/* -*- C++ -*- */ //============================================================================= /** * @file INET_Addr.h * * $Id$ * * @author Douglas C. Schmidt */ //============================================================================= #ifndef ACE_INET_ADDR_H #define ACE_INET_ADDR_H #include /**/ "ace/pre.h" #include "ace/Sock_Connect.h" #if !defined (ACE_LACKS_PRAGMA_ONCE) # pragma once #endif /* ACE_LACKS_PRAGMA_ONCE */ #include "ace/Addr.h" #if defined(ACE_VXWORKS) // Needed to get INET_ADDR_LEN # include /**/ "inetLib.h" #endif /* ACE_VXWORKS */ ACE_BEGIN_VERSIONED_NAMESPACE_DECL /** * @class ACE_INET_Addr * * @brief Defines a C++ wrapper facade for the Internet domain address * family format. */ class ACE_Export ACE_INET_Addr : public ACE_Addr { public: // = Initialization methods. /// Default constructor. ACE_INET_Addr (void); /// Copy constructor. ACE_INET_Addr (const ACE_INET_Addr &); /// Creates an ACE_INET_Addr from a sockaddr_in structure. ACE_INET_Addr (const sockaddr_in *addr, int len); /// Creates an ACE_INET_Addr from a @a port_number and the remote /// @a host_name. The port number is assumed to be in host byte order. /// To set a port already in network byte order, please @see set(). /// Use address_family to select IPv6 (PF_INET6) vs. IPv4 (PF_INET). ACE_INET_Addr (u_short port_number, const char host_name[], int address_family = AF_UNSPEC); /** * Initializes an ACE_INET_Addr from the @a address, which can be * "ip-number:port-number" (e.g., "tango.cs.wustl.edu:1234" or * "128.252.166.57:1234"). If there is no ':' in the @a address it * is assumed to be a port number, with the IP address being * INADDR_ANY. */ explicit ACE_INET_Addr (const char address[], int address_family = AF_UNSPEC); /** * Creates an ACE_INET_Addr from a @a port_number and an Internet * . This method assumes that @a port_number and * are in host byte order. If you have addressing information in * network byte order, @see set(). */ explicit ACE_INET_Addr (u_short port_number, ACE_UINT32 ip_addr = INADDR_ANY); /// Uses to create an ACE_INET_Addr from a /// , the remote @a host_name, and the @a protocol. ACE_INET_Addr (const char port_name[], const char host_name[], const char protocol[] = "tcp"); /** * Uses to create an ACE_INET_Addr from a * , an Internet , and the @a protocol. This * method assumes that is in host byte order. */ ACE_INET_Addr (const char port_name[], ACE_UINT32 ip_addr, const char protocol[] = "tcp"); #if defined (ACE_HAS_WCHAR) ACE_INET_Addr (u_short port_number, const wchar_t host_name[], int address_family = AF_UNSPEC); explicit ACE_INET_Addr (const wchar_t address[], int address_family = AF_UNSPEC); ACE_INET_Addr (const wchar_t port_name[], const wchar_t host_name[], const wchar_t protocol[] = ACE_TEXT_WIDE ("tcp")); ACE_INET_Addr (const wchar_t port_name[], ACE_UINT32 ip_addr, const wchar_t protocol[] = ACE_TEXT_WIDE ("tcp")); #endif /* ACE_HAS_WCHAR */ /// Default dtor. ~ACE_INET_Addr (void); // = Direct initialization methods. // These methods are useful after the object has been constructed. /// Initializes from another ACE_INET_Addr. int set (const ACE_INET_Addr &); /** * Initializes an ACE_INET_Addr from a @a port_number and the * remote @a host_name. If @a encode is non-zero then @a port_number is * converted into network byte order, otherwise it is assumed to be * in network byte order already and are passed straight through. * address_family can be used to select IPv4/IPv6 if the OS has * IPv6 capability (ACE_HAS_IPV6 is defined). To specify IPv6, use * the value AF_INET6. To specify IPv4, use AF_INET. */ int set (u_short port_number, const char host_name[], int encode = 1, int address_family = AF_UNSPEC); /** * Initializes an ACE_INET_Addr from a @a port_number and an Internet * @a ip_addr. If @a encode is non-zero then the port number and IP address * are converted into network byte order, otherwise they are assumed to be * in network byte order already and are passed straight through. * * If is non-zero and IPv6 support has been compiled in, * then this address will be set to the IPv4-mapped IPv6 address of it. */ int set (u_short port_number, ACE_UINT32 ip_addr = INADDR_ANY, int encode = 1, int map = 0); /// Uses to initialize an ACE_INET_Addr from a /// , the remote @a host_name, and the @a protocol. int set (const char port_name[], const char host_name[], const char protocol[] = "tcp"); /** * Uses to initialize an ACE_INET_Addr from a * , an , and the @a protocol. This assumes that * is already in network byte order. */ int set (const char port_name[], ACE_UINT32 ip_addr, const char protocol[] = "tcp"); /** * Initializes an ACE_INET_Addr from the @a addr, which can be * "ip-number:port-number" (e.g., "tango.cs.wustl.edu:1234" or * "128.252.166.57:1234"). If there is no ':' in the @a address it * is assumed to be a port number, with the IP address being * INADDR_ANY. */ int set (const char addr[], int address_family = AF_UNSPEC); /// Creates an ACE_INET_Addr from a sockaddr_in structure. int set (const sockaddr_in *, int len); #if defined (ACE_HAS_WCHAR) int set (u_short port_number, const wchar_t host_name[], int encode = 1, int address_family = AF_UNSPEC); int set (const wchar_t port_name[], const wchar_t host_name[], const wchar_t protocol[] = ACE_TEXT_WIDE ("tcp")); int set (const wchar_t port_name[], ACE_UINT32 ip_addr, const wchar_t protocol[] = ACE_TEXT_WIDE ("tcp")); int set (const wchar_t addr[], int address_family = AF_UNSPEC); #endif /* ACE_HAS_WCHAR */ /// Return a pointer to the underlying network address. virtual void *get_addr (void) const; int get_addr_size(void) const; /// Set a pointer to the address. virtual void set_addr (void *, int len); /// Set a pointer to the address. virtual void set_addr (void *, int len, int map); /** * Transform the current ACE_INET_Addr address into string format. * If is non-0 this produces "ip-number:port-number" * (e.g., "128.252.166.57:1234"), whereas if is 0 * this produces "ip-name:port-number" (e.g., * "tango.cs.wustl.edu:1234"). Returns -1 if the @a size of the * is too small, else 0. */ virtual int addr_to_string (ACE_TCHAR buffer[], size_t size, int ipaddr_format = 1) const; /** * Initializes an ACE_INET_Addr from the @a address, which can be * "ip-addr:port-number" (e.g., "tango.cs.wustl.edu:1234"), * "ip-addr:port-name" (e.g., "tango.cs.wustl.edu:telnet"), * "ip-number:port-number" (e.g., "128.252.166.57:1234"), or * "ip-number:port-name" (e.g., "128.252.166.57:telnet"). If there * is no ':' in the @a address it is assumed to be a port number, * with the IP address being INADDR_ANY. */ virtual int string_to_addr (const char address[], int address_family = AF_UNSPEC); #if defined (ACE_HAS_WCHAR) /* virtual int string_to_addr (const char address[]); */ #endif /* ACE_HAS_WCHAR */ /** * Sets the port number without affecting the host name. If * @a encode is enabled then @a port_number is converted into network * byte order, otherwise it is assumed to be in network byte order * already and are passed straight through. */ void set_port_number (u_short, int encode = 1); /** * Sets the address without affecting the port number. If * @a encode is enabled then is converted into network * byte order, otherwise it is assumed to be in network byte order * already and are passed straight through. The size of the address * is specified in the @a len parameter. * If is non-zero, IPv6 support has been compiled in, and * is an IPv4 address, then this address is set to the IPv4-mapped * IPv6 address of it. */ int set_address (const char *ip_addr, int len, int encode = 1, int map = 0); #if (defined (__linux__) || defined (ACE_WIN32)) && defined (ACE_HAS_IPV6) /** * Sets the interface that should be used for this address. This only has * an effect when the address is link local, otherwise it does nothing. */ int set_interface (const char *intf_name); #endif /* (__linux__ || ACE_WIN32) && ACE_HAS_IPV6 */ /// Return the port number, converting it into host byte-order. u_short get_port_number (void) const; /** * Return the character representation of the name of the host, * storing it in the (which is assumed to be * bytes long). This version is reentrant. If * is greater than 0 then will be * NUL-terminated even if -1 is returned. */ int get_host_name (char hostname[], size_t hostnamelen) const; #if defined (ACE_HAS_WCHAR) int get_host_name (wchar_t hostname[], size_t hostnamelen) const; #endif /* ACE_HAS_WCHAR */ /** * Return the character representation of the hostname. This * version is non-reentrant since it returns a pointer to a static * data area. You should therefore either (1) do a "deep copy" of * the address returned by get_host_name(), e.g., using strdup() or * (2) use the "reentrant" version of get_host_name() described * above. */ const char *get_host_name (void) const; /** * Return the "dotted decimal" Internet address representation of * the hostname storing it in the @a addr (which is assumed to be * bytes long). This version is reentrant. */ const char *get_host_addr (char *addr, int addr_size) const; /** * Return the "dotted decimal" Internet address representation of * the hostname. This version is non-reentrant since it returns a * pointer to a static data area. You should therefore either * (1) do a "deep copy" of the address returned by get_host_addr(), e.g., * using strdup() or (2) use the "reentrant" version of * get_host_addr() described above. */ const char *get_host_addr (void) const; /// Return the 4-byte IP address, converting it into host byte /// order. ACE_UINT32 get_ip_address (void) const; /// Return @c true if the IP address is INADDR_ANY or IN6ADDR_ANY. bool is_any (void) const; /// Return @c true if the IP address is IPv4/IPv6 loopback address. bool is_loopback (void) const; /// Return @c true if the IP address is IPv4/IPv6 multicast address. bool is_multicast (void) const; #if defined (ACE_HAS_IPV6) /// Return @c true if the IP address is IPv6 linklocal address. bool is_linklocal (void) const; /// Return @c true if the IP address is IPv4-mapped IPv6 address. bool is_ipv4_mapped_ipv6 (void) const; /// Return @c true if the IP address is IPv4-compatible IPv6 address. bool is_ipv4_compat_ipv6 (void) const; #endif /* ACE_HAS_IPV6 */ /** * Returns @c true if @c this is less than @a rhs. In this context, * "less than" is defined in terms of IP address and TCP port * number. This operator makes it possible to use @c ACE_INET_Addrs * in STL maps. */ bool operator < (const ACE_INET_Addr &rhs) const; /// Compare two addresses for equality. The addresses are considered /// equal if they contain the same IP address and port number. bool operator == (const ACE_INET_Addr &SAP) const; /// Compare two addresses for inequality. bool operator != (const ACE_INET_Addr &SAP) const; /// A variation of the equality operator, this method only compares the /// IP address and ignores the port number. bool is_ip_equal (const ACE_INET_Addr &SAP) const; /// Computes and returns hash value. virtual u_long hash (void) const; /// Dump the state of an object. void dump (void) const; /// Declare the dynamic allocation hooks. ACE_ALLOC_HOOK_DECLARE; private: /// Insure that @a hostname is properly null-terminated. int get_host_name_i (char hostname[], size_t hostnamelen) const; // Methods to gain access to the actual address of // the underlying internet address structure. void *ip_addr_pointer (void) const; int ip_addr_size (void) const; int determine_type (void) const; /// Initialize underlying inet_addr_ to default values void reset (void); /// Underlying representation. /// This union uses the knowledge that the two structures share the /// first member, sa_family (as all sockaddr structures do). union { sockaddr_in in4_; #if defined (ACE_HAS_IPV6) sockaddr_in6 in6_; #endif /* ACE_HAS_IPV6 */ } inet_addr_; #if defined (ACE_VXWORKS) char buf_[INET_ADDR_LEN]; #endif }; ACE_END_VERSIONED_NAMESPACE_DECL #if defined (__ACE_INLINE__) #include "ace/INET_Addr.inl" #endif /* __ACE_INLINE__ */ #include /**/ "ace/post.h" #endif /* ACE_INET_ADDR_H */