/* * Copyright (c) 2016 - present Facebook, Inc. * All rights reserved. * * This source code is licensed under the BSD style license found in the * LICENSE file in the root directory of this source tree. An additional grant * of patent rights can be found in the PATENTS file in the same directory. */ package codetoanalyze.java.quandary; import com.facebook.infer.models.InferTaint; /** testing basic intraprocedural functionality: assignment, ifs, loops, casts */ public class Basics { native Object notASource(); native void notASink(Object o); /** should report on these tests */ void directBad() { InferTaint.inferSensitiveSink(InferTaint.inferSecretSource()); } void viaVarBad1() { Object src = InferTaint.inferSecretSource(); InferTaint.inferSensitiveSink(src); } void viaVarBad2() { Object src = InferTaint.inferSecretSource(); Object alias = src; InferTaint.inferSensitiveSink(alias); } void viaVarBad3() { Object src = InferTaint.inferSecretSource(); Object alias = src; src = null; InferTaint.inferSensitiveSink(alias); } void viaCastBad1() { InferTaint.inferSensitiveSink((String) InferTaint.inferSecretSource()); } void viaCastBad2() { Object src = InferTaint.inferSecretSource(); InferTaint.inferSensitiveSink((String) src); } void ifBad1(boolean b) { Object src = null; if (b) { src = InferTaint.inferSecretSource(); } InferTaint.inferSensitiveSink(src); } void ifBad2(boolean b) { Object src = InferTaint.inferSecretSource(); if (b) { src = null; } InferTaint.inferSensitiveSink(src); } void ifBad3(boolean b) { Object src; if (b) { src = new Object(); } else { src = InferTaint.inferSecretSource(); } InferTaint.inferSensitiveSink(src); } void ifBad4(boolean b1, boolean b2) { Object src; if (b1) { src = new Object(); } else if (b2) { src = InferTaint.inferSecretSource(); } else { src = null; } InferTaint.inferSensitiveSink(src); } void ifBad5(boolean b) { Object src = InferTaint.inferSecretSource(); if (b) { InferTaint.inferSensitiveSink(src); } } void switchBad1(int i) { Object src = InferTaint.inferSecretSource(); switch (i) { case 1: InferTaint.inferSensitiveSink(src); break; case 2: break; default: break; } } void switchBad2(int i) { Object src = InferTaint.inferSecretSource(); switch (i) { case 1: break; case 2: InferTaint.inferSensitiveSink(src); break; default: break; } } void switchBad3(int i) { Object src = null; switch (i) { case 1: src = InferTaint.inferSecretSource(); // fallthrough case 2: InferTaint.inferSensitiveSink(src); break; default: break; } } void whileBad1(int i) { Object src = InferTaint.inferSecretSource(); while (i < 10) { InferTaint.inferSensitiveSink(src); i++; } } void whileBad2(int i) { Object src = null; while (i < 10) { src = InferTaint.inferSecretSource(); i++; } InferTaint.inferSensitiveSink(src); } /** should not report on these tests */ void directOk1() { notASink(notASource()); } void directOk2() { notASink(InferTaint.inferSecretSource()); } void directOk3() { InferTaint.inferSensitiveSink(notASource()); } void viaVarOk() { Object src = new Object(); InferTaint.inferSensitiveSink(src); } void viaVarStrongUpdateOk() { Object src = InferTaint.inferSecretSource(); src = null; InferTaint.inferSensitiveSink(src); } /** "known false positive" tests demonstrating limitations. an ideal analysis would not report on these tests, but we do. */ void FP_deadCodeOk() { Object src = InferTaint.inferSecretSource(); boolean b = false; if (b) { InferTaint.inferSensitiveSink(src); } } void FP_loopInvariantOk() { Object src = InferTaint.inferSecretSource(); for (int i = 0; i < 10; i++) { src = null; } InferTaint.inferSensitiveSink(src); } }