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udp_engine.cpp
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/* SPDX-License-Identifier: MPL-2.0 */
#include "precompiled.hpp"
#if !defined ZMQ_HAVE_WINDOWS
#include <sys/types.h>
#include <unistd.h>
#include <sys/socket.h>
#include <netinet/in.h>
#include <arpa/inet.h>
#ifdef ZMQ_HAVE_VXWORKS
#include <sockLib.h>
#endif
#endif
#include "udp_address.hpp"
#include "udp_engine.hpp"
#include "session_base.hpp"
#include "err.hpp"
#include "ip.hpp"
// OSX uses a different name for this socket option
#ifndef IPV6_ADD_MEMBERSHIP
#define IPV6_ADD_MEMBERSHIP IPV6_JOIN_GROUP
#endif
#ifdef __APPLE__
#include <TargetConditionals.h>
#endif
zmq::udp_engine_t::udp_engine_t (const options_t &options_) :
_plugged (false),
_fd (-1),
_session (NULL),
_handle (static_cast<handle_t> (NULL)),
_address (NULL),
_options (options_),
_send_enabled (false),
_recv_enabled (false)
{
}
zmq::udp_engine_t::~udp_engine_t ()
{
zmq_assert (!_plugged);
if (_fd != retired_fd) {
#ifdef ZMQ_HAVE_WINDOWS
const int rc = closesocket (_fd);
wsa_assert (rc != SOCKET_ERROR);
#else
int rc = close (_fd);
errno_assert (rc == 0);
#endif
_fd = retired_fd;
}
}
int zmq::udp_engine_t::init (address_t *address_, bool send_, bool recv_)
{
zmq_assert (address_);
zmq_assert (send_ || recv_);
_send_enabled = send_;
_recv_enabled = recv_;
_address = address_;
_fd = open_socket (_address->resolved.udp_addr->family (), SOCK_DGRAM,
IPPROTO_UDP);
if (_fd == retired_fd)
return -1;
unblock_socket (_fd);
return 0;
}
void zmq::udp_engine_t::plug (io_thread_t *io_thread_, session_base_t *session_)
{
zmq_assert (!_plugged);
_plugged = true;
zmq_assert (!_session);
zmq_assert (session_);
_session = session_;
// Connect to I/O threads poller object.
io_object_t::plug (io_thread_);
_handle = add_fd (_fd);
const udp_address_t *const udp_addr = _address->resolved.udp_addr;
int rc = 0;
// Bind the socket to a device if applicable
if (!_options.bound_device.empty ()) {
rc = rc | bind_to_device (_fd, _options.bound_device);
if (rc != 0) {
assert_success_or_recoverable (_fd, rc);
error (connection_error);
return;
}
}
if (_send_enabled) {
if (!_options.raw_socket) {
const ip_addr_t *out = udp_addr->target_addr ();
_out_address = out->as_sockaddr ();
_out_address_len = out->sockaddr_len ();
if (out->is_multicast ()) {
const bool is_ipv6 = (out->family () == AF_INET6);
rc = rc
| set_udp_multicast_loop (_fd, is_ipv6,
_options.multicast_loop);
if (_options.multicast_hops > 0) {
rc = rc
| set_udp_multicast_ttl (_fd, is_ipv6,
_options.multicast_hops);
}
rc = rc | set_udp_multicast_iface (_fd, is_ipv6, udp_addr);
}
} else {
/// XXX fixme ?
_out_address = reinterpret_cast<sockaddr *> (&_raw_address);
_out_address_len =
static_cast<zmq_socklen_t> (sizeof (sockaddr_in));
}
}
if (_recv_enabled) {
rc = rc | set_udp_reuse_address (_fd, true);
const ip_addr_t *bind_addr = udp_addr->bind_addr ();
ip_addr_t any = ip_addr_t::any (bind_addr->family ());
const ip_addr_t *real_bind_addr;
const bool multicast = udp_addr->is_mcast ();
if (multicast) {
// Multicast addresses should be allowed to bind to more than
// one port as all ports should receive the message
rc = rc | set_udp_reuse_port (_fd, true);
// In multicast we should bind ANY and use the mreq struct to
// specify the interface
any.set_port (bind_addr->port ());
real_bind_addr = &any;
} else {
real_bind_addr = bind_addr;
}
if (rc != 0) {
error (protocol_error);
return;
}
#ifdef ZMQ_HAVE_VXWORKS
rc = rc
| bind (_fd, (sockaddr *) real_bind_addr->as_sockaddr (),
real_bind_addr->sockaddr_len ());
#else
rc = rc
| bind (_fd, real_bind_addr->as_sockaddr (),
real_bind_addr->sockaddr_len ());
#endif
if (rc != 0) {
assert_success_or_recoverable (_fd, rc);
error (protocol_error);
return;
}
if (multicast) {
rc = rc | add_membership (_fd, udp_addr);
}
}
if (rc != 0) {
error (protocol_error);
} else {
if (_send_enabled) {
set_pollout (_handle);
}
if (_recv_enabled) {
set_pollin (_handle);
// Call restart output to drop all join/leave commands
restart_output ();
}
}
}
int zmq::udp_engine_t::set_udp_multicast_loop (fd_t s_,
bool is_ipv6_,
bool loop_)
{
int level;
int optname;
if (is_ipv6_) {
level = IPPROTO_IPV6;
optname = IPV6_MULTICAST_LOOP;
} else {
level = IPPROTO_IP;
optname = IP_MULTICAST_LOOP;
}
int loop = loop_ ? 1 : 0;
const int rc = setsockopt (s_, level, optname,
reinterpret_cast<char *> (&loop), sizeof (loop));
assert_success_or_recoverable (s_, rc);
return rc;
}
int zmq::udp_engine_t::set_udp_multicast_ttl (fd_t s_, bool is_ipv6_, int hops_)
{
int level;
if (is_ipv6_) {
level = IPPROTO_IPV6;
} else {
level = IPPROTO_IP;
}
const int rc =
setsockopt (s_, level, IP_MULTICAST_TTL,
reinterpret_cast<char *> (&hops_), sizeof (hops_));
assert_success_or_recoverable (s_, rc);
return rc;
}
int zmq::udp_engine_t::set_udp_multicast_iface (fd_t s_,
bool is_ipv6_,
const udp_address_t *addr_)
{
int rc = 0;
if (is_ipv6_) {
int bind_if = addr_->bind_if ();
if (bind_if > 0) {
// If a bind interface is provided we tell the
// kernel to use it to send multicast packets
rc = setsockopt (s_, IPPROTO_IPV6, IPV6_MULTICAST_IF,
reinterpret_cast<char *> (&bind_if),
sizeof (bind_if));
}
} else {
struct in_addr bind_addr = addr_->bind_addr ()->ipv4.sin_addr;
if (bind_addr.s_addr != INADDR_ANY) {
rc = setsockopt (s_, IPPROTO_IP, IP_MULTICAST_IF,
reinterpret_cast<char *> (&bind_addr),
sizeof (bind_addr));
}
}
assert_success_or_recoverable (s_, rc);
return rc;
}
int zmq::udp_engine_t::set_udp_reuse_address (fd_t s_, bool on_)
{
int on = on_ ? 1 : 0;
const int rc = setsockopt (s_, SOL_SOCKET, SO_REUSEADDR,
reinterpret_cast<char *> (&on), sizeof (on));
assert_success_or_recoverable (s_, rc);
return rc;
}
int zmq::udp_engine_t::set_udp_reuse_port (fd_t s_, bool on_)
{
#ifndef SO_REUSEPORT
return 0;
#else
int on = on_ ? 1 : 0;
int rc = setsockopt (s_, SOL_SOCKET, SO_REUSEPORT,
reinterpret_cast<char *> (&on), sizeof (on));
assert_success_or_recoverable (s_, rc);
return rc;
#endif
}
int zmq::udp_engine_t::add_membership (fd_t s_, const udp_address_t *addr_)
{
const ip_addr_t *mcast_addr = addr_->target_addr ();
int rc = 0;
if (mcast_addr->family () == AF_INET) {
struct ip_mreq mreq;
mreq.imr_multiaddr = mcast_addr->ipv4.sin_addr;
mreq.imr_interface = addr_->bind_addr ()->ipv4.sin_addr;
rc = setsockopt (s_, IPPROTO_IP, IP_ADD_MEMBERSHIP,
reinterpret_cast<char *> (&mreq), sizeof (mreq));
} else if (mcast_addr->family () == AF_INET6) {
struct ipv6_mreq mreq;
const int iface = addr_->bind_if ();
zmq_assert (iface >= -1);
mreq.ipv6mr_multiaddr = mcast_addr->ipv6.sin6_addr;
mreq.ipv6mr_interface = iface;
rc = setsockopt (s_, IPPROTO_IPV6, IPV6_ADD_MEMBERSHIP,
reinterpret_cast<char *> (&mreq), sizeof (mreq));
}
assert_success_or_recoverable (s_, rc);
return rc;
}
void zmq::udp_engine_t::error (error_reason_t reason_)
{
zmq_assert (_session);
_session->engine_error (false, reason_);
terminate ();
}
void zmq::udp_engine_t::terminate ()
{
zmq_assert (_plugged);
_plugged = false;
rm_fd (_handle);
// Disconnect from I/O threads poller object.
io_object_t::unplug ();
delete this;
}
void zmq::udp_engine_t::sockaddr_to_msg (zmq::msg_t *msg_,
const sockaddr_in *addr_)
{
const char *const name = inet_ntoa (addr_->sin_addr);
char port[6];
const int port_len =
snprintf (port, 6, "%d", static_cast<int> (ntohs (addr_->sin_port)));
zmq_assert (port_len > 0 && port_len < 6);
const size_t name_len = strlen (name);
const int size = static_cast<int> (name_len) + 1 /* colon */
+ port_len + 1; // terminating NUL
const int rc = msg_->init_size (size);
errno_assert (rc == 0);
msg_->set_flags (msg_t::more);
// use memcpy instead of strcpy/strcat, since this is more efficient when
// we already know the lengths, which we calculated above
char *address = static_cast<char *> (msg_->data ());
memcpy (address, name, name_len);
address += name_len;
*address++ = ':';
memcpy (address, port, static_cast<size_t> (port_len));
address += port_len;
*address = 0;
}
int zmq::udp_engine_t::resolve_raw_address (const char *name_, size_t length_)
{
memset (&_raw_address, 0, sizeof _raw_address);
const char *delimiter = NULL;
// Find delimiter, cannot use memrchr as it is not supported on windows
if (length_ != 0) {
int chars_left = static_cast<int> (length_);
const char *current_char = name_ + length_;
do {
if (*(--current_char) == ':') {
delimiter = current_char;
break;
}
} while (--chars_left != 0);
}
if (!delimiter) {
errno = EINVAL;
return -1;
}
const std::string addr_str (name_, delimiter - name_);
const std::string port_str (delimiter + 1, name_ + length_ - delimiter - 1);
// Parse the port number (0 is not a valid port).
const uint16_t port = static_cast<uint16_t> (atoi (port_str.c_str ()));
if (port == 0) {
errno = EINVAL;
return -1;
}
_raw_address.sin_family = AF_INET;
_raw_address.sin_port = htons (port);
_raw_address.sin_addr.s_addr = inet_addr (addr_str.c_str ());
if (_raw_address.sin_addr.s_addr == INADDR_NONE) {
errno = EINVAL;
return -1;
}
return 0;
}
void zmq::udp_engine_t::out_event ()
{
msg_t group_msg;
int rc = _session->pull_msg (&group_msg);
errno_assert (rc == 0 || (rc == -1 && errno == EAGAIN));
if (rc == 0) {
msg_t body_msg;
rc = _session->pull_msg (&body_msg);
// If there's a group, there should also be a body
errno_assert (rc == 0);
const size_t group_size = group_msg.size ();
const size_t body_size = body_msg.size ();
size_t size;
if (_options.raw_socket) {
rc = resolve_raw_address (static_cast<char *> (group_msg.data ()),
group_size);
// We discard the message if address is not valid
if (rc != 0) {
rc = group_msg.close ();
errno_assert (rc == 0);
rc = body_msg.close ();
errno_assert (rc == 0);
return;
}
size = body_size;
memcpy (_out_buffer, body_msg.data (), body_size);
} else {
size = group_size + body_size + 1;
// TODO: check if larger than maximum size
_out_buffer[0] = static_cast<unsigned char> (group_size);
memcpy (_out_buffer + 1, group_msg.data (), group_size);
memcpy (_out_buffer + 1 + group_size, body_msg.data (), body_size);
}
rc = group_msg.close ();
errno_assert (rc == 0);
body_msg.close ();
errno_assert (rc == 0);
#ifdef ZMQ_HAVE_WINDOWS
rc = sendto (_fd, _out_buffer, static_cast<int> (size), 0, _out_address,
_out_address_len);
#elif defined ZMQ_HAVE_VXWORKS
rc = sendto (_fd, reinterpret_cast<caddr_t> (_out_buffer), size, 0,
(sockaddr *) _out_address, _out_address_len);
#else
rc = sendto (_fd, _out_buffer, size, 0, _out_address, _out_address_len);
#endif
if (rc < 0) {
#ifdef ZMQ_HAVE_WINDOWS
if (WSAGetLastError () != WSAEWOULDBLOCK) {
assert_success_or_recoverable (_fd, rc);
error (connection_error);
}
#else
if (rc != EWOULDBLOCK) {
assert_success_or_recoverable (_fd, rc);
error (connection_error);
}
#endif
}
} else {
reset_pollout (_handle);
}
}
const zmq::endpoint_uri_pair_t &zmq::udp_engine_t::get_endpoint () const
{
return _empty_endpoint;
}
void zmq::udp_engine_t::restart_output ()
{
// If we don't support send we just drop all messages
if (!_send_enabled) {
msg_t msg;
while (_session->pull_msg (&msg) == 0)
msg.close ();
} else {
set_pollout (_handle);
out_event ();
}
}
void zmq::udp_engine_t::in_event ()
{
sockaddr_storage in_address;
zmq_socklen_t in_addrlen =
static_cast<zmq_socklen_t> (sizeof (sockaddr_storage));
const int nbytes =
recvfrom (_fd, _in_buffer, MAX_UDP_MSG, 0,
reinterpret_cast<sockaddr *> (&in_address), &in_addrlen);
if (nbytes < 0) {
#ifdef ZMQ_HAVE_WINDOWS
if (WSAGetLastError () != WSAEWOULDBLOCK) {
assert_success_or_recoverable (_fd, nbytes);
error (connection_error);
}
#else
if (nbytes != EWOULDBLOCK) {
assert_success_or_recoverable (_fd, nbytes);
error (connection_error);
}
#endif
return;
}
int rc;
int body_size;
int body_offset;
msg_t msg;
if (_options.raw_socket) {
zmq_assert (in_address.ss_family == AF_INET);
sockaddr_to_msg (&msg, reinterpret_cast<sockaddr_in *> (&in_address));
body_size = nbytes;
body_offset = 0;
} else {
// TODO in out_event, the group size is an *unsigned* char. what is
// the maximum value?
const char *group_buffer = _in_buffer + 1;
const int group_size = _in_buffer[0];
rc = msg.init_size (group_size);
errno_assert (rc == 0);
msg.set_flags (msg_t::more);
memcpy (msg.data (), group_buffer, group_size);
// This doesn't fit, just ignore
if (nbytes - 1 < group_size)
return;
body_size = nbytes - 1 - group_size;
body_offset = 1 + group_size;
}
// Push group description to session
rc = _session->push_msg (&msg);
errno_assert (rc == 0 || (rc == -1 && errno == EAGAIN));
// Group description message doesn't fit in the pipe, drop
if (rc != 0) {
rc = msg.close ();
errno_assert (rc == 0);
reset_pollin (_handle);
return;
}
rc = msg.close ();
errno_assert (rc == 0);
rc = msg.init_size (body_size);
errno_assert (rc == 0);
memcpy (msg.data (), _in_buffer + body_offset, body_size);
// Push message body to session
rc = _session->push_msg (&msg);
// Message body doesn't fit in the pipe, drop and reset session state
if (rc != 0) {
rc = msg.close ();
errno_assert (rc == 0);
_session->reset ();
reset_pollin (_handle);
return;
}
rc = msg.close ();
errno_assert (rc == 0);
_session->flush ();
}
bool zmq::udp_engine_t::restart_input ()
{
if (_recv_enabled) {
set_pollin (_handle);
in_event ();
}
return true;
}