Radare2: Difference between revisions
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Radare [1] is an open source and multi-platform framework for Reverse Engineering activities which supports assembly and disassembly many architectures and binary formats [2]. As any other reversing framework, Radare framework aims to recognize high level features on machine code, such as: data structures, functions and execution flows. Radare has buildings for the most populars Operating Systems, such as: Microsoft Windows, Mac OS X, Linux, BSD, iPhone OS, Solaris and MeeGo. Figure 01 presents the main command line interface for Radare. | Radare [1] is an open source and multi-platform framework for Reverse Engineering activities which supports assembly and disassembly many architectures and binary formats [2]. As any other reversing framework, Radare framework aims to recognize high level features on machine code, such as: data structures, functions and execution flows. Radare has buildings for the most populars Operating Systems, such as: Microsoft Windows, Mac OS X, Linux, BSD, iPhone OS, Solaris and MeeGo. Figure 01 presents the main command line interface for Radare. | ||
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Radare offers few options of interactive graphical interfaces, such as: Web, GTK (Python) and ASCII-Art graph. Another very useful characteristic due to its designing is the capacity to easily implement new architectures, binary formats and analyses [3][4]. Radare provides an open API and with many bindings for many programming languages, such as: Python, Java, Ruby, Go and Perl. Radare is also integrated with the most popular debuggers supporting local and remote debugging [5], such as: gdb, rap, webui, r2pipe, winedbg and windbg. | Radare offers few options of interactive graphical interfaces, such as: Web, GTK (Python) and ASCII-Art graph. Another very useful characteristic due to its designing is the capacity to easily implement new architectures, binary formats and analyses [3][4]. Radare provides an open API and with many bindings for many programming languages, such as: Python, Java, Ruby, Go and Perl. Radare is also integrated with the most popular debuggers supporting local and remote debugging [5], such as: gdb, rap, webui, r2pipe, winedbg and windbg. | ||
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The framework is essentially composed by 7 executables: | The framework is essentially composed by 7 executables: | ||
Revision as of 23:24, 24 August 2016
Radare [1] is an open source and multi-platform framework for Reverse Engineering activities which supports assembly and disassembly many architectures and binary formats [2]. As any other reversing framework, Radare framework aims to recognize high level features on machine code, such as: data structures, functions and execution flows. Radare has buildings for the most populars Operating Systems, such as: Microsoft Windows, Mac OS X, Linux, BSD, iPhone OS, Solaris and MeeGo. Figure 01 presents the main command line interface for Radare.
== Radare offers few options of interactive graphical interfaces, such as: Web, GTK (Python) and ASCII-Art graph. Another very useful characteristic due to its designing is the capacity to easily implement new architectures, binary formats and analyses [3][4]. Radare provides an open API and with many bindings for many programming languages, such as: Python, Java, Ruby, Go and Perl. Radare is also integrated with the most popular debuggers supporting local and remote debugging [5], such as: gdb, rap, webui, r2pipe, winedbg and windbg.
== The framework is essentially composed by 7 executables:
rax - responsible for converting numbers (e.g. string to hexadecimal, decimal to hexadecimal etc); rahash - block based hashing utility; rabin - responsible for extracting information about binaries; rasm - assembly and disassembly from the shell; rafind - binary file search and edit tool; radiff - responsible for differential analysis. Very useful for analyzing patches; radare2 - main executable which combines all above mentioned binaries.