/*
* FindBugs - Find bugs in Java programs
* Copyright (C) 2003-2005 University of Maryland
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
package edu.umd.cs.findbugs.detect;
import java.math.BigDecimal;
import java.util.Iterator;
import org.apache.bcel.classfile.Attribute;
import org.apache.bcel.classfile.Code;
import org.apache.bcel.classfile.CodeException;
import org.apache.bcel.classfile.Constant;
import org.apache.bcel.classfile.ConstantClass;
import org.apache.bcel.classfile.ConstantDouble;
import org.apache.bcel.classfile.ConstantInteger;
import org.apache.bcel.classfile.ConstantLong;
import org.apache.bcel.classfile.ConstantPool;
import org.apache.bcel.classfile.ConstantValue;
import org.apache.bcel.classfile.Field;
import org.apache.bcel.classfile.JavaClass;
import org.apache.bcel.classfile.Method;
import org.apache.bcel.classfile.Synthetic;
import org.apache.bcel.generic.ObjectType;
import org.apache.bcel.generic.ReferenceType;
import org.apache.bcel.generic.Type;
import edu.umd.cs.findbugs.BugAccumulator;
import edu.umd.cs.findbugs.BugInstance;
import edu.umd.cs.findbugs.BugReporter;
import edu.umd.cs.findbugs.ClassAnnotation;
import edu.umd.cs.findbugs.IntAnnotation;
import edu.umd.cs.findbugs.LocalVariableAnnotation;
import edu.umd.cs.findbugs.MethodAnnotation;
import edu.umd.cs.findbugs.OpcodeStack;
import edu.umd.cs.findbugs.OpcodeStack.Item;
import edu.umd.cs.findbugs.Priorities;
import edu.umd.cs.findbugs.SourceLineAnnotation;
import edu.umd.cs.findbugs.StringAnnotation;
import edu.umd.cs.findbugs.SystemProperties;
import edu.umd.cs.findbugs.ba.AnalysisContext;
import edu.umd.cs.findbugs.ba.CFGBuilderException;
import edu.umd.cs.findbugs.ba.DataflowAnalysisException;
import edu.umd.cs.findbugs.ba.Hierarchy;
import edu.umd.cs.findbugs.ba.ObjectTypeFactory;
import edu.umd.cs.findbugs.ba.SignatureParser;
import edu.umd.cs.findbugs.ba.XMethod;
import edu.umd.cs.findbugs.ba.ch.Subtypes2;
import edu.umd.cs.findbugs.ba.type.TypeDataflow;
import edu.umd.cs.findbugs.bcel.OpcodeStackDetector;
import edu.umd.cs.findbugs.classfile.ClassDescriptor;
import edu.umd.cs.findbugs.classfile.DescriptorFactory;
import edu.umd.cs.findbugs.classfile.MethodDescriptor;
import edu.umd.cs.findbugs.util.ClassName;
import edu.umd.cs.findbugs.util.Util;
import edu.umd.cs.findbugs.visitclass.PreorderVisitor;
public class DumbMethods extends OpcodeStackDetector {
private static final ObjectType CONDITION_TYPE = ObjectTypeFactory.getInstance("java.util.concurrent.locks.Condition");
private final BugReporter bugReporter;
private boolean sawCurrentTimeMillis;
private BugInstance gcInvocationBugReport;
private int gcInvocationPC;
private CodeException[] exceptionTable;
/*
* private boolean sawLDCEmptyString;
*/
private String primitiveObjCtorSeen;
private boolean ctorSeen;
private boolean prevOpcodeWasReadLine;
private int prevOpcode;
private boolean isPublicStaticVoidMain;
private boolean isEqualsObject;
private boolean sawInstanceofCheck;
private boolean reportedBadCastInEquals;
private int sawCheckForNonNegativeSignedByte;
private int sinceBufferedInputStreamReady;
private int randomNextIntState;
private boolean checkForBitIorofSignedByte;
/**
* A heuristic - how long a catch block for OutOfMemoryError might be.
*/
private static final int OOM_CATCH_LEN = 20;
private final boolean testingEnabled;
private final BugAccumulator accumulator;
private final BugAccumulator absoluteValueAccumulator;
private static final int MICROS_PER_DAY_OVERFLOWED_AS_INT
= 24 * 60 * 60 * 1000 * 1000;
public DumbMethods(BugReporter bugReporter) {
this.bugReporter = bugReporter;
accumulator = new BugAccumulator(bugReporter);
absoluteValueAccumulator = new BugAccumulator(bugReporter);
testingEnabled = SystemProperties.getBoolean("report_TESTING_pattern_in_standard_detectors");
}
boolean isSynthetic;
@Override
public void visit(JavaClass obj) {
String superclassName = obj.getSuperclassName();
isSynthetic = superclassName.equals("java.rmi.server.RemoteStub");
Attribute[] attributes = obj.getAttributes();
if (attributes != null) {
for (Attribute a : attributes) {
if (a instanceof Synthetic) {
isSynthetic = true;
}
}
}
}
@Override
public void visitAfter(JavaClass obj) {
accumulator.reportAccumulatedBugs();
}
public static boolean isTestMethod(Method method) {
return method.getName().startsWith("test");
}
@Override
public void visit(Field field) {
ConstantValue value = field.getConstantValue();
if (value == null) {
return;
}
Constant c = getConstantPool().getConstant(value.getConstantValueIndex());
if (testingEnabled && c instanceof ConstantLong && ((ConstantLong)c).getBytes() == MICROS_PER_DAY_OVERFLOWED_AS_INT) {
bugReporter.reportBug( new BugInstance(this, "TESTING", HIGH_PRIORITY).addClass(this).addField(this)
.addString("Did you mean MICROS_PER_DAY")
.addInt(MICROS_PER_DAY_OVERFLOWED_AS_INT)
.describe(IntAnnotation.INT_VALUE));
}
}
@Override
public void visit(Method method) {
String cName = getDottedClassName();
// System.out.println(getFullyQualifiedMethodName());
isPublicStaticVoidMain = method.isPublic() && method.isStatic() && getMethodName().equals("main")
|| cName.toLowerCase().indexOf("benchmark") >= 0;
prevOpcodeWasReadLine = false;
Code code = method.getCode();
if (code != null) {
this.exceptionTable = code.getExceptionTable();
}
if (this.exceptionTable == null) {
this.exceptionTable = new CodeException[0];
}
primitiveObjCtorSeen = null;
ctorSeen = false;
randomNextIntState = 0;
checkForBitIorofSignedByte = false;
isEqualsObject = getMethodName().equals("equals") && getMethodSig().equals("(Ljava/lang/Object;)Z") && !method.isStatic();
sawInstanceofCheck = false;
reportedBadCastInEquals = false;
freshRandomOnTos = false;
sinceBufferedInputStreamReady = 100000;
sawCheckForNonNegativeSignedByte = -1000;
sawLoadOfMinValue = false;
previousMethodCall = null;
}
int opcodesSincePendingAbsoluteValueBug;
BugInstance pendingAbsoluteValueBug;
SourceLineAnnotation pendingAbsoluteValueBugSourceLine;
boolean freshRandomOnTos = false;
boolean freshRandomOneBelowTos = false;
boolean sawLoadOfMinValue = false;
MethodDescriptor previousMethodCall = null;
@Override
public void sawOpcode(int seen) {
if (isMethodCall()) {
MethodDescriptor called = getMethodDescriptorOperand();
if (previousMethodCall != null && !stack.isJumpTarget(getPC())) {
if (called.getName().equals("toString")
&& called.getClassDescriptor().getClassName().equals("java/lang/Integer")
&& previousMethodCall.getName().equals("valueOf")
&& previousMethodCall.getSignature().equals("(I)Ljava/lang/Integer;")
) {
MethodAnnotation preferred = new MethodAnnotation("java.lang.Integer", "toString", "(I)Ljava/lang/String;", true);
BugInstance bug = new BugInstance(this, "DM_BOXED_PRIMITIVE_TOSTRING", HIGH_PRIORITY).addClassAndMethod(this)
.addCalledMethod(this).addMethod(preferred).describe(MethodAnnotation.SHOULD_CALL);
accumulator.accumulateBug(bug, this);
} else if (called.getName().equals("intValue")
&& called.getClassDescriptor().getClassName().equals("java/lang/Integer")
&& previousMethodCall.getSlashedClassName().equals("java/lang/Integer")
&& (previousMethodCall.getName().equals("<init>")
&& previousMethodCall.getSignature().equals("(Ljava/lang/String;)V")
|| previousMethodCall.getName().equals("valueOf")
&& previousMethodCall.getSignature().equals("(Ljava/lang/String;)Ljava/lang/Integer;")
)) {
MethodAnnotation preferred = new MethodAnnotation("java.lang.Integer", "parseInt", "(Ljava/lang/String;)I", true);
BugInstance bug = new BugInstance(this, "DM_BOXED_PRIMITIVE_FOR_PARSING", HIGH_PRIORITY).addClassAndMethod(this)
.addCalledMethod(this).addMethod(preferred).describe(MethodAnnotation.SHOULD_CALL);
accumulator.accumulateBug(bug, this);
} else if (called.getName().equals("longValue")
&& called.getClassDescriptor().getClassName().equals("java/lang/Long")
&& previousMethodCall.getSlashedClassName().equals("java/lang/Long")
&& ( previousMethodCall.getName().equals("<init>")
&& previousMethodCall.getSignature().equals("(Ljava/lang/String;)V")
|| previousMethodCall.getName().equals("valueOf")
&& previousMethodCall.getSignature().equals("(Ljava/lang/String;)Ljava/lang/Long;"))
) {
MethodAnnotation preferred = new MethodAnnotation("java.lang.Long", "parseLong", "(Ljava/lang/String;)J", true);
BugInstance bug = new BugInstance(this, "DM_BOXED_PRIMITIVE_FOR_PARSING", HIGH_PRIORITY).addClassAndMethod(this)
.addCalledMethod(this).addMethod(preferred).describe(MethodAnnotation.SHOULD_CALL);
accumulator.accumulateBug(bug, this);
}
}
previousMethodCall = called;
} else {
previousMethodCall = null;
}
if (seen == LDC || seen == LDC_W || seen == LDC2_W) {
Constant c = getConstantRefOperand();
if (testingEnabled && (c instanceof ConstantInteger && ((ConstantInteger) c).getBytes() == MICROS_PER_DAY_OVERFLOWED_AS_INT
|| c instanceof ConstantLong && ((ConstantLong) c).getBytes() == MICROS_PER_DAY_OVERFLOWED_AS_INT)) {
BugInstance bug = new BugInstance(this, "TESTING", HIGH_PRIORITY).addClassAndMethod(this)
.addString("Did you mean MICROS_PER_DAY").addInt(MICROS_PER_DAY_OVERFLOWED_AS_INT)
.describe(IntAnnotation.INT_VALUE);
accumulator.accumulateBug(bug, this);
}
if ((c instanceof ConstantInteger && ((ConstantInteger) c).getBytes() == Integer.MIN_VALUE
|| c instanceof ConstantLong && ((ConstantLong) c).getBytes() == Long.MIN_VALUE)) {
sawLoadOfMinValue = true;
pendingAbsoluteValueBug = null;
pendingAbsoluteValueBugSourceLine = null;
absoluteValueAccumulator.clearBugs();
}
}
if (seen == LCMP) {
OpcodeStack.Item left = stack.getStackItem(1);
OpcodeStack.Item right = stack.getStackItem(0);
checkForCompatibleLongComparison(left, right);
checkForCompatibleLongComparison(right, left);
}
if (stack.getStackDepth() >= 2) {
switch (seen) {
case IF_ICMPEQ:
case IF_ICMPNE:
case IF_ICMPLE:
case IF_ICMPGE:
case IF_ICMPLT:
case IF_ICMPGT:
OpcodeStack.Item item0 = stack.getStackItem(0);
OpcodeStack.Item item1 = stack.getStackItem(1);
if (item0.getConstant() instanceof Integer) {
OpcodeStack.Item tmp = item0;
item0 = item1;
item1 = tmp;
}
Object constant1 = item1.getConstant();
XMethod returnValueOf = item0.getReturnValueOf();
if (constant1 instanceof Integer
&& returnValueOf != null
&& returnValueOf.getName().equals("getYear")
&& (returnValueOf.getClassName().equals("java.util.Date") || returnValueOf.getClassName().equals(
"java.sql.Date"))) {
int year = (Integer) constant1;
if (testingEnabled && year > 1900) {
accumulator.accumulateBug(
new BugInstance(this, "TESTING", HIGH_PRIORITY).addClassAndMethod(this)
.addString("Comparison of getYear does understand that it returns year-1900")
.addMethod(returnValueOf).describe(MethodAnnotation.METHOD_CALLED).addInt(year)
.describe(IntAnnotation.INT_VALUE), this);
}
}
break;
default:
break;
}
}
// System.out.printf("%4d %10s: %s\n", getPC(), OPCODE_NAMES[seen],
// stack);
if (seen == IFLT && stack.getStackDepth() > 0 && stack.getStackItem(0).getSpecialKind() == OpcodeStack.Item.SIGNED_BYTE) {
sawCheckForNonNegativeSignedByte = getPC();
}
if (pendingAbsoluteValueBug != null) {
if (opcodesSincePendingAbsoluteValueBug == 0) {
opcodesSincePendingAbsoluteValueBug++;
} else {
if (seen == IREM) {
OpcodeStack.Item top = stack.getStackItem(0);
Object constantValue = top.getConstant();
if (constantValue instanceof Number && Util.isPowerOfTwo(((Number) constantValue).intValue())) {
pendingAbsoluteValueBug.setPriority(Priorities.LOW_PRIORITY);
}
}
/*
if (false)
try {
pendingAbsoluteValueBug.addString(OPCODE_NAMES[getPrevOpcode(1)] + ":" + OPCODE_NAMES[seen] + ":"
+ OPCODE_NAMES[getNextOpcode()]);
} catch (Exception e) {
pendingAbsoluteValueBug.addString(OPCODE_NAMES[getPrevOpcode(1)] + ":" + OPCODE_NAMES[seen]);
}
*/
absoluteValueAccumulator.accumulateBug(pendingAbsoluteValueBug, pendingAbsoluteValueBugSourceLine);
pendingAbsoluteValueBug = null;
pendingAbsoluteValueBugSourceLine = null;
}
}
if (seen == INVOKESTATIC
&& getClassConstantOperand().equals("org/easymock/EasyMock")
&& (getNameConstantOperand().equals("replay") || getNameConstantOperand().equals("verify") || getNameConstantOperand()
.startsWith("reset")) && getSigConstantOperand().equals("([Ljava/lang/Object;)V")
&& getPrevOpcode(1) == ANEWARRAY && getPrevOpcode(2) == ICONST_0) {
accumulator.accumulateBug(new BugInstance(this, "DMI_VACUOUS_CALL_TO_EASYMOCK_METHOD", NORMAL_PRIORITY)
.addClassAndMethod(this).addCalledMethod(this), this);
}
if (seen == INVOKESTATIC && (getClassConstantOperand().equals("com/google/common/base/Preconditions")
&& getNameConstantOperand().equals("checkNotNull")
|| getClassConstantOperand().equals("com/google/common/base/Strings")
&& (getNameConstantOperand().equals("nullToEmpty") ||
getNameConstantOperand().equals("emptyToNull") ||
getNameConstantOperand().equals("isNullOrEmpty")))
) {
int args = PreorderVisitor.getNumberArguments(getSigConstantOperand());
OpcodeStack.Item item = stack.getStackItem(args - 1);
Object o = item.getConstant();
if (o instanceof String) {
OpcodeStack.Item secondArgument = null;
String bugPattern = "DMI_DOH";
if (args > 1) {
secondArgument = stack.getStackItem(args - 2);
Object secondConstant = secondArgument.getConstant();
if (!(secondConstant instanceof String)) {
bugPattern = "DMI_ARGUMENTS_WRONG_ORDER";
}
}
BugInstance bug = new BugInstance(this, bugPattern, NORMAL_PRIORITY).addClassAndMethod(this)
.addCalledMethod(this)
.addString("Passing String constant as value that should be null checked").describe(StringAnnotation.STRING_MESSAGE)
.addString((String) o).describe(StringAnnotation.STRING_CONSTANT_ROLE);
if (secondArgument != null) {
bug.addValueSource(secondArgument, this);
}
accumulator.accumulateBug(bug, this);
}
}
if (seen == INVOKESTATIC && getClassConstantOperand().equals("junit/framework/Assert")
&& getNameConstantOperand().equals("assertNotNull")) {
int args = PreorderVisitor.getNumberArguments(getSigConstantOperand());
OpcodeStack.Item item = stack.getStackItem(0);
Object o = item.getConstant();
if (o instanceof String) {
OpcodeStack.Item secondArgument = null;
String bugPattern = "DMI_DOH";
if (args == 2) {
secondArgument = stack.getStackItem(1);
Object secondConstant = secondArgument.getConstant();
if (!(secondConstant instanceof String)) {
bugPattern = "DMI_ARGUMENTS_WRONG_ORDER";
}
}
BugInstance bug = new BugInstance(this, bugPattern, NORMAL_PRIORITY).addClassAndMethod(this)
.addCalledMethod(this).addString("Passing String constant as value that should be null checked").describe(StringAnnotation.STRING_MESSAGE)
.addString((String) o).describe(StringAnnotation.STRING_CONSTANT_ROLE);
if (secondArgument != null) {
bug.addValueSource(secondArgument, this);
}
accumulator.accumulateBug(bug, this);
}
}
if ((seen == INVOKESTATIC || seen == INVOKEVIRTUAL || seen == INVOKESPECIAL || seen == INVOKEINTERFACE)
&& getSigConstantOperand().indexOf("Ljava/lang/Runnable;") >= 0) {
SignatureParser parser = new SignatureParser(getSigConstantOperand());
int count = 0;
for (Iterator<String> i = parser.parameterSignatureIterator(); i.hasNext(); count++) {
String parameter = i.next();
if (parameter.equals("Ljava/lang/Runnable;")) {
OpcodeStack.Item item = stack.getStackItem(parser.getNumParameters() - 1 - count);
if ("Ljava/lang/Thread;".equals(item.getSignature())) {
accumulator.accumulateBug(new BugInstance(this, "DMI_THREAD_PASSED_WHERE_RUNNABLE_EXPECTED",
NORMAL_PRIORITY).addClassAndMethod(this).addCalledMethod(this), this);
}
}
}
}
if (prevOpcode == I2L && seen == INVOKESTATIC && getClassConstantOperand().equals("java/lang/Double")
&& getNameConstantOperand().equals("longBitsToDouble")) {
accumulator.accumulateBug(new BugInstance(this, "DMI_LONG_BITS_TO_DOUBLE_INVOKED_ON_INT", HIGH_PRIORITY)
.addClassAndMethod(this).addCalledMethod(this), this);
}
if (seen == INVOKEVIRTUAL && getClassConstantOperand().equals("java/util/Random")
&& (freshRandomOnTos || freshRandomOneBelowTos)) {
accumulator.accumulateBug(new BugInstance(this, "DMI_RANDOM_USED_ONLY_ONCE", HIGH_PRIORITY).addClassAndMethod(this)
.addCalledMethod(this), this);
}
freshRandomOneBelowTos = freshRandomOnTos && isRegisterLoad();
freshRandomOnTos = seen == INVOKESPECIAL && getClassConstantOperand().equals("java/util/Random")
&& getNameConstantOperand().equals("<init>");
if ((seen == INVOKEVIRTUAL && getClassConstantOperand().equals("java/util/HashMap") && getNameConstantOperand().equals(
"get"))
|| (seen == INVOKEINTERFACE && getClassConstantOperand().equals("java/util/Map") && getNameConstantOperand()
.equals("get"))
|| (seen == INVOKEVIRTUAL && getClassConstantOperand().equals("java/util/HashSet") && getNameConstantOperand()
.equals("contains"))
|| (seen == INVOKEINTERFACE && getClassConstantOperand().equals("java/util/Set") && getNameConstantOperand()
.equals("contains"))) {
OpcodeStack.Item top = stack.getStackItem(0);
if (top.getSignature().equals("Ljava/net/URL;")) {
accumulator.accumulateBug(new BugInstance(this, "DMI_COLLECTION_OF_URLS", HIGH_PRIORITY).addClassAndMethod(this),
this);
}
}
/**
* Since you can change the number of core threads for a scheduled
* thread pool executor, disabling this for now
*
if (false && seen == INVOKESPECIAL
&& getClassConstantOperand().equals("java/util/concurrent/ScheduledThreadPoolExecutor")
&& getNameConstantOperand().equals("<init>")) {
int arguments = getNumberArguments(getSigConstantOperand());
OpcodeStack.Item item = stack.getStackItem(arguments - 1);
Object value = item.getConstant();
if (value instanceof Integer && ((Integer) value).intValue() == 0)
accumulator.accumulateBug(new BugInstance(this, "DMI_SCHEDULED_THREAD_POOL_EXECUTOR_WITH_ZERO_CORE_THREADS",
HIGH_PRIORITY).addClassAndMethod(this), this);
}
*/
if (seen == INVOKEVIRTUAL && getClassConstantOperand().equals("java/util/concurrent/ScheduledThreadPoolExecutor")
&& getNameConstantOperand().equals("setMaximumPoolSize")) {
accumulator.accumulateBug(new BugInstance(this,
"DMI_FUTILE_ATTEMPT_TO_CHANGE_MAXPOOL_SIZE_OF_SCHEDULED_THREAD_POOL_EXECUTOR", HIGH_PRIORITY)
.addClassAndMethod(this), this);
}
if (isEqualsObject && !reportedBadCastInEquals) {
if (seen == INVOKEVIRTUAL && getNameConstantOperand().equals("isInstance")
&& getClassConstantOperand().equals("java/lang/Class")) {
OpcodeStack.Item item = stack.getStackItem(0);
if (item.getRegisterNumber() == 1) {
sawInstanceofCheck = true;
}
} else if (seen == INSTANCEOF || seen == INVOKEVIRTUAL && getNameConstantOperand().equals("getClass")
&& getSigConstantOperand().equals("()Ljava/lang/Class;")) {
OpcodeStack.Item item = stack.getStackItem(0);
if (item.getRegisterNumber() == 1) {
sawInstanceofCheck = true;
}
} else if (seen == INVOKESPECIAL && getNameConstantOperand().equals("equals")
&& getSigConstantOperand().equals("(Ljava/lang/Object;)Z")) {
OpcodeStack.Item item0 = stack.getStackItem(0);
OpcodeStack.Item item1 = stack.getStackItem(1);
if (item1.getRegisterNumber() + item0.getRegisterNumber() == 1) {
sawInstanceofCheck = true;
}
} else if (seen == CHECKCAST && !sawInstanceofCheck) {
OpcodeStack.Item item = stack.getStackItem(0);
if (item.getRegisterNumber() == 1) {
if (getSizeOfSurroundingTryBlock(getPC()) == Integer.MAX_VALUE) {
accumulator.accumulateBug(new BugInstance(this, "BC_EQUALS_METHOD_SHOULD_WORK_FOR_ALL_OBJECTS",
NORMAL_PRIORITY).addClassAndMethod(this), this);
}
reportedBadCastInEquals = true;
}
}
}
{
boolean foundVacuousComparison = false;
if (seen == IF_ICMPGT || seen == IF_ICMPLE) {
OpcodeStack.Item rhs = stack.getStackItem(0);
Object rhsConstant = rhs.getConstant();
if (rhsConstant instanceof Integer && ((Integer) rhsConstant).intValue() == Integer.MAX_VALUE) {
foundVacuousComparison = true;
}
OpcodeStack.Item lhs = stack.getStackItem(1);
Object lhsConstant = lhs.getConstant();
if (lhsConstant instanceof Integer && ((Integer) lhsConstant).intValue() == Integer.MIN_VALUE) {
foundVacuousComparison = true;
}
}
if (seen == IF_ICMPLT || seen == IF_ICMPGE) {
OpcodeStack.Item rhs = stack.getStackItem(0);
Object rhsConstant = rhs.getConstant();
if (rhsConstant instanceof Integer && ((Integer) rhsConstant).intValue() == Integer.MIN_VALUE) {
foundVacuousComparison = true;
}
OpcodeStack.Item lhs = stack.getStackItem(1);
Object lhsConstant = lhs.getConstant();
if (lhsConstant instanceof Integer && ((Integer) lhsConstant).intValue() == Integer.MAX_VALUE) {
foundVacuousComparison = true;
}
}
if (foundVacuousComparison) {
accumulator.accumulateBug(new BugInstance(this, "INT_VACUOUS_COMPARISON", getBranchOffset() < 0 ? HIGH_PRIORITY
: NORMAL_PRIORITY).addClassAndMethod(this), this);
}
}
if (!sawLoadOfMinValue && seen == INVOKESTATIC &&
ClassName.isMathClass(getClassConstantOperand()) && getNameConstantOperand().equals("abs")
) {
OpcodeStack.Item item0 = stack.getStackItem(0);
int special = item0.getSpecialKind();
if (special == OpcodeStack.Item.RANDOM_INT) {
pendingAbsoluteValueBug = new BugInstance(this, "RV_ABSOLUTE_VALUE_OF_RANDOM_INT", HIGH_PRIORITY)
.addClassAndMethod(this);
pendingAbsoluteValueBugSourceLine = SourceLineAnnotation.fromVisitedInstruction(this);
opcodesSincePendingAbsoluteValueBug = 0;
}
else if (special == OpcodeStack.Item.HASHCODE_INT) {
pendingAbsoluteValueBug = new BugInstance(this, "RV_ABSOLUTE_VALUE_OF_HASHCODE", HIGH_PRIORITY)
.addClassAndMethod(this);
pendingAbsoluteValueBugSourceLine = SourceLineAnnotation.fromVisitedInstruction(this);
opcodesSincePendingAbsoluteValueBug = 0;
}
}
try {
int stackLoc = stackEntryThatMustBeNonnegative(seen);
if (stackLoc >= 0) {
OpcodeStack.Item tos = stack.getStackItem(stackLoc);
switch (tos.getSpecialKind()) {
case OpcodeStack.Item.HASHCODE_INT_REMAINDER:
accumulator.accumulateBug(new BugInstance(this, "RV_REM_OF_HASHCODE", HIGH_PRIORITY).addClassAndMethod(this),
this);
break;
case OpcodeStack.Item.RANDOM_INT:
case OpcodeStack.Item.RANDOM_INT_REMAINDER:
accumulator.accumulateBug(
new BugInstance(this, "RV_REM_OF_RANDOM_INT", HIGH_PRIORITY).addClassAndMethod(this), this);
break;
default:
break;
}
}
if (seen == IREM) {
OpcodeStack.Item item0 = stack.getStackItem(0);
Object constant0 = item0.getConstant();
if (constant0 instanceof Integer && ((Integer) constant0).intValue() == 1) {
accumulator.accumulateBug(new BugInstance(this, "INT_BAD_REM_BY_1", HIGH_PRIORITY).addClassAndMethod(this),
this);
}
}
if (stack.getStackDepth() >= 1 && (seen == LOOKUPSWITCH || seen == TABLESWITCH)) {
OpcodeStack.Item item0 = stack.getStackItem(0);
if (item0.getSpecialKind() == OpcodeStack.Item.SIGNED_BYTE) {
int[] switchLabels = getSwitchLabels();
int[] switchOffsets = getSwitchOffsets();
for (int i = 0; i < switchLabels.length; i++) {
int v = switchLabels[i];
if (v <= -129 || v >= 128) {
accumulator.accumulateBug(new BugInstance(this, "INT_BAD_COMPARISON_WITH_SIGNED_BYTE", HIGH_PRIORITY)
.addClassAndMethod(this).addInt(v).describe(IntAnnotation.INT_VALUE),
SourceLineAnnotation.fromVisitedInstruction(this, getPC() + switchOffsets[i]));
}
}
}
}
// check for use of signed byte where is it assumed it can be out of
// the -128...127 range
if (stack.getStackDepth() >= 2) {
switch (seen) {
case IF_ICMPEQ:
case IF_ICMPNE:
case IF_ICMPLT:
case IF_ICMPLE:
case IF_ICMPGE:
case IF_ICMPGT:
OpcodeStack.Item item0 = stack.getStackItem(0);
OpcodeStack.Item item1 = stack.getStackItem(1);
int seen2 = seen;
if (item0.getConstant() != null) {
OpcodeStack.Item tmp = item0;
item0 = item1;
item1 = tmp;
switch (seen) {
case IF_ICMPLT:
seen2 = IF_ICMPGT;
break;
case IF_ICMPGE:
seen2 = IF_ICMPLE;
break;
case IF_ICMPGT:
seen2 = IF_ICMPLT;
break;
case IF_ICMPLE:
seen2 = IF_ICMPGE;
break;
default:
break;
}
}
Object constant1 = item1.getConstant();
if (item0.getSpecialKind() == OpcodeStack.Item.SIGNED_BYTE && constant1 instanceof Number) {
int v1 = ((Number) constant1).intValue();
if (v1 <= -129 || v1 >= 128 || v1 == 127 && !(seen2 == IF_ICMPEQ || seen2 == IF_ICMPNE
)) {
int priority = HIGH_PRIORITY;
if (v1 == 127) {
switch (seen2) {
case IF_ICMPGT: // 127 > x
priority = LOW_PRIORITY;
break;
case IF_ICMPGE: // 127 >= x : always true
priority = NORMAL_PRIORITY;
break;
case IF_ICMPLT: // 127 < x : never true
priority = NORMAL_PRIORITY;
break;
case IF_ICMPLE: // 127 <= x
priority = LOW_PRIORITY;
break;
}
} else if (v1 == 128) {
switch (seen2) {
case IF_ICMPGT: // 128 > x; always true
priority = NORMAL_PRIORITY;
break;
case IF_ICMPGE: // 128 >= x
priority = HIGH_PRIORITY;
break;
case IF_ICMPLT: // 128 < x
priority = HIGH_PRIORITY;
break;
case IF_ICMPLE: // 128 <= x; never true
priority = NORMAL_PRIORITY;
break;
}
} else if (v1 <= -129) {
priority = NORMAL_PRIORITY;
}
if (getPC() - sawCheckForNonNegativeSignedByte < 10) {
priority++;
}
accumulator.accumulateBug(new BugInstance(this, "INT_BAD_COMPARISON_WITH_SIGNED_BYTE", priority)
.addClassAndMethod(this).addInt(v1).describe(IntAnnotation.INT_VALUE), this);
}
} else if (item0.getSpecialKind() == OpcodeStack.Item.NON_NEGATIVE && constant1 instanceof Number) {
int v1 = ((Number) constant1).intValue();
if (v1 < 0) {
accumulator.accumulateBug(new BugInstance(this, "INT_BAD_COMPARISON_WITH_NONNEGATIVE_VALUE",
HIGH_PRIORITY).addClassAndMethod(this).addInt(v1).describe(IntAnnotation.INT_VALUE), this);
}
}
}
}
switch (seen) {
case IAND:
case LAND:
case IOR:
case LOR:
case IXOR:
case LXOR:
long badValue = (seen == IAND || seen == LAND) ? -1 : 0;
OpcodeStack.Item rhs = stack.getStackItem(0);
OpcodeStack.Item lhs = stack.getStackItem(1);
int prevOpcode = getPrevOpcode(1);
int prevPrevOpcode = getPrevOpcode(2);
if (rhs.hasConstantValue(badValue)
&& (prevOpcode == LDC || prevOpcode == ICONST_0 || prevOpcode == ICONST_M1 || prevOpcode == LCONST_0)
&& prevPrevOpcode != GOTO) {
reportVacuousBitOperation(seen, lhs);
}
}
if (checkForBitIorofSignedByte && seen != I2B) {
String pattern = (prevOpcode == LOR || prevOpcode == IOR) ? "BIT_IOR_OF_SIGNED_BYTE" : "BIT_ADD_OF_SIGNED_BYTE";
int priority = (prevOpcode == LOR || prevOpcode == LADD) ? HIGH_PRIORITY : NORMAL_PRIORITY;
accumulator.accumulateBug(new BugInstance(this, pattern, priority).addClassAndMethod(this), this);
checkForBitIorofSignedByte = false;
} else if ((seen == IOR || seen == LOR || seen == IADD || seen == LADD) && stack.getStackDepth() >= 2) {
OpcodeStack.Item item0 = stack.getStackItem(0);
OpcodeStack.Item item1 = stack.getStackItem(1);
int special0 = item0.getSpecialKind();
int special1 = item1.getSpecialKind();
if (special0 == OpcodeStack.Item.SIGNED_BYTE && special1 == OpcodeStack.Item.LOW_8_BITS_CLEAR
&& !item1.hasConstantValue(256) || special0 == OpcodeStack.Item.LOW_8_BITS_CLEAR
&& !item0.hasConstantValue(256) && special1 == OpcodeStack.Item.SIGNED_BYTE) {
checkForBitIorofSignedByte = true;
} else {
checkForBitIorofSignedByte = false;
}
} else {
checkForBitIorofSignedByte = false;
}
if (prevOpcodeWasReadLine && sinceBufferedInputStreamReady >= 100 && seen == INVOKEVIRTUAL
&& getClassConstantOperand().equals("java/lang/String") && getSigConstantOperand().startsWith("()")) {
accumulator.accumulateBug(
new BugInstance(this, "NP_IMMEDIATE_DEREFERENCE_OF_READLINE", NORMAL_PRIORITY).addClassAndMethod(this),
this);
}
if (seen == INVOKEVIRTUAL && getClassConstantOperand().equals("java/io/BufferedReader")
&& getNameConstantOperand().equals("ready") && getSigConstantOperand().equals("()Z")) {
sinceBufferedInputStreamReady = 0;
} else {
sinceBufferedInputStreamReady++;
}
prevOpcodeWasReadLine = (seen == INVOKEVIRTUAL || seen == INVOKEINTERFACE)
&& getNameConstantOperand().equals("readLine") && getSigConstantOperand().equals("()Ljava/lang/String;");
// System.out.println(randomNextIntState + " " + OPCODE_NAMES[seen]
// + " " + getMethodName());
switch (randomNextIntState) {
case 0:
if (seen == INVOKEVIRTUAL && getClassConstantOperand().equals("java/util/Random")
&& getNameConstantOperand().equals("nextDouble") || seen == INVOKESTATIC
&& ClassName.isMathClass(getClassConstantOperand()) && getNameConstantOperand().equals("random")) {
randomNextIntState = 1;
}
break;
case 1:
if (seen == D2I) {
accumulator.accumulateBug(new BugInstance(this, "RV_01_TO_INT", HIGH_PRIORITY).addClassAndMethod(this), this);
randomNextIntState = 0;
} else if (seen == DMUL) {
randomNextIntState = 4;
} else if (seen == LDC2_W && getConstantRefOperand() instanceof ConstantDouble
&& ((ConstantDouble) getConstantRefOperand()).getBytes() == Integer.MIN_VALUE) {
randomNextIntState = 0;
} else {
randomNextIntState = 2;
}
break;
case 2:
if (seen == I2D) {
randomNextIntState = 3;
} else if (seen == DMUL) {
randomNextIntState = 4;
} else {
randomNextIntState = 0;
}
break;
case 3:
if (seen == DMUL) {
randomNextIntState = 4;
} else {
randomNextIntState = 0;
}
break;
case 4:
if (seen == D2I) {
accumulator.accumulateBug(
new BugInstance(this, "DM_NEXTINT_VIA_NEXTDOUBLE", NORMAL_PRIORITY).addClassAndMethod(this), this);
}
randomNextIntState = 0;
break;
default:
throw new IllegalStateException();
}
if (isPublicStaticVoidMain
&& seen == INVOKEVIRTUAL
&& getClassConstantOperand().startsWith("javax/swing/")
&& (getNameConstantOperand().equals("show") && getSigConstantOperand().equals("()V")
|| getNameConstantOperand().equals("pack") && getSigConstantOperand().equals("()V") || getNameConstantOperand()
.equals("setVisible") && getSigConstantOperand().equals("(Z)V"))) {
accumulator.accumulateBug(
new BugInstance(this, "SW_SWING_METHODS_INVOKED_IN_SWING_THREAD", LOW_PRIORITY).addClassAndMethod(this),
this);
}
// if ((seen == INVOKEVIRTUAL)
// && getClassConstantOperand().equals("java/lang/String")
// && getNameConstantOperand().equals("substring")
// && getSigConstantOperand().equals("(I)Ljava/lang/String;")
// && stack.getStackDepth() > 1) {
// OpcodeStack.Item item = stack.getStackItem(0);
// Object o = item.getConstant();
// if (o != null && o instanceof Integer) {
// int v = ((Integer) o).intValue();
// if (v == 0)
// accumulator.accumulateBug(new BugInstance(this,
// "DMI_USELESS_SUBSTRING", NORMAL_PRIORITY)
// .addClassAndMethod(this)
// .addSourceLine(this));
// }
// }
if ((seen == INVOKEVIRTUAL) && getNameConstantOperand().equals("isAnnotationPresent")
&& getSigConstantOperand().equals("(Ljava/lang/Class;)Z") && stack.getStackDepth() > 0) {
OpcodeStack.Item item = stack.getStackItem(0);
Object value = item.getConstant();
if (value instanceof String) {
String annotationClassName = (String) value;
boolean lacksClassfileRetention = AnalysisContext.currentAnalysisContext().getAnnotationRetentionDatabase()
.lacksRuntimeRetention(annotationClassName.replace('/', '.'));
if (lacksClassfileRetention) {
ClassDescriptor annotationClass = DescriptorFactory.createClassDescriptor(annotationClassName);
accumulator.accumulateBug(
new BugInstance(this, "DMI_ANNOTATION_IS_NOT_VISIBLE_TO_REFLECTION", HIGH_PRIORITY)
.addClassAndMethod(this).addCalledMethod(this).addClass(annotationClass)
.describe(ClassAnnotation.ANNOTATION_ROLE), this);
}
}
}
if ((seen == INVOKEVIRTUAL) && getNameConstantOperand().equals("next")
&& getSigConstantOperand().equals("()Ljava/lang/Object;") && getMethodName().equals("hasNext")
&& getMethodSig().equals("()Z") && stack.getStackDepth() > 0) {
OpcodeStack.Item item = stack.getStackItem(0);
accumulator.accumulateBug(new BugInstance(this, "DMI_CALLING_NEXT_FROM_HASNEXT", item.isInitialParameter()
&& item.getRegisterNumber() == 0 ? NORMAL_PRIORITY : LOW_PRIORITY).addClassAndMethod(this)
.addCalledMethod(this), this);
}
if ((seen == INVOKESPECIAL) && getClassConstantOperand().equals("java/lang/String")
&& getNameConstantOperand().equals("<init>") && getSigConstantOperand().equals("(Ljava/lang/String;)V")
&& !Subtypes2.isJSP(getThisClass())) {
accumulator.accumulateBug(new BugInstance(this, "DM_STRING_CTOR", NORMAL_PRIORITY).addClassAndMethod(this), this);
}
if (seen == INVOKESTATIC && getClassConstantOperand().equals("java/lang/System")
&& getNameConstantOperand().equals("runFinalizersOnExit") || seen == INVOKEVIRTUAL
&& getClassConstantOperand().equals("java/lang/Runtime")
&& getNameConstantOperand().equals("runFinalizersOnExit")) {
accumulator.accumulateBug(
new BugInstance(this, "DM_RUN_FINALIZERS_ON_EXIT", HIGH_PRIORITY).addClassAndMethod(this), this);
}
if ((seen == INVOKESPECIAL) && getClassConstantOperand().equals("java/lang/String")
&& getNameConstantOperand().equals("<init>") && getSigConstantOperand().equals("()V")) {
accumulator.accumulateBug(new BugInstance(this, "DM_STRING_VOID_CTOR", NORMAL_PRIORITY).addClassAndMethod(this),
this);
}
if (!isPublicStaticVoidMain && seen == INVOKESTATIC && getClassConstantOperand().equals("java/lang/System")
&& getNameConstantOperand().equals("exit") && !getMethodName().equals("processWindowEvent")
&& !getMethodName().startsWith("windowClos") && getMethodName().indexOf("exit") == -1
&& getMethodName().indexOf("Exit") == -1 && getMethodName().indexOf("crash") == -1
&& getMethodName().indexOf("Crash") == -1 && getMethodName().indexOf("die") == -1
&& getMethodName().indexOf("Die") == -1 && getMethodName().indexOf("main") == -1) {
accumulator.accumulateBug(new BugInstance(this, "DM_EXIT", getMethod().isStatic() ? LOW_PRIORITY
: NORMAL_PRIORITY).addClassAndMethod(this), SourceLineAnnotation.fromVisitedInstruction(this));
}
if (((seen == INVOKESTATIC && getClassConstantOperand().equals("java/lang/System")) || (seen == INVOKEVIRTUAL && getClassConstantOperand()
.equals("java/lang/Runtime")))
&& getNameConstantOperand().equals("gc")
&& getSigConstantOperand().equals("()V")
&& !getDottedClassName().startsWith("java.lang")
&& !getMethodName().startsWith("gc") && !getMethodName().endsWith("gc")) {
if (gcInvocationBugReport == null) {
// System.out.println("Saw call to GC");
if (isPublicStaticVoidMain) {
// System.out.println("Skipping GC complaint in main method");
return;
}
if (isTestMethod(getMethod())) {
return;
}
// Just save this report in a field; it will be flushed
// IFF there were no calls to System.currentTimeMillis();
// in the method.
gcInvocationBugReport = new BugInstance(this, "DM_GC", HIGH_PRIORITY).addClassAndMethod(this).addSourceLine(
this);
gcInvocationPC = getPC();
// System.out.println("GC invocation at pc " + PC);
}
}
if (!isSynthetic && (seen == INVOKESPECIAL) && getClassConstantOperand().equals("java/lang/Boolean")
&& getNameConstantOperand().equals("<init>") && !getClassName().equals("java/lang/Boolean")) {
int majorVersion = getThisClass().getMajor();
if (majorVersion >= MAJOR_1_4) {
accumulator.accumulateBug(new BugInstance(this, "DM_BOOLEAN_CTOR", NORMAL_PRIORITY).addClassAndMethod(this),
this);
}
}
if ((seen == INVOKESTATIC) && getClassConstantOperand().equals("java/lang/System")
&& (getNameConstantOperand().equals("currentTimeMillis") || getNameConstantOperand().equals("nanoTime"))) {
sawCurrentTimeMillis = true;
}
if ((seen == INVOKEVIRTUAL) && getClassConstantOperand().equals("java/lang/String")
&& getNameConstantOperand().equals("toString") && getSigConstantOperand().equals("()Ljava/lang/String;")) {
accumulator
.accumulateBug(new BugInstance(this, "DM_STRING_TOSTRING", LOW_PRIORITY).addClassAndMethod(this), this);
}
if ((seen == INVOKEVIRTUAL) && getClassConstantOperand().equals("java/lang/String")
&& (getNameConstantOperand().equals("toUpperCase") || getNameConstantOperand().equals("toLowerCase"))
&& getSigConstantOperand().equals("()Ljava/lang/String;")) {
accumulator.accumulateBug(new BugInstance(this, "DM_CONVERT_CASE", LOW_PRIORITY).addClassAndMethod(this), this);
}
if ((seen == INVOKESPECIAL) && getNameConstantOperand().equals("<init>")) {
String cls = getClassConstantOperand();
String sig = getSigConstantOperand();
String primitiveType = ClassName.getPrimitiveType(cls);
if (primitiveType != null && sig.charAt(1) == primitiveType.charAt(0)) {
primitiveObjCtorSeen = cls;
} else {
primitiveObjCtorSeen = null;
}
} else if ((primitiveObjCtorSeen != null) && (seen == INVOKEVIRTUAL) && getNameConstantOperand().equals("toString")
&& getClassConstantOperand().equals(primitiveObjCtorSeen)
&& getSigConstantOperand().equals("()Ljava/lang/String;")) {
BugInstance bug = new BugInstance(this, "DM_BOXED_PRIMITIVE_TOSTRING", NORMAL_PRIORITY).addClassAndMethod(this).addCalledMethod(this);
MethodAnnotation preferred = new MethodAnnotation(ClassName.toDottedClassName(primitiveObjCtorSeen),
"toString", "("+ClassName.getPrimitiveType(primitiveObjCtorSeen)+")Ljava/lang/String;", true);
bug.addMethod(preferred).describe(MethodAnnotation.SHOULD_CALL);
accumulator.accumulateBug(
bug, this);
primitiveObjCtorSeen = null;
} else {
primitiveObjCtorSeen = null;
}
if ((seen == INVOKESPECIAL) && getNameConstantOperand().equals("<init>")) {
ctorSeen = true;
} else if (ctorSeen && (seen == INVOKEVIRTUAL) && getClassConstantOperand().equals("java/lang/Object")
&& getNameConstantOperand().equals("getClass") && getSigConstantOperand().equals("()Ljava/lang/Class;")) {
accumulator.accumulateBug(new BugInstance(this, "DM_NEW_FOR_GETCLASS", NORMAL_PRIORITY).addClassAndMethod(this),
this);
ctorSeen = false;
} else {
ctorSeen = false;
}
if ((seen == INVOKEVIRTUAL) && isMonitorWait(getNameConstantOperand(), getSigConstantOperand())) {
checkMonitorWait();
}
if ((seen == INVOKESPECIAL) && getNameConstantOperand().equals("<init>")
&& getClassConstantOperand().equals("java/lang/Thread")) {
String sig = getSigConstantOperand();
if (sig.equals("()V") || sig.equals("(Ljava/lang/String;)V")
|| sig.equals("(Ljava/lang/ThreadGroup;Ljava/lang/String;)V")) {
OpcodeStack.Item invokedOn = stack.getItemMethodInvokedOn(this);
if (!getMethodName().equals("<init>") || invokedOn.getRegisterNumber() != 0) {
accumulator.accumulateBug(
new BugInstance(this, "DM_USELESS_THREAD", LOW_PRIORITY).addClassAndMethod(this), this);
}
}
}
if (seen == INVOKESPECIAL && getClassConstantOperand().equals("java/math/BigDecimal")
&& getNameConstantOperand().equals("<init>") && getSigConstantOperand().equals("(D)V")) {
OpcodeStack.Item top = stack.getStackItem(0);
Object value = top.getConstant();
if (value instanceof Double && !((Double)value).isInfinite() && !((Double)value).isNaN()) {
double arg = ((Double) value).doubleValue();
String dblString = Double.toString(arg);
String bigDecimalString = new BigDecimal(arg).toString();
boolean ok = dblString.equals(bigDecimalString) || dblString.equals(bigDecimalString + ".0");
if (!ok) {
boolean scary = dblString.length() <= 8 && bigDecimalString.length() > 12
&& dblString.toUpperCase().indexOf('E') == -1;
bugReporter.reportBug(new BugInstance(this, "DMI_BIGDECIMAL_CONSTRUCTED_FROM_DOUBLE",
scary ? NORMAL_PRIORITY : LOW_PRIORITY).addClassAndMethod(this).addCalledMethod(this)
.addMethod("java.math.BigDecimal", "valueOf", "(D)Ljava/math/BigDecimal;", true)
.describe(MethodAnnotation.METHOD_ALTERNATIVE_TARGET).addString(dblString)
.addString(bigDecimalString).addSourceLine(this));
}
}
}
} finally {
prevOpcode = seen;
}
}
private void checkForCompatibleLongComparison(OpcodeStack.Item left, OpcodeStack.Item right) {
if (left.getSpecialKind() == Item.RESULT_OF_I2L && right.getConstant() != null) {
long value = ((Number) right.getConstant()).longValue();
if ( (value > Integer.MAX_VALUE || value < Integer.MIN_VALUE)) {
int priority = Priorities.HIGH_PRIORITY;
if (value == Integer.MAX_VALUE+1 || value == Integer.MIN_VALUE -1) {
priority = Priorities.NORMAL_PRIORITY;
}
String stringValue = IntAnnotation.getShortInteger(value)+"L";
if (value == 0xffffffffL) {
stringValue = "0xffffffffL";
} else if (value == 0x80000000L) {
stringValue = "0x80000000L";
}
accumulator.accumulateBug(new BugInstance(this, "INT_BAD_COMPARISON_WITH_INT_VALUE", priority ).addClassAndMethod(this)
.addString(stringValue).describe(StringAnnotation.STRING_NONSTRING_CONSTANT_ROLE)
.addValueSource(left, this) , this);
}
}
}
/**
* @param seen
* @param item
*/
private void reportVacuousBitOperation(int seen, OpcodeStack.Item item) {
if (item.getConstant() == null) {
accumulator
.accumulateBug(
new BugInstance(this, "INT_VACUOUS_BIT_OPERATION", NORMAL_PRIORITY)
.addClassAndMethod(this)
.addString(OPCODE_NAMES[seen])
.addOptionalAnnotation(
LocalVariableAnnotation.getLocalVariableAnnotation(getMethod(), item, getPC())), this);
}
}
/**
* Return index of stack entry that must be nonnegative.
*
* Return -1 if no stack entry is required to be nonnegative.
*/
private int stackEntryThatMustBeNonnegative(int seen) {
switch (seen) {
case INVOKEINTERFACE:
if (getClassConstantOperand().equals("java/util/List")) {
return getStackEntryOfListCallThatMustBeNonnegative();
}
break;
case INVOKEVIRTUAL:
if (getClassConstantOperand().equals("java/util/LinkedList")
|| getClassConstantOperand().equals("java/util/ArrayList")) {
return getStackEntryOfListCallThatMustBeNonnegative();
}
break;
case IALOAD:
case AALOAD:
case SALOAD:
case CALOAD:
case BALOAD:
case LALOAD:
case DALOAD:
case FALOAD:
return 0;
case IASTORE:
case AASTORE:
case SASTORE:
case CASTORE:
case BASTORE:
case LASTORE:
case DASTORE:
case FASTORE:
return 1;
}
return -1;
}
private int getStackEntryOfListCallThatMustBeNonnegative() {
String name = getNameConstantOperand();
if ((name.equals("add") || name.equals("set")) && getSigConstantOperand().startsWith("(I")) {
return 1;
}
if ((name.equals("get") || name.equals("remove")) && getSigConstantOperand().startsWith("(I)")) {
return 0;
}
return -1;
}
private void checkMonitorWait() {
try {
TypeDataflow typeDataflow = getClassContext().getTypeDataflow(getMethod());
TypeDataflow.LocationAndFactPair pair = typeDataflow.getLocationAndFactForInstruction(getPC());
if (pair == null) {
return;
}
Type receiver = pair.frame.getInstance(pair.location.getHandle().getInstruction(), getClassContext()
.getConstantPoolGen());
if (!(receiver instanceof ReferenceType)) {
return;
}
if (Hierarchy.isSubtype((ReferenceType) receiver, CONDITION_TYPE)) {
accumulator.accumulateBug(
new BugInstance(this, "DM_MONITOR_WAIT_ON_CONDITION", HIGH_PRIORITY).addClassAndMethod(this), this);
}
} catch (ClassNotFoundException e) {
bugReporter.reportMissingClass(e);
} catch (DataflowAnalysisException e) {
bugReporter.logError("Exception caught by DumbMethods", e);
} catch (CFGBuilderException e) {
bugReporter.logError("Exception caught by DumbMethods", e);
}
}
private boolean isMonitorWait(String name, String sig) {
// System.out.println("Check call " + name + "," + sig);
return name.equals("wait") && (sig.equals("()V") || sig.equals("(J)V") || sig.equals("(JI)V"));
}
@Override
public void visit(Code obj) {
super.visit(obj);
flush();
}
/**
* Flush out cached state at the end of a method.
*/
private void flush() {
if (pendingAbsoluteValueBug != null) {
absoluteValueAccumulator.accumulateBug(pendingAbsoluteValueBug, pendingAbsoluteValueBugSourceLine);
pendingAbsoluteValueBug = null;
pendingAbsoluteValueBugSourceLine = null;
}
accumulator.reportAccumulatedBugs();
if (sawLoadOfMinValue) {
absoluteValueAccumulator.clearBugs();
} else {
absoluteValueAccumulator.reportAccumulatedBugs();
}
if (gcInvocationBugReport != null && !sawCurrentTimeMillis) {
// Make sure the GC invocation is not in an exception handler
// for OutOfMemoryError.
boolean outOfMemoryHandler = false;
for (CodeException handler : exceptionTable) {
if (gcInvocationPC < handler.getHandlerPC() || gcInvocationPC > handler.getHandlerPC() + OOM_CATCH_LEN) {
continue;
}
int catchTypeIndex = handler.getCatchType();
if (catchTypeIndex > 0) {
ConstantPool cp = getThisClass().getConstantPool();
Constant constant = cp.getConstant(catchTypeIndex);
if (constant instanceof ConstantClass) {
String exClassName = (String) ((ConstantClass) constant).getConstantValue(cp);
if (exClassName.equals("java/lang/OutOfMemoryError")) {
outOfMemoryHandler = true;
break;
}
}
}
}
if (!outOfMemoryHandler) {
bugReporter.reportBug(gcInvocationBugReport);
}
}
sawCurrentTimeMillis = false;
gcInvocationBugReport = null;
exceptionTable = null;
}
}