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Example 6 with CallString

use of com.jopdesign.common.code.CallString in project jop by jop-devel.

the class AnalysisResultSerialization method fromContextMapResult.

/** 
	 * <p>Result Map: MethodInfo -> Instruction Offset -> Callstring -> R</p>
	 * <p>TODO: More efficient representations are possible</p>
	 * @param result the result of the DFA analysis
	 * @param serializer converter for the result domain (if not serializable), or null
	 *                   if the results of type T should be serialized directly
	 */
public static <T, R> AnalysisResultSerialization<R> fromContextMapResult(Map<InstructionHandle, ContextMap<CallString, T>> result, Serializer<T, R> serializer) {
    AnalysisResultSerialization<R> analysisResult = new AnalysisResultSerialization<R>();
    /* sort instruction handle by: method, offset */
    for (InstructionHandle instr : result.keySet()) {
        ContextMap<CallString, T> r = result.get(instr);
        Context c = r.getContext();
        InstructionList il = c.getMethodInfo().getCode().getInstructionList(true, false);
        for (CallString cs : r.keySet()) {
            Integer position = instr.getPosition();
            // skip stuff that is not used anymore
            if (position < 0)
                continue;
            if (il.findHandle(position) != instr)
                continue;
            if (serializer != null) {
                T rValue = r.get(cs);
                R sValue = serializer.serializedRepresentation(rValue);
                analysisResult.addResult(c.getMethodInfo(), position, cs, sValue);
            } else {
                analysisResult.addResult(c.getMethodInfo(), position, cs, (R) r.get(cs));
            }
        }
    }
    return analysisResult;
}
Also used : InstructionList(org.apache.bcel.generic.InstructionList) InstructionHandle(org.apache.bcel.generic.InstructionHandle) CallString(com.jopdesign.common.code.CallString)

Example 7 with CallString

use of com.jopdesign.common.code.CallString in project jop by jop-devel.

the class CallStringReceiverTypes method doInvokeStatic.

private void doInvokeStatic(String methodName, InstructionHandle stmt, Context context, ContextMap<CallString, Set<TypeMapping>> input, Interpreter<CallString, Set<TypeMapping>> interpreter, Map<InstructionHandle, ContextMap<CallString, Set<TypeMapping>>> state, ContextMap<CallString, Set<TypeMapping>> result) {
    DFATool p = interpreter.getDFATool();
    MethodInfo method = p.getMethod(methodName);
    if (method == null) {
        throw new AppInfoError("DFA: cannot find static method " + methodName);
    }
    //noinspection AssignmentToMethodParameter
    methodName = method.getClassName() + "." + method.getMethodSignature();
    recordReceiver(stmt, context, methodName);
    if (method.isNative()) {
        handleNative(method, context, input, result);
    } else {
        // set up new context
        int varPtr = context.stackPtr - MethodHelper.getArgSize(method);
        Context c = new Context(context);
        c.stackPtr = method.getCode().getMaxLocals();
        if (method.isSynchronized()) {
            c.syncLevel = context.syncLevel + 1;
        }
        c.setMethodInfo(method);
        c.callString = c.callString.push(context.getMethodInfo(), stmt, callStringLength);
        // carry only minimal information with call
        Set<TypeMapping> in = input.get(context.callString);
        Set<TypeMapping> out = new LinkedHashSet<TypeMapping>();
        ContextMap<CallString, Set<TypeMapping>> tmpresult = new ContextMap<CallString, Set<TypeMapping>>(c, new LinkedHashMap<CallString, Set<TypeMapping>>());
        tmpresult.put(c.callString, out);
        for (TypeMapping m : in) {
            if (m.stackLoc < 0) {
                out.add(m);
            }
            if (m.stackLoc >= varPtr) {
                out.add(new TypeMapping(m.stackLoc - varPtr, m.type));
            }
        }
        InstructionHandle entry = p.getEntryHandle(method);
        state.put(entry, join(state.get(entry), tmpresult));
        // interpret method
        Map<InstructionHandle, ContextMap<CallString, Set<TypeMapping>>> r = interpreter.interpret(c, entry, state, false);
        // pull out relevant information from call
        InstructionHandle exit = p.getExitHandle(method);
        if (r.get(exit) != null) {
            Set<TypeMapping> returned = r.get(exit).get(c.callString);
            if (returned != null) {
                filterReturnSet(returned, result.get(context.callString), varPtr);
            }
        }
    }
}
Also used : Context(com.jopdesign.dfa.framework.Context) LinkedHashSet(java.util.LinkedHashSet) DFATool(com.jopdesign.dfa.DFATool) LinkedHashSet(java.util.LinkedHashSet) Set(java.util.Set) AppInfoError(com.jopdesign.common.misc.AppInfoError) ContextMap(com.jopdesign.dfa.framework.ContextMap) InstructionHandle(org.apache.bcel.generic.InstructionHandle) CallString(com.jopdesign.common.code.CallString) MethodInfo(com.jopdesign.common.MethodInfo)

Example 8 with CallString

use of com.jopdesign.common.code.CallString in project jop by jop-devel.

the class CallStringReceiverTypes method transfer.

public ContextMap<CallString, Set<TypeMapping>> transfer(InstructionHandle stmt, FlowEdge edge, ContextMap<CallString, Set<TypeMapping>> input, Interpreter<CallString, Set<TypeMapping>> interpreter, Map<InstructionHandle, ContextMap<CallString, Set<TypeMapping>>> state) {
    Context context = new Context(input.getContext());
    Set<TypeMapping> in = input.get(context.callString);
    ContextMap<CallString, Set<TypeMapping>> retval = new ContextMap<CallString, Set<TypeMapping>>(context, new LinkedHashMap<CallString, Set<TypeMapping>>());
    Set<TypeMapping> result = new LinkedHashSet<TypeMapping>();
    retval.put(context.callString, result);
    Instruction instruction = stmt.getInstruction();
    switch(instruction.getOpcode()) {
        case Constants.NOP:
            result = in;
            retval.put(context.callString, result);
            break;
        case Constants.ACONST_NULL:
        case Constants.ICONST_M1:
        case Constants.ICONST_0:
        case Constants.ICONST_1:
        case Constants.ICONST_2:
        case Constants.ICONST_3:
        case Constants.ICONST_4:
        case Constants.ICONST_5:
        case Constants.BIPUSH:
        case Constants.SIPUSH:
        case Constants.FCONST_0:
        case Constants.FCONST_1:
        case Constants.FCONST_2:
        case Constants.LCONST_0:
        case Constants.LCONST_1:
        case Constants.DCONST_0:
        case Constants.DCONST_1:
        case Constants.LDC2_W:
            result = in;
            retval.put(context.callString, result);
            break;
        case Constants.LDC:
        case Constants.LDC_W:
            {
                LDC instr = (LDC) instruction;
                result = new LinkedHashSet<TypeMapping>(in);
                retval.put(context.callString, result);
                Type type = instr.getType(context.constPool());
                if (type.equals(Type.STRING)) {
                    result.add(new TypeMapping(context.stackPtr, type.toString()));
                    String value = type.toString() + ".value";
                    String name = "char[]";
                    name += "@" + context.method() + ":" + stmt.getPosition();
                    result.add(new TypeMapping(value, name));
                }
            }
            break;
        case Constants.DUP:
            {
                for (TypeMapping m : in) {
                    result.add(m);
                    if (m.stackLoc == context.stackPtr - 1) {
                        result.add(new TypeMapping(context.stackPtr, m.type));
                    }
                }
            }
            break;
        case Constants.DUP_X1:
            {
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 2) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 1) {
                        result.add(new TypeMapping(context.stackPtr - 2, m.type));
                        result.add(new TypeMapping(context.stackPtr, m.type));
                    }
                    if (m.stackLoc == context.stackPtr - 2) {
                        result.add(new TypeMapping(context.stackPtr - 1, m.type));
                    }
                }
            }
            break;
        case Constants.DUP_X2:
            {
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 3) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 1) {
                        result.add(new TypeMapping(context.stackPtr - 3, m.type));
                        result.add(new TypeMapping(context.stackPtr, m.type));
                    }
                    if (m.stackLoc == context.stackPtr - 2) {
                        result.add(new TypeMapping(context.stackPtr - 1, m.type));
                    }
                    if (m.stackLoc == context.stackPtr - 3) {
                        result.add(new TypeMapping(context.stackPtr - 2, m.type));
                    }
                }
            }
            break;
        case Constants.DUP2:
            {
                for (TypeMapping m : in) {
                    result.add(m);
                    if (m.stackLoc == context.stackPtr - 2) {
                        result.add(new TypeMapping(context.stackPtr, m.type));
                    }
                    if (m.stackLoc == context.stackPtr - 1) {
                        result.add(new TypeMapping(context.stackPtr + 1, m.type));
                    }
                }
            }
            break;
        case Constants.DUP2_X1:
            {
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 3) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 2) {
                        result.add(new TypeMapping(context.stackPtr - 3, m.type));
                        result.add(new TypeMapping(context.stackPtr, m.type));
                    }
                    if (m.stackLoc == context.stackPtr - 1) {
                        result.add(new TypeMapping(context.stackPtr - 2, m.type));
                        result.add(new TypeMapping(context.stackPtr + 1, m.type));
                    }
                    if (m.stackLoc == context.stackPtr - 3) {
                        result.add(new TypeMapping(context.stackPtr - 1, m.type));
                    }
                }
            }
            break;
        case Constants.DUP2_X2:
            {
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 3) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 2) {
                        result.add(new TypeMapping(context.stackPtr - 4, m.type));
                        result.add(new TypeMapping(context.stackPtr, m.type));
                    }
                    if (m.stackLoc == context.stackPtr - 1) {
                        result.add(new TypeMapping(context.stackPtr - 3, m.type));
                        result.add(new TypeMapping(context.stackPtr + 1, m.type));
                    }
                    if (m.stackLoc == context.stackPtr - 4) {
                        result.add(new TypeMapping(context.stackPtr - 2, m.type));
                    }
                    if (m.stackLoc == context.stackPtr - 3) {
                        result.add(new TypeMapping(context.stackPtr - 1, m.type));
                    }
                }
            }
            break;
        case Constants.SWAP:
            {
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 2) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 2) {
                        result.add(new TypeMapping(context.stackPtr - 1, m.type));
                    }
                    if (m.stackLoc == context.stackPtr - 1) {
                        result.add(new TypeMapping(context.stackPtr - 2, m.type));
                    }
                }
            }
            break;
        case Constants.POP:
            filterSet(in, result, context.stackPtr - 1);
            break;
        case Constants.POP2:
            filterSet(in, result, context.stackPtr - 2);
            break;
        case Constants.GETFIELD:
            {
                GETFIELD instr = (GETFIELD) instruction;
                List<String> receivers = new LinkedList<String>();
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 1) {
                        result.add(m);
                    } else if (m.stackLoc == context.stackPtr - 1) {
                        receivers.add(m.type);
                    }
                }
                //			if (receivers.isEmpty()
                //				&& instr.getFieldType(context.constPool) != Type.INT) {
                //				System.out.println("GETFIELD not found: "+context.method+"@"+stmt+": "+instr.getFieldName(context.constPool));
                ////				System.exit(1);
                //			}
                DFATool p = interpreter.getDFATool();
                String fieldName = instr.getFieldName(context.constPool());
                for (String receiver : receivers) {
                    //String heapLoc = receiver + "." + instr.getFieldName(context.constPool);
                    //String namedLoc = receiver.split("@")[0] + "." + instr.getFieldName(context.constPool);
                    String className = receiver.split("@")[0];
                    ClassInfo classInfo = p.classForField(className, fieldName);
                    if (classInfo != null) {
                        String heapLoc = classInfo.getClassName() + "." + fieldName;
                        recordReceiver(stmt, context, heapLoc);
                        for (TypeMapping m : in) {
                            if (heapLoc.equals(m.heapLoc)) {
                                result.add(new TypeMapping(context.stackPtr - 1, m.type));
                            }
                        }
                    }
                }
            }
            break;
        case Constants.PUTFIELD:
            {
                PUTFIELD instr = (PUTFIELD) instruction;
                List<String> receivers = new LinkedList<String>();
                int fieldSize = instr.getFieldType(context.constPool()).getSize();
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 1 - fieldSize) {
                        result.add(m);
                    } else if (m.stackLoc == context.stackPtr - 1 - fieldSize) {
                        receivers.add(m.type);
                    }
                }
                //			if (receivers.isEmpty()) {
                //				System.out.println("PUTFIELD not found: "+context.method+"@"+stmt+": "+instr.getFieldName(context.constPool));
                ////				System.exit(-1);
                //			}
                DFATool p = interpreter.getDFATool();
                String fieldName = instr.getFieldName(context.constPool());
                for (String receiver : receivers) {
                    //String heapLoc = receiver + "." + instr.getFieldName(context.constPool);
                    //String namedLoc = receiver.split("@")[0] + "." + instr.getFieldName(context.constPool);
                    String className = receiver.split("@")[0];
                    ClassInfo classInfo = p.classForField(className, fieldName);
                    if (classInfo != null) {
                        String heapLoc = classInfo.getClassName() + "." + fieldName;
                        recordReceiver(stmt, context, heapLoc);
                        for (TypeMapping m : in) {
                            if (!heapLoc.equals(m.heapLoc) || context.threaded) {
                                result.add(m);
                            }
                            if (m.stackLoc == context.stackPtr - 1) {
                                result.add(new TypeMapping(heapLoc, m.type));
                            }
                        }
                    }
                }
                if (instr.getFieldType(context.constPool()) instanceof ReferenceType) {
                    doInvokeStatic("com.jopdesign.sys.JVM.f_putfield_ref(III)V", stmt, context, input, interpreter, state, retval);
                }
            }
            break;
        case Constants.GETSTATIC:
            {
                GETSTATIC instr = (GETSTATIC) instruction;
                DFATool p = interpreter.getDFATool();
                FieldRef ref = context.getMethodInfo().getCode().getFieldRef(instr);
                String fieldName = ref.getName();
                String className = ref.getClassName();
                ClassInfo classInfo = p.classForField(className, fieldName);
                if (classInfo != null) {
                    String heapLoc = classInfo.getClassName() + "." + fieldName;
                    recordReceiver(stmt, context, heapLoc);
                    for (TypeMapping m : in) {
                        if (m.stackLoc < context.stackPtr) {
                            result.add(m);
                        }
                        if (heapLoc.equals(m.heapLoc)) {
                            result.add(new TypeMapping(context.stackPtr, m.type));
                        }
                    }
                } else {
                //				System.out.println("GETSTATIC not found: "+heapLoc);
                //				System.exit(1);
                }
            }
            break;
        case Constants.PUTSTATIC:
            {
                PUTSTATIC instr = (PUTSTATIC) instruction;
                DFATool p = interpreter.getDFATool();
                FieldRef ref = context.getMethodInfo().getCode().getFieldRef(instr);
                String fieldName = ref.getName();
                String className = ref.getClassName();
                ClassInfo classInfo = p.classForField(className, fieldName);
                if (classInfo != null) {
                    String heapLoc = classInfo.getClassName() + "." + fieldName;
                    recordReceiver(stmt, context, heapLoc);
                    for (TypeMapping m : in) {
                        if (m.stackLoc >= 0 && m.stackLoc < context.stackPtr - 1) {
                            result.add(m);
                        } else if (m.stackLoc == -1 && (!heapLoc.equals(m.heapLoc) || context.threaded)) {
                            result.add(m);
                        }
                        if (m.stackLoc == context.stackPtr - 1) {
                            result.add(new TypeMapping(heapLoc, m.type));
                        }
                    }
                } else {
                //				System.out.println("PUTSTATIC not found: "+heapLoc);
                //				System.exit(1);
                }
                if (instr.getFieldType(context.constPool()) instanceof ReferenceType) {
                    doInvokeStatic("com.jopdesign.sys.JVM.f_putstatic_ref(II)V", stmt, context, input, interpreter, state, retval);
                }
            }
            break;
        case Constants.ARRAYLENGTH:
            for (TypeMapping m : in) {
                if (m.stackLoc < context.stackPtr - 1) {
                    result.add(m);
                }
                if (m.stackLoc == context.stackPtr - 1) {
                    recordReceiver(stmt, context, m.type);
                }
            }
            break;
        case Constants.IASTORE:
        case Constants.BASTORE:
        case Constants.CASTORE:
        case Constants.SASTORE:
        case Constants.FASTORE:
            {
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 3) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 3) {
                        recordReceiver(stmt, context, m.type);
                    }
                }
            }
            break;
        case Constants.LASTORE:
        case Constants.DASTORE:
            {
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 4) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 4) {
                        recordReceiver(stmt, context, m.type);
                    }
                }
            }
            break;
        case Constants.AASTORE:
            {
                List<String> receivers = new LinkedList<String>();
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 3) {
                        result.add(m);
                    } else if (m.stackLoc == context.stackPtr - 3) {
                        receivers.add(m.type);
                        recordReceiver(stmt, context, m.type);
                    }
                }
                for (String healLoc : receivers) {
                    for (TypeMapping m : in) {
                        if (m.stackLoc == context.stackPtr - 1) {
                            result.add(new TypeMapping(healLoc, m.type));
                        }
                    }
                }
                doInvokeStatic("com.jopdesign.sys.JVM.f_aastore(III)V", stmt, context, input, interpreter, state, retval);
            }
            break;
        case Constants.IALOAD:
        case Constants.BALOAD:
        case Constants.CALOAD:
        case Constants.SALOAD:
        case Constants.FALOAD:
            {
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 2) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 2) {
                        recordReceiver(stmt, context, m.type);
                    }
                }
            }
            break;
        case Constants.LALOAD:
        case Constants.DALOAD:
            {
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 2) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 2) {
                        recordReceiver(stmt, context, m.type);
                    }
                }
            }
            break;
        case Constants.AALOAD:
            {
                List<String> receivers = new LinkedList<String>();
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 2) {
                        result.add(m);
                    } else if (m.stackLoc == context.stackPtr - 2) {
                        receivers.add(m.type);
                        recordReceiver(stmt, context, m.type);
                    }
                }
                for (String heapLoc : receivers) {
                    for (TypeMapping m : in) {
                        if (heapLoc.equals(m.heapLoc)) {
                            result.add(new TypeMapping(context.stackPtr - 2, m.type));
                        }
                    }
                }
            }
            break;
        case Constants.NEW:
            {
                NEW instr = (NEW) instruction;
                filterSet(in, result, context.stackPtr);
                String name = instr.getType(context.constPool()).toString();
                name += "@" + context.method() + ":" + stmt.getPosition();
                result.add(new TypeMapping(context.stackPtr, name));
                doInvokeStatic("com.jopdesign.sys.JVM.f_" + stmt.getInstruction().getName() + "(I)I", stmt, context, input, interpreter, state, retval);
            }
            break;
        case Constants.ANEWARRAY:
            {
                ANEWARRAY instr = (ANEWARRAY) instruction;
                filterSet(in, result, context.stackPtr - 1);
                String name = instr.getType(context.constPool()).toString() + "[]";
                name += "@" + context.method() + ":" + stmt.getPosition();
                result.add(new TypeMapping(context.stackPtr - 1, name));
                doInvokeStatic("com.jopdesign.sys.JVM.f_" + stmt.getInstruction().getName() + "(II)I", stmt, context, input, interpreter, state, retval);
            }
            break;
        case Constants.NEWARRAY:
            {
                NEWARRAY instr = (NEWARRAY) instruction;
                filterSet(in, result, context.stackPtr - 1);
                String name = instr.getType().toString();
                name += "@" + context.method() + ":" + stmt.getPosition();
                result.add(new TypeMapping(context.stackPtr - 1, name));
                doInvokeStatic("com.jopdesign.sys.JVM.f_" + stmt.getInstruction().getName() + "(II)I", stmt, context, input, interpreter, state, retval);
            }
            break;
        case Constants.MULTIANEWARRAY:
            {
                MULTIANEWARRAY instr = (MULTIANEWARRAY) instruction;
                int dim = instr.getDimensions();
                filterSet(in, result, context.stackPtr - dim);
                String type = instr.getType(context.constPool()).toString();
                type = type.substring(0, type.indexOf("["));
                for (int i = 1; i <= dim; i++) {
                    String type1 = type;
                    String type2 = type;
                    for (int k = 0; k < i; k++) {
                        type1 += "[]";
                    }
                    for (int k = 0; k < i - 1; k++) {
                        type2 += "[]";
                    }
                    type1 += "@" + context.method() + ":" + stmt.getPosition();
                    type2 += "@" + context.method() + ":" + stmt.getPosition();
                    result.add(new TypeMapping(type1, type2));
                }
                String name = instr.getType(context.constPool()).toString();
                name += "@" + context.method() + ":" + stmt.getPosition();
                result.add(new TypeMapping(context.stackPtr - dim, name));
                doInvokeStatic("com.jopdesign.sys.JVM.f_" + stmt.getInstruction().getName() + "()I", stmt, context, input, interpreter, state, retval);
            }
            break;
        case Constants.ILOAD_0:
        case Constants.ILOAD_1:
        case Constants.ILOAD_2:
        case Constants.ILOAD_3:
        case Constants.ILOAD:
        case Constants.FLOAD_0:
        case Constants.FLOAD_1:
        case Constants.FLOAD_2:
        case Constants.FLOAD_3:
        case Constants.FLOAD:
        case Constants.LLOAD_0:
        case Constants.LLOAD_1:
        case Constants.LLOAD_2:
        case Constants.LLOAD_3:
        case Constants.LLOAD:
        case Constants.DLOAD_0:
        case Constants.DLOAD_1:
        case Constants.DLOAD_2:
        case Constants.DLOAD_3:
        case Constants.DLOAD:
            result = in;
            retval.put(context.callString, result);
            break;
        case Constants.ALOAD_0:
        case Constants.ALOAD_1:
        case Constants.ALOAD_2:
        case Constants.ALOAD_3:
        case Constants.ALOAD:
            {
                LoadInstruction instr = (LoadInstruction) instruction;
                int index = instr.getIndex();
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr) {
                        result.add(m);
                    }
                    if (m.stackLoc == index) {
                        result.add(new TypeMapping(context.stackPtr, m.type));
                    }
                }
            }
            break;
        case Constants.ISTORE_0:
        case Constants.ISTORE_1:
        case Constants.ISTORE_2:
        case Constants.ISTORE_3:
        case Constants.ISTORE:
        case Constants.FSTORE_0:
        case Constants.FSTORE_1:
        case Constants.FSTORE_2:
        case Constants.FSTORE_3:
        case Constants.FSTORE:
        case Constants.LSTORE_0:
        case Constants.LSTORE_1:
        case Constants.LSTORE_2:
        case Constants.LSTORE_3:
        case Constants.LSTORE:
        case Constants.DSTORE_0:
        case Constants.DSTORE_1:
        case Constants.DSTORE_2:
        case Constants.DSTORE_3:
        case Constants.DSTORE:
            result = in;
            retval.put(context.callString, result);
            break;
        case Constants.ASTORE_0:
        case Constants.ASTORE_1:
        case Constants.ASTORE_2:
        case Constants.ASTORE_3:
        case Constants.ASTORE:
            {
                StoreInstruction instr = (StoreInstruction) instruction;
                int index = instr.getIndex();
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 1 && m.stackLoc != index) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 1) {
                        result.add(new TypeMapping(index, m.type));
                    }
                }
            }
            break;
        case Constants.FCMPL:
        case Constants.FCMPG:
        case Constants.LCMP:
        case Constants.DCMPL:
        case Constants.DCMPG:
            result = in;
            retval.put(context.callString, result);
            break;
        case Constants.IFEQ:
        case Constants.IFNE:
        case Constants.IFLT:
        case Constants.IFGE:
        case Constants.IFGT:
        case Constants.IFLE:
        case Constants.IFNULL:
        case Constants.IFNONNULL:
            filterSet(in, result, context.stackPtr - 1);
            break;
        case Constants.IF_ICMPEQ:
        case Constants.IF_ICMPNE:
        case Constants.IF_ICMPLT:
        case Constants.IF_ICMPGE:
        case Constants.IF_ICMPGT:
        case Constants.IF_ICMPLE:
        case Constants.IF_ACMPEQ:
        case Constants.IF_ACMPNE:
            filterSet(in, result, context.stackPtr - 2);
            break;
        case Constants.TABLESWITCH:
        case Constants.LOOKUPSWITCH:
            filterSet(in, result, context.stackPtr - 1);
            break;
        case Constants.GOTO:
            result = in;
            retval.put(context.callString, result);
            break;
        case Constants.IADD:
        case Constants.ISUB:
        case Constants.IMUL:
        case Constants.IDIV:
        case Constants.IREM:
        case Constants.ISHL:
        case Constants.ISHR:
        case Constants.IUSHR:
        case Constants.IAND:
        case Constants.IOR:
        case Constants.IXOR:
        case Constants.FADD:
        case Constants.FSUB:
        case Constants.FMUL:
        case Constants.FDIV:
        case Constants.FREM:
        case Constants.DADD:
        case Constants.DSUB:
        case Constants.DMUL:
        case Constants.DDIV:
        case Constants.DREM:
        case Constants.IINC:
        case Constants.INEG:
        case Constants.FNEG:
        case Constants.LNEG:
        case Constants.DNEG:
        case Constants.LADD:
        case Constants.LAND:
        case Constants.LOR:
        case Constants.LXOR:
        case Constants.LSUB:
        case Constants.LSHL:
        case Constants.LSHR:
        case Constants.LUSHR:
            result = in;
            retval.put(context.callString, result);
            break;
        case Constants.LMUL:
        case Constants.LDIV:
        case Constants.LREM:
            result = new LinkedHashSet<TypeMapping>(in);
            retval.put(context.callString, result);
            doInvokeStatic("com.jopdesign.sys.JVM.f_" + stmt.getInstruction().getName() + "(JJ)J", stmt, context, input, interpreter, state, retval);
            break;
        case Constants.I2B:
        case Constants.I2C:
        case Constants.I2S:
        case Constants.I2F:
        case Constants.F2I:
        case Constants.I2L:
        case Constants.I2D:
        case Constants.F2L:
        case Constants.F2D:
        case Constants.L2I:
        case Constants.D2I:
        case Constants.L2F:
        case Constants.D2F:
        case Constants.L2D:
        case Constants.D2L:
            result = in;
            retval.put(context.callString, result);
            break;
        case Constants.INSTANCEOF:
            filterSet(in, result, context.stackPtr - 1);
            break;
        case Constants.CHECKCAST:
            {
                DFATool p = interpreter.getDFATool();
                CHECKCAST instr = (CHECKCAST) instruction;
                for (TypeMapping m : in) {
                    if (m.stackLoc < context.stackPtr - 1) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 1) {
                        // check whether this class can possibly be cast
                        String constClassName = instr.getType(context.constPool()).toString();
                        ClassInfo staticClass = p.getAppInfo().getClassInfo(constClassName);
                        ClassInfo dynamicClass = p.getAppInfo().getClassInfo(m.type.split("@")[0]);
                        //					System.out.println("CHECKCAST: "+context.callString.asList()+"/"+context.method+": "+stmt+": "+constClassName+" vs "+m.type);
                        if (dynamicClass.isSubclassOf(staticClass)) {
                            result.add(m);
                        //							System.out.println("yay!");
                        }
                    }
                }
            }
            break;
        case Constants.MONITORENTER:
            filterSet(in, result, context.stackPtr - 1);
            context.syncLevel++;
            break;
        case Constants.MONITOREXIT:
            filterSet(in, result, context.stackPtr - 1);
            context.syncLevel--;
            if (context.syncLevel < 0) {
                System.err.println("Synchronization level mismatch.");
                System.exit(-1);
            }
            break;
        case Constants.INVOKEVIRTUAL:
        case Constants.INVOKEINTERFACE:
            {
                InvokeInstruction instr = (InvokeInstruction) instruction;
                int argSize = MethodHelper.getArgSize(instr, context.constPool());
                DFATool p = interpreter.getDFATool();
                MethodRef ref = context.getMethodInfo().getCode().getInvokeSite(stmt).getInvokeeRef();
                ClassInfo constClass = ref.getClassInfo();
                // find possible receiver types
                List<String> receivers = new LinkedList<String>();
                for (TypeMapping m : in) {
                    if (m.stackLoc == context.stackPtr - argSize) {
                        String clName = m.type.split("@")[0];
                        ClassInfo dynamicClass;
                        // check whether this class can possibly be a receiver
                        try {
                            dynamicClass = p.getAppInfo().getClassInfo(clName);
                        } catch (MissingClassError ex) {
                            logger.error("TRANSFER/" + instr + ": " + ex);
                            continue;
                        }
                        if ((instr instanceof INVOKEVIRTUAL && dynamicClass.isSubclassOf(constClass)) || (instr instanceof INVOKEINTERFACE && dynamicClass.isImplementationOf(constClass))) {
                            receivers.add(clName);
                        } else {
                            logger.debug(context.method() + ": class " + constClass + " is not a superclass of " + clName);
                        }
                    }
                }
                /* Get the actual set of invoked methods */
                //ArrayList<MethodInfo> invokeCandidates = new ArrayList<MethodInfo>();
                String signature = ref.getMethodSignature();
                for (String receiver : receivers) {
                    // find receiving method
                    MethodInfo impl = p.getAppInfo().getMethodInfoInherited(receiver, signature);
                    if (impl == null) {
                        throw new AppInfoError("Could not find implementation for: " + receiver + "#" + signature);
                    }
                    doInvokeVirtual(receiver, impl, stmt, context, input, interpreter, state, retval);
                }
                // add relevant information to result
                filterSet(in, result, context.stackPtr - argSize);
            }
            break;
        case Constants.INVOKESTATIC:
        case Constants.INVOKESPECIAL:
            {
                InvokeInstruction instr = (InvokeInstruction) instruction;
                int argSize = MethodHelper.getArgSize(instr, context.constPool());
                MethodRef ref = context.getMethodInfo().getCode().getInvokeSite(stmt).getInvokeeRef();
                MethodInfo impl = ref.getMethodInfo();
                if (impl == null) {
                    throw new AppInfoError("Cannot find implementation of " + ref);
                } else if (impl.isPrivate() && !impl.isStatic()) {
                    doInvokeVirtual(ref.getClassName(), impl, stmt, context, input, interpreter, state, retval);
                } else {
                    doInvokeStatic(impl.getMemberID().toString(), stmt, context, input, interpreter, state, retval);
                }
                // add relevant information to result
                filterSet(in, result, context.stackPtr - argSize);
            }
            break;
        case Constants.RETURN:
        case Constants.IRETURN:
        case Constants.FRETURN:
        case Constants.LRETURN:
        case Constants.DRETURN:
            filterSet(in, result, 0);
            break;
        case Constants.ARETURN:
            {
                for (TypeMapping m : in) {
                    if (m.stackLoc < 0) {
                        result.add(m);
                    }
                    if (m.stackLoc == context.stackPtr - 1) {
                        result.add(new TypeMapping(0, m.type));
                    }
                }
            }
            break;
        default:
            System.out.println("Unknown opcode: " + instruction.toString(context.constPool().getConstantPool()));
            System.exit(-1);
    }
    //		System.out.print(instruction+":\t{ ");
    //		for (Iterator k = result.iterator(); k.hasNext(); ) {
    //			ReceiverTypes.TypeMapping m = (ReceiverTypes.TypeMapping) k.next();
    //			if (m.stackLoc >= 0) {
    //				System.out.print("<stack[" + m.stackLoc + "], " + m.type +">, ");
    //			} else {
    //				System.out.print("<" + m.heapLoc + ", " + m.type +">, ");						
    //			}
    //		}
    //		System.out.println("}");				
    //		System.out.println("AFTER "+context.method+": "+stmt+" / "+context.callString.asList());
    //		System.out.print(stmt.getInstruction()+":\t{ ");
    //		System.out.print(context.callString.asList()+": "+retval.get(context.callString));
    //		System.out.println(" }");
    context.stackPtr += instruction.produceStack(context.constPool()) - instruction.consumeStack(context.constPool());
    return retval;
}
Also used : LinkedHashSet(java.util.LinkedHashSet) NEW(org.apache.bcel.generic.NEW) LinkedHashSet(java.util.LinkedHashSet) Set(java.util.Set) MULTIANEWARRAY(org.apache.bcel.generic.MULTIANEWARRAY) ANEWARRAY(org.apache.bcel.generic.ANEWARRAY) CHECKCAST(org.apache.bcel.generic.CHECKCAST) LDC(org.apache.bcel.generic.LDC) CallString(com.jopdesign.common.code.CallString) InvokeInstruction(org.apache.bcel.generic.InvokeInstruction) LoadInstruction(org.apache.bcel.generic.LoadInstruction) StoreInstruction(org.apache.bcel.generic.StoreInstruction) Instruction(org.apache.bcel.generic.Instruction) ReferenceType(org.apache.bcel.generic.ReferenceType) AppInfoError(com.jopdesign.common.misc.AppInfoError) PUTSTATIC(org.apache.bcel.generic.PUTSTATIC) LoadInstruction(org.apache.bcel.generic.LoadInstruction) MethodRef(com.jopdesign.common.type.MethodRef) LinkedList(java.util.LinkedList) List(java.util.List) MissingClassError(com.jopdesign.common.misc.MissingClassError) Context(com.jopdesign.dfa.framework.Context) MULTIANEWARRAY(org.apache.bcel.generic.MULTIANEWARRAY) ANEWARRAY(org.apache.bcel.generic.ANEWARRAY) NEWARRAY(org.apache.bcel.generic.NEWARRAY) DFATool(com.jopdesign.dfa.DFATool) FieldRef(com.jopdesign.common.type.FieldRef) PUTFIELD(org.apache.bcel.generic.PUTFIELD) MULTIANEWARRAY(org.apache.bcel.generic.MULTIANEWARRAY) ContextMap(com.jopdesign.dfa.framework.ContextMap) CallString(com.jopdesign.common.code.CallString) GETFIELD(org.apache.bcel.generic.GETFIELD) InvokeInstruction(org.apache.bcel.generic.InvokeInstruction) ReferenceType(org.apache.bcel.generic.ReferenceType) Type(org.apache.bcel.generic.Type) INVOKEINTERFACE(org.apache.bcel.generic.INVOKEINTERFACE) MethodInfo(com.jopdesign.common.MethodInfo) GETSTATIC(org.apache.bcel.generic.GETSTATIC) StoreInstruction(org.apache.bcel.generic.StoreInstruction) INVOKEVIRTUAL(org.apache.bcel.generic.INVOKEVIRTUAL) ClassInfo(com.jopdesign.common.ClassInfo)

Example 9 with CallString

use of com.jopdesign.common.code.CallString in project jop by jop-devel.

the class CallStringReceiverTypes method copyResults.

@Override
public void copyResults(MethodInfo newContainer, Map<InstructionHandle, InstructionHandle> newHandles) {
    for (Map.Entry<InstructionHandle, InstructionHandle> entry : newHandles.entrySet()) {
        InstructionHandle oldHandle = entry.getKey();
        InstructionHandle newHandle = entry.getValue();
        if (newHandle == null)
            continue;
        ContextMap<CallString, Set<String>> value = targets.get(oldHandle);
        // TODO this does NOT update stackPtr,.. in the new context!
        if (value != null)
            targets.put(newHandle, value.copy(newContainer));
    }
}
Also used : LinkedHashSet(java.util.LinkedHashSet) Set(java.util.Set) LinkedHashMap(java.util.LinkedHashMap) Map(java.util.Map) ContextMap(com.jopdesign.dfa.framework.ContextMap) InstructionHandle(org.apache.bcel.generic.InstructionHandle) CallString(com.jopdesign.common.code.CallString)

Example 10 with CallString

use of com.jopdesign.common.code.CallString in project jop by jop-devel.

the class CallStringReceiverTypes method handleNative.

@SuppressWarnings({ "LiteralAsArgToStringEquals" })
private Map<CallString, Set<TypeMapping>> handleNative(MethodInfo method, Context context, Map<CallString, Set<TypeMapping>> input, Map<CallString, Set<TypeMapping>> result) {
    String methodId = method.getMemberID().toString();
    Set<TypeMapping> in = input.get(context.callString);
    Set<TypeMapping> out = new LinkedHashSet<TypeMapping>();
    if (methodId.equals("com.jopdesign.sys.Native#rd(I)I") || methodId.equals("com.jopdesign.sys.Native#rdMem(I)I") || methodId.equals("com.jopdesign.sys.Native#rdIntMem(I)I") || methodId.equals("com.jopdesign.sys.Native#getStatic(I)I") || methodId.equals("com.jopdesign.sys.Native#toInt(F)I")) {
        filterSet(in, out, context.stackPtr - 1);
    } else if (methodId.equals("com.jopdesign.sys.Native#wr(II)V") || methodId.equals("com.jopdesign.sys.Native#wrMem(II)V") || methodId.equals("com.jopdesign.sys.Native#wrIntMem(II)V") || methodId.equals("com.jopdesign.sys.Native#putStatic(II)V")) {
        filterSet(in, out, context.stackPtr - 2);
    } else if (methodId.equals("com.jopdesign.sys.Native#getSP()I")) {
        filterSet(in, out, context.stackPtr);
    } else if (methodId.equals("com.jopdesign.sys.Native#toInt(Ljava/lang/Object;)I") || methodId.equals("com.jopdesign.sys.Native#toObject(I)Ljava/lang/Object;")) {
        filterSet(in, out, context.stackPtr - 1);
    } else if (methodId.equals("com.jopdesign.sys.Native#toIntArray(I)[I")) {
        filterSet(in, out, context.stackPtr - 1);
        String name = "int[]@" + context.method() + ":0";
        TypeMapping map = new TypeMapping(context.stackPtr - 1, name);
        out.add(map);
    } else if (methodId.equals("com.jopdesign.sys.Native#makeLong(II)J")) {
        filterSet(in, out, context.stackPtr - 2);
    } else if (methodId.equals("com.jopdesign.sys.Native#memCopy(III)V")) {
        filterSet(in, out, context.stackPtr - 3);
    } else if (methodId.equals("com.jopdesign.sys.Native#getField(II)I") || methodId.equals("com.jopdesign.sys.Native#arrayLoad(II)I") || methodId.equals("com.jopdesign.sys.Native#toLong(D)J") || methodId.equals("com.jopdesign.sys.Native#toDouble(J)D")) {
        filterSet(in, out, context.stackPtr - 2);
    } else if (methodId.equals("com.jopdesign.sys.Native#putField(III)V") || methodId.equals("com.jopdesign.sys.Native#arrayStore(III)V")) {
        filterSet(in, out, context.stackPtr - 3);
    } else if (methodId.equals("com.jopdesign.sys.Native#condMove(IIZ)I") || methodId.equals("com.jopdesign.sys.Native#condMoveRef(Ljava/lang/Object;Ljava/lang/Object;Z)Ljava/lang/Object;")) {
        filterSet(in, out, context.stackPtr - 3);
    } else if (methodId.equals("com.jopdesign.sys.Native#invalidate()V")) {
        filterSet(in, out, context.stackPtr);
    } else if (methodId.equals("com.jopdesign.sys.Native#arrayLength(I)I") || methodId.equals("com.jopdesign.sys.Native#invoke(I)V")) {
        filterSet(in, out, context.stackPtr - 1);
    } else if (methodId.equals("com.jopdesign.sys.Native#invoke(II)V")) {
        filterSet(in, out, context.stackPtr - 2);
    } else {
        AppInfoError ex = new AppInfoError("Unknown native method: " + methodId);
        logger.error(ex);
        throw ex;
    }
    result.put(context.callString, out);
    return result;
}
Also used : LinkedHashSet(java.util.LinkedHashSet) CallString(com.jopdesign.common.code.CallString) AppInfoError(com.jopdesign.common.misc.AppInfoError)

Aggregations

CallString (com.jopdesign.common.code.CallString)39 ContextMap (com.jopdesign.dfa.framework.ContextMap)18 Context (com.jopdesign.dfa.framework.Context)17 InstructionHandle (org.apache.bcel.generic.InstructionHandle)17 LinkedHashSet (java.util.LinkedHashSet)15 Set (java.util.Set)13 MethodInfo (com.jopdesign.common.MethodInfo)12 LinkedHashMap (java.util.LinkedHashMap)10 DFATool (com.jopdesign.dfa.DFATool)8 Map (java.util.Map)7 AppInfoError (com.jopdesign.common.misc.AppInfoError)5 GETFIELD (org.apache.bcel.generic.GETFIELD)4 ReferenceType (org.apache.bcel.generic.ReferenceType)4 Type (org.apache.bcel.generic.Type)4 InvokeSite (com.jopdesign.common.code.InvokeSite)3 Pair (com.jopdesign.common.graphutils.Pair)3 BoundedSet (com.jopdesign.dfa.framework.BoundedSetFactory.BoundedSet)3 GETSTATIC (org.apache.bcel.generic.GETSTATIC)3 Instruction (org.apache.bcel.generic.Instruction)3 LDC (org.apache.bcel.generic.LDC)3