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blog.yossarian.net
| | gpfault.net
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| | [AI summary] The provided text is a detailed explanation of how to write a simple 64-bit Windows application in assembly language that calls the ExitProcess function from the KERNEL32.DLL library. It covers the following key topics: 1. **Memory and Register Basics**: Explains how memory and registers work in 64-bit Windows, including the use of the stack pointer (RSP), registers like RCX, RDX, R8, and R9 for passing arguments, and the importance of stack alignment for performance. 2. **Calling Conventions**: Details the 64-bit Windows calling convention, including how the first four integer or pointer arguments are passed in registers (RCX, RDX, R8, R9), how additional arguments are passed on the stack, and the requirement for the stack to be aligned to ...
| | shellsharks.com
5.5 parsecs away

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| | An introduction to x86 Intel assembly.
| | www.timdbg.com
5.2 parsecs away

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| | [AI summary] This article provides an introduction to reading x86 assembly language, emphasizing its importance for understanding how programs operate at a fundamental level. It covers the basics of assembly syntax, common instructions, and practical tools for reading and analyzing assembly code. The author explains that while assembly is often viewed as complex, it's actually more approachable than many believe, especially for debugging and reverse engineering tasks. The article also highlights the differences between Intel and AT&T syntax, the structure of assembly instructions, and the role of registers and memory addressing in x86 architecture.
| | 0x44.cc
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| [AI summary] The article provides an in-depth explanation of reverse engineering concepts, including CPU operations, memory representation, data structures, and disassembly techniques. It guides readers through understanding machine code, endianness, signed integers, and how to analyze C code using tools like Visual Studio and disassemblers.