• Title/Summary/Keyword: ELF 목적파일

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A Recovery Method of External Symbol Information in Statically-Linked ELF Files (정적 링크된 ELF 파일에서의 외부 심볼 정보 복구 기법)

  • Kim, Jung-In
    • Journal of Korea Multimedia Society
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    • v.13 no.2
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    • pp.161-170
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    • 2010
  • ELF, an abbreviation for Executable and Linkable Format, is the basic file format for shared libraries and executable files used in the Linux system, whereas 'Linker' copies the symbol information of static shared libraries into the symbol table in the target file generated by way of static linking. At this time, the symbol table keeps various pieces of debugging-related information including function names provided by the shared libraries, and it can be deleted to avoid debugging for security reasons by utilizing the fact that it does not directly affect the program execution. This paper proposes a method for restoring the symbol information of static shared libraries from the ELF object file in which the symbol table is deleted, and confirms that the symbol information is restored by conducting practical experiments.

Static Timing Analysis Tool for ARM-based Embedded Software (ARM용 내장형 소프트웨어의 정적인 수행시간 분석 도구)

  • Hwang Yo-Seop;Ahn Seong-Yong;Shim Jea-Hong;Lee Jeong-A
    • Journal of KIISE:Computing Practices and Letters
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    • v.11 no.1
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    • pp.15-25
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    • 2005
  • Embedded systems have a set of tasks to execute. These tasks can be implemented either on application specific hardware or as software running on a specific processor. The design of an embedded system involves the selection of hardware software resources, Partition of tasks into hardware and software, and performance evaluation. An accurate estimation of execution time for extreme cases (best and worst case) is important for hardware/software codesign. A tighter estimation of the execution time bound nay allow the use of a slower processor to execute the code and may help lower the system cost. In this paper, we consider an ARM-based embedded system and developed a tool to estimate the tight boundary of execution time of a task with loop bounds and any additional program path information. The tool we developed is based on an exiting timing analysis tool named 'Cinderella' which currently supports i960 and m68k architectures. We add a module to handle ARM ELF object file, which extracts control flow and debugging information, and a module to handle ARM instruction set so that the new tool can support ARM processor. We validate the tool by comparing the estimated bound of execution time with the run-time execution time measured by ARMulator for a selected bechmark programs.