Unlocking the Power of ASM: Modifying Android OS and Library Behaviour

kapil sharma
3 min readSep 18, 2023

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In the ever-evolving landscape of Android app development, there often arises the need to tailor the behaviour of the operating system (OS) or third-party libraries to meet the specific requirements of your application. This need may stem from a desire to restrict certain actions, enhance security, or adapt to unique business logic. In this blog, we explore the powerful world of bytecode manipulation and how it can empower developers to modify Android OS behaviour or library behaviour using ASM (Assembly for Java bytecode).

The Challenge: Modifying OS and Library Behaviour

Imagine scenarios where you need to tweak the OS behaviour or exert control over third-party libraries:

Scenario 1: Control Over App Launch
- You want only specific external apps to initiate your app’s activities.
- Data filtering and processing are required before accepting incoming data for business logic.
- The conventional approach of handling intents within each activity can lead to code duplication and lacks control over third-party libraries.

Scenario 2: Dynamic Whitelisting for Sharing Data
- You need to dynamically whitelist apps for sharing data.
- You must choose between opening a share sheet or directly sending an intent to a specific app.
- Implementing and maintaining such solutions can be cumbersome, particularly for future developments and third-party libraries.

The Solution: Bytecode Manipulation

Bytecode manipulation offers a robust solution to these challenges. It empowers developers to modify the behaviour of Android OS and libraries by manipulating the bytecode, the fundamental instruction set for the Java Virtual Machine (JVM). This manipulation allows for a wide range of possibilities, including:

1. Program Analysis: Identifying classes with specific annotations.
2. Class Generation: Implementing lazy loading, database proxies, and more.
3. Security: Restricting access to certain APIs, code obfuscation, and enhancing code integrity.
4. Logging: Adding comprehensive logging to applications.

Bytecode Manipulation Tools

Several tools are available for bytecode manipulation, catering to varying levels of complexity and requirements:

1. ASM (Assembly for Java Bytecode): ASM is an all-purpose Java bytecode manipulation framework. It offers the ability to modify existing classes or generate new ones in binary form. ASM is known for its performance and is used in various projects, including the OpenJDK, Groovy, and Gradle.

2. Java Assist: Javassist is a bytecode manipulation framework with both high-level and low-level APIs. It provides flexibility in bytecode manipulation and is a valuable tool for dynamic class generation.

3. AspectJ: AspectJ is a popular framework for Aspect-Oriented Programming (AOP) in Java. While powerful, compatibility challenges with language changes may arise, making it crucial to consider these issues in Android development.

4. Byte Buddy: Byte Buddy is a versatile code generation and manipulation library. It allows the creation and modification of Java classes during runtime, offering an API for manual class changes, Java agent usage, and build-time modifications.

Android Gradle Plugin (Transformation API)

For Android developers, the Android Gradle Plugin (AGP) provides a seamless means of bytecode transformation. It leverages ASM for bytecode manipulation and Javassist for class enhancement. AGP offers consistent updates with each version, making it a reliable choice for Android development.

In this journey of bytecode manipulation using ASM, we’ll delve deeper into its capabilities, explore real-world use cases, and guide you through the process of enhancing Android OS behaviour and library functionality. Stay tuned for more insights into this fascinating realm of Android development.

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