icinga2/lib/config/aexpression.cpp

462 lines
14 KiB
C++

/******************************************************************************
* Icinga 2 *
* Copyright (C) 2012-2014 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 "config/aexpression.h"
#include "config/configerror.h"
#include "base/array.h"
#include "base/serializer.h"
#include "base/context.h"
#include "base/scriptfunction.h"
#include "base/scriptvariable.h"
#include "base/utility.h"
#include "base/objectlock.h"
#include <boost/foreach.hpp>
#include <boost/exception_ptr.hpp>
#include <boost/exception/errinfo_nested_exception.hpp>
using namespace icinga;
AExpression::AExpression(OpCallback op, const Value& operand1, const DebugInfo& di)
: m_Operator(op), m_Operand1(operand1), m_Operand2(), m_DebugInfo(di)
{ }
AExpression::AExpression(OpCallback op, const Value& operand1, const Value& operand2, const DebugInfo& di)
: m_Operator(op), m_Operand1(operand1), m_Operand2(operand2), m_DebugInfo(di)
{ }
Value AExpression::Evaluate(const Dictionary::Ptr& locals) const
{
try {
return m_Operator(this, locals);
} catch (const std::exception& ex) {
if (boost::get_error_info<boost::errinfo_nested_exception>(ex))
throw;
else
BOOST_THROW_EXCEPTION(ConfigError("Error while evaluating expression: " + String(ex.what())) << boost::errinfo_nested_exception(boost::current_exception()) << errinfo_debuginfo(m_DebugInfo));
}
}
void AExpression::ExtractPath(const std::vector<String>& path, const Array::Ptr& result) const
{
ASSERT(!path.empty());
if (m_Operator == &AExpression::OpDict) {
Array::Ptr exprl = m_Operand1;
ObjectLock olock(exprl);
BOOST_FOREACH(const AExpression::Ptr& expr, exprl) {
expr->ExtractPath(path, result);
}
} else if ((m_Operator == &AExpression::OpSet || m_Operator == &AExpression::OpSetPlus ||
m_Operator == &AExpression::OpSetMinus || m_Operator == &AExpression::OpSetMultiply ||
m_Operator == &AExpression::OpSetDivide) && path[0] == m_Operand1) {
AExpression::Ptr exprl = m_Operand2;
if (path.size() == 1) {
if (m_Operator == &AExpression::OpSet)
result->Clear();
if (exprl->m_Operator != &AExpression::OpDict)
BOOST_THROW_EXCEPTION(ConfigError("The '" + path[0] + "' attribute must be a dictionary.") << errinfo_debuginfo(m_DebugInfo));
Array::Ptr subexprl = exprl->m_Operand1;
ObjectLock olock(subexprl);
BOOST_FOREACH(const AExpression::Ptr& expr, subexprl) {
result->Add(expr);
}
return;
}
std::vector<String> sub_path(path.begin() + 1, path.end());
exprl->ExtractPath(sub_path, result);
}
}
void AExpression::FindDebugInfoPath(const std::vector<String>& path, DebugInfo& result) const
{
ASSERT(!path.empty());
if (m_Operator == &AExpression::OpDict) {
Array::Ptr exprl = m_Operand1;
ObjectLock olock(exprl);
BOOST_FOREACH(const AExpression::Ptr& expr, exprl) {
expr->FindDebugInfoPath(path, result);
}
} else if ((m_Operator == &AExpression::OpSet || m_Operator == &AExpression::OpSetPlus ||
m_Operator == &AExpression::OpSetMinus || m_Operator == &AExpression::OpSetMultiply ||
m_Operator == &AExpression::OpSetDivide) && path[0] == m_Operand1) {
AExpression::Ptr exprl = m_Operand2;
if (path.size() == 1) {
result = m_DebugInfo;
} else {
std::vector<String> sub_path(path.begin() + 1, path.end());
exprl->FindDebugInfoPath(sub_path, result);
}
}
}
void AExpression::MakeInline(void)
{
if (m_Operator == &AExpression::OpDict)
m_Operand2 = true;
}
void AExpression::DumpOperand(std::ostream& stream, const Value& operand, int indent) {
if (operand.IsObjectType<Array>()) {
Array::Ptr arr = operand;
stream << String(indent, ' ') << "Array:\n";
ObjectLock olock(arr);
BOOST_FOREACH(const Value& elem, arr) {
DumpOperand(stream, elem, indent + 1);
}
} else if (operand.IsObjectType<AExpression>()) {
AExpression::Ptr left = operand;
left->Dump(stream, indent);
} else {
stream << String(indent, ' ') << JsonSerialize(operand) << "\n";
}
}
void AExpression::Dump(std::ostream& stream, int indent) const
{
String sym = Utility::GetSymbolName(reinterpret_cast<const void *>(m_Operator));
stream << String(indent, ' ') << "op: " << Utility::DemangleSymbolName(sym) << "\n";
stream << String(indent, ' ') << "left:\n";
DumpOperand(stream, m_Operand1, indent + 1);
stream << String(indent, ' ') << "right:\n";
DumpOperand(stream, m_Operand2, indent + 1);
}
Value AExpression::EvaluateOperand1(const Dictionary::Ptr& locals) const
{
return static_cast<AExpression::Ptr>(m_Operand1)->Evaluate(locals);
}
Value AExpression::EvaluateOperand2(const Dictionary::Ptr& locals) const
{
return static_cast<AExpression::Ptr>(m_Operand2)->Evaluate(locals);
}
Value AExpression::OpLiteral(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->m_Operand1;
}
Value AExpression::OpVariable(const AExpression *expr, const Dictionary::Ptr& locals)
{
Dictionary::Ptr scope = locals;
while (scope) {
if (scope->Contains(expr->m_Operand1))
return scope->Get(expr->m_Operand1);
scope = scope->Get("__parent");
}
return ScriptVariable::Get(expr->m_Operand1);
}
Value AExpression::OpNegate(const AExpression *expr, const Dictionary::Ptr& locals)
{
return ~(long)expr->EvaluateOperand1(locals);
}
Value AExpression::OpAdd(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) + expr->EvaluateOperand2(locals);
}
Value AExpression::OpSubtract(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) - expr->EvaluateOperand2(locals);
}
Value AExpression::OpMultiply(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) * expr->EvaluateOperand2(locals);
}
Value AExpression::OpDivide(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) / expr->EvaluateOperand2(locals);
}
Value AExpression::OpBinaryAnd(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) & expr->EvaluateOperand2(locals);
}
Value AExpression::OpBinaryOr(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) | expr->EvaluateOperand2(locals);
}
Value AExpression::OpShiftLeft(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) << expr->EvaluateOperand2(locals);
}
Value AExpression::OpShiftRight(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) >> expr->EvaluateOperand2(locals);
}
Value AExpression::OpEqual(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) == expr->EvaluateOperand2(locals);
}
Value AExpression::OpNotEqual(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) != expr->EvaluateOperand2(locals);
}
Value AExpression::OpLessThan(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) < expr->EvaluateOperand2(locals);
}
Value AExpression::OpGreaterThan(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) > expr->EvaluateOperand2(locals);
}
Value AExpression::OpLessThanOrEqual(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) <= expr->EvaluateOperand2(locals);
}
Value AExpression::OpGreaterThanOrEqual(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals) >= expr->EvaluateOperand2(locals);
}
Value AExpression::OpIn(const AExpression *expr, const Dictionary::Ptr& locals)
{
Value right = expr->EvaluateOperand2(locals);
if (!right.IsObjectType<Array>())
BOOST_THROW_EXCEPTION(ConfigError("Invalid right side argument for 'in' operator: " + JsonSerialize(right)));
Value left = expr->EvaluateOperand1(locals);
Array::Ptr arr = right;
bool found = false;
ObjectLock olock(arr);
BOOST_FOREACH(const Value& value, arr) {
if (value == left) {
found = true;
break;
}
}
return found;
}
Value AExpression::OpNotIn(const AExpression *expr, const Dictionary::Ptr& locals)
{
return !OpIn(expr, locals);
}
Value AExpression::OpLogicalAnd(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals).ToBool() && expr->EvaluateOperand2(locals).ToBool();
}
Value AExpression::OpLogicalOr(const AExpression *expr, const Dictionary::Ptr& locals)
{
return expr->EvaluateOperand1(locals).ToBool() || expr->EvaluateOperand2(locals).ToBool();
}
Value AExpression::OpFunctionCall(const AExpression *expr, const Dictionary::Ptr& locals)
{
String funcName = expr->m_Operand1;
ScriptFunction::Ptr func = ScriptFunctionRegistry::GetInstance()->GetItem(funcName);
if (!func)
BOOST_THROW_EXCEPTION(ConfigError("Function '" + funcName + "' does not exist."));
Array::Ptr arr = expr->EvaluateOperand2(locals);
std::vector<Value> arguments;
ObjectLock olock(arr);
BOOST_FOREACH(const AExpression::Ptr& aexpr, arr) {
arguments.push_back(aexpr->Evaluate(locals));
}
return func->Invoke(arguments);
}
Value AExpression::OpArray(const AExpression *expr, const Dictionary::Ptr& locals)
{
Array::Ptr arr = expr->m_Operand1;
Array::Ptr result = make_shared<Array>();
if (arr) {
ObjectLock olock(arr);
BOOST_FOREACH(const AExpression::Ptr& aexpr, arr) {
result->Add(aexpr->Evaluate(locals));
}
}
return result;
}
Value AExpression::OpDict(const AExpression *expr, const Dictionary::Ptr& locals)
{
Array::Ptr arr = expr->m_Operand1;
bool in_place = expr->m_Operand2;
Dictionary::Ptr result = make_shared<Dictionary>();
result->Set("__parent", locals);
if (arr) {
ObjectLock olock(arr);
BOOST_FOREACH(const AExpression::Ptr& aexpr, arr) {
aexpr->Evaluate(in_place ? locals : result);
}
}
result->Remove("__parent");
return result;
}
Value AExpression::OpSet(const AExpression *expr, const Dictionary::Ptr& locals)
{
Value right = expr->EvaluateOperand2(locals);
locals->Set(expr->m_Operand1, right);
return right;
}
Value AExpression::OpSetPlus(const AExpression *expr, const Dictionary::Ptr& locals)
{
Value left = locals->Get(expr->m_Operand1);
AExpression::Ptr exp_right = expr->m_Operand2;
Dictionary::Ptr xlocals = locals;
if (exp_right->m_Operator == &AExpression::OpDict) {
xlocals = left;
if (!xlocals)
xlocals = make_shared<Dictionary>();
xlocals->Set("__parent", locals);
}
Value result = left + expr->EvaluateOperand2(xlocals);
if (exp_right->m_Operator == &AExpression::OpDict) {
Dictionary::Ptr dict = result;
dict->Remove("__parent");
}
locals->Set(expr->m_Operand1, result);
return result;
}
Value AExpression::OpSetMinus(const AExpression *expr, const Dictionary::Ptr& locals)
{
Value left = locals->Get(expr->m_Operand1);
AExpression::Ptr exp_right = expr->m_Operand2;
Dictionary::Ptr xlocals = locals;
if (exp_right->m_Operator == &AExpression::OpDict) {
xlocals = left;
if (!xlocals)
xlocals = make_shared<Dictionary>();
xlocals->Set("__parent", locals);
}
Value result = left - expr->EvaluateOperand2(xlocals);
if (exp_right->m_Operator == &AExpression::OpDict) {
Dictionary::Ptr dict = result;
dict->Remove("__parent");
}
locals->Set(expr->m_Operand1, result);
return result;
}
Value AExpression::OpSetMultiply(const AExpression *expr, const Dictionary::Ptr& locals)
{
Value left = locals->Get(expr->m_Operand1);
AExpression::Ptr exp_right = expr->m_Operand2;
Dictionary::Ptr xlocals = locals;
if (exp_right->m_Operator == &AExpression::OpDict) {
xlocals = left;
if (!xlocals)
xlocals = make_shared<Dictionary>();
xlocals->Set("__parent", locals);
}
Value result = left * expr->EvaluateOperand2(xlocals);
if (exp_right->m_Operator == &AExpression::OpDict) {
Dictionary::Ptr dict = result;
dict->Remove("__parent");
}
locals->Set(expr->m_Operand1, result);
return result;
}
Value AExpression::OpSetDivide(const AExpression *expr, const Dictionary::Ptr& locals)
{
Value left = locals->Get(expr->m_Operand1);
AExpression::Ptr exp_right = expr->m_Operand2;
Dictionary::Ptr xlocals = locals;
if (exp_right->m_Operator == &AExpression::OpDict) {
xlocals = left;
if (!xlocals)
xlocals = make_shared<Dictionary>();
xlocals->Set("__parent", locals);
}
Value result = left / expr->EvaluateOperand2(xlocals);
if (exp_right->m_Operator == &AExpression::OpDict) {
Dictionary::Ptr dict = result;
dict->Remove("__parent");
}
locals->Set(expr->m_Operand1, result);
return result;
}
Value AExpression::OpIndexer(const AExpression *expr, const Dictionary::Ptr& locals)
{
Dictionary::Ptr dict = OpVariable(expr, locals);
if (!dict)
BOOST_THROW_EXCEPTION(ConfigError("Script variable '" + expr->m_Operand1 + "' not set in this scope."));
return dict->Get(expr->m_Operand2);
}