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ProGuard is a free shrinker, optimizer, obfuscator, and preverifier for Java bytecode
/*
* ProGuard -- shrinking, optimization, obfuscation, and preverification
* of Java bytecode.
*
* Copyright (c) 2002-2021 Guardsquare NV
*
* 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.,
* 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
package proguard.optimize.info;
import proguard.classfile.*;
import proguard.classfile.attribute.CodeAttribute;
import proguard.classfile.constant.*;
import proguard.classfile.constant.visitor.ConstantVisitor;
import proguard.classfile.instruction.*;
import proguard.classfile.instruction.visitor.InstructionVisitor;
import proguard.classfile.visitor.MemberVisitor;
/**
* This class can tell whether an instruction has any side effects. This
* includes invoking methods that have side effects, writing to fields that
* are not write-only, and throwing exceptions. Return instructions and
* array store instructions can be included or not.
*
* With the environment setting "optimize.conservatively", it also accounts for
* all possible NullPointerExceptions, ArrayIndexOutOfBoundExceptions, etc.,
* which are typically accidental, not intentional.
*
* @see ReadWriteFieldMarker
* @see SideEffectClassMarker
* @see NoSideEffectMethodMarker
* @see SideEffectMethodMarker
* @author Eric Lafortune
*/
public class SideEffectInstructionChecker
implements InstructionVisitor,
ConstantVisitor,
MemberVisitor
{
public static final boolean OPTIMIZE_CONSERVATIVELY = System.getProperty("optimize.conservatively") != null;
private final boolean includeReturnInstructions;
private final boolean includeArrayStoreInstructions;
// Parameters and return values for the visitor methods.
private boolean writingField;
private Clazz referencingClass;
private boolean hasSideEffects;
/**
* Creates a new SideEffectInstructionChecker
* @param includeReturnInstructions specifies whether return
* instructions count as side
* effects.
* @param includeArrayStoreInstructions specifies whether storing values
* in arrays counts as side effects.
*/
public SideEffectInstructionChecker(boolean includeReturnInstructions,
boolean includeArrayStoreInstructions)
{
this.includeReturnInstructions = includeReturnInstructions;
this.includeArrayStoreInstructions = includeArrayStoreInstructions;
}
public boolean hasSideEffects(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, Instruction instruction)
{
hasSideEffects = false;
instruction.accept(clazz, method, codeAttribute, offset, this);
return hasSideEffects;
}
// Implementations for InstructionVisitor.
public void visitAnyInstruction(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, Instruction instruction) {}
public void visitSimpleInstruction(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, SimpleInstruction simpleInstruction)
{
byte opcode = simpleInstruction.opcode;
// Check for instructions that might cause side effects.
switch (opcode)
{
case Instruction.OP_IDIV:
case Instruction.OP_LDIV:
case Instruction.OP_IREM:
case Instruction.OP_LREM:
case Instruction.OP_FDIV:
case Instruction.OP_FREM:
case Instruction.OP_DDIV:
case Instruction.OP_DREM:
case Instruction.OP_IALOAD:
case Instruction.OP_LALOAD:
case Instruction.OP_FALOAD:
case Instruction.OP_DALOAD:
case Instruction.OP_AALOAD:
case Instruction.OP_BALOAD:
case Instruction.OP_CALOAD:
case Instruction.OP_SALOAD:
case Instruction.OP_NEWARRAY:
case Instruction.OP_ARRAYLENGTH:
// These instructions strictly taken may cause a side effect
// (ArithmeticException, NullPointerException,
// ArrayIndexOutOfBoundsException, NegativeArraySizeException).
hasSideEffects = OPTIMIZE_CONSERVATIVELY;
break;
case Instruction.OP_IASTORE:
case Instruction.OP_LASTORE:
case Instruction.OP_FASTORE:
case Instruction.OP_DASTORE:
case Instruction.OP_AASTORE:
case Instruction.OP_BASTORE:
case Instruction.OP_CASTORE:
case Instruction.OP_SASTORE:
// These instructions may cause a side effect.
hasSideEffects = includeArrayStoreInstructions;
break;
case Instruction.OP_ATHROW :
case Instruction.OP_MONITORENTER:
case Instruction.OP_MONITOREXIT:
// These instructions always cause a side effect.
hasSideEffects = true;
break;
case Instruction.OP_IRETURN:
case Instruction.OP_LRETURN:
case Instruction.OP_FRETURN:
case Instruction.OP_DRETURN:
case Instruction.OP_ARETURN:
case Instruction.OP_RETURN:
// These instructions may have a side effect.
hasSideEffects = includeReturnInstructions;
break;
}
}
public void visitVariableInstruction(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, VariableInstruction variableInstruction)
{
byte opcode = variableInstruction.opcode;
// Check for instructions that might cause side effects.
switch (opcode)
{
case Instruction.OP_RET:
// This instruction may have a side effect.
hasSideEffects = includeReturnInstructions;
break;
}
}
public void visitConstantInstruction(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, ConstantInstruction constantInstruction)
{
byte opcode = constantInstruction.opcode;
// Check for instructions that might cause side effects.
switch (opcode)
{
case Instruction.OP_GETSTATIC:
// Check if accessing the field might cause any side effects.
writingField = false;
clazz.constantPoolEntryAccept(constantInstruction.constantIndex, this);
break;
case Instruction.OP_PUTSTATIC:
// Check if accessing the field might cause any side effects.
writingField = true;
clazz.constantPoolEntryAccept(constantInstruction.constantIndex, this);
break;
case Instruction.OP_GETFIELD:
if (OPTIMIZE_CONSERVATIVELY)
{
// These instructions strictly taken may cause a side effect
// (NullPointerException).
hasSideEffects = true;
}
else
{
// Check if the field is write-only or volatile.
writingField = false;
clazz.constantPoolEntryAccept(constantInstruction.constantIndex, this);
}
break;
case Instruction.OP_PUTFIELD:
if (OPTIMIZE_CONSERVATIVELY)
{
// These instructions strictly taken may cause a side effect
// (NullPointerException).
hasSideEffects = true;
}
else
{
// Check if the field is write-only or volatile.
writingField = true;
clazz.constantPoolEntryAccept(constantInstruction.constantIndex, this);
}
break;
case Instruction.OP_INVOKESPECIAL:
case Instruction.OP_INVOKESTATIC:
// Check if the invoked method is causing any side effects.
clazz.constantPoolEntryAccept(constantInstruction.constantIndex, this);
break;
case Instruction.OP_INVOKEVIRTUAL:
case Instruction.OP_INVOKEINTERFACE:
case Instruction.OP_INVOKEDYNAMIC:
if (OPTIMIZE_CONSERVATIVELY)
{
// These instructions strictly taken may cause a side effect
// (NullPointerException).
hasSideEffects = true;
}
else
{
// Check if the invoked method is causing any side effects.
clazz.constantPoolEntryAccept(constantInstruction.constantIndex, this);
}
break;
case Instruction.OP_ANEWARRAY:
case Instruction.OP_MULTIANEWARRAY:
case Instruction.OP_CHECKCAST:
// This instructions strictly taken may cause a side effect
// (ClassCastException, NegativeArraySizeException).
hasSideEffects = OPTIMIZE_CONSERVATIVELY;
break;
}
}
public void visitBranchInstruction(Clazz clazz, Method method, CodeAttribute codeAttribute, int offset, BranchInstruction branchInstruction)
{
byte opcode = branchInstruction.opcode;
// Check for instructions that might cause side effects.
switch (opcode)
{
case Instruction.OP_JSR:
case Instruction.OP_JSR_W:
hasSideEffects = includeReturnInstructions;
break;
}
}
// Implementations for ConstantVisitor.
public void visitInvokeDynamicConstant(Clazz clazz, InvokeDynamicConstant invokeDynamicConstant)
{
// We'll have to assume invoking an unknown method has side effects.
hasSideEffects = true;
}
public void visitFieldrefConstant(Clazz clazz, FieldrefConstant fieldrefConstant)
{
// Pass the referencing class.
referencingClass = clazz;
// We'll have to assume accessing an unknown field has side effects.
hasSideEffects = true;
// Check the referenced field, if known.
fieldrefConstant.referencedFieldAccept(this);
}
public void visitAnyMethodrefConstant(Clazz clazz, AnyMethodrefConstant anyMethodrefConstant)
{
// Pass the referencing class.
referencingClass = clazz;
// We'll have to assume invoking an unknown method has side effects.
hasSideEffects = true;
// Check the referenced method, if known.
anyMethodrefConstant.referencedMethodAccept(this);
}
// Implementations for MemberVisitor.
public void visitProgramField(ProgramClass programClass, ProgramField programField)
{
hasSideEffects =
(writingField && ReadWriteFieldMarker.isRead(programField)) ||
(programField.getAccessFlags() & AccessConstants.VOLATILE) != 0 ||
SideEffectClassChecker.mayHaveSideEffects(referencingClass,
programClass,
programField);
}
public void visitProgramMethod(ProgramClass programClass, ProgramMethod programMethod)
{
// Note that side effects already include synchronization of some
// implementation of the method.
hasSideEffects =
SideEffectMethodMarker.hasSideEffects(programMethod) ||
SideEffectClassChecker.mayHaveSideEffects(referencingClass,
programClass,
programMethod);
}
public void visitLibraryField(LibraryClass libraryClass, LibraryField libraryField)
{
hasSideEffects = true;
}
public void visitLibraryMethod(LibraryClass libraryClass, LibraryMethod libraryMethod)
{
hasSideEffects =
!NoSideEffectMethodMarker.hasNoSideEffects(libraryMethod);
}
}
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