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address_v6.hpp - Hosted on DriveHQ Cloud IT Platform
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Ruta de la carpeta: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\boost_1_35_0\boost\asio\ip\address_v6.hpp
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// // address_v6.hpp // ~~~~~~~~~~~~~~ // // Copyright (c) 2003-2008 Christopher M. Kohlhoff (chris at kohlhoff dot com) // // Distributed under the Boost Software License, Version 1.0. (See accompanying // file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) // #ifndef BOOST_ASIO_IP_ADDRESS_V6_HPP #define BOOST_ASIO_IP_ADDRESS_V6_HPP #if defined(_MSC_VER) && (_MSC_VER >= 1200) # pragma once #endif // defined(_MSC_VER) && (_MSC_VER >= 1200) #include
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namespace boost { namespace asio { namespace ip { /// Implements IP version 6 style addresses. /** * The boost::asio::ip::address_v6 class provides the ability to use and * manipulate IP version 6 addresses. * * @par Thread Safety * @e Distinct @e objects: Safe.@n * @e Shared @e objects: Unsafe. */ class address_v6 { public: /// The type used to represent an address as an array of bytes. typedef boost::array
bytes_type; /// Default constructor. address_v6() : scope_id_(0) { boost::asio::detail::in6_addr_type tmp_addr = IN6ADDR_ANY_INIT; addr_ = tmp_addr; } /// Construct an address from raw bytes and scope ID. explicit address_v6(const bytes_type& bytes, unsigned long scope_id = 0) : scope_id_(scope_id) { using namespace std; // For memcpy. memcpy(addr_.s6_addr, bytes.elems, 16); } /// Copy constructor. address_v6(const address_v6& other) : addr_(other.addr_), scope_id_(other.scope_id_) { } /// Assign from another address. address_v6& operator=(const address_v6& other) { addr_ = other.addr_; scope_id_ = other.scope_id_; return *this; } /// The scope ID of the address. /** * Returns the scope ID associated with the IPv6 address. */ unsigned long scope_id() const { return scope_id_; } /// The scope ID of the address. /** * Modifies the scope ID associated with the IPv6 address. */ void scope_id(unsigned long id) { scope_id_ = id; } /// Get the address in bytes. bytes_type to_bytes() const { using namespace std; // For memcpy. bytes_type bytes; memcpy(bytes.elems, addr_.s6_addr, 16); return bytes; } /// Get the address as a string. std::string to_string() const { boost::system::error_code ec; std::string addr = to_string(ec); boost::asio::detail::throw_error(ec); return addr; } /// Get the address as a string. std::string to_string(boost::system::error_code& ec) const { char addr_str[boost::asio::detail::max_addr_v6_str_len]; const char* addr = boost::asio::detail::socket_ops::inet_ntop(AF_INET6, &addr_, addr_str, boost::asio::detail::max_addr_v6_str_len, scope_id_, ec); if (addr == 0) return std::string(); return addr; } /// Create an address from an IP address string. static address_v6 from_string(const char* str) { boost::system::error_code ec; address_v6 addr = from_string(str, ec); boost::asio::detail::throw_error(ec); return addr; } /// Create an address from an IP address string. static address_v6 from_string(const char* str, boost::system::error_code& ec) { address_v6 tmp; if (boost::asio::detail::socket_ops::inet_pton( AF_INET6, str, &tmp.addr_, &tmp.scope_id_, ec) <= 0) return address_v6(); return tmp; } /// Create an address from an IP address string. static address_v6 from_string(const std::string& str) { return from_string(str.c_str()); } /// Create an address from an IP address string. static address_v6 from_string(const std::string& str, boost::system::error_code& ec) { return from_string(str.c_str(), ec); } /// Converts an IPv4-mapped or IPv4-compatible address to an IPv4 address. address_v4 to_v4() const { if (!is_v4_mapped() && !is_v4_compatible()) throw std::bad_cast(); address_v4::bytes_type v4_bytes = { { addr_.s6_addr[12], addr_.s6_addr[13], addr_.s6_addr[14], addr_.s6_addr[15] } }; return address_v4(v4_bytes); } /// Determine whether the address is a loopback address. bool is_loopback() const { #if defined(__BORLANDC__) return ((addr_.s6_addr[0] == 0) && (addr_.s6_addr[1] == 0) && (addr_.s6_addr[2] == 0) && (addr_.s6_addr[3] == 0) && (addr_.s6_addr[4] == 0) && (addr_.s6_addr[5] == 0) && (addr_.s6_addr[6] == 0) && (addr_.s6_addr[7] == 0) && (addr_.s6_addr[8] == 0) && (addr_.s6_addr[9] == 0) && (addr_.s6_addr[10] == 0) && (addr_.s6_addr[11] == 0) && (addr_.s6_addr[12] == 0) && (addr_.s6_addr[13] == 0) && (addr_.s6_addr[14] == 0) && (addr_.s6_addr[15] == 1)); #else using namespace boost::asio::detail; return IN6_IS_ADDR_LOOPBACK(&addr_) != 0; #endif } /// Determine whether the address is unspecified. bool is_unspecified() const { #if defined(__BORLANDC__) return ((addr_.s6_addr[0] == 0) && (addr_.s6_addr[1] == 0) && (addr_.s6_addr[2] == 0) && (addr_.s6_addr[3] == 0) && (addr_.s6_addr[4] == 0) && (addr_.s6_addr[5] == 0) && (addr_.s6_addr[6] == 0) && (addr_.s6_addr[7] == 0) && (addr_.s6_addr[8] == 0) && (addr_.s6_addr[9] == 0) && (addr_.s6_addr[10] == 0) && (addr_.s6_addr[11] == 0) && (addr_.s6_addr[12] == 0) && (addr_.s6_addr[13] == 0) && (addr_.s6_addr[14] == 0) && (addr_.s6_addr[15] == 0)); #else using namespace boost::asio::detail; return IN6_IS_ADDR_UNSPECIFIED(&addr_) != 0; #endif } /// Determine whether the address is link local. bool is_link_local() const { using namespace boost::asio::detail; return IN6_IS_ADDR_LINKLOCAL(&addr_) != 0; } /// Determine whether the address is site local. bool is_site_local() const { using namespace boost::asio::detail; return IN6_IS_ADDR_SITELOCAL(&addr_) != 0; } /// Determine whether the address is a mapped IPv4 address. bool is_v4_mapped() const { using namespace boost::asio::detail; return IN6_IS_ADDR_V4MAPPED(&addr_) != 0; } /// Determine whether the address is an IPv4-compatible address. bool is_v4_compatible() const { using namespace boost::asio::detail; return IN6_IS_ADDR_V4COMPAT(&addr_) != 0; } /// Determine whether the address is a multicast address. bool is_multicast() const { using namespace boost::asio::detail; return IN6_IS_ADDR_MULTICAST(&addr_) != 0; } /// Determine whether the address is a global multicast address. bool is_multicast_global() const { using namespace boost::asio::detail; return IN6_IS_ADDR_MC_GLOBAL(&addr_) != 0; } /// Determine whether the address is a link-local multicast address. bool is_multicast_link_local() const { using namespace boost::asio::detail; return IN6_IS_ADDR_MC_LINKLOCAL(&addr_) != 0; } /// Determine whether the address is a node-local multicast address. bool is_multicast_node_local() const { using namespace boost::asio::detail; return IN6_IS_ADDR_MC_NODELOCAL(&addr_) != 0; } /// Determine whether the address is a org-local multicast address. bool is_multicast_org_local() const { using namespace boost::asio::detail; return IN6_IS_ADDR_MC_ORGLOCAL(&addr_) != 0; } /// Determine whether the address is a site-local multicast address. bool is_multicast_site_local() const { using namespace boost::asio::detail; return IN6_IS_ADDR_MC_SITELOCAL(&addr_) != 0; } /// Compare two addresses for equality. friend bool operator==(const address_v6& a1, const address_v6& a2) { using namespace std; // For memcmp. return memcmp(&a1.addr_, &a2.addr_, sizeof(boost::asio::detail::in6_addr_type)) == 0 && a1.scope_id_ == a2.scope_id_; } /// Compare two addresses for inequality. friend bool operator!=(const address_v6& a1, const address_v6& a2) { using namespace std; // For memcmp. return memcmp(&a1.addr_, &a2.addr_, sizeof(boost::asio::detail::in6_addr_type)) != 0 || a1.scope_id_ != a2.scope_id_; } /// Compare addresses for ordering. friend bool operator<(const address_v6& a1, const address_v6& a2) { using namespace std; // For memcmp. int memcmp_result = memcmp(&a1.addr_, &a2.addr_, sizeof(boost::asio::detail::in6_addr_type)); if (memcmp_result < 0) return true; if (memcmp_result > 0) return false; return a1.scope_id_ < a2.scope_id_; } /// Compare addresses for ordering. friend bool operator>(const address_v6& a1, const address_v6& a2) { return a2 < a1; } /// Compare addresses for ordering. friend bool operator<=(const address_v6& a1, const address_v6& a2) { return !(a2 < a1); } /// Compare addresses for ordering. friend bool operator>=(const address_v6& a1, const address_v6& a2) { return !(a1 < a2); } /// Obtain an address object that represents any address. static address_v6 any() { return address_v6(); } /// Obtain an address object that represents the loopback address. static address_v6 loopback() { address_v6 tmp; boost::asio::detail::in6_addr_type tmp_addr = IN6ADDR_LOOPBACK_INIT; tmp.addr_ = tmp_addr; return tmp; } /// Create an IPv4-mapped IPv6 address. static address_v6 v4_mapped(const address_v4& addr) { address_v4::bytes_type v4_bytes = addr.to_bytes(); bytes_type v6_bytes = { { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0xFF, 0xFF, v4_bytes[0], v4_bytes[1], v4_bytes[2], v4_bytes[3] } }; return address_v6(v6_bytes); } /// Create an IPv4-compatible IPv6 address. static address_v6 v4_compatible(const address_v4& addr) { address_v4::bytes_type v4_bytes = addr.to_bytes(); bytes_type v6_bytes = { { 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, v4_bytes[0], v4_bytes[1], v4_bytes[2], v4_bytes[3] } }; return address_v6(v6_bytes); } private: // The underlying IPv6 address. boost::asio::detail::in6_addr_type addr_; // The scope ID associated with the address. unsigned long scope_id_; }; /// Output an address as a string. /** * Used to output a human-readable string for a specified address. * * @param os The output stream to which the string will be written. * * @param addr The address to be written. * * @return The output stream. * * @relates boost::asio::ip::address_v6 */ template
std::basic_ostream
& operator<<( std::basic_ostream
& os, const address_v6& addr) { boost::system::error_code ec; std::string s = addr.to_string(ec); if (ec) { if (os.exceptions() & std::ios::failbit) boost::asio::detail::throw_error(ec); else os.setstate(std::ios_base::failbit); } else for (std::string::iterator i = s.begin(); i != s.end(); ++i) os << os.widen(*i); return os; } } // namespace ip } // namespace asio } // namespace boost #include
#endif // BOOST_ASIO_IP_ADDRESS_V6_HPP
address_v6.hpp
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