X86Disassembler/Program.cs

using X86Disassembler.Analysers;
using X86Disassembler.PE;
using X86Disassembler.X86;

namespace X86Disassembler;

/// <summary>
/// Main program class
/// </summary>
public class Program
{
    // Hardcoded file path for testing
    private const string FilePath = @"C:\Program Files (x86)\Nikita\Iron Strategy\Terrain.dll";
    
    /// <summary>
    /// Main entry point
    /// </summary>
    /// <param name="args">Command line arguments</param>
    public static void Main(string[] args)
    {
        Console.WriteLine("X86 Disassembler and Decompiler");
        Console.WriteLine("--------------------------------");
        
        // Load the file
        Console.WriteLine($"Loading file: {FilePath}");
        byte[] fileBytes = File.ReadAllBytes(FilePath);
        Console.WriteLine($"Successfully loaded {FilePath}");
        Console.WriteLine($"File size: {fileBytes.Length} bytes\n");
        
        // Parse the PE format
        Console.WriteLine("Parsing PE format...\n");
        PeFile peFile = new PeFile(fileBytes);
        peFile.Parse();
        
        // Print PE file information
        Console.WriteLine("PE File Information:");
        Console.WriteLine($"Architecture: {(peFile.OptionalHeader.Is64Bit() ? "64-bit" : "32-bit")}");
        Console.WriteLine($"Entry Point: 0x{peFile.OptionalHeader.AddressOfEntryPoint:X8}");
        Console.WriteLine($"Image Base: 0x{peFile.OptionalHeader.ImageBase:X8}");
        Console.WriteLine($"Number of Sections: {peFile.FileHeader.NumberOfSections}");
        Console.WriteLine();
        
        // Print section information
        PrintPeSections(peFile);

        // Print export information
        PrintPeExports(peFile);

        // Print import information
        PrintPeImports(peFile);
        
        // Find code sections
        var codeSections = peFile.SectionHeaders.FindAll(s => s.ContainsCode());
        Console.WriteLine($"Found {codeSections.Count} code section(s):");
        foreach (var section in codeSections)
        {
            Console.WriteLine($"  - {section.Name}: Size={section.VirtualSize} bytes, RVA=0x{section.VirtualAddress:X8}");
        }
        Console.WriteLine();
        
        // Disassemble the first code section
        if (codeSections.Count > 0)
        {
            var section = codeSections[0];
            byte[] codeBytes = peFile.GetSectionData(peFile.SectionHeaders.IndexOf(section));
            
            // // First demonstrate sequential disassembly
            // Console.WriteLine($"Sequential disassembly of section {section.Name} at RVA 0x{section.VirtualAddress:X8}:");
            //
            // // Create a disassembler for the code section
            // // Base address should be the section's virtual address, not the image base + VA
            // Disassembler disassembler = new Disassembler(codeBytes, section.VirtualAddress);
            //
            // // Disassemble sequentially (linear approach)
            // var linearInstructions = disassembler.Disassemble();
            //
            // // Print the first 30 instructions from linear disassembly
            // int linearCount = Math.Min(30, linearInstructions.Count);
            // for (int i = 0; i < linearCount; i++)
            // {
            //     Console.WriteLine(linearInstructions[i]);
            // }
            //
            // disassemble entry point
            var disassembler = new BlockDisassembler(codeBytes, section.VirtualAddress);
            
            var asmFunction = disassembler.DisassembleFromAddress(peFile.OptionalHeader.AddressOfEntryPoint);
            
            // Run all analyzers on the function
            asmFunction.Analyze();
            
            // Create a decompiler engine
            var decompiler = new DecompilerEngine(peFile);
            
            try
            {
                // Decompile the entry point function
                var function = decompiler.DecompileFunction(peFile.OptionalHeader.AddressOfEntryPoint);
                
                // Generate pseudocode
                string pseudocode = decompiler.GeneratePseudocode(function);
                
                Console.WriteLine("\nGenerated Pseudocode:\n");
                Console.WriteLine(pseudocode);
            }
            catch (Exception ex)
            {
                Console.WriteLine($"Error decompiling function: {ex.Message}");
            }
            
            // Skip displaying detailed loop information to keep output concise
        }
        
        // Console.WriteLine("\nPress Enter to exit...");
        // Console.ReadLine();
    }

    private static void PrintPeImports(PeFile peFile)
    {
        Console.WriteLine("Imported Functions:");
        Console.WriteLine($"Number of Imported DLLs: {peFile.ImportDescriptors.Count}");

        foreach (var import in peFile.ImportDescriptors)
        {
            Console.WriteLine($"  DLL: {import.DllName}");
                
            for (int i = 0; i < import.Functions.Count; i++)
            {
                var function = import.Functions[i];
                if (function.IsOrdinal)
                {
                    Console.WriteLine($"    {i}: Ordinal {function.Ordinal}");
                }
                else
                {
                    Console.WriteLine($"    {i}: {function.Name} (Hint={function.Hint})");
                }
            }
        }
        Console.WriteLine();
    }

    private static void PrintPeExports(PeFile peFile)
    {
        Console.WriteLine("Exported Functions:");
        Console.WriteLine($"DLL Name: {peFile.ExportDirectory.DllName}");
        Console.WriteLine($"Number of Functions: {peFile.ExportDirectory.NumberOfFunctions}");
        Console.WriteLine($"Number of Names: {peFile.ExportDirectory.NumberOfNames}");
            
        for (int i = 0; i < peFile.ExportedFunctions.Count; i++)
        {
            var export = peFile.ExportedFunctions[i];
            Console.WriteLine($"  {i}: {export.Name} (Ordinal={export.Ordinal}, RVA=0x{export.AddressRva:X8})");
        }
        Console.WriteLine();
    }

    private static void PrintPeSections(PeFile peFile)
    {
        Console.WriteLine("Sections:");
        foreach (var section in peFile.SectionHeaders)
        {
            string flags = "";
            if (section.ContainsCode()) flags += "Code ";
            if (section.IsExecutable()) flags += "Exec ";
            if (section.IsReadable()) flags += "Read ";
            if (section.IsWritable()) flags += "Write";
            
            Console.WriteLine($"  {peFile.SectionHeaders.IndexOf(section)}: {section.Name,-8} VA=0x{section.VirtualAddress:X8} Size={section.VirtualSize,-8} [{flags}]");
        }
        Console.WriteLine();
    }
}
t 2025-04-18 16:29:53 +03:00			`using X86Disassembler.Analysers;`
Implemented enhanced x86 disassembler with improved instruction decoding and display 2025-04-12 18:41:40 +03:00			`using X86Disassembler.PE;`
			`using X86Disassembler.X86;`

Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`namespace X86Disassembler;`

			`/// <summary>`
			`/// Main program class`
			`/// </summary>`
			`public class Program`
test 2025-04-12 16:42:44 +03:00			`{`
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`// Hardcoded file path for testing`
			`private const string FilePath = @"C:\Program Files (x86)\Nikita\Iron Strategy\Terrain.dll";`
Implemented enhanced x86 disassembler with improved instruction decoding and display 2025-04-12 18:41:40 +03:00
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`/// <summary>`
			`/// Main entry point`
			`/// </summary>`
			`/// <param name="args">Command line arguments</param>`
			`public static void Main(string[] args)`
Update code style to follow project rules with one-liner namespace declarations 2025-04-12 18:23:18 +03:00			`{`
			`Console.WriteLine("X86 Disassembler and Decompiler");`
			`Console.WriteLine("--------------------------------");`
Implemented enhanced x86 disassembler with improved instruction decoding and display 2025-04-12 18:41:40 +03:00
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`// Load the file`
			`Console.WriteLine($"Loading file: {FilePath}");`
			`byte[] fileBytes = File.ReadAllBytes(FilePath);`
			`Console.WriteLine($"Successfully loaded {FilePath}");`
			`Console.WriteLine($"File size: {fileBytes.Length} bytes\n");`
Implemented enhanced x86 disassembler with improved instruction decoding and display 2025-04-12 18:41:40 +03:00
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`// Parse the PE format`
			`Console.WriteLine("Parsing PE format...\n");`
fix float 2025-04-13 00:21:01 +03:00			`PeFile peFile = new PeFile(fileBytes);`
			`peFile.Parse();`
Implemented enhanced x86 disassembler with improved instruction decoding and display 2025-04-12 18:41:40 +03:00
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`// Print PE file information`
Implemented enhanced x86 disassembler with improved instruction decoding and display 2025-04-12 18:41:40 +03:00			`Console.WriteLine("PE File Information:");`
fix float 2025-04-13 00:21:01 +03:00			`Console.WriteLine($"Architecture: {(peFile.OptionalHeader.Is64Bit() ? "64-bit" : "32-bit")}");`
			`Console.WriteLine($"Entry Point: 0x{peFile.OptionalHeader.AddressOfEntryPoint:X8}");`
			`Console.WriteLine($"Image Base: 0x{peFile.OptionalHeader.ImageBase:X8}");`
			`Console.WriteLine($"Number of Sections: {peFile.FileHeader.NumberOfSections}");`
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`Console.WriteLine();`
Implemented enhanced x86 disassembler with improved instruction decoding and display 2025-04-12 18:41:40 +03:00
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`// Print section information`
fix float 2025-04-13 00:21:01 +03:00			`PrintPeSections(peFile);`

Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`// Print export information`
fix float 2025-04-13 00:21:01 +03:00			`PrintPeExports(peFile);`

Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`// Print import information`
fix float 2025-04-13 00:21:01 +03:00			`PrintPeImports(peFile);`
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00
Implemented enhanced x86 disassembler with improved instruction decoding and display 2025-04-12 18:41:40 +03:00			`// Find code sections`
fix float 2025-04-13 00:21:01 +03:00			`var codeSections = peFile.SectionHeaders.FindAll(s => s.ContainsCode());`
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`Console.WriteLine($"Found {codeSections.Count} code section(s):");`
Implemented enhanced x86 disassembler with improved instruction decoding and display 2025-04-12 18:41:40 +03:00			`foreach (var section in codeSections)`
test 2025-04-12 16:42:44 +03:00			`{`
Implemented enhanced x86 disassembler with improved instruction decoding and display 2025-04-12 18:41:40 +03:00			`Console.WriteLine($" - {section.Name}: Size={section.VirtualSize} bytes, RVA=0x{section.VirtualAddress:X8}");`
test 2025-04-12 16:42:44 +03:00			`}`
Implemented enhanced x86 disassembler with improved instruction decoding and display 2025-04-12 18:41:40 +03:00			`Console.WriteLine();`
test 2025-04-12 16:42:44 +03:00
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`// Disassemble the first code section`
			`if (codeSections.Count > 0)`
test 2025-04-12 16:42:44 +03:00			`{`
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00			`var section = codeSections[0];`
fix float 2025-04-13 00:21:01 +03:00			`byte[] codeBytes = peFile.GetSectionData(peFile.SectionHeaders.IndexOf(section));`
test 2025-04-12 16:42:44 +03:00
t 2025-04-18 16:29:53 +03:00			`// // First demonstrate sequential disassembly`
			`// Console.WriteLine($"Sequential disassembly of section {section.Name} at RVA 0x{section.VirtualAddress:X8}:");`
			`//`
			`// // Create a disassembler for the code section`
			`// // Base address should be the section's virtual address, not the image base + VA`
			`// Disassembler disassembler = new Disassembler(codeBytes, section.VirtualAddress);`
			`//`
			`// // Disassemble sequentially (linear approach)`
			`// var linearInstructions = disassembler.Disassemble();`
			`//`
			`// // Print the first 30 instructions from linear disassembly`
			`// int linearCount = Math.Min(30, linearInstructions.Count);`
			`// for (int i = 0; i < linearCount; i++)`
			`// {`
			`// Console.WriteLine(linearInstructions[i]);`
			`// }`
			`//`
			`// disassemble entry point`
			`var disassembler = new BlockDisassembler(codeBytes, section.VirtualAddress);`
basic decompiler and fixes 2025-04-14 02:07:17 +03:00
t 2025-04-18 16:29:53 +03:00			`var asmFunction = disassembler.DisassembleFromAddress(peFile.OptionalHeader.AddressOfEntryPoint);`
Improve decompiler output and reduce verbosity 2025-04-18 21:42:25 +03:00
			`// Run all analyzers on the function`
			`asmFunction.Analyze();`

			`// Create a decompiler engine`
			`var decompiler = new DecompilerEngine(peFile);`

			`try`
			`{`
			`// Decompile the entry point function`
			`var function = decompiler.DecompileFunction(peFile.OptionalHeader.AddressOfEntryPoint);`

			`// Generate pseudocode`
			`string pseudocode = decompiler.GeneratePseudocode(function);`

			`Console.WriteLine("\nGenerated Pseudocode:\n");`
			`Console.WriteLine(pseudocode);`
			`}`
			`catch (Exception ex)`
			`{`
			`Console.WriteLine($"Error decompiling function: {ex.Message}");`
			`}`

			`// Skip displaying detailed loop information to keep output concise`
test 2025-04-12 16:42:44 +03:00			`}`
Refactor instruction handlers to use single instruction per handler pattern 2025-04-12 19:57:42 +03:00
fix float 2025-04-13 00:21:01 +03:00			`// Console.WriteLine("\nPress Enter to exit...");`
			`// Console.ReadLine();`
			`}`

			`private static void PrintPeImports(PeFile peFile)`
			`{`
			`Console.WriteLine("Imported Functions:");`
			`Console.WriteLine($"Number of Imported DLLs: {peFile.ImportDescriptors.Count}");`

			`foreach (var import in peFile.ImportDescriptors)`
			`{`
			`Console.WriteLine($" DLL: {import.DllName}");`

			`for (int i = 0; i < import.Functions.Count; i++)`
			`{`
			`var function = import.Functions[i];`
			`if (function.IsOrdinal)`
			`{`
			`Console.WriteLine($" {i}: Ordinal {function.Ordinal}");`
			`}`
			`else`
			`{`
			`Console.WriteLine($" {i}: {function.Name} (Hint={function.Hint})");`
			`}`
			`}`
			`}`
			`Console.WriteLine();`
			`}`

			`private static void PrintPeExports(PeFile peFile)`
			`{`
			`Console.WriteLine("Exported Functions:");`
			`Console.WriteLine($"DLL Name: {peFile.ExportDirectory.DllName}");`
			`Console.WriteLine($"Number of Functions: {peFile.ExportDirectory.NumberOfFunctions}");`
			`Console.WriteLine($"Number of Names: {peFile.ExportDirectory.NumberOfNames}");`

			`for (int i = 0; i < peFile.ExportedFunctions.Count; i++)`
			`{`
			`var export = peFile.ExportedFunctions[i];`
			`Console.WriteLine($" {i}: {export.Name} (Ordinal={export.Ordinal}, RVA=0x{export.AddressRva:X8})");`
			`}`
			`Console.WriteLine();`
			`}`

			`private static void PrintPeSections(PeFile peFile)`
			`{`
			`Console.WriteLine("Sections:");`
			`foreach (var section in peFile.SectionHeaders)`
			`{`
			`string flags = "";`
			`if (section.ContainsCode()) flags += "Code ";`
			`if (section.IsExecutable()) flags += "Exec ";`
			`if (section.IsReadable()) flags += "Read ";`
			`if (section.IsWritable()) flags += "Write";`

			`Console.WriteLine($" {peFile.SectionHeaders.IndexOf(section)}: {section.Name,-8} VA=0x{section.VirtualAddress:X8} Size={section.VirtualSize,-8} [{flags}]");`
			`}`
			`Console.WriteLine();`
test 2025-04-12 16:42:44 +03:00			`}`
Update code style to follow project rules with one-liner namespace declarations 2025-04-12 18:23:18 +03:00			`}`