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Il2CppInspectorRedux 2023.1

Il2CppInspectorRedux helps you to reverse engineer IL2CPP applications, providing the most complete analysis currently available.

This is a continuation of Il2CppInspector, by djkaty which has suspended development, and contains some new features and support for new metadata versions.

Il2CppInspector GUI

Redux only features

  • Support for metadata version 29 and 29.1, with full reconstruction of custom attributes
  • Proper extraction of static array initializer contents with their correct length
  • Proper support for v27.2+ Il2CppType
  • Fixed support for v24.5
  • Export of static metadata fields and IDA script support for importing them
  • Support for [ThreadStatic] static fields
  • Better heuristic for detecting metadata usages
  • Performance improvements
  • Slight IDA/Ghidra script improvements:
    • Made ValueTypes use their non-boxed variants when used as the this parameter
    • Added labeling of FieldInfo/FieldRva MetadataUsages and their respective values as comments
    • Implemented name mangling to properly display generics and other normally-replaced characters
    • Much faster processing compared to the old version
  • Overhauled IDA script:
    • Added a progress indicator box with the current step, progress, and elapsed time
    • Automatic disabling and re-enabling of autoanalysis
    • Automatic unloading of conflicting type libraries
    • Addition of custom fake string segment to show string literal contents in decompiler
    • A fake xref between MethodInfo instances and their corresponding method to quickly get the correct function

Main features

Tutorials and Guides

You can read more about how IL2CPP works in my series IL2CPP Reverse Engineering:

How IL2CPP works

Part 1: Hello World and the IL2CPP Toolchain

Part 2: Structural Overview & Finding The Metadata

Il2CppInspector guides

Il2CppInspector Plugin Development Wiki

How to create, use and debug IL2CPP DLL injection projects

Working with code in IL2CPP DLL injection projects

Using Il2CppInspector's type model to extract protobuf-net definitions (Case Study: Fall Guys)

Reverse engineering walkthroughs

Finding loaders for obfuscated global-metadata.dat files - explains how to find the loader, deobfuscation and/or decryption code for global-metadata.dat in almost any IL2CPP application

Enable loading of League of Legends: Wild Rift - covers XOR decryption, XOR string decryption, API export ROT decryption, data obfuscation of binary metadata

Enable loading of Honkai Impact (3 parts) - covers finding functions in an image, data obfuscation of global-metadata.dat, IDA decompiler techniques, how to write a plugin

VMProtect control flow obfuscation in Honkai Impact - covers extrapolating the code path from a function with control flow flattening using x64dbg and the IDA decompiler

Reverse engineering Genshin Impact with PowerShell - covers writing a test harness to find a function in an obfuscated binary via brute-force attack / reverse fuzzing

Other features

File format and architecture support:

  • Supports ELF (Android .so), PE (Windows .exe), Mach-O (Apple iOS/Mac), Universal Binary (Fat Mach-O) and FSELF (PlayStation 4 .prx/.sprx) file formats
  • Also supports single and split APK (Android), AAB (Android App Bundle), XAPK, Zip and decrypted IPA (iOS) application package files as input
  • Supports ELF files created from memory dumps
  • Supports Linux process maps + corresponding .bin files - such as those produced by GameGuardian - without the need to manually extract the IL2CPP binary
  • 32-bit and 64-bit support for all file formats
  • Supports ARMv7, Thumb-2, ARMv8 (A64), x86 and x64 architectures regardless of file format
  • Supports applications created with Unity 5.3.0 onwards (full IL2CPP version table below)

Nice to have:

  • Support for assemblies, classes, methods, constructors, fields, properties, enumerations, events, interfaces, structs, pointers, references, attributes, nested types, generic types, generic methods, generic constraints, default field values and default method parameter values
  • C# syntactic sugar for CTS value types, compiler-generated types, delegates, extension methods, operator overloading, indexers, user-defined conversion operators, explicit interface instantiations, finalizers, nullable types, unsafe contexts, fixed-size arrays, variable length argument lists, method hiding and escaped strings
  • Partition C# code output by namespace, assembly, class, full tree or single file; sort by index or type name; output flat or nested folder hierarchy. Each file includes the necessary using directives. Scope and type name conflicts are resolved automatically to produce code that compiles.
  • API function export processing for PE, ELF, Mach-O and SELF (PRX) binaries
  • Symbol table processing and name demangling for ELF and Mach-O binaries
  • Relocation processing for ELF binaries
  • Automatically defeats certain basic obfuscation methods
  • Test chassis for automated integration testing of IL2CPP binaries

Class library targets .NET 8. Built with Visual Studio 2019.

NOTE: Il2CppInspector is not a decompiler. It can provide you with the structure of an application and function addresses for every method so that you can easily jump straight to methods of interest in your disassembler. It does not attempt to recover the entire source code of the application.

Build instructions

git clone --recursive https://github.com/LukeFZ/Il2CppInspectorRedux
cd Il2CppInspector
Windows

Build the CLI and Windows GUI versions:

dotnet publish -c Release

Get all current plugins (optional):

powershell -f get-plugins.ps1
Mac OS X

Build the CLI version:

cd Il2CppInspector.CLI
dotnet publish -r osx-x64 -c Release

Get all current plugins (optional):

../get-plugins.sh
Linux

Build the CLI version:

cd Il2CppInspector.CLI
dotnet publish -r linux-x64 -c Release

Get all current plugins (optional):

../get-plugins.sh

For other operating systems supporting .NET Core, add -r xxx to the final command where xxx is a RID from https://docs.microsoft.com/en-us/dotnet/articles/core/rid-catalog

The output binary for command-line usage is placed in Il2CppInspector/Il2CppInspector.CLI/bin/Release/net8.0/[win|osx|linux]-x64/publish/Il2CppInspector.exe.

The output binary for Windows GUI is placed in Il2CppInspector/Il2CppInspector.GUI/bin/Release/net8.0-windows/win-x64/publish/Il2CppInspector.exe.

The plugins folder should be placed in the same folder as Il2CppInspector.exe.

Command-line Usage

Run Il2CppInspector.exe at the command prompt.

File format and architecture are automatically detected.

All outputs are generated by default. To generate only specific outputs, use the --select-outputs switch in combination with the output selection switches.

  -i, --bin                   (Default: libil2cpp.so) IL2CPP binary, APK, AAB, XAPK, IPA, Zip or Linux process map text input file(s) (single file or comma-separated list for split APKs)

  -m, --metadata              (Default: global-metadata.dat) IL2CPP metadata file input (ignored for APK/AAB/XAPK/IPA/Zip)

  --image-base                For ELF memory dumps, the image base address in hex (ignored for standard ELF files and other file formats)

  --select-outputs            Only generate outputs specified on the command line (use --cs-out, --py-out, --cpp-out, --json-out, --dll-out to select outputs). If not specified, all outputs are generated

  -c, --cs-out                (Default: types.cs) C# output file (when using single-file layout) or path (when using per namespace, assembly or class layout)

  -p, --py-out                (Default: il2cpp.py) Python script output file

  -h, --cpp-out               (Default: cpp) C++ scaffolding / DLL injection project output path

  -o, --json-out              (Default: metadata.json) JSON metadata output file

  -d, --dll-out               (Default: dll) .NET assembly shim DLLs output path

  --metadata-out              IL2CPP metadata file output (for extracted or decrypted metadata; ignored otherwise)

  --binary-out                IL2CPP binary file output (for extracted or decrypted binaries; ignored otherwise; suffixes will be appended for multiple files)

  -e, --exclude-namespaces    (Default: System Mono Microsoft.Reflection Microsoft.Win32 Internal.Runtime Unity UnityEditor UnityEngine UnityEngineInternal AOT JetBrains.Annotations) Comma-separated list of namespaces to suppress in C# output, or 'none' to include all namespaces

  -l, --layout                (Default: single) Partitioning of C# output ('single' = single file, 'namespace' = one file per namespace in folders, 'assembly' = one file per assembly, 'class' = one file per class in namespace folders, 'tree' = one file per class in assembly and
                              namespace folders)

  -s, --sort                  (Default: index) Sort order of type definitions in C# output ('index' = by type definition index, 'name' = by type name). No effect when using file-per-class or tree layout

  -f, --flatten               Flatten the namespace hierarchy into a single folder rather than using per-namespace subfolders. Only used when layout is per-namespace or per-class. Ignored for tree layout

  -n, --suppress-metadata     Diff tidying: suppress method pointers, field offsets and type indices from C# output. Useful for comparing two versions of a binary for changes with a diff tool

  --suppress-dll-metadata     Diff tidying: suppress method pointers, field offsets and type indices attributes from DLL output. Useful for comparing two versions of a binary for changes

  -k, --must-compile          Compilation tidying: try really hard to make code that compiles. Suppress generation of code for items with CompilerGenerated attribute. Comment out attributes without parameterless constructors or all-optional constructor arguments. Don't emit
                              add/remove/raise on events. Specify AttributeTargets.All on classes with AttributeUsage attribute. Force auto-properties to have get accessors. Force regular properties to have bodies. Suppress global::Locale classes. Generate dummy parameterless
                              base constructors and ref return fields.

  --separate-attributes       Place assembly-level attributes in their own AssemblyInfo.cs files. Only used when layout is per-assembly or tree

  -j, --project               Create a Visual Studio solution and projects. Implies --layout tree, --must-compile and --separate-attributes

  --cpp-compiler              (Default: BinaryFormat) Compiler to target for C++ output (MSVC or GCC); selects based on binary executable type by default

  -t, --script-target         (Default: IDA) Application to target for Python script output (IDA or Ghidra) - case-sensitive

  --unity-path                (Default: C:\Program Files\Unity\Hub\Editor\*) Path to Unity editor (when using --project). Wildcards select last matching folder in alphanumeric order

  --unity-assemblies          (Default: C:\Program Files\Unity\Hub\Editor\*\Editor\Data\Resources\PackageManager\ProjectTemplates\libcache\com.unity.template.3d-*\ScriptAssemblies) Path to Unity script assemblies (when using --project). Wildcards select last matching folder in
                              alphanumeric order

  --unity-version             Version of Unity used to create the input files, if known. Used to enhance Python, C++ and JSON output. If not specified, a close match will be inferred automatically.

  --unity-version-from-asset  A Unity asset file used to determine the exact Unity version. Overrides --unity-version.

  --plugins                   Specify options for plugins. Enclose each plugin's configuration in quotes as follows: --plugins "pluginone --option1 value1 --option2 value2" "plugintwo --option...". Use --plugins <name> to get help on a specific plugin

  --help                      Display this help screen.

  --version                   Display version information.

File format considerations

Apple Universal Binaries and APKs/XAPKs with binaries for multiple architectures: when using the CLI, multiple output files will be generated, with each filename besides the first suffixed by the index of the image in the binary. Unsupported images will be skipped.

IPA packages: the executable must be decrypted first. Encrypted executable binaries are not supported.

Split APK packages: when using the CLI, specify a list of APK files with a comma between each filename.

ELF binaries created from memory dumps: specify the image base (in hex) using --image-base. If the supplied image base is incorrect, the application may crash.

GameGuardian dumps (and other Linux process map dumps): you can use a *-maps.txt file in place of an IL2CPP binary. Il2CppInspector will scan the folder containing the maps file for matching .bin files and reassemble and rebase libil2cpp.so automatically. You therefore don't need to create the file manually or provide an image base address when using this kind of dump. For this to work, neither the text file nor any of the binary files must be renamed, and all must be in the same folder.

Packed PE files (DLLs): WARNING: Loading a packed PE file will cause the DLL's entry point and initialization functions to execute. Do not load malicious DLLs and never run Il2CppInspector as an administrator when handling packed PE files. USE AT YOUR OWN RISK.

Creating C# prototypes

Il2CppInspector can create C# code stub files with pointer metadata to allow you to explore the IL2CPP binary in an easy-to-read format.

Specify the -c switch to choose the C# output file or path.

To exclude types from certain namespaces from being generated in the C# source file output, provide a comma-separated list of case-sensitive namespaces in --exclude-namespaces. The following namespaces will be excluded if no argument is specified:

System
Mono
Microsoft.Reflection
Microsoft.Win32
Internal.Runtime
Unity
UnityEditor
UnityEngine
UnityEngineInternal
AOT
JetBrains.Annotations

Providing an argument to --exclude-namespaces will override the default list. To output all namespaces, use --exclude-namespaces=none. This only applies to C# prototypes output.

You can specify the output layout with the --layout switch:

  • single - all types in a single file
  • namespace - one namespace per file (each file will be given the namespace name)
  • assembly - one assembly per file (each file will be given the assembly name)
  • class - one class per file
  • tree - one class per file in a tree-like folder structure with top-level assembly folders and second-level namespace folders

You can specify the intra-file type ordering with the --sort switch:

  • index - sort by type definition index as found in the IL2CPP metadata
  • name - sort alphabetically by type name

This switch has no effect when using class or tree layout.

The --flatten switch allows you to flatten a hierarchy of nested namespaces when layout is class or namespace, ie. a series of sub-folders System/IO/Compression will instead be a single top-level sub-folder System.IO.Compression.

The --suppress-metadata switch allows you to suppress the output of comments including method pointers, field offsets and type indices. This is useful when you want to diff the changes between two versions of an application to see only which types have changed.

The --seperate-attributes switch directs Il2CppInspector to put assembly-level attributes in their own AssemblyInfo.cs files rather than at the top of the first file generated for each assembly, when layout is assembly or tree.

Adding metadata to your IDA workflow

NOTE: IDA 7.6+ is required, but 7.7 is recommended.

NOTE: Run script as-soon-as-possible after IDA loads binary into database

Simply run Il2CppInspector with the -p switch to choose the IDA script output file. Load your binary file into IDA, press Alt+F7 and select the generated script. Observe the Output Window while IDA analyzes the file - this may take a long time.

Three files are generated by Il2CppInspector for IDAPython: the Python script itself, a JSON metadata file and a C++ type header file (this is cpp/appdata/il2cpp-types.h by default if you used the CLI, or il2cpp.h if you used the GUI). These files must be present for the script to run successfully.

If you know which version of Unity the binary was compiled with, you can improve the output by specifying this with --unity-version, for example --unity-version 2019.3.1f1. You can also supply any asset file from the application to detect the Unity version with --unity-version-from-asset. Otherwise Il2CppInspector will make an educated guess based on the contents of the binary.

Il2CppInspector generates the following data for IDA projects:

  • Type declarations for all IL2CPP internal types
  • Type declarations for every type in the IL2CPP application including generic instances
  • Addresses for every known type
  • Names for all regular .NET methods
  • Names for all constructed generic methods
  • Names and typed signatures for all IL2CPP custom attributes generator functions
  • Names, .NET argument type lists and typed signatures for all IL2CPP runtime invoker functions for both regular and constructed generic methods (per-signature Method.Invoke endpoints)
  • Function boundaries for all of the above
  • Comments at each function entry point with .NET method signatures for all of the above
  • Names and type declarations for all of the following IL metadata references: Type, TypeInfo, MethodDef, FieldInfo, StringLiteral, MethodRef (this includes all generic class and method instantiation metadata)
  • Comments for all IL string literal metadata pointers containing the value of the string
  • Names and types for some IL2CPP-specific data structures and functions
  • Names and typed signatures for all IL2CPP API functions that could be identified
  • (Redux only) Names for all static metadata fields (PrivateImplementationDetails)

Example IDA C++ decompilation after applying Il2CppInspector (initialization code omitted for brevity):

Il2CppInspector annotated IDA project

Adding metadata to your Ghidra workflow

Run Il2CppInspector with the -p switch to choose the Ghidra script output file, and -t Ghidra (case-sensitive) to specify Ghidra as the script type you wish to produce.

Three files are generated by Il2CppInspector for Ghidra: the Python script itself, a JSON metadata file and a C++ type header file. These files must be present for the script to run successfully.

If you know which version of Unity the binary was compiled with, you can improve the output by specifying this with --unity-version, for example --unity-version 2019.3.1f1. You can also supply any asset file from the application to detect the Unity version with --unity-version-from-asset. Otherwise Il2CppInspector will make an educated guess based on the contents of the binary.

NOTE: Always choose No when Ghidra asks to perform analysis

NOTE: For ELF files, set the image base to zero (0x00000000) in the load options for the binary. For compatibility reasons, executing the Ghidra Python script on an ELF file will change the file's image base to zero for you if necessary, however if the current image base is non-zero this may take a very long time to complete. Other file formats will retain the same image base.

NOTE: To improve analysis time, from the Code Browser, choose Edit -> Tool options -> Auto Analysis and change Max Threads to your CPU core count. Click OK and restart Code Browser

To import metadata into an existing Ghidra project:

  1. From the Code Browser, choose File -> Parse C Source...

  2. Create a new profile and add the generated C++ type header file. This is cpp/appdata/il2cpp-types.h by default if you used the CLI, or il2cpp.h if you used the GUI.

  3. Ensure the Parse Options are set exactly as follows:

    -D_GHIDRA_

  4. Click Parse to Program and accept any warnings. This may take a long time to complete.

  5. Open the Script Manager and add the output folder you chose in Il2CppInspector as a script folder.

  6. If you have used scripts from Il2CppInspector for other binaries, ensure the Python files are named differently, or disable use of the previous script folder(s).

  7. Click Refresh to make the script appear in Script Manager.

  8. Right-click the script and choose Run. This may take a while to complete.

  9. After initial auto analysis done, run it again to be sure about correct decompilation

Ghidra import help

Il2CppInspector generates identical data for Ghidra projects as it does for IDA - see the above section for details.

Example Ghidra C++ decompilation after applying Il2CppInspector:

Il2CppInspector annotated Ghidra project

Creating C++ scaffolding or a DLL injection project

Il2CppInspector generates a series of C++ source files which you can use in a variety of ways, for example:

  • with a tool like x64dbg to analyze the memory of the application at runtime
  • with a tool like Cydia Substrate (MSHookFunction) for accessing types, methods and IL2CPP API functions
  • to run custom code via DLL injection on Windows (see below)

Run Il2CppInspector with the -h switch to choose the C++ output folder.

If you know which version of Unity the binary was compiled with, you can improve the output by specifying this with --unity-version, for example --unity-version 2019.3.1f1. You can also supply any asset file from the application to detect the Unity version with --unity-version-from-asset. Otherwise Il2CppInspector will make an educated guess based on the contents of the binary.

You can target which C++ compiler you wish to use the output files with: specify --cpp-compiler MSVC for Visual Studio and --cpp-compiler GCC for gcc or clang.

Il2CppInspector performs automatic name conflict resolution to avoid the use of pre-defined symbols and keywords in C++, and to handle re-definition of same-named symbols in the application.

Some IL2CPP binary files contain only a partial set of API exports, or none at all. For these cases, Il2CppInspector will build scaffolding using only the available exports to ensure that the project compiles successfully.

Il2CppInspector GUI

The following files are generated:

  • appdata - this folder contains project-agnostic binary-specific declarations:
    • ilc2pp-types.h:

      • Type declarations for all internal IL2CPP types (a minimal version of the Unity headers)
      • Type declarations for every type used in the application including all arrays, enums, concrete generic type instances and inferred usages from metadata.
      • Boxed versions for types where applicable
      • VTables for every type
    • il2cpp-functions.h:

      • The function pointer signature and offset from the image base address to every C#-equivalent method
      • The offset from the image base address to every method information class (MethodInfo **)
    • il2cpp-types-ptr.h:

      • The offset from the image base address to every type information class (Il2CppClass **)
    • il2cpp-api-functions.h:

      • The function pointer signature to every IL2CPP API function (copied directly from Unity for the version used to compile the binary). Functions not found in the binary's export list will be elided
    • il2cpp-api-functions-ptr.h:

      • The offset from the image base address to every IL2CPP API function export (functions starting with il2cpp_)
    • il2cpp-metadata-version.h:

      • A #define for the IL2CPP version used by the target binary

The above files contain all the data needed for dynamic analysis in a debugger.

In addition, the following files are generated for DLL injection:

  • framework - project-agnostic binary-agnostic boilerplate code and scaffolding:

    • dllmain.cpp:

      • Provides a DLL injection stub which calls init_il2cpp() (see below) and starts Run() (see below) in a new thread
    • helpers.cpp and helpers.h:

      • Provides various helper functions. See the comments in helpers.h for details.
    • il2cpp-init.cpp, il2cpp-init.h and il2cpp-appdata.h:

      • Provides the void init_il2cpp() function which uses all of the above headers to generate usable function pointers and class pointers that are mapped to the correct places in the in-memory image at runtime
    • pch-il2cpp.cpp and pch-il2cpp.h:

      • Provides the necessary scaffolding to enable pre-compiled headers (PCH) for all of the headers in the appdata folder
  • user - project-specific binary-agnostic user code which you can modify as desired:

    • main.cpp and main.h:
      • Contains a stub Run() function which denotes the entry point for your custom injected code. The function executes in a new thread and therefore does not block DllMain.

    This is the only folder whose files you should edit.

For Visual Studio users, the following files are also generated:

  • IL2CppDLL.vcxproj, Il2CppDLL.vcxproj.filters and Il2CppDLL.sln:
    • The project and solution files for a DLL injection project. The first time you load the solution into Visual Studio, you will be asked to re-target the platform SDK and C++ toolchain. Accept the default suggestions. WARNING: Compilation may fail if you don't do this.

The default main.cpp includes commented code to allow you to write to a log or open a new console using the functions from helpers.h. To specify a log file target in your source code, use extern const LPCWSTR LOG_FILE = L"my_log_file.txt".

Tip: When a new version of the target application is released, you can re-output the C++ scaffolding project in-place. The appdata and framework folders will be overwritten but the user folder and project/solution files will not be changed. This makes it easy to update your project when the target application has been updated!

Compatibility: It is recommended to use Visual Studio 2019 (MSVC++ Build Tools v142 or later). The scaffolding projects have been tested with Visual Studio 2019 and Visual Studio 2017 (MSVC++ Build Tools v141), however some helper code is omitted when using Visual Studio 2017 in order to enable compilation to succeed.

DLL Injection workflow

  1. Use Il2CppInspector to create C++ scaffolding output for the executable binary of interest
  2. Load the generated solution (Il2CppDLL.sln) into Visual Studio
  3. Add the code you wish to execute in the Run() function in main.cpp
  4. Compile the project
  5. Use a DLL injection tool such as Cheat Engine or RemoteDLL to inject the compiled DLL into the IL2CPP application at runtime

You have access to all of the C#-equivalent types and methods in the application, plus all of the available IL2CPP API functions. No additional function pointer or type declarations are required.

Example (create a Vector3 and log its y co-ordinate to a file):

// in main.cpp
void Run()
{
    // Vector3 example

    // (Call an IL2CPP API function)
    Vector3__Boxed* myVector3 = (Vector3__Boxed*) il2cpp_object_new((Il2CppClass*) *Vector3__TypeInfo);

    // (Call an instance constructor)
    Vector3__ctor(myVector3, 1.0f, 2.0f, 3.0f, NULL);

    // (Access an instance field)
    il2cppi_log_write(to_string(myVector3->fields.y));
}

More detailed tutorials can be found here:

How to create, use and debug IL2CPP DLL injection projects

Working with code in IL2CPP DLL injection projects

Creating a Visual Studio C# code stubs solution

Il2CppInspector can create a complete Visual Studio workspace with a solution (.sln) file, project (.csproj) files and assembly-namespace-class tree-like folder structure. Each project creates a single assembly.

Use the --project switch to generate a solution workspace.

In order for Il2CppInspector to be able to create .csproj files which contain the correct Unity assembly references, you must provide the path to an installed Unity editor and a project template or ScriptAssemblies folder of an existing Unity project.

NOTE: The default settings will select the latest installed version of Unity and the latest installed version of the default 3D project template, if they have been installed in the default location.

Typical Unity editor location (specified with --unity-path): C:\Program Files\Unity\Hub\Editor\20xx.y.z

Typical Unity project template location (specified with --unity-assemblies): C:\Program Files\Unity\Hub\Editor\20xx.y.z\Editor\Data\Resources\PackageManager\ProjectTemplates\libcache\<name-of-template>

Typical Unity script assemblies location in existing project (specified with --unity-aseemblies): X:\MyProject\Library\ScriptAssemblies

Replace x, y and z with your Unity version number. Replace <name-of-template> with the desired template.

NOTE: You can use the asterisk wildcard (*) one or more times when specifying these paths. Il2CppInspector will select the last matching folder in alphanumeric order. This is useful if you have multiple side-by-side Unity installs and wish to always select the latest version or template.

In the event that the assembly references are not correctly resolved the first time you load a solution, simply close and re-open the solution to force them to be resolved.

Il2CppInspector Auto-generated Visual Studio solution

Generating JSON metadata

Il2CppInspector can create a JSON file containing various metadata about the application.

Use the -o switch to specify the JSON output path.

The output schema is as follows:

  • addressMap (object)

    An address map of all IL2CPP-related content in binary

    • methodDefinitions (array) The virtual address, binary symbol, C++ function signature and .NET method signature of every .NET-equivalent method in the binary

    • constructedGenericMethods (array) The virtual address, binary symbol, C++ function signature and .NET method signature of every .NET-equivalent concrete generic method in the binary

    • customAttributesGenerators (array) The virtual address, name and C++ function signature of every custom attributes generator function in the binary

    • methodInvokers (array) The virtual address, name and C++ function signature of every Method.Invoke thunk function in the binary

    • stringLiterals (array) For Unity versions lower than 5.3.2: the ordinal, name and text of every string literal in the binary For Unity version 5.3.2 and later: the virtual address, name and text of every string literal in the binary

    • typeInfoPointers (array) The virtual address, name, C++ derived type name and .NET type name equivalent of every class definition pointer (Il2CppClass *) in the binary

    • typeRefPointers (array) The virtual address, name and .NET type name equivalent of every type reference pointer (Il2CppType *) in the binary

    • methodInfoPointers (array) The virtual address, name and .NET method signature of every runtime method definition pointer (MethodInfo *) in the binary

    • functionAddresses (array) The virtual addresses of the start of every known function in the binary, including all of those above plus any others detected but not included in the above categories

    • typeMetadata (array) The virtual address, name and C++ type name of key metadata items in the binary. This includes Il2CppCodeRegistration and Il2CppMetadataRegistration, and depending on the binary version may also include a pointer to each Il2CppCodeGenModule

    • arrayMetadata (array) The virtual address, name, C++ type name and size of key metadata arrays in the binary

    • functionMetadata (array) The virtual address, name and C++ function signature of key metadata functions in the binary. Depending on how the binary was analyzed by Il2CppInspector, this may include il2cpp_codegen_register.

    • apis (array) The virtual address, name and C++ function signature of every IL2CPP API function identified in the binary

    • exports (array) The virtual address and name of every export in the binary

    • symbols (array) The virtual address, name and symbol type of every named (non-zero name length) and non-zero address function definition, type, field name and import (for ELF) defined in the binary. Not currently supported for PE files.

    • fields (array) (Redux only) The virtual address and name of every static metadata field in the binary. Used for static array initializers such as the ones found in PrivateImplementationDetails.

Universal IL2CPP Build Utility

Three Powershell scripts are provided to enable easy building and testing of IL2CPP binaries:

  • il2cpp.ps1 is the main workhorse and compiles each specified C# source file in TestSources (or all of them if none supplied) as a separate assembly, and outputs them to TestAssemblies. It then takes every specified assembly in TestAssemblies and compiles each one as a separate IL2CPP project for each of these architectures:

    • Windows x86 standalone
    • Windows x64 standalone
    • Android ARMv7 (32-bit)
    • Android ARMv8-A (64-bit)

    These are placed into the TestBinaries folder. The C++ source code for each build is placed into the TestCpp folder. It then calls generate-tests.ps1.

    Specify a comma-separated list of source files (without the .cs extension) to process as the first argument (or -assemblies).

    You can optionally specify a Unity version or Unity install path with the 2nd argument (or -unityVersion). If none is supplied, the latest installed Unity version will be used. You can also specify wildcards, eg. 2019* will use the latest installed version of Unity 2019, 2018.3* will use the latest installed version of Unity 2018.3 etc. Use Unity Hub to install the desired versions.

    Therefore with one command you can generate an assembly DLL, C++ source code and IL2CPP binary for each architecture for any given list of source files, one set of outputs per source file, for a specified version of Unity.

  • generate-tests.ps1 generates a file called Tests.cs in the Il2CppTests project, containing one test per IL2CPP project in TestBinaries. This file will be compiled by the Il2CppTests project. You will then be able to see one test per IL2CPP project in Visual Studio's Test Explorer.

    The auto-generated tests generate C#, JSON and C header files in the test IL2CPP binary's folder in TestBinaries (each filename prefixed with test) and compares them (whitespace-insensitive) with the corresponding project name files in TestExpectedResults. In this way, you can check for files with known structure that the analysis is being performed correctly, or step through the analysis of specific binaries in the debugger without having to change the project's command-line arguments.

  • update-expected-results.ps1 copies all of the output test results from TestBinaries into TestExpectedResults, therefore updating the files that will be used to verify correct test results.

Example uses:

./il2cpp.ps1

builds each C# source file ìnto a .NET assembly DLL, a C++ source folder and one IL2CPP binary per supported architecture

./il2cpp.ps1 MyFirstTest

builds MyFirstTest.cs into MyFirstTest.dll, creates a C++ source folder named MyFirstTest and an IL2CPP binary for each supported architecture

./il2cpp.ps1 MyFirstTest,MySecondTest 2019.3.1f1

builds MyFirstTest.cs and MySecondTest.cs into individual assembly DLLs, C++ source folders and IL2CPP binaries, using Unity 2019.3.1f1

./il2cpp.ps1 MyFirstTest,MySecondTest F:\Unity\Hub\Editor\2019.3.1f1

as above but specifies a custom path for your Unity installation.

The minimum supported Unity version is 2017.1.0f3.

To learn more about these features, see the section entitled Using Il2CppInspector to generate IL2CPP code in IL2CPP Reverse Engineering Part 1.

Using the APIs for programmatic analysis

NOTE: The Il2CppInspector APIs are also available as a NuGet package! (search: NoisyCowStudios.Il2CppInspector)

Il2CppInspector offers the following re-usable class library APIs:

  • Il2CppInspector - low-level access to the binary image and metadata
  • TypeModel - high-level .NET Reflection-like query API for all of the .NET types in the source project as a tree model
  • AppModel - access to all of the C++ types and methods, plus the IL2CPP API exports, with detailed address and offset data and mappings to their .NET equivalents

Use these APIs to easily query IL2CPP types, create new output modules and integrate Il2CppInspector with your own static analysis applications.

To utilize Il2CppInspector in your own projects, add a reference to Il2CppInspector.Common.dll.

Include the following using directives:

  • using Il2CppInspector to use Il2CppInspector.
  • using Il2CppInspector.Reflection to use TypeModel.
  • using Il2CppInspector.Model to use AppModel.

See the source code for further details or the tutorials above.

Using plugins

Plugins should be placed in the plugins folder in the same folder as Il2CppInspector.exe. Each plugin should be placed into its own sub-folder with any dependencies or configuration files needed.

From the GUI you can enable and disable plugins, change the execution order and configure individual plugin settings via the Manage plugins... button.

From the CLI you can specify which plugins and settings to use as follows.

For one plugin:

Il2CppInspector.exe --plugins "myplugin --firstOption value1 --secondOption value2"

For multiple plugins:

Il2CppInspector.exe --plugins "plugin1 --option1 ..." "plugin2 --option2 ..." ...

Plugins will be executed in the order specified.

Core plugins (those that are part of Il2CppInspector's base functionality) are always enabled when using the CLI, but can be disabled in the GUI.

When using the CLI, core plugins always execute first by default. You can force the core plugins to execute in a different order by specifying their names in the desired execution order. For example:

Il2CppInspector.exe --plugins "analytics --output foo.csv"

will run the core plugins first then the analytics example plugin, but:

Il2CppInspector.exe --plugins "analytics --output foo.csv" "xor"

will cause the xor core plugin to run after analytics.

For help on a specific plugin, specify the plugin name with no arguments:

Il2CppInspector.exe --plugins myplugin

To get more plugins, click Get Plugins in the Manage Plugins window in the GUI, visit the Il2CppInspectorPlugins repository or use the get-plugins.ps1 or get-plugins.sh scripts to update to the latest plugin releases.

Il2CppInspector Plugins

Creating plugins

Plugins let you extend the functionality of Il2CppInspector. For example you can pre and post-process metadata and binaries to enable inspection of IL2CPP applications that Il2CppInspector cannot handle automatically.

Plugin support is currently experimental and has limited functionality.

Details on how to create your own plugins can be found in the Il2CppInspector Plugin Development Wiki.

You can find out more about plugins, and browse the source code of current plugins and examples in the Il2CppInspectorPlugins repository.

Extending Il2CppInspector's Python output to support other targets

The current version of Il2CppInspector can output Python scripts targeting the IDA and Ghidra disassemblers.

When Il2CppInspector generates such a script, it generates a concatenation of a shared block of code (Outputs/ScriptResources/shared-main.py) which parses the JSON metadata and dispatches it to a set of implementation-specific functions to be processed, and a block of code specific to the target application which implements these functions (a file from Outputs/ScriptResources/Targets).

If you would like to add support for a new target application, create a new Python script in Outputs/ScriptResources/Targets with the nane <target-name-without-whitespace>.py and implement the following functions:

  • CustomInitializer() - perform any custom initialization required for the target before applying the metadata
  • DefineCode(code) - parse and apply the specified C++ declaration text (this is not required for Unity 5.3.2 and later; if you don't need to support earlier versions, just specify pass as the implementation)
  • GetScriptDirectory() - retrieve the directory that the Python script is running in. This will normally be os.path.dirname(os.path.realpath(__file__))
  • MakeFunction(start, name=None) - define address start as the start of a function, optionally with name name
  • SetComment(addr, text) - place the comment text at address addr
  • SetFunctionType(addr, sig) - parse the C++ function signature in sig and apply it to the function at address addr
  • SetHeaderComment(addr, text) - place the header/plate/pre-item comment text at address addr
  • SetName(addr, name) - set the symbol (or label or name) of address addr to name
  • SetType(addr, type) - define address addr to be an item of the C++ type type

Refer to the source code of IDA.py and Ghidra.py for examples.

When you add a new target and re-compile Il2CppInspector:

  • the target will automatically be available for selection via the -t (--script-target) switch via the CLI
  • the target will automatically appear in the drop-down selection box for script targets in the GUI

If you develop an API for a target that you think might be useful to others, please feel free to submit a PR with the code!

Version support

Unity version IL2CPP version Support
4.6.1+ First release Unsupported
5.2.x 15 Unsupported
5.3.0-5.3.1 16 Working
5.3.2 19 Working
5.3.3-5.3.4 20 Working
5.3.5-5.4.6 21 Working
5.5.0-5.5.6 22 Working
5.6.0-5.6.7 23 Working
2017.1.0-2018.2.21 24 Working
2018.3.0-2018.4.x 24.1 Working
2019.1.0-2019.3.6 24.2 Working
2019.3.7-2019.4.14 24.3 Working
2019.4.15-2019.4.20 24.4 Working
2019.4.21-2019.4.x 24.5 Working
2020.1.0-2020.1.10 24.3 Working
2020.1.11-2020.1.17 24.4 Working
2020.2.0-2020.2.3 27 Working
2020.2.4-2020.3.x 27.1 Working
2021.1.0-2021.1.x 27.2 Working
2021.2.0-2021.2.x 29 Working
2021.3.0+ 29.1 Working
2023.2.0a22 29.2 Working
2022.3.33+ 31(.1) Working

Please refer to the companion repository https://github.com/nneonneo/Il2CppVersions if you would like to track the changes between each IL2CPP release version.

Problems

If you have files that don't work or are in an unsupported format, please open a new issue on GitHub and attach a sample with details on the file format, and I'll try to add support. Include both the IL2CPP binary and global-metadata.dat in your submission.

Please check the binary file in a disassembler to ensure that it is a plain IL2CPP binary before filing an issue. Il2CppInspector is not intended to handle packed, encrypted or obfuscated IL2CPP files.

Support

If you found Il2CppInspector useful, you can really help support the project by making a small donation!

Donate to the author of Il2CppInspectorRedux, LukeFZ, via https://buymeacoffee.com/LukeFZ or https://patreon.com/LukeFZ

Donate to the author of the original Il2CppInspector, djkaty, via http://paypal.me/djkaty or with bitcoin: 3FoRUqUXgYj8NY8sMQfhX6vv9LqR3e2kzz

All donations are appreciated!

Acknowledgements

Thanks to the following major contributors!

This project uses:

Thanks to the following individuals whose code and research helped me develop this tool:

The following books and documents were also very helpful:

Pizza spinner animation in the GUI made by Chris Gannon - https://gannon.tv/

License

This software is licensed under AGPLv3.

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Continuation of Il2CppInspector - A powerful automated tool for reverse engineering Unity IL2CPP binaries.

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