Stoat Prototype
Stoat (STochastic model App Tester) is a guided approach to perform stochastic model-based testing on Android Apps. The idea is to thoroughly test the functionalities of an app from its GUI model, and validate the app’s behavior by enforcing various user/system interactions.
You can find more about our work on testing/analyzing Android apps at this website.
Update
We have made all the Stoat's source code publicly available. We hope this project can benefit other researchers or practiontiners in the field of automated GUI testing of Android apps. Feel free to contact us if you have any questions and issues. We will continue to maintain this project. Thanks for your feedback.
Next step: We will integrate Jacoco with Stoat to handle gradle-based Android projects.
Publication
[1] Guided, Stochastic Model-based GUI Testing of Android Apps (FSE'2017)
@inproceedings{DBLP:conf/sigsoft/SuMCWYYPLS17,
author = {Ting Su and
Guozhu Meng and
Yuting Chen and
Ke Wu and
Weiming Yang and
Yao Yao and
Geguang Pu and
Yang Liu and
Zhendong Su},
title = {Guided, stochastic model-based {GUI} testing of Android apps},
booktitle = {Proceedings of the 2017 11th Joint Meeting on Foundations of Software
Engineering, {ESEC/FSE} 2017, Paderborn, Germany, September 4-8, 2017},
pages = {245--256}
}
[2] FSMdroid: Guided GUI Testing of Android Apps (ICSE'16, ACM SRC)
@inproceedings{FSMdroid16,
author = {Ting Su},
title = {FSMdroid: guided {GUI} testing of android apps},
booktitle = {Proceedings of the 38th International Conference on Software Engineering,
{ICSE} 2016, Austin, TX, USA, May 14-22, 2016 - Companion Volume},
pages = {689--691},
year = {2016}
}
[3] Large-Scale Analysis of Framework-Specific Exceptions in Android Apps (ICSE'18)
@inproceedings{FanSCMLXPS18,
author = {Lingling Fan and
Ting Su and
Sen Chen and
Guozhu Meng and
Yang Liu and
Lihua Xu and
Geguang Pu and
Zhendong Su},
title = {Large-scale analysis of framework-specific exceptions in Android apps},
booktitle = {Proceedings of the 40th International Conference on Software Engineering,
{ICSE} 2018, Gothenburg, Sweden, May 27 - June 03, 2018},
pages = {408--419},
year = {2018}
}
Quick Review
Click this link for quick review on the approach workflow, evaluation results, demo and etc.
Setup
You can checkout Stoat from this repo.
Environment Configration
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Ruby: 2.1
If your default ruby version is lower than 2.1, the installation of Nokogiri will fail. In this case, please upgrade ruby to 2.1 or higher. If the installation still fails due to this issue, you need to execute "sudo apt-get install ruby2.1-dev".
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Python: 2.7
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Android SDK: API 18+
Android SDK recently makes an update about emulators. If you cannot start the emulator (like "Cannot launch AVD in emulator:QT library not found"), please check this post for solution. You can create an emulator before running Stoat. See this link for how to create avd using avdmanager.
E.g.
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sdkmanager "system-images;android-18;google_apis;x86"
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avdmanager create avd --force --name testAVD_1 --package 'system-images;android-18;google_apis;x86' --abi google_apis/x86 --sdcard 512M --device 'Nexus 7'
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Ubuntu 14.04/Linux
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uiautomator (A python wrapper of UIAutomator)
We strongly recommend to run Stoat on a physical machine to ensure the performance instead of ruuning on virtual machines (e.g., VirtualBox or Docker). In addition, please choose x86 image if you use Android emulators, and setup hardware acceleration for Ubuntu.
Please export ANDROID_HOME (for android sdk), PYTHON_PATH (for uiautomator), CLASSPATH (for soot)
Example:
export ANDROID_HOME="/home/XX/Android/Sdk"
export PYTHONPATH="/home/XX/uiautomator"
export CLASSPATH="/home/XX/fsmdroid/soot-github/lib/soot-develop.jar
export PATH=$PATH:${ANDROID_HOME}/build-tools/25.0.0:${ANDROID_HOME}/emulator:${ANDROID_HOME}/tools:${ANDROID_HOME}/tools/bin:${ANDROID_HOME}/platform-tools:
You may also need to modify "Stoat/CONF.txt" to set the tool path.
Usage
Stoat provides several ways to test android apps by command lines. Note before running Stoat, please disable keyboard (for emulator, add "hw.keyboard=yes" in its config.ini; for real device, please install the "com.wparam.nullkeyboard_1.apk" at "Stoat/bin/sdcard", and configure it to be the default input method) Please also add "hw.mainKeys=yes" in the config.ini to disable the soft "main" keys if you use emulators, which may affect Stoat's exploration.
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Ant opens-soruce projects
ruby run_stoat_testing.rb --app_dir /home/XX/caldwell.ben.bites_4_src --avd_name testAVD_1 --avd_port 5554 --stoat_port 2000 --project_type ant
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apk without instrumentation
Note this may mitigate Stoat's power due to lack of coverage info for test optimization. Otherwise, you need to instrument apk with Ella
ruby run_stoat_testing.rb --app_dir /home/XX/Bites.apk --avd_name testAVD_1 --avd_port 5554 --stoat_port 2000 (the output will be under "/home/XX/Bites-output")
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Use real device, ant projects
Please open wifi, and disable keyboard before do testing on real device.
ruby run_stoat_testing.rb --app_dir /home/XX/caldwell.ben.bites_4_src/ --real_device_serial cf00b9e6 --stoat_port 2000 --project_type ant
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A list of apps (If they are apks, append the option "--project_type apk")
ruby run_stoat_testing.rb --apps_dir /home/XX/test_apps/ --apps_list /home/XX/test_apps/apps_list.txt --avd_name testAVD_1 --avd_port 5554 --stoat_port 2000 --force_restart
Subject Requirement:
- instrumented apps (use Emma for open-source apps and Ella for closed-source apps) should end with "-debug.apk"
- closed-source/non-instrumented apk can also be tested, and its name should end with ".apk"
Output
stoat_fsm_building_output: the outputs of model construction.
crashes/ -- crash report (include crash stack, event trace, screen shots);
ui/ -- ui xml files;
coverage/ -- coverage files during model construction;
FSM.txt/app.gv -- xdot model graph;
fsm_building_process.txt/fsm_states_edges.txt -- the model building process, mainly the increasing coverage/#states/#edges
CONF.txt -- configuration file
stoat_mcmc_sampling_output: the outputs of mcmc sampling.
crashes/ -- crash report (include crash stack, event trace, screen shots);
MCMC_coverage/ -- the coverage data during mcmc sampling;
mcmc_sampling_progress.txt/mcmc_data.txt -- mcmc sampling progress data;
initial_markov_model.txt/optimal_markov_model.txt/mcmc_models.txt -- the initial/optimal/all mcmc sampling models;
mcmc_all_history_testsuites.txt -- all executed test suites for mcmc sampling;
test_suite_to_execute.txt -- the current test suite under execution;
CONF.txt -- configuration file.
coverage: the all coverage data during two phases
Benchmark
Some benchmark apps used in our paper.
Notes
- This implementation has been tested with Android 4.4, running on Ubuntu 14.04.
- If measure statement coverage for open-sourced apps, the subjects need to be processed to support EMMA instrumentation: (Please refer to Dynodroid for details.) You can also refer to the apps in the benchmark.
- This version only supports testing ant projects.
Contact
Ting Su All Copyright Reserved.
TODO
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use monkey to bypass welcome page in google play apps
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directly use monkey to start the app instead of using "am", the monkey way is more robust.
Papers that uses, extends or compares with Stoat
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Zhe Liu, Chunyang Chen, Junjie Wang, Xing Che, Yuekai Huang, Jun Hu, Qing Wang. Efficiency Matters: Speeding Up Automated Testing with GUI Rendering Inference. ICSE 2023
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Zhengwei Lv, Chao Peng, Zhao Zhang, Ting Su, Kai Liu, Ping Yang. Fastbot2: Reusable Automated Model-based GUI Testing for Android Enhanced by Reinforcement Learning. ASE 2022.
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Wenyu Wang, Wing Lam, and Tao Xie. An infrastructure approach to improving effectiveness of Android UI testing tools." Proceedings of the 30th ACM SIGSOFT International Symposium on Software Testing and Analysis. ISSTA 2021.
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Ting Su, Jue Wang, Zhendong Su. Benchmarking Automated GUI Testing for Android against Real-World Bugs. ESEC/FSE 2021.
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Hao Zhou, Ting Chen, Haoyu Wang, Le Yu, Xiapu Luo, Ting Wang, Wei Zhang. UI Obfuscation and Its Effects on Automated UI Analysis for Android Apps. ASE 2020.
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Minxue Pan, An Huang, Guoxin Wang, Tian Zhang, and Xuandong Li. Reinforcement Learning Based Curiosity-driven Testing of Android Applications. ISSTA 2020.
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Yuyu He, Lei Zhang, Zhemin Yang, Yinzhi Cao, Keke Lian, Shuai Li, Wei Yang, Zhibo Zhang, Min Yang, Yuan Zhang, Haixin Duan. TextExerciser: Feedback-driven Text Input Exercising for Android Applications. IEEE S&P 2020
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Zhen Dong, Marcel Böhme, Lucia Cojocaru, Abhik Roychoudhury; Time-travel Testing of Android Apps. ICSE 2020.
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Wunan Guo, Liwei Shen, Ting Su, Xin Peng and Weiyang Xie. Improving Automated GUI Exploration of Android Apps via Static Dependency Analysis. ICSME 2020.
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Ting Su, Lingling Fan, Sen Chen, Yang Liu, Lihua Xu, Geguang Pu, and Zhendong Su. Why My App Crashes? Understanding and Benchmarking Framework-specific Exceptions of Android apps. TSE 2020.
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Husam N. Yasin et. al. An Empirical Analysis of Test Input Generation Tools for Android Apps through a Sequence of Events. Symmetry 2020.
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Duling Lai, Julia Rubin. Goal-Driven Exploration for Android Applications. ASE 2019.
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Yun Ma, Yangyang Huang, Ziniu Hu, Xusheng Xiao, Xuanzhe Liu. Paladin: Automated Generation of Reproducible Test Cases for Android Apps. HotMobile 2019.
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Henrique Neves da Silva, Paulo Roberto Farah, Willian Douglas Ferrari Mendonça, Silvia Regina Vergilio. Assessing Android Test Data Generation Tools via Mutation Testing. SAST 2019.
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Leon Sell, Michael Auer, Christoph Frädrich, Michael Gruber, Philemon Werli, Gordon Fraser; An Empirical Evaluation of Search Algorithms for App Testing. ICTSS 2019. 123-139
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Yifei Lu, Minxue Pan, Juan Zhai, Tian Zhang, Xuandong Li; Preference-wise testing for Android applications. ESEC/SIGSOFT FSE 2019: 268-278
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Reyhaneh Jabbarvand, Jun-Wei Lin, and Sam Malek; Search-Based Energy Testing of Android. ICSE 2019. 1119-1130
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Tianxiao Gu, Chengnian Sun, Xiaoxing Ma, Chun Cao, Chang Xu, Yuan Yao, Qirun Zhang, Jian Lu, Zhendong Su; Practical GUI testing of Android applications via model abstraction and refinement. ICSE 2019: 269-280
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Wenyu Wang, Dengfeng Li, Wei Yang, Yurui Cao, Zhenwen Zhang, Yuetang Deng, Tao Xie; An empirical study of Android test generation tools in industrial cases. ASE 2018: 738-748
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Yuanchun Li, Ziyue Yang, Yao Guo, Xiangqun Chen; Humanoid: A Deep Learning-based Approach to Automated Black-box Android App Testing. ASE 2019.
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Yu Zhao, Tingting Yu, Ting Su, Yang Liu, Wei Zheng, Jingzhi Zhang, William G. J. Halfond; ReCDroid: automatically reproducing Android application crashes from bug reports. ICSE 2019: 128-139
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Sen Chen, Lingling Fan, Chunyang Chen, Ting Su, Wenhe Li, Yang Liu, Lihua Xu; StoryDroid: automated generation of storyboard for Android apps. ICSE 2019: 596-607
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Chunyang Chen, Ting Su, Guozhu Meng, Zhenchang Xing, Yang Liu; From UI design image to GUI skeleton: a neural machine translator to bootstrap mobile GUI implementation. ICSE 2018: 665-676
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Lingling Fan, Ting Su, Sen Chen, Guozhu Meng, Yang Liu, Lihua Xu, Geguang Pu; Efficiently manifesting asynchronous programming errors in Android apps. ASE 2018: 486-497