// -*- c-basic-offset: 4; tab-width: 8; indent-tabs-mode: t -*- // Copyright (c) 2001-2007 International Computer Science Institute // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the "Software") // to deal in the Software without restriction, subject to the conditions // listed in the XORP LICENSE file. These conditions include: you must // preserve this copyright notice, and you cannot mention the copyright // holders in advertising related to the Software without their permission. // The Software is provided WITHOUT ANY WARRANTY, EXPRESS OR IMPLIED. This // notice is a summary of the XORP LICENSE file; the license in that file is // legally binding. // $XORP: xorp/libxorp/vif.hh,v 1.17 2007/02/16 22:46:28 pavlin Exp $ #ifndef __LIBXORP_VIF_HH__ #define __LIBXORP_VIF_HH__ #include <list> #include "xorp.h" #include "ipv4.hh" #include "ipv6.hh" #include "ipvx.hh" #include "ipvxnet.hh" /** * @short Virtual interface address class. * * VifAddr holds information about an address of a virtual interface. * A virtual interface may have more than one VifAddr. */ class VifAddr { public: /** * Constructor for a given address. * * @param ipvx_addr the interface address. */ explicit VifAddr(const IPvX& ipvx_addr); /** * Constructor for a given address, and its associated addresses. * * @param ipvx_addr the interface address. * @param ipvx_subnet_addr the subnet address. * @param ipvx_broadcast_addr the broadcast address (if the interface * is broadcast-capable). * @param ipvx_peer_addr the peer address (if the interface is * point-to-point). */ VifAddr(const IPvX& ipvx_addr, const IPvXNet& ipvx_subnet_addr, const IPvX& ipvx_broadcast_addr, const IPvX& ipvx_peer_addr); /** * Get the interface address. * * @return the interface address. */ const IPvX& addr() const { return (_addr); } /** * Get the subnet address. * * @return the subnet address of the interface. */ const IPvXNet& subnet_addr() const { return (_subnet_addr); } /** * Get the broadcast address. * * The broadcast address is valid only if the interface is broadcast * capable. * * @return the broadcast address of the interface. */ const IPvX& broadcast_addr() const { return (_broadcast_addr); } /** * Get the peer address. * * The peer address is valid only if the interface is point-to-point. * * @return the peer address of the interface. */ const IPvX& peer_addr() const { return (_peer_addr); } /** * Set the interface address. * * @param v the interface address to set to the interface. */ void set_addr(const IPvX& v) { _addr = v; } /** * Set the subnet address. * * @param v the subnet address to set to the interface. */ void set_subnet_addr(const IPvXNet& v) { _subnet_addr = v; } /** * Set the broadcast address. * * @param v the broadcast address to set to the interface. */ void set_broadcast_addr(const IPvX& v) { _broadcast_addr = v; } /** * Set the peer address. * * @param v the peer address to set to the interface. */ void set_peer_addr(const IPvX& v) { _peer_addr = v; } /** * Test whether if an IPvX address is same as my address. * * @param ipvx_addr the address to test whether is the same as my * interface address. * * @return true if @ref ipvx_addr is same as my interface address, * otherwise false. */ bool is_my_addr(const IPvX& ipvx_addr) const { return (addr() == ipvx_addr); } /** * Test if a given subnet address is a subset of my subnet address. * * @param ipvxnet the subnet address to test whether is a subset of * my subnet address. * * @return true if @ref ipvxnet is a subset of my subnet address, * otherwise false. */ bool is_same_subnet(const IPvXNet& ipvxnet) const; /** * Test whether an address belongs to my subnet address. * * @param ipvx_addr the address to test whether it belongs to my subnet * address. * @return true if @ref ipvx_addr belongs to my subnet address, * otherwise false. */ bool is_same_subnet(const IPvX& ipvx_addr) const; /** * Convert this address from binary form to presentation format. * * @return C++ string with the human-readable ASCII representation * of the address. */ string str() const; /** * Equality Operator * * @param other the right-hand operand to compare against. * @return true if the left-hand operand is numerically same as the * right-hand operand. */ bool operator==(const VifAddr& other) const; private: IPvX _addr; // IP address of the vif IPvXNet _subnet_addr; // Subnet address on the vif IPvX _broadcast_addr; // Network broadcast address IPvX _peer_addr; // Peer address (on p2p links) }; /** * @short Virtual Interface class. * * Vif holds information about a virtual interface. A Vif may * represent a physical interface, or may represent more abstract * entities such as the Discard interface, or a VLAN on a physical * interface. */ class Vif { public: /** * Constructor for a given virtual interface name. * * @param vifname string representation of the virtual interface * (e.g., "port 0"). * @param ifname string representation of associated interface. */ explicit Vif(const string& vifname, const string& ifname = string("")); /** * Constructor to clone a Vif. * * @param vif the virtual interface to clone. */ Vif(const Vif& vif); /** * Destructor */ virtual ~Vif(); /** * Convert this Vif from binary form to presentation format. * * @return C++ string with the human-readable ASCII representation * of the Vif. */ string str() const; /** * Equality Operator * * @param other the right-hand operand to compare against. * @return true if the left-hand operand is numerically same as the * right-hand operand. */ bool operator==(const Vif& other) const; /** * Get the vif name. * * @return a string representation of the vif name. */ const string& name() const { return _name; } /** * Get the name of the physical interface associated with vif. * * @return string representation of interface name. */ const string& ifname() const { return _ifname; } /** * Set the name of the physical interface associated with vif. * * @param ifname */ void set_ifname(const string& ifname) { _ifname = ifname; } /** * Get the physical interface index. * * @return the physical interface index (if applicable). */ uint32_t pif_index() const { return (_pif_index); } /** * Set the physical interface index. * * @param v the value of the physical interface index to set to. */ void set_pif_index(uint32_t v) { _pif_index = v; } /** * Various vif_index related values. */ enum { VIF_INDEX_INVALID = ((uint32_t)~0), VIF_INDEX_MAX = ((uint32_t)~0) }; /** * Get the virtual interface index. * * @return the virtual interface index. */ uint32_t vif_index() const { return (_vif_index); } /** * Set the virtual interface index. * * @param v the value of the virtual interface index to set to. */ void set_vif_index(uint32_t v) { _vif_index = v; } /** * Test if this vif is a PIM Register interface. * * @return true if this vif is a PIM Register interface, otherwise false. */ bool is_pim_register() const { return _is_pim_register; } /** * Test if this vif is a point-to-point interface. * * @return true if this vif is a point-to-point interface, otherwise false. */ bool is_p2p() const { return _is_p2p; } /** * Test if this vif is a loopback interface. * * @return true if this vif is a loopback interface, otherwise false. */ bool is_loopback() const { return _is_loopback; } /** * Test if this vif is a discard interface. * * @return true if this vif is a discard interface, otherwise false. */ bool is_discard() const { return _is_discard; } /** * Test if this vif is multicast capable. * * @return true if this vif is multicast capable, otherwise false. */ bool is_multicast_capable() const { return _is_multicast_capable; } /** * Test if this vif is broadcast capable. * * @return true if this vif is broadcast capable, otherwise false. */ bool is_broadcast_capable() const { return _is_broadcast_capable; } /** * Test if the underlying vif is UP. * * An example of an underlying vif is the corresponding interface * inside the kernel, or the MFEA interface which a PIM interface * matches to. * * @return true if the underlying vif is UP (when applicable), otherwise * false. */ bool is_underlying_vif_up() const { return _is_underlying_vif_up; } /** * Get the MTU of the vif. * * @return the MTU of the vif. */ uint32_t mtu() const { return _mtu; } /** * Set/reset the vif as a PIM Register interface. * * @param v if true, then set this vif as a PIM Register interface, * otherwise reset it. */ void set_pim_register(bool v) { _is_pim_register = v; } /** * Set/reset the vif as a point-to-point interface. * * @param v if true, then set this vif as a point-to-point interface, * otherwise reset it. */ void set_p2p(bool v) { _is_p2p = v; } /** * Set/reset the vif as a loopback interface. * * @param v if true, then set this vif as a loopback interface, * otherwise reset it. */ void set_loopback(bool v) { _is_loopback = v; } /** * Set/reset the vif as a discard interface. * * @param v if true, then set this vif as a discard interface, * otherwise reset it. */ void set_discard(bool v) { _is_discard = v; } /** * Set/reset the vif as multicast capable. * * @param v if true, then set this vif as multicast capable, * otherwise reset it. */ void set_multicast_capable(bool v) { _is_multicast_capable = v; } /** * Set/reset the vif as broadcast capable. * * @param v if true, then set this vif as broadcast capable, * otherwise reset it. */ void set_broadcast_capable(bool v) { _is_broadcast_capable = v; } /** * Set/reset the underlying vif status (when applicable). * * An example of an underlying vif is the corresponding interface * inside the kernel, or the MFEA interface which a PIM interface * matches to. * * @param v if true, then set the underlying vif status as UP, * otherwise the underlying vif status is set to DOWN. */ void set_underlying_vif_up(bool v) { _is_underlying_vif_up = v; } /** * Set the MTU of the vif. * * @param v the MTU of the vif. */ void set_mtu(uint32_t v) { _mtu = v; } /** * Get the list of all addresses for this vif. * * @return the list of all addresses for this vif (@ref VifAddr). */ const list<VifAddr>& addr_list() const { return _addr_list; } /** * Get the first vif address. * * @return a pointer to the first valid interface address of this vif, * or NULL if no addresses. */ const IPvX* addr_ptr() const; /** * Add a VifAddr address to the interface. * * @param vif_addr the VifAddr (@ref VifAddr) to add to the list * of addresses for this vif. * * @return XORP_OK if a new address, otherwise XORP_ERROR. */ int add_address(const VifAddr& vif_addr); /** * Add an IPvX address and all related information to the interface. * * @param ipvx_addr the interface address. * @param ipvxnet_subnet_addr the subnet address. * @param ipvx_broadcast_addr the broadcast address. * @param ipvx_peer_addr the peer address. * @return XORP_OK if a new address, otherwise XORP_ERROR. */ int add_address(const IPvX& ipvx_addr, const IPvXNet& ipvxnet_subnet_addr, const IPvX& ipvx_broadcast_addr, const IPvX& ipvx_peer_addr); /** * Add an IPvX address to the interface. * * @param ipvx_addr the interface address. * @return XORP_OK if a new address, otherwise XORP_ERROR. */ int add_address(const IPvX& ipvx_addr); /** * Delete an IPvX address from the interface. * * @return XORP_OK on success, otherwise XORP_ERROR. */ int delete_address(const IPvX& ipvx_addr); /** * Find a VifAddr that corresponds to an IPvX address. * * @param ipvx_addr the IPvX address to search for. * @return a pointer to the VifAddr for address @ref ipvx_addr * if found, otherwise NULL. */ VifAddr *find_address(const IPvX& ipvx_addr); /** * Test if an IPvX address belongs to this vif. * * @param ipvx_addr the IPvX address to test whether belongs to this vif. * @return true if @ref ipvx_addr belongs to this vif, otherwise false. */ bool is_my_addr(const IPvX& ipvx_addr) const; /** * Test if an VifAddr is belongs to this vif. * * @param vif_addr the VifAddr address to test whether belongs to this vif. * @return true if @ref vif_addr belongs to this vif, otherwise false. */ bool is_my_vif_addr(const VifAddr& vif_addr) const; /** * Test if a given subnet address is a subset of one of the subnet * addresses of this vif. * * @param ipvxnet the subnet address to test against. * @return true if @ref ipvxnet is a subset of one of the subnet * addresses of this vif, otherwise false. */ bool is_same_subnet(const IPvXNet& ipvxnet) const; /** * Test if a given address belongs to one of the subnet addresses * of this vif. * * @param ipvx_addr the address to test against. * @return true if @ref ipvx_addr belongs to one of the subnet addresses * of this vif, otherwise false. */ bool is_same_subnet(const IPvX& ipvx_addr) const; /** * Test if a given address belongs to the same point-to-point link * as this vif. * * @param ipvx_addr the address to test against. * @return true if @ref ipvx_addr belongs to the same point-to-point link * as this vif, otherwise false. */ bool is_same_p2p(const IPvX& ipvx_addr) const; private: string _name; // The vif name string _ifname; // The physical interface name (if applicable) uint32_t _pif_index; // Physical interface index (if applicable), // or 0 if invalid. uint32_t _vif_index; // Virtual interface index bool _is_pim_register; // PIM Register vif bool _is_p2p; // Point-to-point interface bool _is_loopback; // Loopback interface bool _is_discard; // Discard interface bool _is_multicast_capable; // Multicast-capable interface bool _is_broadcast_capable; // Broadcast-capable interface bool _is_underlying_vif_up; // True if underlying vif is up uint32_t _mtu; // The MTU of the vif list<VifAddr> _addr_list; // The list of addresses for this vif }; #endif // __LIBXORP_VIF_HH__