/*
* Copyright (c), Zeriph Enterprises
* All rights reserved.
*
* Contributor(s):
* Zechariah Perez, omni (at) zeriph (dot) com
*
* THIS SOFTWARE IS PROVIDED BY ZERIPH AND CONTRIBUTORS "AS IS" AND ANY
* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL ZERIPH AND CONTRIBUTORS BE LIABLE FOR ANY
* DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
* LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
* ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
* SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <omni/net/endpoint_descriptor.hpp>
#include <omni/net/util.hpp>
#include <omni/defs/debug.hpp>
#if defined(OMNI_SAFE_SOCKET_EP)
#define OMNI_SAFE_SOCKEPMTX_FW ,m_mtx()
#define OMNI_SAFE_SOCKEPLOCK_FW this->m_mtx.lock();
#define OMNI_SAFE_SOCKEPUNLOCK_FW this->m_mtx.unlock();
#define OMNI_SAFE_SOCKEPALOCK_FW omni::sync::scoped_basic_lock uuid12345(&this->m_mtx);
#define OMNI_SAFE_SOCKEPOALOCK_FW(o) omni::sync::scoped_basic_lock uuid54321(&o.m_mtx);
#else
#define OMNI_SAFE_SOCKEPMTX_FW
#define OMNI_SAFE_SOCKEPLOCK_FW
#define OMNI_SAFE_SOCKEPUNLOCK_FW
#define OMNI_SAFE_SOCKEPALOCK_FW
#define OMNI_SAFE_SOCKEPOALOCK_FW(o)
#endif
omni::net::socket_error omni::net::endpoint_descriptor::_close(uint16_t timeout,
bool shutdown)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (
this->m_connected) {
if (timeout >
0) {
struct linger lop;
lop.l_onoff =
1;
lop.l_linger = timeout;
if (::setsockopt(
this->m_socket, SOL_SOCKET, SO_LINGER,
reinterpret_cast<
char*>(&lop),
sizeof(
struct linger)) !=
0) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
}
if (shutdown && (
this->shutdown(
omni::net::socket_shutdown::BOTH) !=
omni::net::socket_error::SUCCESS)) {
OMNI_DBGE(
"could not shutdown the socket")
return this->m_last_err;
}
if (OMNI_SOCKET_CLOSE_FW(
this->m_socket) !=
0) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
if (shutdown) {
this->m_socket =
OMNI_INVALID_SOCKET;
std::memset(&
this->m_addr,
0,
sizeof(
this->m_addr));
}
this->m_connected =
false;
this->m_last_err =
omni::net::socket_error::SUCCESS;
}
else {
this->m_last_err =
omni::net::socket_error::NOT_CONNECTED;
}
return this->m_last_err;
}
omni::net::endpoint_descriptor::endpoint_descriptor() :
OMNI_CTOR_FW(
omni::net::endpoint_descriptor)
m_socket(
OMNI_INVALID_SOCKET), m_addr(), m_last_err(
omni::net::socket_error::UNSPECIFIED),
m_connected(), m_shut()
OMNI_SAFE_SOCKEPMTX_FW
{
}
omni::net::endpoint_descriptor::endpoint_descriptor(
const omni::net::endpoint_descriptor& cp) :
OMNI_CTOR_FW(
omni::net::endpoint_descriptor)
m_socket(
OMNI_INVALID_SOCKET), m_addr(), m_last_err(
omni::net::socket_error::UNSPECIFIED),
m_connected(), m_shut()
OMNI_SAFE_SOCKEPMTX_FW
{
this->swap(*
const_cast<
omni::net::endpoint_descriptor*>(&cp));
}
omni::net::endpoint_descriptor::~endpoint_descriptor()
{
OMNI_TRY_FW
if (
this->close() !=
omni::net::socket_error::SUCCESS) {
OMNI_D1_FW(
"error closing socket");
}
OMNI_DTOR_FW
OMNI_CATCH_FW
OMNI_D5_FW(
"destroyed");
}
uint32_t
omni::net::endpoint_descriptor::endpoint()
const
{
OMNI_SAFE_SOCKEPALOCK_FW
return static_cast<uint32_t>(
this->m_addr.sin_addr.s_addr);
}
uint16_t
omni::net::endpoint_descriptor::port()
const
{
OMNI_SAFE_SOCKEPALOCK_FW
return static_cast<uint16_t>(
this->m_addr.sin_port);
}
omni::net::socket_t omni::net::endpoint_descriptor::native_handle()
const
{
OMNI_SAFE_SOCKEPALOCK_FW
return this->m_socket;
}
bool omni::net::endpoint_descriptor::is_connected()
const
{
OMNI_SAFE_SOCKEPALOCK_FW
return this->m_connected;
}
bool omni::net::endpoint_descriptor::is_shutdown()
const
{
OMNI_SAFE_SOCKEPALOCK_FW
return this->m_shut;
}
omni::net::socket_error omni::net::endpoint_descriptor::last_error()
const
{
OMNI_SAFE_SOCKEPALOCK_FW
return this->m_last_err;
}
omni::net::socket_error omni::net::endpoint_descriptor::connect(
const omni::net::socket_t& serv_sock)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (
this->m_connected) {
return (
this->m_last_err =
omni::net::socket_error::IS_CONNECTED);
}
OMNI_SOCKLEN_FW out_len =
sizeof(
this->m_addr);
this->m_socket = OMNI_SOCKET_ACCEPT_FW(serv_sock,
reinterpret_cast<
omni::net::sockaddr_t*>(&(
this->m_addr)), &out_len);
if (
this->m_socket ==
OMNI_INVALID_SOCKET) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
this->m_connected =
true;
this->m_shut =
false;
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
omni::net::socket_error omni::net::endpoint_descriptor::close()
{
return this->close(
0);
}
omni::net::socket_error omni::net::endpoint_descriptor::close(uint16_t timeout)
{
return this->_close(timeout,
false);
}
omni::net::socket_error omni::net::endpoint_descriptor::ioc(uint32_t op_code,
omni::net::xfr_t* val, int32_t& result)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (!
this->m_connected) {
return (
this->m_last_err =
omni::net::socket_error::NOT_CONNECTED);
}
#if defined(OMNI_OS_WIN)
result = ::ioctlsocket(
this->m_socket,
static_cast<
long>(op_code),
reinterpret_cast<u_long*>(val));
#else
result = ::ioctl(
this->m_socket,
static_cast<
unsigned long>(op_code), val);
#endif
if (result == OMNI_SOCK_SYSERR_FW) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
omni::net::socket_error omni::net::endpoint_descriptor::get_socket_option(
omni::net::socket_option_level op_level, int32_t op_name, int32_t& op_val)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (!
this->m_connected) {
return (
this->m_last_err =
omni::net::socket_error::NOT_CONNECTED);
}
int err =
0;
OMNI_SOCKLEN_FW sz;
if ((op_level.value() ==
omni::net::socket_option_level::SOCKET) &&
((op_name ==
omni::net::socket_option::LINGER) || (op_name ==
omni::net::socket_option::DONT_LINGER)))
{
struct linger lop;
std::memset(&lop,
0,
sizeof(
struct linger));
sz =
static_cast<OMNI_SOCKLEN_FW>(
sizeof(
struct linger));
err = ::getsockopt(
this->m_socket,
static_cast<
int>(op_level),
static_cast<
int>(
omni::net::socket_option::LINGER),
reinterpret_cast<OMNI_SOCKET_XFR_T_FW*>(&lop),
&sz);
if (err ==
0) { op_val =
static_cast<int32_t>(lop.l_linger); }
}
else {
OMNI_SOCKET_XFR_T_FW* val =
reinterpret_cast<OMNI_SOCKET_XFR_T_FW*>(&op_val);
sz =
static_cast<OMNI_SOCKLEN_FW>(
sizeof(val));
err = ::getsockopt(
this->m_socket,
static_cast<
int>(op_level),
static_cast<
int>(op_name), val, &sz);
if (err ==
0) { op_val = *(
reinterpret_cast<int32_t*>(val)); }
}
if (err !=
0) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW)); }
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
omni::net::socket_error omni::net::endpoint_descriptor::get_socket_option(
omni::net::socket_option_level op_level,
omni::net::socket_option op_name, int32_t& op_val)
{
return this->get_socket_option(op_level,
static_cast<int32_t>(op_name.value()), op_val);
}
omni::net::socket_error omni::net::endpoint_descriptor::get_socket_option(
omni::net::socket_option_level op_level,
omni::net::tcp_option op_name, int32_t& op_val)
{
return this->get_socket_option(op_level,
static_cast<int32_t>(op_name.value()), op_val);
}
omni::net::socket_error omni::net::endpoint_descriptor::shutdown(
omni::net::socket_shutdown how)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (!
this->m_connected) {
return (
this->m_last_err =
omni::net::socket_error::NOT_CONNECTED);
}
else if (
this->m_shut) {
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
int err = ::shutdown(
this->m_socket,
static_cast<
int>(how));
if (err == OMNI_SOCK_SYSERR_FW) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
this->m_shut =
true;
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
omni::net::socket_error omni::net::endpoint_descriptor::set_socket_option(
omni::net::socket_option_level op_level, int32_t op_name, int32_t op_val)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (!
this->m_connected) {
return (
this->m_last_err =
omni::net::socket_error::NOT_CONNECTED);
}
int err =
0;
if ((op_level.value() ==
omni::net::socket_option_level::SOCKET) &&
((op_name ==
omni::net::socket_option::LINGER) || (op_name ==
omni::net::socket_option::DONT_LINGER)))
{
struct linger lop;
std::memset(&lop,
0,
sizeof(
struct linger));
if (op_name ==
omni::net::socket_option::LINGER) {
lop.l_onoff =
1;
lop.l_linger = op_val;
}
err = ::setsockopt(
this->m_socket,
static_cast<
int>(op_level),
static_cast<
int>(
omni::net::socket_option::LINGER),
reinterpret_cast<OMNI_SOCKET_XFR_T_FW*>(&lop),
sizeof(
struct linger));
}
else {
err = ::setsockopt(
this->m_socket,
static_cast<
int>(op_level),
static_cast<
int>(op_name),
reinterpret_cast<OMNI_SOCKET_XFR_T_FW*>(&op_val),
sizeof(int32_t));
}
if (err !=
0) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
omni::net::socket_error omni::net::endpoint_descriptor::set_socket_option(
omni::net::socket_option_level op_level,
omni::net::socket_option op_name, int32_t op_val)
{
return this->set_socket_option(op_level,
static_cast<int32_t>(op_name.value()), op_val);
}
omni::net::socket_error omni::net::endpoint_descriptor::set_socket_option(
omni::net::socket_option_level op_level,
omni::net::tcp_option op_name, int32_t op_val)
{
return this->set_socket_option(op_level,
static_cast<int32_t>(op_name.value()), op_val);
}
omni::net::socket_error omni::net::endpoint_descriptor::receive(
char* buffer, uint32_t len, uint32_t& rcvd)
{
return this->receive(buffer, len,
omni::net::socket_flags::NONE, rcvd);
}
omni::net::socket_error omni::net::endpoint_descriptor::receive(int8_t* buffer, uint32_t len, uint32_t& rcvd)
{
return this->receive(buffer, len,
omni::net::socket_flags::NONE, rcvd);
}
omni::net::socket_error omni::net::endpoint_descriptor::receive(uint8_t* buffer, uint32_t len, uint32_t& rcvd)
{
return this->receive(buffer, len,
omni::net::socket_flags::NONE, rcvd);
}
omni::net::socket_error omni::net::endpoint_descriptor::receive(
char* buffer, uint32_t len,
omni::net::socket_flags flags, uint32_t& rcvd)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (!
this->m_connected) {
return (
this->m_last_err =
omni::net::socket_error::NOT_CONNECTED);
}
#if defined(OMNI_WIN_API)
DWORD flag =
static_cast<
int>(flags);
DWORD recd =
static_cast<DWORD>(rcvd);
WSABUF buf;
buf.len = len;
buf.buf = buffer;
if (::WSARecv(
this->m_socket, &buf,
1, &recd, &flag,
NULL,
NULL) == SOCKET_ERROR) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
rcvd =
static_cast<uint32_t>(recd);
#else
long r = ::recv(
this->m_socket, (
reinterpret_cast<
omni::net::xfr_t*>(buffer)), len,
static_cast<
int>(flags));
switch (r) {
// connection closed
case 0:
return (
this->m_last_err =
omni::net::socket_error::CONNECTION_RESET);
// error
case OMNI_SOCK_SYSERR_FW:
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
// success
default: rcvd = r;
break;
}
#endif
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
omni::net::socket_error omni::net::endpoint_descriptor::receive(int8_t* buffer, uint32_t len,
omni::net::socket_flags flags, uint32_t& rcvd)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (!
this->m_connected) {
return (
this->m_last_err =
omni::net::socket_error::NOT_CONNECTED);
}
#if defined(OMNI_WIN_API)
DWORD flag =
static_cast<
int>(flags);
DWORD recd =
static_cast<DWORD>(rcvd);
WSABUF buf;
buf.len = len;
buf.buf =
reinterpret_cast<
omni::net::xfr_t*>(buffer);
if (::WSARecv(
this->m_socket, &buf,
1, &recd, &flag,
NULL,
NULL) == SOCKET_ERROR) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
rcvd =
static_cast<uint32_t>(recd);
#else
long r = ::recv(
this->m_socket, (
reinterpret_cast<
omni::net::xfr_t*>(buffer)), len,
static_cast<
int>(flags));
switch (r) {
// connection closed
case 0:
return (
this->m_last_err =
omni::net::socket_error::CONNECTION_RESET);
// error
case OMNI_SOCK_SYSERR_FW:
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
// success
default: rcvd = r;
break;
}
#endif
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
omni::net::socket_error omni::net::endpoint_descriptor::receive(uint8_t* buffer, uint32_t len,
omni::net::socket_flags flags, uint32_t& rcvd)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (!
this->m_connected) {
return (
this->m_last_err =
omni::net::socket_error::NOT_CONNECTED);
}
#if defined(OMNI_WIN_API)
DWORD flag =
static_cast<
int>(flags);
DWORD recd =
static_cast<DWORD>(rcvd);
WSABUF buf;
buf.len = len;
buf.buf =
reinterpret_cast<
omni::net::xfr_t*>(buffer);
if (::WSARecv(
this->m_socket, &buf,
1, &recd, &flag,
NULL,
NULL) == SOCKET_ERROR) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
rcvd =
static_cast<uint32_t>(recd);
#else
long r = ::recv(
this->m_socket, (
reinterpret_cast<
omni::net::xfr_t*>(buffer)), len,
static_cast<
int>(flags));
switch (r) {
// connection closed
case 0:
return (
this->m_last_err =
omni::net::socket_error::CONNECTION_RESET);
// error
case OMNI_SOCK_SYSERR_FW:
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
// success
default: rcvd = r;
break;
}
#endif
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
omni::net::socket_error omni::net::endpoint_descriptor::send(
const char* buffer, uint32_t len, uint32_t& sent)
{
return this->send(buffer, len,
omni::net::socket_flags::NONE, sent);
}
omni::net::socket_error omni::net::endpoint_descriptor::send(
const int8_t* buffer, uint32_t len, uint32_t& sent)
{
return this->send(buffer, len,
omni::net::socket_flags::NONE, sent);
}
omni::net::socket_error omni::net::endpoint_descriptor::send(
const uint8_t* buffer, uint32_t len, uint32_t& sent)
{
return this->send(buffer, len,
omni::net::socket_flags::NONE, sent);
}
omni::net::socket_error omni::net::endpoint_descriptor::send(
const char* buffer, uint32_t len,
omni::net::socket_flags flags, uint32_t& sent)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (!
this->m_connected) {
return (
this->m_last_err =
omni::net::socket_error::NOT_CONNECTED);
}
#if defined(OMNI_WIN_API)
DWORD flag =
static_cast<
int>(flags);
DWORD recd =
static_cast<DWORD>(sent);
WSABUF buf;
buf.len = len;
buf.buf =
const_cast<
omni::net::xfr_t*>(
reinterpret_cast<
const omni::net::xfr_t*>(buffer));
if (::WSASend(
this->m_socket, &buf,
1, &recd, flag,
NULL,
NULL) == SOCKET_ERROR) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
sent =
static_cast<uint32_t>(recd);
#else
long r = ::send(
this->m_socket, (
reinterpret_cast<
const omni::net::xfr_t*>(buffer)), len,
static_cast<
int>(flags));
if (r == OMNI_SOCK_SYSERR_FW) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
// success
sent = r;
#endif
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
omni::net::socket_error omni::net::endpoint_descriptor::send(
const int8_t* buffer, uint32_t len,
omni::net::socket_flags flags, uint32_t& sent)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (!
this->m_connected) {
return (
this->m_last_err =
omni::net::socket_error::NOT_CONNECTED);
}
#if defined(OMNI_WIN_API)
DWORD flag =
static_cast<
int>(flags);
DWORD recd =
static_cast<DWORD>(sent);
WSABUF buf;
buf.len = len;
buf.buf =
const_cast<
omni::net::xfr_t*>(
reinterpret_cast<
const omni::net::xfr_t*>(buffer));
if (::WSASend(
this->m_socket, &buf,
1, &recd, flag,
NULL,
NULL) == SOCKET_ERROR) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
sent =
static_cast<uint32_t>(recd);
#else
long r = ::send(
this->m_socket, (
reinterpret_cast<
const omni::net::xfr_t*>(buffer)), len,
static_cast<
int>(flags));
if (r == OMNI_SOCK_SYSERR_FW) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
// success
sent = r;
#endif
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
omni::net::socket_error omni::net::endpoint_descriptor::send(
const uint8_t* buffer, uint32_t len,
omni::net::socket_flags flags, uint32_t& sent)
{
OMNI_SAFE_SOCKEPALOCK_FW
if (!
this->m_connected) {
return (
this->m_last_err =
omni::net::socket_error::NOT_CONNECTED);
}
#if defined(OMNI_WIN_API)
DWORD flag =
static_cast<
int>(flags);
DWORD recd =
static_cast<DWORD>(sent);
WSABUF buf;
buf.len = len;
buf.buf =
const_cast<
omni::net::xfr_t*>(
reinterpret_cast<
const omni::net::xfr_t*>(buffer));
if (::WSASend(
this->m_socket, &buf,
1, &recd, flag,
NULL,
NULL) == SOCKET_ERROR) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
sent =
static_cast<uint32_t>(recd);
#else
long r = ::send(
this->m_socket, (
reinterpret_cast<
const omni::net::xfr_t*>(buffer)), len,
static_cast<
int>(flags));
if (r == OMNI_SOCK_SYSERR_FW) {
return (
this->m_last_err =
omni::net::parse_error(OMNI_SOCKET_ERR_FW));
}
// success
sent = r;
#endif
return (
this->m_last_err =
omni::net::socket_error::SUCCESS);
}
void omni::net::endpoint_descriptor::swap(
omni::net::endpoint_descriptor& other)
{
if (
this != &other) {
OMNI_SAFE_SOCKEPALOCK_FW
OMNI_SAFE_SOCKEPOALOCK_FW(other)
std::swap(
this->m_socket, other.m_socket);
std::swap(
this->m_addr, other.m_addr);
std::swap(
this->m_last_err, other.m_last_err);
std::swap(
this->m_connected, other.m_connected);
std::swap(
this->m_shut, other.m_shut);
}
}
omni::string_t omni::net::endpoint_descriptor::to_string_t()
const
{
omni::sstream_t s;
OMNI_SAFE_SOCKEPLOCK_FW
s << inet_ntoa(
this->m_addr.sin_addr) <<
":" <<
static_cast<uint16_t>(
this->m_addr.sin_port);
OMNI_SAFE_SOCKEPUNLOCK_FW
return s.str();
}
std::string omni::net::endpoint_descriptor::to_string()
const
{
std::stringstream s;
OMNI_SAFE_SOCKEPLOCK_FW
s << inet_ntoa(
this->m_addr.sin_addr) <<
":" <<
static_cast<uint16_t>(
this->m_addr.sin_port);
OMNI_SAFE_SOCKEPUNLOCK_FW
return s.str();
}
std::wstring omni::net::endpoint_descriptor::to_wstring()
const
{
std::wstringstream s;
OMNI_SAFE_SOCKEPLOCK_FW
s << inet_ntoa(
this->m_addr.sin_addr) <<
":" <<
static_cast<uint16_t>(
this->m_addr.sin_port);
OMNI_SAFE_SOCKEPUNLOCK_FW
return s.str();
}
omni::net::endpoint_descriptor& omni::net::endpoint_descriptor::
operator=(
omni::net::endpoint_descriptor &other)
{
OMNI_SAFE_SOCKEPALOCK_FW
OMNI_SAFE_SOCKEPOALOCK_FW(other)
this->m_socket = other.m_socket;
//this->m_addr = other.m_addr;
std::memcpy(&
this->m_addr, &other.m_addr,
sizeof(
this->m_addr));
this->m_connected = other.m_connected;
this->m_shut = other.m_shut;
other.m_socket =
OMNI_INVALID_SOCKET;
std::memset(&other.m_addr,
0,
sizeof(other.m_addr));
other.m_connected =
false;
other.m_shut =
false;
return *
this;
}
bool omni::net::endpoint_descriptor::
operator==(
const omni::net::endpoint_descriptor &other)
const
{
return false;
}
bool omni::net::endpoint_descriptor::
operator==(
const omni::net::socket_t &sock)
const
{
OMNI_SAFE_SOCKEPALOCK_FW
return this->m_socket == sock;
}
bool omni::net::endpoint_descriptor::
operator==(uint32_t ep)
const
{
return this->endpoint() == ep;
}
