (!sock->stream_buf.residual_fully_formed)
{
#ifdef _WIN32
len = socket_finalize(sock->sd, &sock->reads, buf, NULL);
#else
struct buffer frag;
stream_buf_get_next(&sock->stream_buf, &frag);
len = recv(sock->sd, BPTR(&frag), BLEN(&frag), MSG_NOSIGNAL);
#endif
if (!len)
{
sock->stream_reset = true;
}
if (len <= 0)
{
return buf->len = len;
}
}
if (sock->stream_buf.residual_fully_formed
|| stream_buf_added(&sock->stream_buf, len)) /* packet complete? */
{
stream_buf_get_final(&sock->stream_buf, buf);
stream_buf_reset(&sock->stream_buf);
return buf->len;
}
else
{
return buf->len = 0; /* no error, but packet is still incomplete */
}
}
#ifndef _WIN32
#if ENABLE_IP_PKTINFO
/* make the buffer large enough to handle ancillary socket data for
* both IPv4 and IPv6 destination addresses, plus padding (see RFC 2292)
*/
#if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST)
#define PKTINFO_BUF_SIZE max_int( CMSG_SPACE(sizeof(struct in6_pktinfo)), \
CMSG_SPACE(sizeof(struct in_pktinfo)) )
#else
#define PKTINFO_BUF_SIZE max_int( CMSG_SPACE(sizeof(struct in6_pktinfo)), \
CMSG_SPACE(sizeof(struct in_addr)) )
#endif
static socklen_t
link_socket_read_udp_posix_recvmsg(struct link_socket *sock,
struct buffer *buf,
struct link_socket_actual *from)
{
struct iovec iov;
uint8_t pktinfo_buf[PKTINFO_BUF_SIZE];
struct msghdr mesg;
socklen_t fromlen = sizeof(from->dest.addr);
iov.iov_base = BPTR(buf);
iov.iov_len = buf_forward_capacity_total(buf);
mesg.msg_iov = &iov;
mesg.msg_iovlen = 1;
mesg.msg_name = &from->dest.addr;
mesg.msg_namelen = fromlen;
mesg.msg_control = pktinfo_buf;
mesg.msg_controllen = sizeof pktinfo_buf;
buf->len = recvmsg(sock->sd, &mesg, 0);
if (buf->len >= 0)
{
struct cmsghdr *cmsg;
fromlen = mesg.msg_namelen;
cmsg = CMSG_FIRSTHDR(&mesg);
if (cmsg != NULL
&& CMSG_NXTHDR(&mesg, cmsg) == NULL
#if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST)
&& cmsg->cmsg_level == SOL_IP
&& cmsg->cmsg_type == IP_PKTINFO
&& cmsg->cmsg_len >= CMSG_LEN(sizeof(struct in_pktinfo)) )
#elif defined(IP_RECVDSTADDR)
&& cmsg->cmsg_level == IPPROTO_IP
&& cmsg->cmsg_type == IP_RECVDSTADDR
&& cmsg->cmsg_len >= CMSG_LEN(sizeof(struct in_addr)) )
#else /* if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST) */
#error ENABLE_IP_PKTINFO is set without IP_PKTINFO xor IP_RECVDSTADDR (fix syshead.h)
#endif
{
#if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST)
struct in_pktinfo *pkti = (struct in_pktinfo *) CMSG_DATA(cmsg);
from->pi.in4.ipi_ifindex = pkti->ipi_ifindex;
from->pi.in4.ipi_spec_dst = pkti->ipi_spec_dst;
#elif defined(IP_RECVDSTADDR)
from->pi.in4 = *(struct in_addr *) CMSG_DATA(cmsg);
#else /* if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST) */
#error ENABLE_IP_PKTINFO is set without IP_PKTINFO xor IP_RECVDSTADDR (fix syshead.h)
#endif
}
else if (cmsg != NULL
&& CMSG_NXTHDR(&mesg, cmsg) == NULL
&& cmsg->cmsg_level == IPPROTO_IPV6
&& cmsg->cmsg_type == IPV6_PKTINFO
&& cmsg->cmsg_len >= CMSG_LEN(sizeof(struct in6_pktinfo)) )
{
struct in6_pktinfo *pkti6 = (struct in6_pktinfo *) CMSG_DATA(cmsg);
from->pi.in6.ipi6_ifindex = pkti6->ipi6_ifindex;
from->pi.in6.ipi6_addr = pkti6->ipi6_addr;
}
else if (cmsg != NULL)
{
msg(M_WARN, "CMSG received that cannot be parsed (cmsg_level=%d, cmsg_type=%d, cmsg=len=%d)", (int)cmsg->cmsg_level, (int)cmsg->cmsg_type, (int)cmsg->cmsg_len );
}
}
return fromlen;
}
#endif /* if ENABLE_IP_PKTINFO */
int
link_socket_read_udp_posix(struct link_socket *sock,
struct buffer *buf,
struct link_socket_actual *from)
{
socklen_t fromlen = sizeof(from->dest.addr);
socklen_t expectedlen = af_addr_size(sock->info.af);
addr_zero_host(&from->dest);
#if ENABLE_IP_PKTINFO
/* Both PROTO_UDPv4 and PROTO_UDPv6 */
if (sock->info.proto == PROTO_UDP && sock->sockflags & SF_USE_IP_PKTINFO)
{
fromlen = link_socket_read_udp_posix_recvmsg(sock, buf, from);
}
else
#endif
buf->len = recvfrom(sock->sd, BPTR(buf), buf_forward_capacity(buf), 0,
&from->dest.addr.sa, &fromlen);
/* FIXME: won't do anything when sock->info.af == AF_UNSPEC */
if (buf->len >= 0 && expectedlen && fromlen != expectedlen)
{
bad_address_length(fromlen, expectedlen);
}
return buf->len;
}
#endif /* ifndef _WIN32 */
/*
* Socket Write Routines
*/
int
link_socket_write_tcp(struct link_socket *sock,
struct buffer *buf,
struct link_socket_actual *to)
{
packet_size_type len = BLEN(buf);
dmsg(D_STREAM_DEBUG, "STREAM: WRITE %d offset=%d", (int)len, buf->offset);
ASSERT(len <= sock->stream_buf.maxlen);
len = htonps(len);
ASSERT(buf_write_prepend(buf, &len, sizeof(len)));
#ifdef _WIN32
return link_socket_write_win32(sock, buf, to);
#else
return link_socket_write_tcp_posix(sock, buf, to);
#endif
}
#if ENABLE_IP_PKTINFO
size_t
link_socket_write_udp_posix_sendmsg(struct link_socket *sock,
struct buffer *buf,
struct link_socket_actual *to)
{
struct iovec iov;
struct msghdr mesg;
struct cmsghdr *cmsg;
uint8_t pktinfo_buf[PKTINFO_BUF_SIZE];
iov.iov_base = BPTR(buf);
iov.iov_len = BLEN(buf);
mesg.msg_iov = &iov;
mesg.msg_iovlen = 1;
switch (to->dest.addr.sa.sa_family)
{
case AF_INET:
{
mesg.msg_name = &to->dest.addr.sa;
mesg.msg_namelen = sizeof(struct sockaddr_in);
mesg.msg_control = pktinfo_buf;
mesg.msg_flags = 0;
#if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST)
mesg.msg_controllen = CMSG_SPACE(sizeof(struct in_pktinfo));
cmsg = CMSG_FIRSTHDR(&mesg);
cmsg->cmsg_len = CMSG_LEN(sizeof(struct in_pktinfo));
cmsg->cmsg_level = SOL_IP;
cmsg->cmsg_type = IP_PKTINFO;
{
struct in_pktinfo *pkti;
pkti = (struct in_pktinfo *) CMSG_DATA(cmsg);
pkti->ipi_ifindex = to->pi.in4.ipi_ifindex;
pkti->ipi_spec_dst = to->pi.in4.ipi_spec_dst;
pkti->ipi_addr.s_addr = 0;
}
#elif defined(IP_RECVDSTADDR)
ASSERT( CMSG_SPACE(sizeof(struct in_addr)) <= sizeof(pktinfo_buf) );
mesg.msg_controllen = CMSG_SPACE(sizeof(struct in_addr));
cmsg = CMSG_FIRSTHDR(&mesg);
cmsg->cmsg_len = CMSG_LEN(sizeof(struct in_addr));
cmsg->cmsg_level = IPPROTO_IP;
cmsg->cmsg_type = IP_RECVDSTADDR;
*(struct in_addr *) CMSG_DATA(cmsg) = to->pi.in4;
#else /* if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST) */
#error ENABLE_IP_PKTINFO is set without IP_PKTINFO xor IP_RECVDSTADDR (fix syshead.h)
#endif /* if defined(HAVE_IN_PKTINFO) && defined(HAVE_IPI_SPEC_DST) */
break;
}
case AF_INET6:
{
struct in6_pktinfo *pkti6;
mesg.msg_name = &to->dest.addr.sa;
mesg.msg_namelen = sizeof(struct sockaddr_in6);
ASSERT( CMSG_SPACE(sizeof(struct in6_pktinfo)) <= sizeof(pktinfo_buf) );
mesg.msg_control = pktinfo_buf;
mesg.msg_controllen = CMSG_SPACE(sizeof(struct in6_pktinfo));
mesg.msg_flags = 0;
cmsg = CMSG_FIRSTHDR(&mesg);
cmsg->cmsg_len = CMSG_LEN(sizeof(struct in6_pktinfo));
cmsg->cmsg_level = IPPROTO_IPV6;
cmsg->cmsg_type = IPV6_PKTINFO;
pkti6 = (struct in6_pktinfo *) CMSG_DATA(cmsg);
pkti6->ipi6_ifindex = to->pi.in6.ipi6_ifindex;
pkti6->ipi6_addr = to->pi.in6.ipi6_addr;
break;
}
default: ASSERT(0);
}
return sendmsg(sock->sd, &mesg, 0);
}
#endif /* if ENABLE_IP_PKTINFO */
/*
* Win32 overlapped socket I/O functions.
*/
#ifdef _WIN32
int
socket_recv_queue(struct link_socket *sock, int maxsize)
{
if (sock->reads.iostate == IOSTATE_INITIAL)
{
WSABUF wsabuf[1];
int status;
/* reset buf to its initial state */
if (proto_is_udp(sock->info.proto))
{
sock->reads.buf = sock->reads.buf_init;
}
else if (proto_is_tcp(sock->info.proto))
{
stream_buf_get_next(&sock->stream_buf, &sock->reads.buf);
}
else
{
ASSERT(0);
}
/* Win32 docs say it's okay to allocate the wsabuf on the stack */
wsabuf[0].buf = BPTR(&sock->reads.buf);
wsabuf[0].len = maxsize ? maxsize : BLEN(&sock->reads.buf);
/* check for buffer overflow */
ASSERT(wsabuf[0].len <= BLEN(&sock->reads.buf));
/* the overlapped read will signal this event on I/O completion */
ASSERT(ResetEvent(sock->reads.overlapped.hEvent));
sock->reads.flags = 0;
if (proto_is_udp(sock->info.proto))
{
sock->reads.addr_defined = true;
sock->reads.addrlen = sizeof(sock->reads.addr6);
status = WSARecvFrom(
sock->sd,
wsabuf,
1,
&sock->reads.size,
&sock->reads.flags,
(struct sockaddr *) &sock->reads.addr,
&sock->reads.addrlen,
&sock->reads.overlapped,
NULL);
}
else if (proto_is_tcp(sock->info.proto))
{
sock->reads.addr_defined = false;
status = WSARecv(
sock->sd,
wsabuf,
1,
&sock->reads.size,
&sock->reads.flags,
&sock->reads.overlapped,
NULL);
}
else
{
status = 0;
ASSERT(0);
}
if (!status) /* operation completed immediately? */
{
/* FIXME: won't do anything when sock->info.af == AF_UNSPEC */
int af_len = af_addr_size(sock->info.af);
if (sock->reads.addr_defined && af_len && sock->reads.addrlen != af_len)
{
bad_address_length(sock->reads.addrlen, af_len);
}
sock->reads.iostate = IOSTATE_IMMEDIATE_RETURN;
/* since we got an immediate return, we must signal the event object ourselves */
ASSERT(SetEvent(sock->reads.overlapped.hEvent));
sock->reads.status = 0;
dmsg(D_WIN32_IO, "WIN32 I/O: Socket Receive immediate return [%d,%d]",
(int) wsabuf[0].len,
(int) sock->reads.size);
}
else
{
status = WSAGetLastError();
if (status == WSA_IO_PENDING) /* operation queued? */
{
sock->reads.iostate = IOSTATE_QUEUED;
sock->reads.status = status;
dmsg(D_WIN32_IO, "WIN32 I/O: Socket Receive queued [%d]",
(int) wsabuf[0].len);
}
else /* error occurred */
{
struct gc_arena gc = gc_new();
ASSERT(SetEvent(sock->reads.overlapped.hEvent));
sock->reads.iostate = IOSTATE_IMMEDIATE_RETURN;
sock->reads.status = status;
dmsg(D_WIN32_IO, "WIN32 I/O: Socket Receive error [%d]: %s",
(int) wsabuf[0].len,
strerror_win32(status, &gc));
gc_free(&gc);
}
}
}
return sock->reads.iostate;
}
int
socket_send_queue(struct link_socket *sock, struct buffer *buf, const struct link_socket_actual *to)
{
if (sock->writes.iostate == IOSTATE_INITIAL)
{
WSABUF wsabuf[1];
int status;
/* make a private copy of buf */
sock->writes.buf = sock->writes.buf_init;
sock->writes.buf.len = 0;
ASSERT(buf_copy(&sock->writes.buf, buf));
/* Win32 docs say it's okay to allocate the wsabuf on the stack */
wsabuf[0].buf = BPTR(&sock->writes.buf);
wsabuf[0].len = BLEN(&sock->writes.buf);
/* the overlapped write will signal this event on I/O completion */
ASSERT(ResetEvent(sock->writes.overlapped.hEvent));
sock->writes.flags = 0;
if (proto_is_udp(sock->info.proto))
{
/* set destination address for UDP writes */
sock->writes.addr_defined = true;
if (to->dest.addr.sa.sa_family == AF_INET6)
{
sock->writes.addr6 = to->dest.addr.in6;
sock->writes.addrlen = sizeof(sock->writes.addr6);
}
else
{
sock->writes.addr = to->dest.addr.in4;
sock->writes.addrlen = sizeof(sock->writes.addr);
}
status = WSASendTo(
sock->sd,
wsabuf,
1,
&sock->writes.size,
sock->writes.flags,
(struct sockaddr *) &sock->writes.addr,
sock->writes.addrlen,
&sock->writes.overlapped,
NULL);
}
else if (proto_is_tcp(sock->info.proto))
{
/* destination address for TCP writes was established on connection initiation */
sock->writes.addr_defined = false;
status = WSASend(
sock->sd,
wsabuf,
1,
&sock->writes.size,
sock->writes.flags,
&sock->writes.overlapped,
NULL);
}
else
{
status = 0;
ASSERT(0);
}
if (!status) /* operation completed immediately? */
{
sock->writes.iostate = IOSTATE_IMMEDIATE_RETURN;
/* since we got an immediate return, we must signal the event object ourselves */
ASSERT(SetEvent(sock->writes.overlapped.hEvent));
sock->writes.status = 0;
dmsg(D_WIN32_IO, "WIN32 I/O: Socket Send immediate return [%d,%d]",
(int) wsabuf[0].len,
(int) sock->writes.size);
}
else
{
status = WSAGetLastError();
if (status == WSA_IO_PENDING) /* operation queued? */
{
sock->writes.iostate = IOSTATE_QUEUED;
sock->writes.status = status;
dmsg(D_WIN32_IO, "WIN32 I/O: Socket Send queued [%d]",
(int) wsabuf[0].len);
}
else /* error occurred */
{
struct gc_arena gc = gc_new();
ASSERT(SetEvent(sock->writes.overlapped.hEvent));
sock->writes.iostate = IOSTATE_IMMEDIATE_RETURN;
sock->writes.status = status;
dmsg(D_WIN32_IO, "WIN32 I/O: Socket Send error [%d]: %s",
(int) wsabuf[0].len,
strerror_win32(status, &gc));
gc_free(&gc);
}
}
}
return sock->writes.iostate;
}
int
socket_finalize(SOCKET s,
struct overlapped_io *io,
struct buffer *buf,
struct link_socket_actual *from)
{
int ret = -1;
BOOL status;
switch (io->iostate)
{
case IOSTATE_QUEUED:
status = WSAGetOverlappedResult(
s,
&io->overlapped,
&io->size,
FALSE,
&io->flags
);
if (status)
{
/* successful return for a queued operation */
if (buf)
{
*buf = io->buf;
}
ret = io->size;
io->iostate = IOSTATE_INITIAL;
ASSERT(ResetEvent(io->overlapped.hEvent));
dmsg(D_WIN32_IO, "WIN32 I/O: Socket Completion success [%d]", ret);
}
else
{
/* error during a queued operation */
ret = -1;
if (WSAGetLastError() != WSA_IO_INCOMPLETE)
{
/* if no error (i.e. just not finished yet), then DON'T execute this code */
io->iostate = IOSTATE_INITIAL;
ASSERT(ResetEvent(io->overlapped.hEvent));
msg(D_WIN32_IO | M_ERRNO, "WIN32 I/O: Socket Completion error");
}
}
break;
case IOSTATE_IMMEDIATE_RETURN:
io->iostate = IOSTATE_INITIAL;
ASSERT(ResetEvent(io->overlapped.hEvent));
if (io->status)
{
/* error return for a non-queued operation */
WSASetLastError(io->status);
ret = -1;
msg(D_WIN32_IO | M_ERRNO, "WIN32 I/O: Socket Completion non-queued error");
}
else
{
/* successful return for a non-queued operation */
if (buf)
{
*buf = io->buf;
}
ret = io->size;
dmsg(D_WIN32_IO, "WIN32 I/O: Socket Completion non-queued success [%d]", ret);
}
break;
case IOSTATE_INITIAL: /* were we called without proper queueing? */
WSASetLastError(WSAEINVAL);
ret = -1;
dmsg(D_WIN32_IO, "WIN32 I/O: Socket Completion BAD STATE");
break;
default:
ASSERT(0);
}
/* return from address if requested */
if (from)
{
if (ret >= 0 && io->addr_defined)
{
/* TODO(jjo): streamline this mess */
/* in this func we don't have relevant info about the PF_ of this
* endpoint, as link_socket_actual will be zero for the 1st received packet
*
* Test for inets PF_ possible sizes
*/
switch (io->addrlen)
{
case sizeof(struct sockaddr_in):
case sizeof(struct sockaddr_in6):
/* TODO(jjo): for some reason (?) I'm getting 24,28 for AF_INET6
* under _WIN32*/
case sizeof(struct sockaddr_in6)-4:
break;
default:
bad_address_length(io->addrlen, af_addr_size(io->addr.sin_family));
}
switch (io->addr.sin_family)
{
case AF_INET:
from->dest.addr.in4 = io->addr;
break;
case AF_INET6:
from->dest.addr.in6 = io->addr6;
break;
}
}
else
{
CLEAR(from->dest.addr);
}
}
if (buf)
{
buf->len = ret;
}
return ret;
}
#endif /* _WIN32 */
/*
* Socket event notification
*/
unsigned int
socket_set(struct link_socket *s,
struct event_set *es,
unsigned int rwflags,
void *arg,
unsigned int *persistent)
{
if (s)
{
if ((rwflags & EVENT_READ) && !stream_buf_read_setup(s))
{
ASSERT(!persistent);
rwflags &= ~EVENT_READ;
}
#ifdef _WIN32
if (rwflags & EVENT_READ)
{
socket_recv_queue(s, 0);
}
#endif
/* if persistent is defined, call event_ctl only if rwflags has changed since last call */
if (!persistent || *persistent != rwflags)
{
event_ctl(es, socket_event_handle(s), rwflags, arg);
if (persistent)
{
*persistent = rwflags;
}
}
s->rwflags_debug = rwflags;
}
return rwflags;
}
void
sd_close(socket_descriptor_t *sd)
{
if (sd && socket_defined(*sd))
{
openvpn_close_socket(*sd);
*sd = SOCKET_UNDEFINED;
}
}
#if UNIX_SOCK_SUPPORT
/*
* code for unix domain sockets
*/
const char *
sockaddr_unix_name(const struct sockaddr_un *local, const char *null)
{
if (local && local->sun_family == PF_UNIX)
{
return local->sun_path;
}
else
{
return null;
}
}
socket_descriptor_t
create_socket_unix(void)
{
socket_descriptor_t sd;
if ((sd = socket(PF_UNIX, SOCK_STREAM, 0)) < 0)
{
msg(M_ERR, "Cannot create unix domain socket");
}
/* set socket file descriptor to not pass across execs, so that
* scripts don't have access to it */
set_cloexec(sd);
return sd;
}
void
socket_bind_unix(socket_descriptor_t sd,
struct sockaddr_un *local,
const char *prefix)
{
struct gc_arena gc = gc_new();
#ifdef HAVE_UMASK
const mode_t orig_umask = umask(0);
#endif
if (bind(sd, (struct sockaddr *) local, sizeof(struct sockaddr_un)))
{
msg(M_FATAL | M_ERRNO,
"%s: Socket bind[%d] failed on unix domain socket %s",
prefix,
(int)sd,
sockaddr_unix_name(local, "NULL"));
}
#ifdef HAVE_UMASK
umask(orig_umask);
#endif
gc_free(&gc);
}
socket_descriptor_t
socket_accept_unix(socket_descriptor_t sd,
struct sockaddr_un *remote)
{
socklen_t remote_len = sizeof(struct sockaddr_un);
socket_descriptor_t ret;
CLEAR(*remote);
ret = accept(sd, (struct sockaddr *) remote, &remote_len);
if (ret >= 0)
{
/* set socket file descriptor to not pass across execs, so that
* scripts don't have access to it */
set_cloexec(ret);
}
return ret;
}
int
socket_connect_unix(socket_descriptor_t sd,
struct sockaddr_un *remote)
{
int status = connect(sd, (struct sockaddr *) remote, sizeof(struct sockaddr_un));
if (status)
{
status = openvpn_errno();
}
return status;
}
void
sockaddr_unix_init(struct sockaddr_un *local, const char *path)
{
local->sun_family = PF_UNIX;
strncpynt(local->sun_path, path, sizeof(local->sun_path));
}
void
socket_delete_unix(const struct sockaddr_un *local)
{
const char *name = sockaddr_unix_name(local, NULL);
#ifdef HAVE_UNLINK
if (name && strlen(name))
{
unlink(name);
}
#endif
}
bool
unix_socket_get_peer_uid_gid(const socket_descriptor_t sd, int *uid, int *gid)
{
#ifdef HAVE_GETPEEREID
uid_t u;
gid_t g;
if (getpeereid(sd, &u, &g) == -1)
{
return false;
}
if (uid)
{
*uid = u;
}
if (gid)
{
*gid = g;
}
return true;
#elif defined(SO_PEERCRED)
struct ucred peercred;
socklen_t so_len = sizeof(peercred);
if (getsockopt(sd, SOL_SOCKET, SO_PEERCRED, &peercred, &so_len) == -1)
{
return false;
}
if (uid)
{
*uid = peercred.uid;
}
if (gid)
{
*gid = peercred.gid;
}
return true;
#else /* ifdef HAVE_GETPEEREID */
return false;
#endif /* ifdef HAVE_GETPEEREID */
}
#endif /* if UNIX_SOCK_SUPPORT */
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