// Copyright (c) 2012 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. #include "net/proxy/proxy_config.h" #include "base/logging.h" #include "base/strings/string_util.h" #include "base/strings/string_tokenizer.h" #include "base/values.h" #include "net/proxy/proxy_info.h" namespace net { namespace { // If |proxies| is non-empty, sets it in |dict| under the key |name|. void AddProxyListToValue(const char* name, const ProxyList& proxies, base::DictionaryValue* dict) { if (!proxies.IsEmpty()) dict->Set(name, proxies.ToValue()); } // Split the |uri_list| on commas and add each entry to |proxy_list| in turn. void AddProxyURIListToProxyList(std::string uri_list, ProxyList* proxy_list, ProxyServer::Scheme default_scheme) { base::StringTokenizer proxy_uri_list(uri_list, ","); while (proxy_uri_list.GetNext()) { proxy_list->AddProxyServer( ProxyServer::FromURI(proxy_uri_list.token(), default_scheme)); } } } // namespace ProxyConfig::ProxyRules::ProxyRules() : reverse_bypass(false), type(TYPE_NO_RULES) { } ProxyConfig::ProxyRules::~ProxyRules() { } void ProxyConfig::ProxyRules::Apply(const GURL& url, ProxyInfo* result) const { if (empty()) { result->UseDirect(); return; } bool bypass_proxy = bypass_rules.Matches(url); if (reverse_bypass) bypass_proxy = !bypass_proxy; if (bypass_proxy) { result->UseDirectWithBypassedProxy(); return; } switch (type) { case ProxyRules::TYPE_SINGLE_PROXY: { result->UseProxyList(single_proxies); return; } case ProxyRules::TYPE_PROXY_PER_SCHEME: { const ProxyList* entry = MapUrlSchemeToProxyList(url.scheme()); if (entry) { result->UseProxyList(*entry); } else { // We failed to find a matching proxy server for the current URL // scheme. Default to direct. result->UseDirect(); } return; } default: { result->UseDirect(); NOTREACHED(); return; } } } void ProxyConfig::ProxyRules::ParseFromString(const std::string& proxy_rules) { // Reset. type = TYPE_NO_RULES; single_proxies = ProxyList(); proxies_for_http = ProxyList(); proxies_for_https = ProxyList(); proxies_for_ftp = ProxyList(); fallback_proxies = ProxyList(); base::StringTokenizer proxy_server_list(proxy_rules, ";"); while (proxy_server_list.GetNext()) { base::StringTokenizer proxy_server_for_scheme( proxy_server_list.token_begin(), proxy_server_list.token_end(), "="); while (proxy_server_for_scheme.GetNext()) { std::string url_scheme = proxy_server_for_scheme.token(); // If we fail to get the proxy server here, it means that // this is a regular proxy server configuration, i.e. proxies // are not configured per protocol. if (!proxy_server_for_scheme.GetNext()) { if (type == TYPE_PROXY_PER_SCHEME) continue; // Unexpected. AddProxyURIListToProxyList(url_scheme, &single_proxies, ProxyServer::SCHEME_HTTP); type = TYPE_SINGLE_PROXY; return; } // Trim whitespace off the url scheme. TrimWhitespaceASCII(url_scheme, TRIM_ALL, &url_scheme); // Add it to the per-scheme mappings (if supported scheme). type = TYPE_PROXY_PER_SCHEME; ProxyList* entry = MapUrlSchemeToProxyListNoFallback(url_scheme); ProxyServer::Scheme default_scheme = ProxyServer::SCHEME_HTTP; // socks=XXX is inconsistent with the other formats, since "socks" // is not a URL scheme. Rather this means "for everything else, send // it to the SOCKS proxy server XXX". if (url_scheme == "socks") { DCHECK(!entry); entry = &fallback_proxies; // Note that here 'socks' is understood to be SOCKS4, even though // 'socks' maps to SOCKS5 in ProxyServer::GetSchemeFromURIInternal. default_scheme = ProxyServer::SCHEME_SOCKS4; } if (entry) { AddProxyURIListToProxyList(proxy_server_for_scheme.token(), entry, default_scheme); } } } } const ProxyList* ProxyConfig::ProxyRules::MapUrlSchemeToProxyList( const std::string& url_scheme) const { const ProxyList* proxy_server_list = const_cast(this)-> MapUrlSchemeToProxyListNoFallback(url_scheme); if (proxy_server_list && !proxy_server_list->IsEmpty()) return proxy_server_list; if (!fallback_proxies.IsEmpty()) return &fallback_proxies; return NULL; // No mapping for this scheme. Use direct. } bool ProxyConfig::ProxyRules::Equals(const ProxyRules& other) const { return type == other.type && single_proxies.Equals(other.single_proxies) && proxies_for_http.Equals(other.proxies_for_http) && proxies_for_https.Equals(other.proxies_for_https) && proxies_for_ftp.Equals(other.proxies_for_ftp) && fallback_proxies.Equals(other.fallback_proxies) && bypass_rules.Equals(other.bypass_rules) && reverse_bypass == other.reverse_bypass; } ProxyList* ProxyConfig::ProxyRules::MapUrlSchemeToProxyListNoFallback( const std::string& scheme) { DCHECK_EQ(TYPE_PROXY_PER_SCHEME, type); if (scheme == "http") return &proxies_for_http; if (scheme == "https") return &proxies_for_https; if (scheme == "ftp") return &proxies_for_ftp; return NULL; // No mapping for this scheme. } ProxyConfig::ProxyConfig() : auto_detect_(false), pac_mandatory_(false), source_(PROXY_CONFIG_SOURCE_UNKNOWN), id_(kInvalidConfigID) { } ProxyConfig::ProxyConfig(const ProxyConfig& config) : auto_detect_(config.auto_detect_), pac_url_(config.pac_url_), pac_mandatory_(config.pac_mandatory_), proxy_rules_(config.proxy_rules_), source_(config.source_), id_(config.id_) { } ProxyConfig::~ProxyConfig() { } ProxyConfig& ProxyConfig::operator=(const ProxyConfig& config) { auto_detect_ = config.auto_detect_; pac_url_ = config.pac_url_; pac_mandatory_ = config.pac_mandatory_; proxy_rules_ = config.proxy_rules_; source_ = config.source_; id_ = config.id_; return *this; } bool ProxyConfig::Equals(const ProxyConfig& other) const { // The two configs can have different IDs and sources. We are just interested // in if they have the same settings. return auto_detect_ == other.auto_detect_ && pac_url_ == other.pac_url_ && pac_mandatory_ == other.pac_mandatory_ && proxy_rules_.Equals(other.proxy_rules()); } bool ProxyConfig::HasAutomaticSettings() const { return auto_detect_ || has_pac_url(); } void ProxyConfig::ClearAutomaticSettings() { auto_detect_ = false; pac_url_ = GURL(); } base::DictionaryValue* ProxyConfig::ToValue() const { base::DictionaryValue* dict = new base::DictionaryValue(); // Output the automatic settings. if (auto_detect_) dict->SetBoolean("auto_detect", auto_detect_); if (has_pac_url()) { dict->SetString("pac_url", pac_url_.possibly_invalid_spec()); if (pac_mandatory_) dict->SetBoolean("pac_mandatory", pac_mandatory_); } // Output the manual settings. if (proxy_rules_.type != ProxyRules::TYPE_NO_RULES) { switch (proxy_rules_.type) { case ProxyRules::TYPE_SINGLE_PROXY: AddProxyListToValue("single_proxy", proxy_rules_.single_proxies, dict); break; case ProxyRules::TYPE_PROXY_PER_SCHEME: { base::DictionaryValue* dict2 = new base::DictionaryValue(); AddProxyListToValue("http", proxy_rules_.proxies_for_http, dict2); AddProxyListToValue("https", proxy_rules_.proxies_for_https, dict2); AddProxyListToValue("ftp", proxy_rules_.proxies_for_ftp, dict2); AddProxyListToValue("fallback", proxy_rules_.fallback_proxies, dict2); dict->Set("proxy_per_scheme", dict2); break; } default: NOTREACHED(); } // Output the bypass rules. const ProxyBypassRules& bypass = proxy_rules_.bypass_rules; if (!bypass.rules().empty()) { if (proxy_rules_.reverse_bypass) dict->SetBoolean("reverse_bypass", true); base::ListValue* list = new base::ListValue(); for (ProxyBypassRules::RuleList::const_iterator it = bypass.rules().begin(); it != bypass.rules().end(); ++it) { list->Append(new base::StringValue((*it)->ToString())); } dict->Set("bypass_list", list); } } // Output the source. dict->SetString("source", ProxyConfigSourceToString(source_)); return dict; } } // namespace net