/*** * ASM tests * Copyright (c) 2000-2011 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.objectweb.asm; import java.io.ByteArrayInputStream; import java.io.FileInputStream; import java.lang.reflect.Field; import java.util.HashMap; import java.util.HashSet; import java.util.Iterator; import java.util.Map; import java.util.Properties; import java.util.Set; import java.util.StringTokenizer; import junit.framework.TestCase; /** * ClassWriter unit tests for COMPUTE_MAXS option with JSR instructions. * * @author Eric Bruneton */ public class ClassWriterComputeMaxsUnitTest extends TestCase { private Field successors; private Field successor; private Field succ; private Field next; protected ClassWriter cw; protected MethodVisitor mv; private Label start; @Override protected void setUp() throws Exception { Class lClass = Label.class; Class eClass = Edge.class; try { successors = lClass.getDeclaredField("successors"); successor = lClass.getDeclaredField("successor"); succ = eClass.getDeclaredField("successor"); next = eClass.getDeclaredField("next"); } catch (RuntimeException exception) { String f = "src/org/objectweb/asm/optimizer/shrink.properties"; Properties p = new Properties(); FileInputStream is = new FileInputStream(f); try { p.load(is); } finally { is.close(); } String l = Type.getInternalName(lClass) + "."; String e = Type.getInternalName(eClass) + "."; successors = lClass.getDeclaredField(p .getProperty(l + "successors")); successor = lClass.getDeclaredField(p.getProperty(l + "successor")); succ = eClass.getDeclaredField(p.getProperty(e + "successor")); next = eClass.getDeclaredField(p.getProperty(e + "next")); } cw = new ClassWriter(isComputeMaxs() ? ClassWriter.COMPUTE_MAXS : 0); cw.visit(Opcodes.V1_1, Opcodes.ACC_PUBLIC, "C", null, "java/lang/Object", null); mv = cw.visitMethod(Opcodes.ACC_PUBLIC, "", "()V", null, null); mv.visitCode(); mv.visitVarInsn(Opcodes.ALOAD, 0); mv.visitMethodInsn(Opcodes.INVOKESPECIAL, "java/lang/Object", "", "()V", false); mv.visitInsn(Opcodes.RETURN); mv.visitMaxs(1, 1); mv.visitEnd(); mv = cw.visitMethod(Opcodes.ACC_PUBLIC, "m", "()V", null, null); mv.visitCode(); start = new Label(); LABEL(start); } protected boolean isComputeMaxs() { return true; } private void NOP() { mv.visitInsn(Opcodes.NOP); } private void PUSH() { mv.visitInsn(Opcodes.ICONST_0); } private void ICONST_0() { mv.visitInsn(Opcodes.ICONST_0); } private void ISTORE(final int var) { mv.visitVarInsn(Opcodes.ISTORE, var); } private void ALOAD(final int var) { mv.visitVarInsn(Opcodes.ALOAD, var); } private void ILOAD(final int var) { mv.visitVarInsn(Opcodes.ILOAD, var); } private void ASTORE(final int var) { mv.visitVarInsn(Opcodes.ASTORE, var); } private void RET(final int var) { mv.visitVarInsn(Opcodes.RET, var); } private void ATHROW() { mv.visitInsn(Opcodes.ATHROW); } private void ACONST_NULL() { mv.visitInsn(Opcodes.ACONST_NULL); } private void RETURN() { mv.visitInsn(Opcodes.RETURN); } private void LABEL(final Label l) { mv.visitLabel(l); } private void IINC(final int var, final int amnt) { mv.visitIincInsn(var, amnt); } private void GOTO(final Label l) { mv.visitJumpInsn(Opcodes.GOTO, l); } private void JSR(final Label l) { mv.visitJumpInsn(Opcodes.JSR, l); } private void IFNONNULL(final Label l) { mv.visitJumpInsn(Opcodes.IFNONNULL, l); } private void IFNE(final Label l) { mv.visitJumpInsn(Opcodes.IFNE, l); } private void TRYCATCH(final Label start, final Label end, final Label handler) { mv.visitTryCatchBlock(start, end, handler, null); } protected void assertMaxs(final int maxStack, final int maxLocals) { mv.visitMaxs(0, 0); mv.visitEnd(); cw.visitEnd(); byte[] b = cw.toByteArray(); ClassReader cr = new ClassReader(b); cr.accept(new ClassVisitor(Opcodes.ASM5) { @Override public MethodVisitor visitMethod(final int access, final String name, final String desc, final String signature, final String[] exceptions) { if (name.equals("m")) { return new MethodVisitor(Opcodes.ASM5) { @Override public void visitMaxs(final int realMaxStack, final int realMaxLocals) { assertEquals("maxStack", maxStack, realMaxStack); assertEquals("maxLocals", maxLocals, realMaxLocals); } }; } else { return null; } } }, 0); try { TestClassLoader loader = new TestClassLoader(); Class c = loader.defineClass("C", b); c.newInstance(); } catch (Throwable t) { fail(t.getMessage()); } } protected void assertGraph(final String graph) { Map> expected = new HashMap>(); Properties p = new Properties(); try { p.load(new ByteArrayInputStream(graph.getBytes())); } catch (Exception e) { fail(); } Iterator> i = p.entrySet().iterator(); while (i.hasNext()) { Map.Entry entry = i.next(); String key = (String) entry.getKey(); String value = (String) entry.getValue(); StringTokenizer st = new StringTokenizer(value, ","); Set s = new HashSet(); while (st.hasMoreTokens()) { s.add(st.nextToken()); } expected.put(key, s); } Map> actual = new HashMap>(); try { Label l = start; while (l != null) { String key = "N" + l.getOffset(); Set value = new HashSet(); Edge e = (Edge) successors.get(l); while (e != null) { value.add("N" + ((Label) succ.get(e)).getOffset()); e = (Edge) next.get(e); } actual.put(key, value); l = (Label) successor.get(l); } } catch (IllegalAccessException e) { fail(); } assertEquals(expected, actual); } protected static class TestClassLoader extends ClassLoader { public TestClassLoader() { } public Class defineClass(final String name, final byte[] b) { return defineClass(name, b, 0, b.length); } } /** * Tests a method which has the most basic try{}finally form * imaginable: * * 
     * public void a() {
     *     int a = 0;
     *     try {
     *         a++;
     *     } finally {
     *         a--;
     *     }
     * }
     *
*/ public void testBasic() { Label L0 = new Label(); Label L1 = new Label(); Label L2 = new Label(); Label L3 = new Label(); Label L4 = new Label(); ICONST_0(); // N0 ISTORE(1); /* L0: body of try block */ LABEL(L0); // N2 IINC(1, 1); GOTO(L1); /* L2: exception handler */ LABEL(L2); // N8 ASTORE(3); JSR(L3); ALOAD(3); // N12 ATHROW(); /* L3: subroutine */ LABEL(L3); // N14 ASTORE(2); IINC(1, -1); PUSH(); PUSH(); RET(2); /* L1: non-exceptional exit from try block */ LABEL(L1); // N22 JSR(L3); PUSH(); // N25 PUSH(); LABEL(L4); // N27 RETURN(); TRYCATCH(L0, L2, L2); TRYCATCH(L1, L4, L2); assertMaxs(4, 4); assertGraph("N0=N2\n" + "N2=N22,N8\n" + "N8=N14,N12\n" + "N12=\n" + "N14=N12,N25\n" + "N22=N14,N25,N8\n" + "N25=N27,N8\n" + "N27=\n"); } /** * Tests a method which has an if/else-if w/in the finally clause: * * 
     * public void a() {
     *     int a = 0;
     *     try {
     *         a++;
     *     } finally {
     *         if (a == 0)
     *             a += 2;
     *         else
     *             a += 3;
     *     }
     * }
     *
*/ public void testIfElseInFinally() { Label L0 = new Label(); Label L1 = new Label(); Label L2 = new Label(); Label L3 = new Label(); Label L4 = new Label(); Label L5 = new Label(); Label L6 = new Label(); ICONST_0(); // N0 ISTORE(1); /* L0: body of try block */ LABEL(L0); // N2 IINC(1, 1); GOTO(L1); /* L2: exception handler */ LABEL(L2); // N8 ASTORE(3); JSR(L3); PUSH(); // N12 PUSH(); ALOAD(3); ATHROW(); /* L3: subroutine */ LABEL(L3); // N16 ASTORE(2); PUSH(); PUSH(); ILOAD(1); IFNE(L4); IINC(1, 2); GOTO(L5); LABEL(L4); // N29 IINC(1, 3); LABEL(L5); // N32 common exit RET(2); /* L1: non-exceptional exit from try block */ LABEL(L1); // N34 JSR(L3); LABEL(L6); // N37 RETURN(); TRYCATCH(L0, L2, L2); TRYCATCH(L1, L6, L2); assertMaxs(5, 4); assertGraph("N0=N2\n" + "N2=N34,N8\n" + "N8=N16,N12\n" + "N12=\n" + "N16=N29,N32\n" + "N29=N32\n" + "N32=N37,N12\n" + "N34=N16,N37,N8\n" + "N37=\n"); } /** * Tests a simple nested finally: * * 
     * public void a1() {
     *     int a = 0;
     *     try {
     *         a += 1;
     *     } finally {
     *         try {
     *             a += 2;
     *         } finally {
     *             a += 3;
     *         }
     *     }
     * }
     *
*/ public void testSimpleNestedFinally() { Label L0 = new Label(); Label L1 = new Label(); Label L2 = new Label(); Label L3 = new Label(); Label L4 = new Label(); Label L5 = new Label(); ICONST_0(); // N0 ISTORE(1); // L0: Body of try block: LABEL(L0); // N2 IINC(1, 1); JSR(L3); GOTO(L1); // N8 // L2: First exception handler: LABEL(L2); // N11 ASTORE(4); JSR(L3); ALOAD(4); // N16 ATHROW(); // L3: First subroutine: LABEL(L3); // N19 ASTORE(2); IINC(1, 2); JSR(L4); PUSH(); // N26 PUSH(); RET(2); // L5: Second exception handler: LABEL(L5); // N30 ASTORE(5); JSR(L4); ALOAD(5); // N35 ATHROW(); // L4: Second subroutine: LABEL(L4); // N38 ASTORE(3); PUSH(); PUSH(); IINC(1, 3); RET(3); // L1: On normal exit, try block jumps here: LABEL(L1); // N46 RETURN(); TRYCATCH(L0, L2, L2); TRYCATCH(L3, L5, L5); assertMaxs(5, 6); assertGraph("N0=N2\n" + "N2=N11,N19,N8\n" + "N8=N11,N46\n" + "N11=N19,N16\n" + "N16=\n" + "N19=N26,N30,N38\n" + "N26=N16,N30,N8\n" + "N30=N38,N35\n" + "N35=\n" + "N38=N26,N35\n" + "N46=\n"); } /** * This tests a subroutine which has no ret statement, but ends in a * "return" instead. * * We structure this as a try/finally with a break in the finally. Because * the while loop is infinite, it's clear from the byte code that the only * path which reaches the RETURN instruction is through the subroutine. * * 
     * public void a1() {
     *     int a = 0;
     *     while (true) {
     *         try {
     *             a += 1;
     *         } finally {
     *             a += 2;
     *             break;
     *         }
     *     }
     * }
     *
*/ public void testSubroutineWithNoRet() { Label L0 = new Label(); Label L1 = new Label(); Label L2 = new Label(); Label L3 = new Label(); Label L4 = new Label(); ICONST_0(); // N0 ISTORE(1); // L0: while loop header/try block LABEL(L0); // N2 IINC(1, 1); JSR(L1); GOTO(L2); // N8 // L3: implicit catch block LABEL(L3); // N11 ASTORE(2); JSR(L1); PUSH(); // N15 PUSH(); ALOAD(2); ATHROW(); // L1: subroutine ... LABEL(L1); // N19 ASTORE(3); IINC(1, 2); GOTO(L4); // ...not that it does not return! // L2: end of the loop... goes back to the top! LABEL(L2); // N26 GOTO(L0); // L4: LABEL(L4); // N29 RETURN(); TRYCATCH(L0, L3, L3); assertMaxs(1, 4); assertGraph("N0=N2\n" + "N2=N11,N19,N8\n" + "N8=N11,N26\n" + "N11=N19,N15\n" + "N15=\n" + "N19=N29\n" + "N26=N2\n" + "N29=\n"); } /** * This tests a subroutine which has no ret statement, but ends in a * "return" instead. * * 
     *   ACONST_NULL
     *   JSR L0
     * L0:
     *   ASTORE 0
     *   ASTORE 0
     *   RETURN
     *
*/ public void testSubroutineWithNoRet2() { Label L0 = new Label(); Label L1 = new Label(); ACONST_NULL(); // N0 JSR(L0); NOP(); // N4 LABEL(L0); // N5 ASTORE(0); ASTORE(0); RETURN(); LABEL(L1); // N8 mv.visitLocalVariable("i", "I", null, L0, L1, 1); assertMaxs(2, 2); assertGraph("N0=N4,N5\n" + "N4=N5\n" + "N5=\n" + "N8=\n"); } /** * This tests a subroutine which has no ret statement, but instead exits * implicitely by branching to code which is not part of the subroutine. * (Sadly, this is legal) * * We structure this as a try/finally in a loop with a break in the finally. * The loop is not trivially infinite, so the RETURN statement is reachable * both from the JSR subroutine and from the main entry point. * * 
     * public void a1() {
     *     int a = 0;
     *     while (null == null) {
     *         try {
     *             a += 1;
     *         } finally {
     *             a += 2;
     *             break;
     *         }
     *     }
     * }
     *
*/ public void testImplicitExit() { Label L0 = new Label(); Label L1 = new Label(); Label L2 = new Label(); Label L3 = new Label(); Label L4 = new Label(); Label L5 = new Label(); ICONST_0(); // N0 ISTORE(1); // L5: while loop header LABEL(L5); // N2 ACONST_NULL(); IFNONNULL(L4); // L0: try block LABEL(L0); // N6 IINC(1, 1); JSR(L1); GOTO(L2); // N12 // L3: implicit catch block LABEL(L3); // N15 ASTORE(2); JSR(L1); ALOAD(2); // N19 PUSH(); PUSH(); ATHROW(); // L1: subroutine ... LABEL(L1); // N23 ASTORE(3); IINC(1, 2); GOTO(L4); // ...not that it does not return! // L2: end of the loop... goes back to the top! LABEL(L2); // N30 GOTO(L0); // L4: LABEL(L4); // N33 RETURN(); TRYCATCH(L0, L3, L3); assertMaxs(1, 4); assertGraph("N0=N2\n" + "N2=N6,N33\n" + "N6=N23,N12,N15\n" + "N12=N30,N15\n" + "N15=N23,N19\n" + "N19=\n" + "N23=N33\n" + "N30=N6\n" + "N33=\n"); } /** * Tests a nested try/finally with implicit exit from one subroutine to the * other subroutine. Equivalent to the following java code: * * 
     * void m(boolean b) {
     *     try {
     *         return;
     *     } finally {
     *         while (b) {
     *             try {
     *                 return;
     *             } finally {
     *                 // NOTE --- this break avoids the second return above (weird)
     *                 if (b)
     *                     break;
     *             }
     *         }
     *     }
     * }
     *
* * This example is from the paper, "Subroutine Inlining and Bytecode * Abstraction to Simplify Static and Dynamic Analysis" by Cyrille Artho and * Armin Biere. */ public void testImplicitExitToAnotherSubroutine() { Label T1 = new Label(); Label C1 = new Label(); Label S1 = new Label(); Label L = new Label(); Label C2 = new Label(); Label S2 = new Label(); Label W = new Label(); Label X = new Label(); // variable numbers: int b = 1; int e1 = 2; int e2 = 3; int r1 = 4; int r2 = 5; ICONST_0(); // N0 ISTORE(1); // T1: first try: LABEL(T1); // N2 JSR(S1); RETURN(); // N5 // C1: exception handler for first try LABEL(C1); // N6 ASTORE(e1); JSR(S1); PUSH(); // N10 PUSH(); ALOAD(e1); ATHROW(); // S1: first finally handler LABEL(S1); // N14 ASTORE(r1); PUSH(); PUSH(); GOTO(W); // L: body of while loop, also second try LABEL(L); // N21 JSR(S2); RETURN(); // N24 // C2: exception handler for second try LABEL(C2); // N25 ASTORE(e2); PUSH(); PUSH(); JSR(S2); ALOAD(e2); // N31 ATHROW(); // S2: second finally handler LABEL(S2); // N33 ASTORE(r2); ILOAD(b); IFNE(X); RET(r2); // W: test for the while loop LABEL(W); // N41 ILOAD(b); IFNE(L); // falls through to X // X: exit from finally{} block LABEL(X); // N45 RET(r1); TRYCATCH(T1, C1, C1); TRYCATCH(L, C2, C2); assertMaxs(5, 6); assertGraph("N0=N2\n" + "N2=N6,N5,N14\n" + "N5=N6\n" + "N6=N14,N10\n" + "N10=\n" + "N14=N41\n" + "N21=N24,N25,N33\n" + "N24=N25\n" + "N25=N31,N33\n" + "N31=\n" + "N33=N31,N45,N24\n" + "N41=N45,N21\n" + "N45=N5,N10\n"); } public void testImplicitExitToAnotherSubroutine2() { Label L1 = new Label(); Label L2 = new Label(); Label L3 = new Label(); ICONST_0(); // N0 ISTORE(1); JSR(L1); RETURN(); // N5 LABEL(L1); // N6 ASTORE(2); JSR(L2); GOTO(L3); // N10 LABEL(L2); // N13 ASTORE(3); ILOAD(1); IFNE(L3); RET(3); LABEL(L3); // N20 RET(2); assertMaxs(1, 4); assertGraph("N0=N6,N5\n" + "N5=\n" + "N6=N10,N13\n" + "N10=N20\n" + "N13=N20,N10\n" + "N20=N5\n"); } /** * This tests a simple subroutine where the control flow jumps back and * forth between the subroutine and the caller. * * This would not normally be produced by a java compiler. */ public void testInterleavedCode() { Label L1 = new Label(); Label L2 = new Label(); Label L3 = new Label(); Label L4 = new Label(); ICONST_0(); // N0 ISTORE(1); JSR(L1); GOTO(L2); // N5 // L1: subroutine 1 LABEL(L1); // N8 ASTORE(2); IINC(1, 1); GOTO(L3); // L2: second part of main subroutine LABEL(L2); // N15 IINC(1, 2); GOTO(L4); // L3: second part of subroutine 1 LABEL(L3); // N21 IINC(1, 4); PUSH(); PUSH(); RET(2); // L4: third part of main subroutine LABEL(L4); // N28 PUSH(); PUSH(); RETURN(); assertMaxs(4, 3); assertGraph("N0=N5,N8\n" + "N5=N15\n" + "N8=N21\n" + "N15=N28\n" + "N21=N5\n" + "N28=\n"); } /** * Tests a nested try/finally with implicit exit from one subroutine to the * other subroutine, and with a surrounding try/catch thrown in the mix. * Equivalent to the following java code: * * 
     * void m(int b) {
     *     try {
     *         try {
     *             return;
     *         } finally {
     *             while (b) {
     *                 try {
     *                     return;
     *                 } finally {
     *                     // NOTE --- this break avoids the second return above
     *                     // (weird)
     *                     if (b)
     *                         break;
     *                 }
     *             }
     *         }
     *     } catch (Exception e) {
     *         b += 3;
     *         return;
     *     }
     * }
     *
*/ public void testImplicitExitInTryCatch() { Label T1 = new Label(); Label C1 = new Label(); Label S1 = new Label(); Label L = new Label(); Label C2 = new Label(); Label S2 = new Label(); Label W = new Label(); Label X = new Label(); Label OC = new Label(); // variable numbers: int b = 1; int e1 = 2; int e2 = 3; int r1 = 4; int r2 = 5; ICONST_0(); // N0 ISTORE(1); // T1: first try: LABEL(T1); // N2 JSR(S1); RETURN(); // N5 // C1: exception handler for first try LABEL(C1); // N6 ASTORE(e1); JSR(S1); ALOAD(e1); // N10 ATHROW(); // S1: first finally handler LABEL(S1); // N12 ASTORE(r1); GOTO(W); // L: body of while loop, also second try LABEL(L); // N17 JSR(S2); PUSH(); // N20 PUSH(); RETURN(); // C2: exception handler for second try LABEL(C2); // N23 ASTORE(e2); JSR(S2); ALOAD(e2); // N27 ATHROW(); // S2: second finally handler LABEL(S2); // N29 ASTORE(r2); ILOAD(b); IFNE(X); PUSH(); PUSH(); RET(r2); // W: test for the while loop LABEL(W); // N39 ILOAD(b); IFNE(L); // falls through to X // X: exit from finally{} block LABEL(X); // N43 RET(r1); // OC: outermost catch LABEL(OC); // N45 IINC(b, 3); RETURN(); TRYCATCH(T1, C1, C1); TRYCATCH(L, C2, C2); TRYCATCH(T1, OC, OC); assertMaxs(4, 6); assertGraph("N0=N2\n" + "N2=N6,N45,N5,N12\n" + "N5=N6,N45\n" + "N6=N45,N12,N10\n" + "N10=N45\n" + "N12=N39,N45\n" + "N17=N23,N45,N20,N29\n" + "N20=N23,N45\n" + "N23=N45,N27,N29\n" + "N27=N45\n" + "N29=N43,N45,N20,N27\n" + "N39=N43,N45,N17\n" + "N43=N45,N5,N10\n" + "N45=\n"); } }