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Mock objects library for java
/***
* ASM: a very small and fast Java bytecode manipulation framework
* Copyright (c) 2000-2007 INRIA, France Telecom
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the copyright holders nor the names of its
* contributors may be used to endorse or promote products derived from
* this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF
* THE POSSIBILITY OF SUCH DAMAGE.
*/
package org.mockito.asm.tree.analysis;
import java.util.List;
import org.mockito.asm.Type;
import org.mockito.asm.tree.AbstractInsnNode;
import org.mockito.asm.tree.FieldInsnNode;
import org.mockito.asm.tree.MethodInsnNode;
/**
* An extended {@link BasicInterpreter} that checks that bytecode instructions
* are correctly used.
*
* @author Eric Bruneton
* @author Bing Ran
*/
public class BasicVerifier extends BasicInterpreter {
public Value copyOperation(final AbstractInsnNode insn, final Value value)
throws AnalyzerException
{
Value expected;
switch (insn.getOpcode()) {
case ILOAD:
case ISTORE:
expected = BasicValue.INT_VALUE;
break;
case FLOAD:
case FSTORE:
expected = BasicValue.FLOAT_VALUE;
break;
case LLOAD:
case LSTORE:
expected = BasicValue.LONG_VALUE;
break;
case DLOAD:
case DSTORE:
expected = BasicValue.DOUBLE_VALUE;
break;
case ALOAD:
if (!((BasicValue) value).isReference()) {
throw new AnalyzerException(null,
"an object reference",
value);
}
return value;
case ASTORE:
if (!((BasicValue) value).isReference()
&& value != BasicValue.RETURNADDRESS_VALUE)
{
throw new AnalyzerException(null,
"an object reference or a return address",
value);
}
return value;
default:
return value;
}
// type is necessarily a primitive type here,
// so value must be == to expected value
if (value != expected) {
throw new AnalyzerException(null, expected, value);
}
return value;
}
public Value unaryOperation(final AbstractInsnNode insn, final Value value)
throws AnalyzerException
{
Value expected;
switch (insn.getOpcode()) {
case INEG:
case IINC:
case I2F:
case I2L:
case I2D:
case I2B:
case I2C:
case I2S:
case IFEQ:
case IFNE:
case IFLT:
case IFGE:
case IFGT:
case IFLE:
case TABLESWITCH:
case LOOKUPSWITCH:
case IRETURN:
case NEWARRAY:
case ANEWARRAY:
expected = BasicValue.INT_VALUE;
break;
case FNEG:
case F2I:
case F2L:
case F2D:
case FRETURN:
expected = BasicValue.FLOAT_VALUE;
break;
case LNEG:
case L2I:
case L2F:
case L2D:
case LRETURN:
expected = BasicValue.LONG_VALUE;
break;
case DNEG:
case D2I:
case D2F:
case D2L:
case DRETURN:
expected = BasicValue.DOUBLE_VALUE;
break;
case GETFIELD:
expected = newValue(Type.getObjectType(((FieldInsnNode) insn).owner));
break;
case CHECKCAST:
if (!((BasicValue) value).isReference()) {
throw new AnalyzerException(null,
"an object reference",
value);
}
return super.unaryOperation(insn, value);
case ARRAYLENGTH:
if (!isArrayValue(value)) {
throw new AnalyzerException(null,
"an array reference",
value);
}
return super.unaryOperation(insn, value);
case ARETURN:
case ATHROW:
case INSTANCEOF:
case MONITORENTER:
case MONITOREXIT:
case IFNULL:
case IFNONNULL:
if (!((BasicValue) value).isReference()) {
throw new AnalyzerException(null,
"an object reference",
value);
}
return super.unaryOperation(insn, value);
case PUTSTATIC:
expected = newValue(Type.getType(((FieldInsnNode) insn).desc));
break;
default:
throw new Error("Internal error.");
}
if (!isSubTypeOf(value, expected)) {
throw new AnalyzerException(null, expected, value);
}
return super.unaryOperation(insn, value);
}
public Value binaryOperation(
final AbstractInsnNode insn,
final Value value1,
final Value value2) throws AnalyzerException
{
Value expected1;
Value expected2;
switch (insn.getOpcode()) {
case IALOAD:
expected1 = newValue(Type.getType("[I"));
expected2 = BasicValue.INT_VALUE;
break;
case BALOAD:
if (isSubTypeOf(value1, newValue(Type.getType("[Z")))) {
expected1 = newValue(Type.getType("[Z"));
} else {
expected1 = newValue(Type.getType("[B"));
}
expected2 = BasicValue.INT_VALUE;
break;
case CALOAD:
expected1 = newValue(Type.getType("[C"));
expected2 = BasicValue.INT_VALUE;
break;
case SALOAD:
expected1 = newValue(Type.getType("[S"));
expected2 = BasicValue.INT_VALUE;
break;
case LALOAD:
expected1 = newValue(Type.getType("[J"));
expected2 = BasicValue.INT_VALUE;
break;
case FALOAD:
expected1 = newValue(Type.getType("[F"));
expected2 = BasicValue.INT_VALUE;
break;
case DALOAD:
expected1 = newValue(Type.getType("[D"));
expected2 = BasicValue.INT_VALUE;
break;
case AALOAD:
expected1 = newValue(Type.getType("[Ljava/lang/Object;"));
expected2 = BasicValue.INT_VALUE;
break;
case IADD:
case ISUB:
case IMUL:
case IDIV:
case IREM:
case ISHL:
case ISHR:
case IUSHR:
case IAND:
case IOR:
case IXOR:
case IF_ICMPEQ:
case IF_ICMPNE:
case IF_ICMPLT:
case IF_ICMPGE:
case IF_ICMPGT:
case IF_ICMPLE:
expected1 = BasicValue.INT_VALUE;
expected2 = BasicValue.INT_VALUE;
break;
case FADD:
case FSUB:
case FMUL:
case FDIV:
case FREM:
case FCMPL:
case FCMPG:
expected1 = BasicValue.FLOAT_VALUE;
expected2 = BasicValue.FLOAT_VALUE;
break;
case LADD:
case LSUB:
case LMUL:
case LDIV:
case LREM:
case LAND:
case LOR:
case LXOR:
case LCMP:
expected1 = BasicValue.LONG_VALUE;
expected2 = BasicValue.LONG_VALUE;
break;
case LSHL:
case LSHR:
case LUSHR:
expected1 = BasicValue.LONG_VALUE;
expected2 = BasicValue.INT_VALUE;
break;
case DADD:
case DSUB:
case DMUL:
case DDIV:
case DREM:
case DCMPL:
case DCMPG:
expected1 = BasicValue.DOUBLE_VALUE;
expected2 = BasicValue.DOUBLE_VALUE;
break;
case IF_ACMPEQ:
case IF_ACMPNE:
expected1 = BasicValue.REFERENCE_VALUE;
expected2 = BasicValue.REFERENCE_VALUE;
break;
case PUTFIELD:
FieldInsnNode fin = (FieldInsnNode) insn;
expected1 = newValue(Type.getObjectType(fin.owner));
expected2 = newValue(Type.getType(fin.desc));
break;
default:
throw new Error("Internal error.");
}
if (!isSubTypeOf(value1, expected1)) {
throw new AnalyzerException("First argument", expected1, value1);
} else if (!isSubTypeOf(value2, expected2)) {
throw new AnalyzerException("Second argument", expected2, value2);
}
if (insn.getOpcode() == AALOAD) {
return getElementValue(value1);
} else {
return super.binaryOperation(insn, value1, value2);
}
}
public Value ternaryOperation(
final AbstractInsnNode insn,
final Value value1,
final Value value2,
final Value value3) throws AnalyzerException
{
Value expected1;
Value expected3;
switch (insn.getOpcode()) {
case IASTORE:
expected1 = newValue(Type.getType("[I"));
expected3 = BasicValue.INT_VALUE;
break;
case BASTORE:
if (isSubTypeOf(value1, newValue(Type.getType("[Z")))) {
expected1 = newValue(Type.getType("[Z"));
} else {
expected1 = newValue(Type.getType("[B"));
}
expected3 = BasicValue.INT_VALUE;
break;
case CASTORE:
expected1 = newValue(Type.getType("[C"));
expected3 = BasicValue.INT_VALUE;
break;
case SASTORE:
expected1 = newValue(Type.getType("[S"));
expected3 = BasicValue.INT_VALUE;
break;
case LASTORE:
expected1 = newValue(Type.getType("[J"));
expected3 = BasicValue.LONG_VALUE;
break;
case FASTORE:
expected1 = newValue(Type.getType("[F"));
expected3 = BasicValue.FLOAT_VALUE;
break;
case DASTORE:
expected1 = newValue(Type.getType("[D"));
expected3 = BasicValue.DOUBLE_VALUE;
break;
case AASTORE:
expected1 = value1;
expected3 = BasicValue.REFERENCE_VALUE;
break;
default:
throw new Error("Internal error.");
}
if (!isSubTypeOf(value1, expected1)) {
throw new AnalyzerException("First argument", "a " + expected1
+ " array reference", value1);
} else if (value2 != BasicValue.INT_VALUE) {
throw new AnalyzerException("Second argument",
BasicValue.INT_VALUE,
value2);
} else if (!isSubTypeOf(value3, expected3)) {
throw new AnalyzerException("Third argument", expected3, value3);
}
return null;
}
public Value naryOperation(final AbstractInsnNode insn, final List values)
throws AnalyzerException
{
int opcode = insn.getOpcode();
if (opcode == MULTIANEWARRAY) {
for (int i = 0; i < values.size(); ++i) {
if (values.get(i) != BasicValue.INT_VALUE) {
throw new AnalyzerException(null,
BasicValue.INT_VALUE,
(Value) values.get(i));
}
}
} else {
int i = 0;
int j = 0;
if (opcode != INVOKESTATIC) {
Type owner = Type.getObjectType(((MethodInsnNode) insn).owner);
if (!isSubTypeOf((Value) values.get(i++), newValue(owner))) {
throw new AnalyzerException("Method owner",
newValue(owner),
(Value) values.get(0));
}
}
Type[] args = Type.getArgumentTypes(((MethodInsnNode) insn).desc);
while (i < values.size()) {
Value expected = newValue(args[j++]);
Value encountered = (Value) values.get(i++);
if (!isSubTypeOf(encountered, expected)) {
throw new AnalyzerException("Argument " + j,
expected,
encountered);
}
}
}
return super.naryOperation(insn, values);
}
protected boolean isArrayValue(final Value value) {
return ((BasicValue) value).isReference();
}
protected Value getElementValue(final Value objectArrayValue)
throws AnalyzerException
{
return BasicValue.REFERENCE_VALUE;
}
protected boolean isSubTypeOf(final Value value, final Value expected) {
return value == expected;
}
}
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