icinga2/lib/config/expression.cpp

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/******************************************************************************
* 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. *
******************************************************************************/
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#include "config/expression.hpp"
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#include "config/configitem.hpp"
#include "config/vmops.hpp"
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#include "base/array.hpp"
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#include "base/json.hpp"
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#include "base/object.hpp"
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#include "base/logger.hpp"
#include "base/configerror.hpp"
#include <boost/foreach.hpp>
#include <boost/exception_ptr.hpp>
#include <boost/exception/errinfo_nested_exception.hpp>
using namespace icinga;
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Expression::~Expression(void)
{ }
Value Expression::Evaluate(VMFrame& frame, DebugHint *dhint) const
{
try {
#ifdef _DEBUG
/* std::ostringstream msgbuf;
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ShowCodeFragment(msgbuf, GetDebugInfo(), false);
Log(LogDebug, "Expression")
<< "Executing:\n" << msgbuf.str();*/
#endif /* _DEBUG */
return DoEvaluate(frame, dhint);
} catch (const std::exception& ex) {
if (boost::get_error_info<boost::errinfo_nested_exception>(ex))
throw;
else
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BOOST_THROW_EXCEPTION(ConfigError("Error while evaluating expression: " + String(ex.what()))
<< boost::errinfo_nested_exception(boost::current_exception())
<< errinfo_debuginfo(GetDebugInfo()));
}
}
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const DebugInfo& Expression::GetDebugInfo(void) const
{
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static DebugInfo debugInfo;
return debugInfo;
}
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std::vector<Expression *> icinga::MakeIndexer(const String& index1)
{
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std::vector<Expression *> result;
result.push_back(MakeLiteral(index1));
return result;
}
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void DictExpression::MakeInline(void)
{
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m_Inline = true;
}
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LiteralExpression::LiteralExpression(const Value& value)
: m_Value(value)
{ }
Value LiteralExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
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return m_Value;
}
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const DebugInfo& DebuggableExpression::GetDebugInfo(void) const
{
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return m_DebugInfo;
}
Value VariableExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return VMOps::Variable(frame, m_Variable);
}
Value NegateExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return ~(long)m_Operand->Evaluate(frame);
}
Value LogicalNegateExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return !m_Operand->Evaluate(frame).ToBool();
}
Value AddExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) + m_Operand2->Evaluate(frame);
}
Value SubtractExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) - m_Operand2->Evaluate(frame);
}
Value MultiplyExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) * m_Operand2->Evaluate(frame);
}
Value DivideExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) / m_Operand2->Evaluate(frame);
}
Value BinaryAndExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) & m_Operand2->Evaluate(frame);
}
Value BinaryOrExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) | m_Operand2->Evaluate(frame);
}
Value ShiftLeftExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) << m_Operand2->Evaluate(frame);
}
Value ShiftRightExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) >> m_Operand2->Evaluate(frame);
}
Value EqualExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) == m_Operand2->Evaluate(frame);
}
Value NotEqualExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) != m_Operand2->Evaluate(frame);
}
Value LessThanExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) < m_Operand2->Evaluate(frame);
}
Value GreaterThanExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) > m_Operand2->Evaluate(frame);
}
Value LessThanOrEqualExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) <= m_Operand2->Evaluate(frame);
}
Value GreaterThanOrEqualExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame) >= m_Operand2->Evaluate(frame);
}
Value InExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
Value right = m_Operand2->Evaluate(frame);
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if (right.IsEmpty())
return false;
else if (!right.IsObjectType<Array>())
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BOOST_THROW_EXCEPTION(ConfigError("Invalid right side argument for 'in' operator: " + JsonEncode(right)));
Value left = m_Operand1->Evaluate(frame);
Array::Ptr arr = right;
return arr->Contains(left);
}
Value NotInExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
Value right = m_Operand2->Evaluate(frame);
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if (right.IsEmpty())
return false;
else if (!right.IsObjectType<Array>())
BOOST_THROW_EXCEPTION(ConfigError("Invalid right side argument for 'in' operator: " + JsonEncode(right)));
Value left = m_Operand1->Evaluate(frame);
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Array::Ptr arr = right;
return !arr->Contains(left);
}
Value LogicalAndExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame).ToBool() && m_Operand2->Evaluate(frame).ToBool();
}
Value LogicalOrExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return m_Operand1->Evaluate(frame).ToBool() || m_Operand2->Evaluate(frame).ToBool();
}
Value FunctionCallExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
Value funcName = m_FName->Evaluate(frame);
std::vector<Value> arguments;
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BOOST_FOREACH(Expression *arg, m_Args) {
arguments.push_back(arg->Evaluate(frame));
}
return VMOps::FunctionCall(frame, funcName, arguments);
}
Value ArrayExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
Array::Ptr result = new Array();
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BOOST_FOREACH(Expression *aexpr, m_Expressions) {
result->Add(aexpr->Evaluate(frame));
}
return result;
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}
Value DictExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
VMFrame *dframe;
VMFrame rframe;
if (!m_Inline) {
dframe = &rframe;
rframe.Locals = frame.Locals;
rframe.Self = new Dictionary();
} else {
dframe = &frame;
}
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BOOST_FOREACH(Expression *aexpr, m_Expressions) {
aexpr->Evaluate(*dframe, dhint);
}
return dframe->Self;
}
Value SetExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
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DebugHint *psdhint = dhint;
DebugHint sdhint;
Value parent, object;
String index;
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for (Array::SizeType i = 0; i < m_Indexer.size(); i++) {
Expression *indexExpr = m_Indexer[i];
String tempindex = indexExpr->Evaluate(frame, dhint);
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if (psdhint) {
sdhint = psdhint->GetChild(tempindex);
psdhint = &sdhint;
}
if (i == 0)
parent = m_Local ? frame.Locals : frame.Self;
else
parent = object;
if (i == m_Indexer.size() - 1) {
index = tempindex;
/* No need to look up the last indexer's value if this is a direct set */
if (m_Op == OpSetLiteral)
break;
}
object = VMOps::Indexer(frame, parent, tempindex);
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if (i != m_Indexer.size() - 1 && object.IsEmpty()) {
object = new Dictionary();
VMOps::SetField(parent, tempindex, object);
}
}
Value right = m_Operand2->Evaluate(frame, dhint);
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if (m_Op != OpSetLiteral) {
Expression *lhs = MakeLiteral(object);
Expression *rhs = MakeLiteral(right);
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switch (m_Op) {
case OpSetAdd:
right = AddExpression(lhs, rhs, m_DebugInfo).Evaluate(frame, dhint);
break;
case OpSetSubtract:
right = SubtractExpression(lhs, rhs, m_DebugInfo).Evaluate(frame, dhint);
break;
case OpSetMultiply:
right = MultiplyExpression(lhs, rhs, m_DebugInfo).Evaluate(frame, dhint);
break;
case OpSetDivide:
right = DivideExpression(lhs, rhs, m_DebugInfo).Evaluate(frame, dhint);
break;
default:
VERIFY(!"Invalid opcode.");
}
}
VMOps::SetField(parent, index, right);
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if (psdhint)
psdhint->AddMessage("=", m_DebugInfo);
return right;
}
Value IndexerExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return VMOps::Indexer(frame, m_Operand1->Evaluate(frame), m_Operand2->Evaluate(frame));
}
Value ImportExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
String type = VMOps::GetField(frame.Self, "type");
Value name = m_Name->Evaluate(frame);
ConfigItem::Ptr item = ConfigItem::GetObject(type, name);
if (!item)
BOOST_THROW_EXCEPTION(ConfigError("Import references unknown template: '" + name + "'"));
item->GetExpression()->Evaluate(frame, dhint);
return Empty;
}
Value FunctionExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return VMOps::NewFunction(frame, m_Name, m_Args, m_ClosedVars, m_Expression);
}
Value SlotExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return VMOps::NewSlot(frame, m_Signal, m_Slot->Evaluate(frame));
}
Value ApplyExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
return VMOps::NewApply(frame, m_Type, m_Target, m_Name->Evaluate(frame), m_Filter,
m_FKVar, m_FVVar, m_FTerm, m_ClosedVars, m_Expression, m_DebugInfo);
}
Value ObjectExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
{
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String name;
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if (m_Name)
name = m_Name->Evaluate(frame, dhint);
return VMOps::NewObject(frame, m_Abstract, m_Type, name, m_Filter, m_Zone,
m_ClosedVars, m_Expression, m_DebugInfo);
}
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Value ForExpression::DoEvaluate(VMFrame& frame, DebugHint *dhint) const
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{
Value value = m_Value->Evaluate(frame, dhint);
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return VMOps::For(frame, m_FKVar, m_FVVar, m_Value->Evaluate(frame), m_Expression, m_DebugInfo);
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}