// Copyright (c) 2011 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef NET_PROXY_PROXY_SERVER_H_ #define NET_PROXY_PROXY_SERVER_H_ #include "build/build_config.h" #if defined(OS_MACOSX) #include #endif #include #include #include "net/base/host_port_pair.h" #include "net/base/net_export.h" namespace net { // ProxyServer encodes the {type, host, port} of a proxy server. // ProxyServer is immutable. class NET_EXPORT ProxyServer { public: // The type of proxy. These are defined as bit flags so they can be ORed // together to pass as the |scheme_bit_field| argument to // ProxyService::RemoveProxiesWithoutScheme(). enum Scheme { SCHEME_INVALID = 1 << 0, SCHEME_DIRECT = 1 << 1, SCHEME_HTTP = 1 << 2, SCHEME_SOCKS4 = 1 << 3, SCHEME_SOCKS5 = 1 << 4, SCHEME_HTTPS = 1 << 5, // A QUIC proxy is an HTTP proxy in which QUIC is used as the transport, // instead of TCP. SCHEME_QUIC = 1 << 6, }; // Default copy-constructor and assignment operator are OK! // Constructs an invalid ProxyServer. ProxyServer() : scheme_(SCHEME_INVALID) {} ProxyServer(Scheme scheme, const HostPortPair& host_port_pair); bool is_valid() const { return scheme_ != SCHEME_INVALID; } // Gets the proxy's scheme (i.e. SOCKS4, SOCKS5, HTTP) Scheme scheme() const { return scheme_; } // Returns true if this ProxyServer is actually just a DIRECT connection. bool is_direct() const { return scheme_ == SCHEME_DIRECT; } // Returns true if this ProxyServer is an HTTP proxy. bool is_http() const { return scheme_ == SCHEME_HTTP; } // Returns true if this ProxyServer is an HTTPS proxy. bool is_https() const { return scheme_ == SCHEME_HTTPS; } // Returns true if this ProxyServer is a SOCKS proxy. bool is_socks() const { return scheme_ == SCHEME_SOCKS4 || scheme_ == SCHEME_SOCKS5; } // Returns true if this ProxyServer is a QUIC proxy. bool is_quic() const { return scheme_ == SCHEME_QUIC; } const HostPortPair& host_port_pair() const; // Parses from an input with format: // ["://"][":"] // // Both and are optional. If is omitted, it will be // assumed as |default_scheme|. If is omitted, it will be assumed as // the default port for the chosen scheme (80 for "http", 1080 for "socks"). // // If parsing fails the instance will be set to invalid. // // Examples (for |default_scheme| = SCHEME_HTTP ): // "foopy" {scheme=HTTP, host="foopy", port=80} // "socks://foopy" {scheme=SOCKS5, host="foopy", port=1080} // "socks4://foopy" {scheme=SOCKS4, host="foopy", port=1080} // "socks5://foopy" {scheme=SOCKS5, host="foopy", port=1080} // "http://foopy:17" {scheme=HTTP, host="foopy", port=17} // "https://foopy:17" {scheme=HTTPS, host="foopy", port=17} // "quic://foopy:17" {scheme=QUIC, host="foopy", port=17} // "direct://" {scheme=DIRECT} // "foopy:X" INVALID -- bad port. static ProxyServer FromURI(const std::string& uri, Scheme default_scheme); static ProxyServer FromURI(std::string::const_iterator uri_begin, std::string::const_iterator uri_end, Scheme default_scheme); // Formats as a URI string. This does the reverse of FromURI. std::string ToURI() const; // Parses from a PAC string result. // // If is omitted, it will be assumed as the default port for the // chosen scheme (80 for "http", 1080 for "socks"). // // If parsing fails the instance will be set to invalid. // // Examples: // "PROXY foopy:19" {scheme=HTTP, host="foopy", port=19} // "DIRECT" {scheme=DIRECT} // "SOCKS5 foopy" {scheme=SOCKS5, host="foopy", port=1080} // "HTTPS foopy:123" {scheme=HTTPS, host="foopy", port=123} // "QUIC foopy:123" {scheme=QUIC, host="foopy", port=123} // "BLAH xxx:xx" INVALID static ProxyServer FromPacString(const std::string& pac_string); static ProxyServer FromPacString(std::string::const_iterator pac_string_begin, std::string::const_iterator pac_string_end); // Returns a ProxyServer representing DIRECT connections. static ProxyServer Direct() { return ProxyServer(SCHEME_DIRECT, HostPortPair()); } #if defined(OS_MACOSX) // Utility function to pull out a host/port pair from a dictionary and return // it as a ProxyServer object. Pass in a dictionary that has a value for the // host key and optionally a value for the port key. In the error condition // where the host value is especially malformed, returns an invalid // ProxyServer. static ProxyServer FromDictionary(Scheme scheme, CFDictionaryRef dict, CFStringRef host_key, CFStringRef port_key); #endif // Formats as a PAC result entry. This does the reverse of FromPacString(). std::string ToPacString() const; // Returns the default port number for a proxy server with the specified // scheme. Returns -1 if unknown. static int GetDefaultPortForScheme(Scheme scheme); // Parses the proxy scheme from a URL-like representation, to a // ProxyServer::Scheme. This corresponds with the values used in // ProxyServer::ToURI(). If no type could be matched, returns SCHEME_INVALID. // |scheme| can be one of http, https, socks, socks4, socks5, direct. static Scheme GetSchemeFromURI(const std::string& scheme); bool operator==(const ProxyServer& other) const { return scheme_ == other.scheme_ && host_port_pair_.Equals(other.host_port_pair_); } // Comparator function so this can be placed in a std::map. bool operator<(const ProxyServer& other) const { return std::tie(scheme_, host_port_pair_) < std::tie(other.scheme_, other.host_port_pair_); } private: // Creates a ProxyServer given a scheme, and host/port string. If parsing the // host/port string fails, the returned instance will be invalid. static ProxyServer FromSchemeHostAndPort( Scheme scheme, std::string::const_iterator host_and_port_begin, std::string::const_iterator host_and_port_end); Scheme scheme_; HostPortPair host_port_pair_; }; typedef std::pair HostPortProxyPair; } // namespace net #endif // NET_PROXY_PROXY_SERVER_H_