// -*- 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/libxipc/xrl_args.hh,v 1.16 2007/02/16 22:46:10 pavlin Exp $ #ifndef __LIBXIPC_XRL_ARGS_HH__ #define __LIBXIPC_XRL_ARGS_HH__ #include "libxorp/xorp.h" #include "libxorp/ipv4.hh" #include "libxorp/ipv6.hh" #include "libxorp/ipv4net.hh" #include "libxorp/ipv6net.hh" #include "libxorp/mac.hh" #include "libxorp/exceptions.hh" #include <list> #include "xrl_atom.hh" class XrlArgs { public: typedef list<XrlAtom>::const_iterator const_iterator; typedef list<XrlAtom>::iterator iterator; class XrlAtomNotFound { }; class XrlAtomFound { }; public: XrlArgs() {} explicit XrlArgs(const char* str) throw (InvalidString); ~XrlArgs() {} /* --- XrlAtom accessors --- */ XrlArgs& add(const XrlAtom& xa) throw (XrlAtomFound); const XrlAtom& get(const XrlAtom& dataless) const throw (XrlAtomNotFound); void remove(const XrlAtom& dataless) throw (XrlAtomNotFound); /* --- bool accessors --- */ XrlArgs& add_bool(const char* name, bool val) throw (XrlAtomFound); const bool_t& get_bool(const char* name) const throw (XrlAtomNotFound); void remove_bool(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, bool v) throw (XrlAtomFound); inline void get(const char* n, bool& t) const throw (XrlAtomNotFound); /* --- int32 accessors --- */ XrlArgs& add_int32(const char* name, int32_t val) throw (XrlAtomFound); const int32_t& get_int32(const char* name) const throw (XrlAtomNotFound); void remove_int32(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, int32_t v) throw (XrlAtomFound); inline void get(const char* n, int32_t& t) const throw (XrlAtomNotFound); /* --- uint32 accessors --- */ XrlArgs& add_uint32(const char* name, uint32_t v) throw (XrlAtomFound); const uint32_t& get_uint32(const char* name) const throw (XrlAtomNotFound); void remove_uint32(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, uint32_t v) throw (XrlAtomFound); inline void get(const char* n, uint32_t& t) const throw (XrlAtomNotFound); /* --- ipv4 accessors --- */ XrlArgs& add_ipv4(const char* n, const IPv4& a) throw (XrlAtomFound); const IPv4& get_ipv4(const char* name) const throw (XrlAtomNotFound); void remove_ipv4(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, const IPv4& a) throw (XrlAtomFound); inline void get(const char* n, IPv4& a) const throw (XrlAtomNotFound); /* --- ipv4net accessors --- */ XrlArgs& add_ipv4net(const char* n, const IPv4Net& a) throw (XrlAtomFound); const IPv4Net& get_ipv4net(const char* name) const throw (XrlAtomNotFound); void remove_ipv4net(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, const IPv4Net& v) throw (XrlAtomFound); inline void get(const char* n, IPv4Net& t) const throw (XrlAtomNotFound); /* --- ipv6 accessors --- */ XrlArgs& add_ipv6(const char* name, const IPv6& addr) throw (XrlAtomFound); const IPv6& get_ipv6(const char* name) const throw (XrlAtomNotFound); void remove_ipv6(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, const IPv6& a) throw (XrlAtomFound); inline void get(const char* n, IPv6& a) const throw (XrlAtomNotFound); /* --- ipv6net accessors --- */ XrlArgs& add_ipv6net(const char* name, const IPv6Net& addr) throw (XrlAtomFound); const IPv6Net& get_ipv6net(const char* name) const throw (XrlAtomNotFound); void remove_ipv6net(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, const IPv6Net& a) throw (XrlAtomFound); inline void get(const char* n, IPv6Net& a) const throw (XrlAtomNotFound); /* --- ipvx accessors --- */ XrlArgs& add_ipvx(const char* name, const IPvX& ipvx) throw (XrlAtomFound); const IPvX get_ipvx(const char* name) const throw (XrlAtomNotFound); void remove_ipvx(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, const IPvX& a) throw (XrlAtomFound); inline void get(const char* n, IPvX& a) const throw (XrlAtomNotFound); /* --- ipvxnet accessors --- */ XrlArgs& add_ipvxnet(const char* name, const IPvXNet& ipvxnet) throw (XrlAtomFound); const IPvXNet get_ipvxnet(const char* name) const throw (XrlAtomNotFound); void remove_ipvxnet(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, const IPvXNet& a) throw (XrlAtomFound); inline void get(const char* n, IPvXNet& a) const throw (XrlAtomNotFound); /* --- mac accessors --- */ XrlArgs& add_mac(const char* name, const Mac& addr) throw (XrlAtomFound); const Mac& get_mac(const char* name) const throw (XrlAtomNotFound); void remove_mac(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, const Mac& a) throw (XrlAtomFound); inline void get(const char* n, Mac& a) const throw (XrlAtomNotFound); /* --- string accessors --- */ XrlArgs& add_string(const char* name, const string& addr) throw (XrlAtomFound); const string& get_string(const char* name) const throw (XrlAtomNotFound); void remove_string(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, const string& a) throw (XrlAtomFound); inline void get(const char* n, string& a) const throw (XrlAtomNotFound); /* --- list accessors --- */ XrlArgs& add_list(const char* name, const XrlAtomList& addr) throw (XrlAtomFound); const XrlAtomList& get_list(const char* name) const throw (XrlAtomNotFound); void remove_list(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, const XrlAtomList& a) throw (XrlAtomFound) { return add_list(n, a); } inline void get(const char* n, XrlAtomList& a) const throw (XrlAtomNotFound) { a = get_list(n); } /* --- binary data accessors --- */ XrlArgs& add_binary(const char* name, const vector<uint8_t>& addr) throw (XrlAtomFound); const vector<uint8_t>& get_binary(const char* name) const throw (XrlAtomNotFound); void remove_binary(const char* name) throw (XrlAtomNotFound); inline XrlArgs& add(const char* n, const vector<uint8_t>& a) throw (XrlAtomFound); inline void get(const char* n, vector<uint8_t>& a) const throw (XrlAtomNotFound); // ... Add your type's add, get, remove functions here ... // Append all atoms from an existing XrlArgs structure XrlArgs& add(const XrlArgs& args) throw (XrlAtomFound); // Equality testing bool matches_template(XrlArgs& t) const; bool operator==(const XrlArgs& t) const; // Accessor helpers size_t size() const; const XrlAtom& operator[](uint32_t index) const; // throw out_of_range inline const XrlAtom& item(uint32_t index) const; const XrlAtom& operator[](const string& name) const throw (XrlAtomNotFound); inline const XrlAtom& item(const string& name) const throw (XrlAtomNotFound); inline void push_front(const XrlAtom& xa); inline const XrlAtom& front() throw (XrlAtomNotFound); inline void pop_front() throw (XrlAtomNotFound); inline void push_back(const XrlAtom& xa); inline const XrlAtom& back() throw (XrlAtomNotFound); inline void pop_back() throw (XrlAtomNotFound); inline const_iterator begin() const { return _args.begin(); } inline const_iterator end() const { return _args.end(); } inline void clear() { _args.clear(); } inline bool empty() { return _args.empty(); } inline void swap(XrlArgs& xa) { _args.swap(xa._args); } /** * Get number of bytes needed to pack atoms contained within * instance. */ size_t packed_bytes() const; /** * Pack contained atoms into a byte array. The size of the byte * array should be larger or equal to the value returned by * packed_bytes(). * * @param buffer buffer to receive data. * @param buffer_bytes size of buffer. * @return size of packed data on success, 0 on failure. */ size_t pack(uint8_t* buffer, size_t buffer_bytes) const; /** * Unpack atoms from byte array into instance. The atoms are * appended to the list of atoms associated with instance. * * @param buffer to read data from. * @param buffer_bytes size of buffer. The size should exactly match * number of bytes of packed atoms, ie packed_bytes() value * used when packing. * @return number of bytes turned into atoms on success, 0 on failure. */ size_t unpack(const uint8_t* buffer, size_t buffer_bytes); // String serialization methods string str() const; protected: void check_not_found(const XrlAtom &xa) throw (XrlAtomFound); list<XrlAtom> _args; }; // ---------------------------------------------------------------------------- // Inline methods inline XrlArgs& XrlArgs::add(const char* n, bool v) throw (XrlAtomFound) { return add_bool(n, v); } inline void XrlArgs::get(const char* n, bool& t) const throw (XrlAtomNotFound) { t = get_bool(n); } inline XrlArgs& XrlArgs::add(const char* n, int32_t v) throw (XrlAtomFound) { return add_int32(n, v); } inline void XrlArgs::get(const char* n, int32_t& t) const throw (XrlAtomNotFound) { t = get_int32(n); } inline XrlArgs& XrlArgs::add(const char* n, uint32_t v) throw (XrlAtomFound) { return add_uint32(n, v); } inline void XrlArgs::get(const char* n, uint32_t& t) const throw (XrlAtomNotFound) { t = get_uint32(n); } inline XrlArgs& XrlArgs::add(const char* n, const IPv4& a) throw (XrlAtomFound) { return add_ipv4(n, a); } inline void XrlArgs::get(const char* n, IPv4& a) const throw (XrlAtomNotFound) { a = get_ipv4(n); } inline XrlArgs& XrlArgs::add(const char* n, const IPv4Net& v) throw (XrlAtomFound) { return add_ipv4net(n, v); } inline void XrlArgs::get(const char* n, IPv4Net& t) const throw (XrlAtomNotFound) { t = get_ipv4net(n); } inline XrlArgs& XrlArgs::add(const char* n, const IPv6& a) throw (XrlAtomFound) { return add_ipv6(n, a); } inline void XrlArgs::get(const char* n, IPv6& a) const throw (XrlAtomNotFound) { a = get_ipv6(n); } inline XrlArgs& XrlArgs::add(const char* n, const IPv6Net& a) throw (XrlAtomFound) { return add_ipv6net(n, a); } inline void XrlArgs::get(const char* n, IPv6Net& a) const throw (XrlAtomNotFound) { a = get_ipv6net(n); } inline XrlArgs& XrlArgs::add(const char* n, const IPvX& a) throw (XrlAtomFound) { return add_ipvx(n, a); } inline void XrlArgs::get(const char* n, IPvX& a) const throw (XrlAtomNotFound) { a = get_ipvx(n); } inline XrlArgs& XrlArgs::add(const char* n, const IPvXNet& a) throw (XrlAtomFound) { return add_ipvxnet(n, a); } inline void XrlArgs::get(const char* n, IPvXNet& a) const throw (XrlAtomNotFound) { a = get_ipvxnet(n); } inline XrlArgs& XrlArgs::add(const char* n, const Mac& a) throw (XrlAtomFound) { return add_mac(n, a); } inline void XrlArgs::get(const char* n, Mac& a) const throw (XrlAtomNotFound) { a = get_mac(n); } inline XrlArgs& XrlArgs::add(const char* n, const string& a) throw (XrlAtomFound) { return add_string(n, a); } inline void XrlArgs::get(const char* n, string& a) const throw (XrlAtomNotFound) { a = get_string(n); } inline XrlArgs& XrlArgs::add(const char* n, const vector<uint8_t>& a) throw (XrlAtomFound) { return add_binary(n, a); } inline void XrlArgs::get(const char* n, vector<uint8_t>& a) const throw (XrlAtomNotFound) { a = get_binary(n); } inline const XrlAtom& XrlArgs::item(uint32_t index) const { return operator[](index); } inline const XrlAtom& XrlArgs::item(const string& name) const throw (XrlAtomNotFound) { return operator[](name); } inline void XrlArgs::push_front(const XrlAtom& xa) { _args.push_front(xa); } inline const XrlAtom& XrlArgs::front() throw (XrlAtomNotFound) { if (_args.empty()) throw XrlAtomNotFound(); return _args.front(); } inline void XrlArgs::pop_front() throw (XrlAtomNotFound) { if (_args.empty()) throw XrlAtomNotFound(); _args.pop_front(); } inline void XrlArgs::push_back(const XrlAtom& xa) { _args.push_back(xa); } inline const XrlAtom& XrlArgs::back() throw (XrlAtomNotFound) { if (_args.empty()) throw XrlAtomNotFound(); return _args.back(); } inline void XrlArgs::pop_back() throw (XrlAtomNotFound) { if (_args.empty()) throw XrlAtomNotFound(); _args.pop_back(); } #endif // __LIBXIPC_XRL_ARGS_HH__