/* Icinga 2 | (c) 2012 Icinga GmbH | GPLv2+ */ #ifndef VMOPS_H #define VMOPS_H #include "config/i2-config.hpp" #include "config/expression.hpp" #include "config/configitembuilder.hpp" #include "config/applyrule.hpp" #include "config/objectrule.hpp" #include "base/debuginfo.hpp" #include "base/array.hpp" #include "base/dictionary.hpp" #include "base/namespace.hpp" #include "base/function.hpp" #include "base/scriptglobal.hpp" #include "base/exception.hpp" #include "base/convert.hpp" #include "base/objectlock.hpp" #include #include namespace icinga { class VMOps { public: static inline bool FindVarImportRef(ScriptFrame& frame, const std::vector& imports, const String& name, Value *result, const DebugInfo& debugInfo = DebugInfo()) { for (const auto& import : imports) { ExpressionResult res = import->Evaluate(frame); Object::Ptr obj = res.GetValue(); if (obj->HasOwnField(name)) { *result = obj; return true; } } return false; } static inline bool FindVarImport(ScriptFrame& frame, const std::vector& imports, const String& name, Value *result, const DebugInfo& debugInfo = DebugInfo()) { Value parent; if (FindVarImportRef(frame, imports, name, &parent, debugInfo)) { *result = GetField(parent, name, frame.Sandboxed, debugInfo); return true; } return false; } static inline Value ConstructorCall(const Type::Ptr& type, const std::vector& args, const DebugInfo& debugInfo = DebugInfo()) { if (type->GetName() == "String") { if (args.empty()) return ""; else if (args.size() == 1) return Convert::ToString(args[0]); else BOOST_THROW_EXCEPTION(ScriptError("Too many arguments for constructor.")); } else if (type->GetName() == "Number") { if (args.empty()) return 0; else if (args.size() == 1) return Convert::ToDouble(args[0]); else BOOST_THROW_EXCEPTION(ScriptError("Too many arguments for constructor.")); } else if (type->GetName() == "Boolean") { if (args.empty()) return 0; else if (args.size() == 1) return Convert::ToBool(args[0]); else BOOST_THROW_EXCEPTION(ScriptError("Too many arguments for constructor.")); } else if (args.size() == 1 && type->IsAssignableFrom(args[0].GetReflectionType())) return args[0]; else return type->Instantiate(args); } static inline Value FunctionCall(ScriptFrame& frame, const Value& self, const Function::Ptr& func, const std::vector& arguments) { if (!self.IsEmpty() || self.IsString()) return func->InvokeThis(self, arguments); else return func->Invoke(arguments); } static inline Value NewFunction(ScriptFrame& frame, const String& name, const std::vector& argNames, const std::map >& closedVars, const Expression::Ptr& expression) { auto evaluatedClosedVars = EvaluateClosedVars(frame, closedVars); auto wrapper = [argNames, evaluatedClosedVars, expression](const std::vector& arguments) -> Value { if (arguments.size() < argNames.size()) BOOST_THROW_EXCEPTION(std::invalid_argument("Too few arguments for function")); ScriptFrame *frame = ScriptFrame::GetCurrentFrame(); frame->Locals = new Dictionary(); if (evaluatedClosedVars) evaluatedClosedVars->CopyTo(frame->Locals); for (std::vector::size_type i = 0; i < std::min(arguments.size(), argNames.size()); i++) frame->Locals->Set(argNames[i], arguments[i]); return expression->Evaluate(*frame); }; return new Function(name, wrapper, argNames); } static inline Value NewApply(ScriptFrame& frame, const String& type, const String& target, const String& name, const Expression::Ptr& filter, const String& package, const String& fkvar, const String& fvvar, const Expression::Ptr& fterm, const std::map >& closedVars, bool ignoreOnError, const Expression::Ptr& expression, const DebugInfo& debugInfo = DebugInfo()) { ApplyRule::AddRule(type, target, name, expression, filter, package, fkvar, fvvar, fterm, ignoreOnError, debugInfo, EvaluateClosedVars(frame, closedVars)); return Empty; } static inline Value NewObject(ScriptFrame& frame, bool abstract, const Type::Ptr& type, const String& name, const Expression::Ptr& filter, const String& zone, const String& package, bool defaultTmpl, bool ignoreOnError, const std::map >& closedVars, const Expression::Ptr& expression, const DebugInfo& debugInfo = DebugInfo()) { ConfigItemBuilder item{debugInfo}; String checkName = name; if (!abstract) { auto *nc = dynamic_cast(type.get()); if (nc) checkName = nc->MakeName(name, nullptr); } if (!checkName.IsEmpty()) { ConfigItem::Ptr oldItem = ConfigItem::GetByTypeAndName(type, checkName); if (oldItem) { std::ostringstream msgbuf; msgbuf << "Object '" << name << "' of type '" << type->GetName() << "' re-defined: " << debugInfo << "; previous definition: " << oldItem->GetDebugInfo(); BOOST_THROW_EXCEPTION(ScriptError(msgbuf.str(), debugInfo)); } } if (filter && !ObjectRule::IsValidSourceType(type->GetName())) { std::ostringstream msgbuf; msgbuf << "Object '" << name << "' of type '" << type->GetName() << "' must not have 'assign where' and 'ignore where' rules: " << debugInfo; BOOST_THROW_EXCEPTION(ScriptError(msgbuf.str(), debugInfo)); } item.SetType(type); item.SetName(name); if (!abstract) item.AddExpression(new ImportDefaultTemplatesExpression()); item.AddExpression(new OwnedExpression(expression)); item.SetAbstract(abstract); item.SetScope(EvaluateClosedVars(frame, closedVars)); item.SetZone(zone); item.SetPackage(package); item.SetFilter(filter); item.SetDefaultTemplate(defaultTmpl); item.SetIgnoreOnError(ignoreOnError); item.Compile()->Register(); return Empty; } static inline ExpressionResult For(ScriptFrame& frame, const String& fkvar, const String& fvvar, const Value& value, const std::unique_ptr& expression, const DebugInfo& debugInfo = DebugInfo()) { if (value.IsObjectType()) { if (!fvvar.IsEmpty()) BOOST_THROW_EXCEPTION(ScriptError("Cannot use dictionary iterator for array.", debugInfo)); Array::Ptr arr = value; for (Array::SizeType i = 0; i < arr->GetLength(); i++) { frame.Locals->Set(fkvar, arr->Get(i)); ExpressionResult res = expression->Evaluate(frame); CHECK_RESULT_LOOP(res); } } else if (value.IsObjectType()) { if (fvvar.IsEmpty()) BOOST_THROW_EXCEPTION(ScriptError("Cannot use array iterator for dictionary.", debugInfo)); Dictionary::Ptr dict = value; std::vector keys; { ObjectLock olock(dict); for (const Dictionary::Pair& kv : dict) { keys.push_back(kv.first); } } for (const String& key : keys) { frame.Locals->Set(fkvar, key); frame.Locals->Set(fvvar, dict->Get(key)); ExpressionResult res = expression->Evaluate(frame); CHECK_RESULT_LOOP(res); } } else if (value.IsObjectType()) { if (fvvar.IsEmpty()) BOOST_THROW_EXCEPTION(ScriptError("Cannot use array iterator for namespace.", debugInfo)); Namespace::Ptr ns = value; std::vector keys; { ObjectLock olock(ns); for (const Namespace::Pair& kv : ns) { keys.push_back(kv.first); } } for (const String& key : keys) { frame.Locals->Set(fkvar, key); frame.Locals->Set(fvvar, ns->Get(key)); ExpressionResult res = expression->Evaluate(frame); CHECK_RESULT_LOOP(res); } } else BOOST_THROW_EXCEPTION(ScriptError("Invalid type in for expression: " + value.GetTypeName(), debugInfo)); return Empty; } static inline Value GetField(const Value& context, const String& field, bool sandboxed = false, const DebugInfo& debugInfo = DebugInfo()) { if (BOOST_UNLIKELY(context.IsEmpty() && !context.IsString())) return Empty; if (BOOST_UNLIKELY(!context.IsObject())) return GetPrototypeField(context, field, true, debugInfo); Object::Ptr object = context; return object->GetFieldByName(field, sandboxed, debugInfo); } static inline void SetField(const Object::Ptr& context, const String& field, const Value& value, bool overrideFrozen, const DebugInfo& debugInfo = DebugInfo()) { if (!context) BOOST_THROW_EXCEPTION(ScriptError("Cannot set field '" + field + "' on a value that is not an object.", debugInfo)); return context->SetFieldByName(field, value, overrideFrozen, debugInfo); } private: static inline Dictionary::Ptr EvaluateClosedVars(ScriptFrame& frame, const std::map >& closedVars) { if (closedVars.empty()) return nullptr; DictionaryData locals; for (const auto& cvar : closedVars) locals.emplace_back(cvar.first, cvar.second->Evaluate(frame)); return new Dictionary(std::move(locals)); } }; } #endif /* VMOPS_H */