/* -------------------------------------------------------------------------- */ /* Copyright 2002-2018, OpenNebula Project, OpenNebula Systems */ /* */ /* Licensed under the Apache License, Version 2.0 (the "License"); you may */ /* not use this file except in compliance with the License. You may obtain */ /* a copy of the License at */ /* */ /* http://www.apache.org/licenses/LICENSE-2.0 */ /* */ /* Unless required by applicable law or agreed to in writing, software */ /* distributed under the License is distributed on an "AS IS" BASIS, */ /* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. */ /* See the License for the specific language governing permissions and */ /* limitations under the License. */ /* -------------------------------------------------------------------------- */ #ifndef OBJECT_XML_H_ #define OBJECT_XML_H_ #include #include #include #include #include #include #include /** * This class represents a generic Object supported by a xml document. * The class provides basic methods to query attributes, and get xml nodes */ class ObjectXML { public: // ---------------------- Constructors ------------------------------------ ObjectXML():xml(0),ctx(0){}; /** * Constructs an object using a XML document */ ObjectXML(const std::string &xml_doc); /** * Constructs an object using a XML Node. The node is copied to the new * object */ ObjectXML(const xmlNodePtr node); virtual ~ObjectXML(); /** * Gets elements by xpath. * @param values vector with the element values. * @param expr of the xml element */ template void xpaths(std::vector& values, const char * expr) { xmlXPathObjectPtr obj; xmlNodePtr cur; xmlChar * str_ptr; obj=xmlXPathEvalExpression(reinterpret_cast(expr),ctx); if (obj == 0) { return; } switch (obj->type) { case XPATH_NUMBER: values.push_back(static_cast(obj->floatval)); break; case XPATH_NODESET: for(int i = 0; i < obj->nodesetval->nodeNr ; ++i) { cur = obj->nodesetval->nodeTab[i]; if ( cur == 0 || cur->type != XML_ELEMENT_NODE ) { continue; } str_ptr = xmlNodeGetContent(cur); if (str_ptr != 0) { std::istringstream iss(reinterpret_cast(str_ptr)); T val; iss >> std::dec >> val; if (!iss.fail()) { values.push_back(val); } xmlFree(str_ptr); } } break; default: break; } xmlXPathFreeObject(obj); }; void xpaths(std::vector& values, const char * xpath_expr); /** * Gets a xpath attribute, if the attribute is not found a default is used. * This function only returns the first element * @param value of the element * @param xpath_expr of the xml element * @param def default value if the element is not found * * @return -1 if default was set */ template int xpath(T& value, const char * xpath_expr, const T& def) { std::vector values; xpaths(values, xpath_expr); if (values.empty() == true) { value = def; return -1; } std::istringstream iss(values[0]); iss >> std::dec >> value; if (iss.fail() == true) { value = def; return -1; } return 0; } int xpath(std::string& value, const char * xpath_expr, const char * def); /** * Gets the value of an element from an xml string * @param value the value of the element * @param xml the xml string * @param xpath the xpath of the target element * * @return -1 if the element was not found */ static int xpath_value(std::string& value, const char *xml, const char *xpath); /** * Search the Object for a given attribute in a set of object specific * routes. * @param name of the attribute * @param value of the attribute * * @return -1 if the element was not found */ virtual int search(const char *name, std::string& value) { return __search(name, value); } virtual int search(const char *name, int& value) { return __search(name, value); } virtual int search(const char *name, float& value) { return __search(name, value); } /** * Search the Object for a given attribute in a set of object specific * routes. * @param name of the attribute * @results vector of attributes that matches the query */ template void search(const char* name, std::vector& results) { if (name[0] == '/') { xpaths(results, name); } else if (num_paths == 0) { results.clear(); } else { std::ostringstream xpath; xpath << paths[0] << name; for (int i = 1; i < num_paths ; i++) { xpath << '|' << paths[i] << name; } xpaths(results, xpath.str().c_str()); } } /** * Get xml nodes by Xpath * @param xpath_expr the Xpath for the elements * @param content nodes for the given Xpath expression. The nodes are * returned as pointers to the object nodes. * @return the number of nodes found */ int get_nodes(const std::string& xpath_expr, std::vector& content) const; /** * Adds a copy of the node as a child of the node in the xpath expression. * The source node must be cleaned by the caller. * * @param xpath_expr Path of the parent node * @param node Node copy and add * @param new_name New name for the node copy * * @return 0 on success, -1 otherwise */ int add_node(const char * xpath_expr, xmlNodePtr node, const char * new_name); /** * Frees a vector of XMLNodes, as returned by the get_nodes function * @param content the vector of xmlNodePtr */ void free_nodes(std::vector& content) const { std::vector::iterator it; for (it = content.begin(); it < content.end(); it++) { xmlFreeNode(*it); } }; /** * Updates the object representation with a new XML document. Previous * XML resources are freed * @param xml_doc the new xml document */ int update_from_str(const std::string &xml_doc); /** * Updates the object representation with a new XML document. Previous * XML resources are freed * @param xml_doc the new xml document */ int update_from_node(const xmlNodePtr node); /** * Validates the xml string * * @param xml_doc string to parse * @return 0 if the xml validates */ static int validate_xml(const std::string &xml_doc); /** * Renames the nodes given in the xpath expression * @param xpath_expr xpath expression to find the nodes to rename * @param new_name new name for the xml elements * * @return the number of nodes renamed */ int rename_nodes(const char * xpath_expr, const char * new_name); // --------------------------------------------------------- // Lex & bison parser for requirements and rank expressions // --------------------------------------------------------- /** * Evaluates a requirement expression on the given host. * @param requirements string * @param result true if the host matches the requirements * @param errmsg string describing the error, must be freed by the * calling function * @return 0 on success */ int eval_bool(const std::string& expr, bool& result, char **errmsg); /** * Evaluates a rank expression on the given host. * @param rank string * @param result of the rank evaluation * @param errmsg string describing the error, must be freed by the * calling function * @return 0 on success */ int eval_arith(const std::string& expr, int& result, char **errmsg); /** * Function to write the Object in an output stream */ friend std::ostream& operator<<(std::ostream& os, ObjectXML& oxml) { xmlNodePtr root_node = xmlDocGetRootElement(oxml.xml); if ( root_node == 0 ) { return os; } xmlBufferPtr buffer = xmlBufferCreate(); xmlNodeDump(buffer, oxml.xml, root_node, 0, 0); std::string str(reinterpret_cast(buffer->content)); os << str; xmlBufferFree(buffer); return os; }; protected: /** * Array of paths to look for attributes in search methods */ const char **paths; /** * Number of elements in paths array */ int num_paths; private: /** * XML representation of the Object */ xmlDocPtr xml; /** * XPath Context to access Object elements */ xmlXPathContextPtr ctx; /** * Parse a XML documents and initializes XPath contexts */ void xml_parse(const std::string &xml_doc); /** * Search the Object for a given attribute in a set of object specific * routes. * @param name of the attribute * @param value of the attribute * * @return -1 if the element was not found */ template int __search(const char *name, T& value) { std::vector results; search(name, results); if (results.size() != 0) { value = results[0]; return 0; } return -1; }; }; #endif /*OBJECT_XML_H_*/