Win32 Assembly Coding For Crackers

Free online tutorial Win32 Assembler Coding For Crackers. 'First go away and learn assembler, then come back and read this.' An introduction to Win32 Assembler programming aimed at filling the gap between the complete beginner and the advanced.

  • Writing Windows assembly code, especially with MASM, is very easy. It is almost like writing some C code. Give it a chance and I am certain that you won't be disappointed. size='5' Win32 ASM Basics If you are already familiar with assembly language in the windows platform, you may want to skip this section.
  • Get Assembly Language for Intel-Based Computers, one of the best books on the subject. Alternatively, you may try Randall Hyde's free, online Art of Assembly Language book as well. Download Masm32 assembler, which you will use to compile your assembly code into executables. And, if you like IDEs, get Winasm as well. It'll simplify code editing.
  • Win32 APIs are just stdcall C functions, so this is a specific instance of a more general question: how to call a C-function form another DLL w/ stdcall calling convention from assembly. In general, The easiest way to answer 'how do i do X' in assembly is to do X in C and then look at the generated assembly from the C compiler under a debugger.
Crackers

Contents

Optimization manuals

Win32 Assembly Coding For Crackers

This series of five manuals describes everything you need to know about optimizing code for x86 and x86-64 family microprocessors, including optimization advices for C++ and assembly language, details about the microarchitecture and instruction timings of most Intel, AMD and VIA processors, and details about different compilers and calling conventions.

Operating systems covered: DOS, Windows, Linux, BSD, Mac OS X Intel based, 32 and 64 bits.

Note that these manuals are not for beginners.

1. Optimizing software in C++: An optimization guide for Windows, Linux and Mac platforms
This is an optimization manual for advanced C++ programmers. Topics include: The choice of platform and operating system. Choice of compiler and framework. Finding performance bottlenecks. The efficiency of different C++ constructs. Multi-core systems. Parallelization with vector operations. CPU dispatching. Efficient container class templates. Etc.
File name: optimizing_cpp.pdf, size: 1763670, last modified: 2020-Sep-02.
Download.
2. Optimizing subroutines in assembly language: An optimization guide for x86 platforms
This is an optimization manual for advanced assembly language programmers and compiler makers. Topics include: C++ instrinsic functions, inline assembly and stand-alone assembly. Linking optimized assembly subroutines into high level language programs. Making subroutine libraries compatible with multiple compilers and operating systems. Optimizing for speed or size. Memory access. Loops. Vector programming (XMM, YMM, SIMD). CPU-specific optimization and CPU dispatching.
File name: optimizing_assembly.pdf, size: 1505101, last modified: 2020-Aug-27.
Download.
3. The microarchitecture of Intel, AMD and VIA CPUs: An optimization guide for assembly programmers and compiler makers
This manual contains details about the internal working of various microprocessors from Intel, AMD and VIA. Topics include: Out-of-order execution, register renaming, pipeline structure, execution unit organization and branch prediction algorithms for each type of microprocessor. Describes many details that cannot be found in manuals from microprocessor vendors or anywhere else. The information is based on my own research and measurements rather than on official sources. This information will be useful to programmers who want to make CPU-specific optimizations as well as to compiler makers and students of microarchitecture.
File name: microarchitecture.pdf, size: 2212790, last modified: 2020-Sep-02.
Download.
4. Instruction tables: Lists of instruction latencies, throughputs and micro-operation breakdowns for Intel, AMD and VIA CPUs
Contains detailed lists of instruction latencies, execution unit throughputs, micro-operation breakdown and other details for all common application instructions of most microprocessors from Intel, AMD and VIA. Intended as an appendix to the preceding manuals. Available as pdf file and as spreadsheet (ods format).
File name: instruction_tables.pdf, size: 1854855, last modified: 2020-Oct-11.
Download.
File name: instruction_tables.ods, size: 466731, last modified: 2020-Oct-11.
Download.
5. Calling conventions for different C++ compilers and operating systems
This document contains details about data representation, function calling conventions, register usage conventions, name mangling schemes, etc. for many different C++ compilers and operating systems. Discusses compatibilities and incompatibilities between different C++ compilers. Includes information that is not covered by the official Application Binary Interface standards (ABI's). The information provided here is based on my own research and therefore descriptive rather than normative. Intended as a source of reference for programmers who want to make function libraries compatible with multiple compilers or operating systems and for makers of compilers and other development tools who want their tools to be compatible with existing tools.
File name: calling_conventions.pdf, size: 1070004, last modified: 2020-Aug-27.
Download.
All five manuals
Download all the above manuals together in one zip file.
File name: optimization_manuals.zip, size: 6784517, last modified: 2020-Oct-11.
Download.

C++ vector class library

This is a collection of C++ classes, functions and operators that makes it easier to use the the vector instructions (Single Instruction Multiple Data instructions) of modern CPUs without using assembly language. Supports the SSE2, SSE3, SSSE3, SSE4.1, SSE4.2, AVX, AVX2, FMA, XOP, and AVX512F/BW/DQ/VL instruction sets. Includes standard mathematical functions. Can compile for different instruction sets from the same source code.
Description and instructions.
Message board.
Source on Github.
Nice little instruction video by WhatsaCreel.

Latest release.

Object file converter

This utility can be used for converting object files between COFF/PE, OMF, ELF and Mach-O formats for all 32-bit and 64-bit x86 platforms. Can modify symbol names in object files. Can build, modify and convert function libraries across platforms. Can dump object files and executable files. Also includes a very good disassembler supporting the SSE4, AVX, AVX2, AVX512, FMA3, FMA4, XOP and Knights Corner instruction sets. Source code included (GPL). Manual.

File name: objconv.zip, size: 1055692, last modified: 2020-Jun-08.
Download.

Subroutine library

This is a library of optimized subroutines coded in assembly language. The functions in this library can be called from C, C++ and other compiled high-level languages. Supports many different compilers under Windows, Linux, BSD and Mac OS X operating systems, 32 and 64 bits. This library contains faster versions of common C/C++ memory and string functions, fast functions for string search and string parsing, fast integer division and integer vector division, as well as several useful functions not found elsewhere.

Win32 Assembly Coding For Crackers Using

The package contains library files in many different file formats, C++ header file and assembly language source code. Gnu general public license applies. Manual.

File name: asmlib.zip, size: 883583, last modified: 2018-Apr-25.
Download.

ForwardCom: An open standard instruction set for high performance microprocessors

This is a proposal and discussion of how an ideal instruction set architecture can be constructed. The proposed instruction set combines the best from the RISC and CISC principles to produce a flexible, consistent, modular, orthogonal, scalable and expansible instruction set for high performance microprocessors and large vector processors.

The ForwardCom instruction set has variable-length vector registers and a special addressing mode that allows the software to automatically adapt to different microprocessors with different maximum vector lengths and make efficient loops through arrays regardless of whether the array size is divisible by the vector length. Standardization of the corresponding ecosystem of ABI standards, function libraries, compilers, etc. makes it possible to combine different programming languages in the same program.

Introduction: www.forwardcom.info.
Manual: File name: forwardcom.pdf, size: 769352, last modified: 2017-Nov-03.
Download.

Win32

Test programs for measuring clock cycles and performance monitoring

Test programs that I have used for my research. Can measure clock cycles and performance monitor counters such as cache misses, branch mispredictions, resource stalls etc. in a small piece of code in C, C++ or assembly. Can also set up performance monitor counters for reading inside another program. Supports Windows and Linux, 32 and 64 bit mode, multiple threads.

For experts only. Useful for analyzing small pieces of code but not for profiling a whole program.

File name: testp.zip, size: 1033678, last modified: 2020-Sep-03.
Download.

Floating point exception tracking and NAN propagation

This article discusses the problems with floating point exceptions in systems that use out-of-order parallelism and SIMD parallelism. A solution based on NAN propagation is recommended.
File name: nan_propagation.pdf, size: 212063, last modified: 2020-Apr-27.
Download.

CPUID manipulation program for VIA

This is a program that can change the CPUID vendor string, family and model number on VIA Nano processors. See my blog for a discussion of the purpose of this program.

File name: cpuidfake.zip, size: 67593, last modified: 2010-Aug-08.
Download.

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Useful software optimization links

Agner's CPU blog www.agner.org/forum

CPU-id tools and information www.cpuid.com

Godbolt compiler explorer. This is a very useful online tool to test how different compilers treat a piece of code. Supports the vector class library. www.godbolt.org

Masm Forum www.masmforum.com

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ASM Community Messageboard www.asmcommunity.net/forums

Hutch's masm pages www.masm32.com

likwid performance measuring tools for Linux github.com/RRZE-HPC/likwid

Bit Twiddling Hacks graphics.stanford.edu/~seander/bithacks.html

Programmer's heaven assembler zone Programmers' Heaven

Win32 Assembly Coding For Crackers

Virtual sandpile x86 Processor information www.sandpile.org

Online computer books www.computer-books.us/assembler.php

Instruction latency listings instlatx64.atw.hu/ and uops.info

NASM assembler www.nasm.us/

FASM assembler and messageboard flatassembler.net

JWASM assembler www.japheth.de

Yeppp open source library of assembly language functions bitbucket.org/MDukhan/yeppp

MAQAO (Modular Assembly Quality Analyzer and Optimizer), a tool for analyzing and optimizing binary codes. www.maqao.org

Intel resources

Reference manuals and other documents can be found at Intel's web site. Intel's web site is refurnished so often that any link I could provide here to specific documents would be broken after a few months. I will therefore recommend that you use the search facilities at www.intel.com and search for 'Software Developer's Manual' and 'Optimization Reference Manual'.

AMD resources

Microsoft resources

MASM manuals Microsoft Macro Assembler reference

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Win32 Assembly Coding For Crackers Free

The Assembly Programming Master Book

Win32 Assembly Coding For Crackers Crumbs

Aiming to prove that writing programs for Windows in the Assembly language is no more difficult than writing the same programs using C/C++, this guide shows how Assembly code is actually more compact and executes faster. The algorithmic knowledge and skills lost in high-level programming provides the justification demonstrated in this guide for using Assembly code. Working applications with detailed comments and descriptions of their operating principles, along with material that can be considered hackish, are included. The tools and techniques of code analysis and modification are covered, making this a useful tool for programmers eager to become better acquainted with hacker methods. Not a guide on Assembly language, this represents a symbiosis between the Assembly language and the Windows operating system.