/****************************************************************************** * Icinga 2 * * Copyright (C) 2012-2015 Icinga Development Team (http://www.icinga.org) * * * * This program is free software; you can redistribute it and/or * * modify it under the terms of the GNU General Public License * * as published by the Free Software Foundation; either version 2 * * of the License, or (at your option) any later version. * * * * This program is distributed in the hope that it will be useful, * * but WITHOUT ANY WARRANTY; without even the implied warranty of * * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * * GNU General Public License for more details. * * * * You should have received a copy of the GNU General Public License * * along with this program; if not, write to the Free Software Foundation * * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. * ******************************************************************************/ #include "base/array.hpp" #include "base/utility.hpp" #include "base/objectlock.hpp" #include "remote/url.hpp" #include "remote/url-characters.hpp" #include #include using namespace icinga; Url::Url() { } Url::Url(const String& base_url) { String url = base_url; if (url.GetLength() == 0) BOOST_THROW_EXCEPTION(std::invalid_argument("Invalid URL Empty URL.")); size_t pHelper = url.Find(":"); if (pHelper != String::NPos) { if (!ParseScheme(url.SubStr(0, pHelper))) BOOST_THROW_EXCEPTION(std::invalid_argument("Invalid URL Scheme.")); url = url.SubStr(pHelper + 1); } if (*url.Begin() != '/') BOOST_THROW_EXCEPTION(std::invalid_argument("Invalid URL: '/' expected after scheme.")); if (url.GetLength() == 1) { return; } if (*(url.Begin() + 1) == '/') { pHelper = url.Find("/", 2); if (pHelper == String::NPos) BOOST_THROW_EXCEPTION(std::invalid_argument("Invalid URL: Missing '/' after authority.")); if (!ParseAuthority(url.SubStr(0, pHelper))) BOOST_THROW_EXCEPTION(std::invalid_argument("Invalid URL Authority")); url = url.SubStr(pHelper); } if (*url.Begin() == '/') { pHelper = url.FindFirstOf("#?"); if (!ParsePath(url.SubStr(1, pHelper - 1))) BOOST_THROW_EXCEPTION(std::invalid_argument("Invalid URL Path")); if (pHelper != String::NPos) url = url.SubStr(pHelper); } else BOOST_THROW_EXCEPTION(std::invalid_argument("Invalid URL: Missing path.")); if (*url.Begin() == '?') { pHelper = url.Find("#"); if (!ParseQuery(url.SubStr(1, pHelper - 1))) BOOST_THROW_EXCEPTION(std::invalid_argument("Invalid URL Query")); if (pHelper != String::NPos) url = url.SubStr(pHelper); } if (*url.Begin() == '#') { if (!ParseFragment(url.SubStr(1))) BOOST_THROW_EXCEPTION(std::invalid_argument("Invalid URL Fragment")); } } String Url::GetScheme(void) const { return m_Scheme; } String Url::GetAuthority(void) const { if (m_Host.IsEmpty()) return ""; String auth; if (!m_Username.IsEmpty()) { auth = m_Username; if (!m_Password.IsEmpty()) auth += ":" + m_Password; auth += "@"; } auth += m_Host; if (!m_Port.IsEmpty()) auth += ":" + m_Port; return auth; } String Url::GetUsername(void) const { return m_Username; } String Url::GetPassword(void) const { return m_Password; } String Url::GetHost(void) const { return m_Host; } String Url::GetPort(void) const { return m_Port; } const std::vector& Url::GetPath(void) const { return m_Path; } const std::map >& Url::GetQuery(void) const { return m_Query; } String Url::GetQueryElement(const String& name) const { std::map >::const_iterator it = m_Query.find(name); if (it == m_Query.end()) return String(); return it->second.back(); } const std::vector& Url::GetQueryElements(const String& name) const { std::map >::const_iterator it = m_Query.find(name); if (it == m_Query.end()) { static std::vector emptyVector; return emptyVector; } return it->second; } String Url::GetFragment(void) const { return m_Fragment; } void Url::SetScheme(const String& scheme) { m_Scheme = scheme; } void Url::SetAuthority(const String& username, const String& password, const String& host, const String& port) { m_Username = username; m_Password = password; m_Host = host; m_Port = port; } void Url::SetHost(const String& host) { m_Host = host; } void Url::SetPort(const String& port) { m_Port = port; } void Url::SetPath(const std::vector& path) { m_Path = path; } void Url::SetQuery(const std::map >& query) { m_Query = query; } void Url::AddQueryElement(const String& name, const String& value) { std::map >::iterator it = m_Query.find(name); if (it == m_Query.end()) { m_Query[name] = std::vector(); m_Query[name].push_back(value); } else m_Query[name].push_back(value); } void Url::SetQueryElements(const String& name, const std::vector& values) { m_Query[name] = values; } void Url::SetFragment(const String& fragment) { m_Fragment = fragment; } String Url::Format(bool print_credentials) const { String url; if (!m_Scheme.IsEmpty()) url += m_Scheme + ":"; if (print_credentials && !GetAuthority().IsEmpty()) url += "//" + GetAuthority(); else if (!GetHost().IsEmpty()) url += "//" + GetHost() + (!GetPort().IsEmpty() ? ":" + GetPort() : ""); if (m_Path.empty()) url += "/"; else { BOOST_FOREACH (const String& segment, m_Path) { url += "/"; url += Utility::EscapeString(segment, ACPATHSEGMENT, false); } } String param; if (!m_Query.empty()) { typedef std::pair > kv_pair; BOOST_FOREACH (const kv_pair& kv, m_Query) { String key = Utility::EscapeString(kv.first, ACQUERY, false); if (param.IsEmpty()) param = "?"; else param += "&"; String temp; BOOST_FOREACH (const String s, kv.second) { if (!temp.IsEmpty()) temp += "&"; temp += key + "[]=" + Utility::EscapeString(s, ACQUERY, false); } param += temp; } } url += param; if (!m_Fragment.IsEmpty()) url += "#" + Utility::EscapeString(m_Fragment, ACFRAGMENT, false); return url; } bool Url::ParseScheme(const String& scheme) { m_Scheme = scheme; if (scheme.FindFirstOf(ALPHA) != 0) return false; return (ValidateToken(scheme, ACSCHEME)); } bool Url::ParseAuthority(const String& authority) { String auth = authority.SubStr(2); size_t pos = auth.Find("@"); if (pos != String::NPos && pos != 0) { if (!Url::ParseUserinfo(auth.SubStr(0, pos))) return false; auth = auth.SubStr(pos+1); } pos = auth.Find(":"); if (pos != String::NPos) { if (pos == 0 || pos == auth.GetLength() - 1 || !Url::ParsePort(auth.SubStr(pos+1))) return false; } m_Host = auth.SubStr(0, pos); return ValidateToken(m_Host, ACHOST); } bool Url::ParseUserinfo(const String& userinfo) { size_t pos = userinfo.Find(":"); m_Username = userinfo.SubStr(0, pos); if (!ValidateToken(m_Username, ACUSERINFO)) return false; m_Username = Utility::UnescapeString(m_Username); if (pos != String::NPos && pos != userinfo.GetLength() - 1) { m_Password = userinfo.SubStr(pos+1); if (!ValidateToken(m_Username, ACUSERINFO)) return false; m_Password = Utility::UnescapeString(m_Password); } else m_Password = ""; return true; } bool Url::ParsePort(const String& port) { m_Port = Utility::UnescapeString(port); if (!ValidateToken(m_Port, ACPORT)) return false; return true; } bool Url::ParsePath(const String& path) { std::string pathStr = path; boost::char_separator sep("/"); boost::tokenizer > tokens(pathStr, sep); BOOST_FOREACH(const String& token, tokens) { if (token.IsEmpty()) continue; if (!ValidateToken(token, ACPATHSEGMENT)) return false; String decodedToken = Utility::UnescapeString(token); m_Path.push_back(decodedToken); } return true; } bool Url::ParseQuery(const String& query) { /* Tokenizer does not like String AT ALL */ std::string queryStr = query; boost::char_separator sep("&"); boost::tokenizer > tokens(queryStr, sep); BOOST_FOREACH(const String& token, tokens) { size_t pHelper = token.Find("="); if (pHelper == 0) // /?foo=bar&=bar == invalid return false; String key = token.SubStr(0, pHelper); String value = Empty; if (pHelper != token.GetLength() - 1) value = token.SubStr(pHelper+1); if (!ValidateToken(value, ACQUERY)) return false; value = Utility::UnescapeString(value); pHelper = key.Find("[]"); if (pHelper == 0 || (pHelper != String::NPos && pHelper != key.GetLength()-2)) return false; key = key.SubStr(0, pHelper); if (!ValidateToken(key, ACQUERY)) return false; key = Utility::UnescapeString(key); std::map >::iterator it = m_Query.find(key); if (it == m_Query.end()) { m_Query[key] = std::vector(); m_Query[key].push_back(value); } else m_Query[key].push_back(value); } return true; } bool Url::ParseFragment(const String& fragment) { m_Fragment = Utility::UnescapeString(fragment); return ValidateToken(fragment, ACFRAGMENT); } bool Url::ValidateToken(const String& token, const String& symbols) { BOOST_FOREACH (const char c, token.CStr()) { if (symbols.FindFirstOf(c) == String::NPos) return false; } return true; }