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1141 lines
50 KiB
Markdown
1141 lines
50 KiB
Markdown
# 2.5 Radare2
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- [简介](#简介)
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- [安装](#安装)
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- [命令行使用方法](#命令行使用方法)
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- [radare2/r2](#radare2r2)
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- [rabin2](#rabin2)
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- [rasm2](#rasm2)
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- [rahash2](#rahash2)
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- [radiff2](#radiff2)
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- [rafind2](#rafind2)
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- [ragg2](#ragg2)
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- [rarun2](#rarun2)
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- [rax2](rax2)
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- [交互式使用方法](#交互式使用方法)
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- [分析(analyze)](#分析analyze)
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- [Flags](#flags)
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- [定位(seeking)](#定位seeking)
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- [信息(information)](#信息information)
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- [打印(print) & 反汇编(disassembling)](#打印print--反汇编disassembling)
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- [写入(write)](#写入write)
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- [调试(debugging)](#调试debugging)
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- [视图模式](#视图模式)
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- [Web 界面使用](#web-界面使用)
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- [cutter GUI](#cutter-gui)
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- [在 CTF 中的运用](#在-ctf-中的运用)
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- [更多资源](#更多资源)
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## 简介
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IDA Pro 昂贵的价格令很多二进制爱好者望而却步,于是在开源世界中催生出了一个新的逆向工程框架——Radare2,它拥有非常强大的功能,包括反汇编、调试、打补丁、虚拟化等等,而且可以运行在几乎所有的主流平台上(GNU/Linux、Windows、BSD、iOS、OSX……)。Radare2 开发之初仅提供了基于命令行的操作,尽管现在也有非官方的GUI,但我更喜欢直接在终端上运行它,当然这也就意味着更高陡峭的学习曲线。Radare2 是由一系列的组件构成的,这些组件赋予了 Radare2 强大的分析能力,可以在 Radare2 中或者单独被使用。
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这里是 Radare2 与其他二进制分析工具的对比。([Comparison Table](http://rada.re/r/cmp.html))
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## 安装
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#### 安装
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```bash
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$ git clone https://github.com/radare/radare2.git
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$ cd radare2
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$ ./sys/install.sh
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```
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#### 更新
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```bash
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$ ./sys/install.sh
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```
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#### 卸载
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```bash
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$ make uninstall
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$ make purge
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```
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## 命令行使用方法
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Radare2 在命令行下有一些小工具可供使用:
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- radare2:十六进制编辑器和调试器的核心,通常通过它进入交互式界面。
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- rabin2:从可执行二进制文件中提取信息。
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- rasm2:汇编和反汇编。
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- rahash2:基于块的哈希工具。
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- radiff2:二进制文件或代码差异比对。
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- rafind2:查找字节模式。
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- ragg2:r_egg 的前端,将高级语言编写的简单程序编译成x86、x86-64和ARM的二进制文件。
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- rarun2:用于在不同环境中运行程序。
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- rax2:数据格式转换。
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#### radare2/r2
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```text
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$ r2 -h
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Usage: r2 [-ACdfLMnNqStuvwzX] [-P patch] [-p prj] [-a arch] [-b bits] [-i file]
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[-s addr] [-B baddr] [-M maddr] [-c cmd] [-e k=v] file|pid|-|--|=
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-- run radare2 without opening any file
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- same as 'r2 malloc://512'
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= read file from stdin (use -i and -c to run cmds)
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-= perform !=! command to run all commands remotely
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-0 print \x00 after init and every command
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-a [arch] set asm.arch
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-A run 'aaa' command to analyze all referenced code
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-b [bits] set asm.bits
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-B [baddr] set base address for PIE binaries
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-c 'cmd..' execute radare command
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-C file is host:port (alias for -c+=http://%s/cmd/)
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-d debug the executable 'file' or running process 'pid'
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-D [backend] enable debug mode (e cfg.debug=true)
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-e k=v evaluate config var
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-f block size = file size
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-F [binplug] force to use that rbin plugin
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-h, -hh show help message, -hh for long
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-H ([var]) display variable
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-i [file] run script file
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-I [file] run script file before the file is opened
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-k [k=v] perform sdb query into core->sdb
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-l [lib] load plugin file
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-L list supported IO plugins
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-m [addr] map file at given address (loadaddr)
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-M do not demangle symbol names
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-n, -nn do not load RBin info (-nn only load bin structures)
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-N do not load user settings and scripts
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-o [OS/kern] set asm.os (linux, macos, w32, netbsd, ...)
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-q quiet mode (no prompt) and quit after -i
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-p [prj] use project, list if no arg, load if no file
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-P [file] apply rapatch file and quit
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-R [rarun2] specify rarun2 profile to load (same as -e dbg.profile=X)
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-s [addr] initial seek
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-S start r2 in sandbox mode
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-t load rabin2 info in thread
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-u set bin.filter=false to get raw sym/sec/cls names
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-v, -V show radare2 version (-V show lib versions)
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-w open file in write mode
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-X [rr2rule] specify custom rarun2 directive
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-z, -zz do not load strings or load them even in raw
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```
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参数很多,这里最重要是 `file`。如果你想 attach 到一个进程上,则使用 `pid`。常用参数如下:
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- `-A`:相当于在交互界面输入了 `aaa`。
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- `-c`:运行 radare 命令。(`r2 -A -q -c 'iI~pic' file`)
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- `-d`:调试二进制文件或进程。
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- `-a`,`-b`,`-o`:分别指定体系结构、位数和操作系统,通常是自动的,但也可以手动指定。
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- `-w`:使用可写模式打开。
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#### rabin2
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```text
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$ rabin2 -h
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Usage: rabin2 [-AcdeEghHiIjlLMqrRsSvVxzZ] [-@ at] [-a arch] [-b bits] [-B addr]
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[-C F:C:D] [-f str] [-m addr] [-n str] [-N m:M] [-P[-P] pdb]
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[-o str] [-O str] [-k query] [-D lang symname] | file
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-@ [addr] show section, symbol or import at addr
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-A list sub-binaries and their arch-bits pairs
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-a [arch] set arch (x86, arm, .. or <arch>_<bits>)
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-b [bits] set bits (32, 64 ...)
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-B [addr] override base address (pie bins)
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-c list classes
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-C [fmt:C:D] create [elf,mach0,pe] with Code and Data hexpairs (see -a)
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-d show debug/dwarf information
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-D lang name demangle symbol name (-D all for bin.demangle=true)
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-e entrypoint
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-E globally exportable symbols
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-f [str] select sub-bin named str
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-F [binfmt] force to use that bin plugin (ignore header check)
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-g same as -SMZIHVResizcld (show all info)
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-G [addr] load address . offset to header
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-h this help message
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-H header fields
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-i imports (symbols imported from libraries)
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-I binary info
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-j output in json
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-k [sdb-query] run sdb query. for example: '*'
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-K [algo] calculate checksums (md5, sha1, ..)
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-l linked libraries
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-L [plugin] list supported bin plugins or plugin details
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-m [addr] show source line at addr
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-M main (show address of main symbol)
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-n [str] show section, symbol or import named str
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-N [min:max] force min:max number of chars per string (see -z and -zz)
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-o [str] output file/folder for write operations (out by default)
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-O [str] write/extract operations (-O help)
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-p show physical addresses
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-P show debug/pdb information
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-PP download pdb file for binary
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-q be quiet, just show fewer data
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-qq show less info (no offset/size for -z for ex.)
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-Q show load address used by dlopen (non-aslr libs)
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-r radare output
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-R relocations
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-s symbols
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-S sections
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-u unfiltered (no rename duplicated symbols/sections)
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-v display version and quit
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-V Show binary version information
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-x extract bins contained in file
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-X [fmt] [f] .. package in fat or zip the given files and bins contained in file
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-z strings (from data section)
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-zz strings (from raw bins [e bin.rawstr=1])
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-zzz dump raw strings to stdout (for huge files)
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-Z guess size of binary program
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```
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当我们拿到一个二进制文件时,第一步就是获取关于它的基本信息,这时候就可以使用 rabin2。rabin2 可以获取包括 ELF、PE、Mach-O、Java CLASS 文件的区段、头信息、导入导出表、数据段字符串、入口点等信息,并且支持多种格式的输出。
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下面介绍一些常见的用法:(我还会列出其他实现类似功能工具的用法,你可以对比一下它们的输出)
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- `-I`:最常用的参数,它可以打印出二进制文件信息,其中我们需要重点关注其使用的安全防护技术,如 canary、pic、nx 等。(`file`、`chekcsec -f`)
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- `-e`:得到二进制文件的入口点。(`readelf -h`)
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- `-i`:获得导入符号表,RLT中的偏移等。(`readelf -r`)
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- `-E`:获得全局导出符号表。
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- `-s`:获得符号表。(`readelf -s`)
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- `-l`:获得二进制文件使用到的动态链接库。(`ldd`)
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- `-z`:从 ELF 文件的 .rodare 段或 PE 文件的 .text 中获得字符串。(`strings -d`)
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- `-S`:获得完整的段信息。(`readelf -S`)
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- `-c`:列出所有类,在分析 Java 程序是很有用。
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最后还要提到的一个参数 `-r`,它可以将我们得到的信息以 radare2 可读的形式输出,在后续的分析中可以将这样格式的信息输入 radare2,这是非常有用的。
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#### rasm2
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```text
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$ rasm2 -h
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Usage: rasm2 [-ACdDehLBvw] [-a arch] [-b bits] [-o addr] [-s syntax]
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[-f file] [-F fil:ter] [-i skip] [-l len] 'code'|hex|-
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-a [arch] Set architecture to assemble/disassemble (see -L)
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-A Show Analysis information from given hexpairs
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-b [bits] Set cpu register size (8, 16, 32, 64) (RASM2_BITS)
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-c [cpu] Select specific CPU (depends on arch)
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-C Output in C format
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-d, -D Disassemble from hexpair bytes (-D show hexpairs)
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-e Use big endian instead of little endian
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-E Display ESIL expression (same input as in -d)
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-f [file] Read data from file
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-F [in:out] Specify input and/or output filters (att2intel, x86.pseudo, ...)
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-h, -hh Show this help, -hh for long
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-i [len] ignore/skip N bytes of the input buffer
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-k [kernel] Select operating system (linux, windows, darwin, ..)
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-l [len] Input/Output length
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-L List Asm plugins: (a=asm, d=disasm, A=analyze, e=ESIL)
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-o [offset] Set start address for code (default 0)
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-O [file] Output file name (rasm2 -Bf a.asm -O a)
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-p Run SPP over input for assembly
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-s [syntax] Select syntax (intel, att)
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-B Binary input/output (-l is mandatory for binary input)
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-v Show version information
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-w What's this instruction for? describe opcode
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-q quiet mode
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```
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rasm2 是一个内联汇编、反汇编程序。它的主要功能是获取给定机器指令操作码对应的字节。
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下面是一些重要的参数:
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- `-L`:列出目标体系结构所支持的插件,输出中的第一列说明了插件提供的功能(a=asm, d=disasm, A=analyze, e=ESIL)。
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- `-a`:知道插件的名字后,就可以使用 -a` 来进行设置。
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- `-b`:设置CPU寄存器的位数。
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- `-d`:反汇编十六进制对字符串。
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- `-D`:反汇编并显示十六进制对和操作码。
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- `-C`:汇编后以 C 语言风格输出。
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- `-f`:从文件中读入汇编代码。
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例子:
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```
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$ rasm2 -a x86 -b 32 'mov eax,30'
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b81e000000
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$ rasm2 -a x86 -b 32 'mov eax,30' -C
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"\xb8\x1e\x00\x00\x00"
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$ rasm2 -d b81e000000
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mov eax, 0x1e
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$ rasm2 -D b81e000000
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0x00000000 5 b81e000000 mov eax, 0x1e
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$ rasm2 -a x86 -b 32 -d 'b81e000000'
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mov eax, 0x1e
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$ cat a.asm
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mov eax,30
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$ rasm2 -f a.asm
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b81e000000
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```
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#### rahash2
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```text
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$ rahash2 -h
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Usage: rahash2 [-rBhLkv] [-b S] [-a A] [-c H] [-E A] [-s S] [-f O] [-t O] [file] ...
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-a algo comma separated list of algorithms (default is 'sha256')
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-b bsize specify the size of the block (instead of full file)
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-B show per-block hash
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-c hash compare with this hash
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-e swap endian (use little endian)
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-E algo encrypt. Use -S to set key and -I to set IV
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-D algo decrypt. Use -S to set key and -I to set IV
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-f from start hashing at given address
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-i num repeat hash N iterations
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-I iv use give initialization vector (IV) (hexa or s:string)
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-S seed use given seed (hexa or s:string) use ^ to prefix (key for -E)
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(- will slurp the key from stdin, the @ prefix points to a file
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-k show hash using the openssh's randomkey algorithm
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-q run in quiet mode (-qq to show only the hash)
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-L list all available algorithms (see -a)
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-r output radare commands
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-s string hash this string instead of files
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-t to stop hashing at given address
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-x hexstr hash this hexpair string instead of files
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-v show version information
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```
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rahash2 用于计算检验和,支持字节流、文件、字符串等形式和多种算法。
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重要参数:
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- `-a`:指定算法。默认为 sha256,如果指定为 all,则使用所有算法。
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- `-b`:指定块的大小(而不是整个文件)
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- `-B`:打印处每个块的哈希
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- `-s`:指定字符串(而不是文件)
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- `-a entropy`:显示每个块的熵(`-B -b 512 -a entropy`)
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#### radiff2
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```text
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$ radiff2 -h
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Usage: radiff2 [-abcCdjrspOxuUvV] [-A[A]] [-g sym] [-t %] [file] [file]
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-a [arch] specify architecture plugin to use (x86, arm, ..)
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-A [-A] run aaa or aaaa after loading each binary (see -C)
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-b [bits] specify register size for arch (16 (thumb), 32, 64, ..)
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-c count of changes
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-C graphdiff code (columns: off-A, match-ratio, off-B) (see -A)
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-d use delta diffing
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-D show disasm instead of hexpairs
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-e [k=v] set eval config var value for all RCore instances
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-g [sym|off1,off2] graph diff of given symbol, or between two offsets
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-G [cmd] run an r2 command on every RCore instance created
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-i diff imports of target files (see -u, -U and -z)
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-j output in json format
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-n print bare addresses only (diff.bare=1)
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-O code diffing with opcode bytes only
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-p use physical addressing (io.va=0)
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-q quiet mode (disable colors, reduce output)
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-r output in radare commands
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-s compute text distance
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-ss compute text distance (using levenstein algorithm)
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-S [name] sort code diff (name, namelen, addr, size, type, dist) (only for -C or -g)
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-t [0-100] set threshold for code diff (default is 70%)
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-x show two column hexdump diffing
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-u unified output (---+++)
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-U unified output using system 'diff'
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-v show version information
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-V be verbose (current only for -s)
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-z diff on extracted strings
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```
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radiff2 是一个基于偏移的比较工具。
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重要参数:
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- `-s`:计算文本距离并得到相似度。
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- `-AC`:这两个参数通常一起使用,从函数的角度进行比较。
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- `-g`:得到给定的符号或两个偏移的图像对比。
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- 如:`radiff2 -g main a.out b.out | xdot -`(需要安装xdot)
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- `-c`:计算不同点的数量。
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#### rafind2
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```text
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$ rafind2 -h
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Usage: rafind2 [-mXnzZhv] [-a align] [-b sz] [-f/t from/to] [-[m|s|S|e] str] [-x hex] file ..
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-a [align] only accept aligned hits
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-b [size] set block size
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-e [regex] search for regular expression string matches
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-f [from] start searching from address 'from'
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-h show this help
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-m magic search, file-type carver
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-M [str] set a binary mask to be applied on keywords
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-n do not stop on read errors
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-r print using radare commands
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-s [str] search for a specific string (can be used multiple times)
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-S [str] search for a specific wide string (can be used multiple times)
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-t [to] stop search at address 'to'
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-v print version and exit
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-x [hex] search for hexpair string (909090) (can be used multiple times)
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-X show hexdump of search results
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-z search for zero-terminated strings
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-Z show string found on each search hit
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```
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rafind2 用于在二进制文件中查找字符模式。
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重要参数:
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- `-s`:查找特定字符串。
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- `-e`:使用正则匹配。
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- `-z`:搜索以`\0`结束的字符串。
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- `-x`:查找十六进制字符串。
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#### ragg2
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```text
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$ ragg2 -h
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Usage: ragg2 [-FOLsrxhvz] [-a arch] [-b bits] [-k os] [-o file] [-I path]
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[-i sc] [-e enc] [-B hex] [-c k=v] [-C file] [-p pad] [-q off]
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[-q off] [-dDw off:hex] file|f.asm|-
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-a [arch] select architecture (x86, mips, arm)
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-b [bits] register size (32, 64, ..)
|
||
-B [hexpairs] append some hexpair bytes
|
||
-c [k=v] set configuration options
|
||
-C [file] append contents of file
|
||
-d [off:dword] patch dword (4 bytes) at given offset
|
||
-D [off:qword] patch qword (8 bytes) at given offset
|
||
-e [encoder] use specific encoder. see -L
|
||
-f [format] output format (raw, pe, elf, mach0)
|
||
-F output native format (osx=mach0, linux=elf, ..)
|
||
-h show this help
|
||
-i [shellcode] include shellcode plugin, uses options. see -L
|
||
-I [path] add include path
|
||
-k [os] operating system's kernel (linux,bsd,osx,w32)
|
||
-L list all plugins (shellcodes and encoders)
|
||
-n [dword] append 32bit number (4 bytes)
|
||
-N [dword] append 64bit number (8 bytes)
|
||
-o [file] output file
|
||
-O use default output file (filename without extension or a.out)
|
||
-p [padding] add padding after compilation (padding=n10s32)
|
||
ntas : begin nop, trap, 'a', sequence
|
||
NTAS : same as above, but at the end
|
||
-P [size] prepend debruijn pattern
|
||
-q [fragment] debruijn pattern offset
|
||
-r show raw bytes instead of hexpairs
|
||
-s show assembler
|
||
-v show version
|
||
-w [off:hex] patch hexpairs at given offset
|
||
-x execute
|
||
-z output in C string syntax
|
||
```
|
||
|
||
ragg2 可以将高级语言编写的简单程序编译成 x86、x86-64 或 ARM 的二进制文件。
|
||
|
||
重要参数:
|
||
- `-a`:设置体系结构。
|
||
- `-b`:设置体系结构位数(32/64)。
|
||
- `-P`:生成某种模式的字符串,常用于输入到某程序中并寻找溢出点。
|
||
- `-r`:使用原始字符而不是十六进制对。
|
||
- ragg2 -P 50 -r`
|
||
- `-i`:生成指定的 shellcode。查看 `-L`。
|
||
- `ragg2 -a x86 -b 32 -i exec`
|
||
- `-e`:使用指定的编码器。查看 `-L`。
|
||
|
||
#### rarun2
|
||
```text
|
||
$ rarun2 -h
|
||
Usage: rarun2 -v|-t|script.rr2 [directive ..]
|
||
program=/bin/ls
|
||
arg1=/bin
|
||
# arg2=hello
|
||
# arg3="hello\nworld"
|
||
# arg4=:048490184058104849
|
||
# arg5=:!ragg2 -p n50 -d 10:0x8048123
|
||
# arg6=@arg.txt
|
||
# arg7=@300@ABCD # 300 chars filled with ABCD pattern
|
||
# system=r2 -
|
||
# aslr=no
|
||
setenv=FOO=BAR
|
||
# unsetenv=FOO
|
||
# clearenv=true
|
||
# envfile=environ.txt
|
||
timeout=3
|
||
# timeoutsig=SIGTERM # or 15
|
||
# connect=localhost:8080
|
||
# listen=8080
|
||
# pty=false
|
||
# fork=true
|
||
# bits=32
|
||
# pid=0
|
||
# pidfile=/tmp/foo.pid
|
||
# #sleep=0
|
||
# #maxfd=0
|
||
# #execve=false
|
||
# #maxproc=0
|
||
# #maxstack=0
|
||
# #core=false
|
||
# #stdio=blah.txt
|
||
# #stderr=foo.txt
|
||
# stdout=foo.txt
|
||
# stdin=input.txt # or !program to redirect input to another program
|
||
# input=input.txt
|
||
# chdir=/
|
||
# chroot=/mnt/chroot
|
||
# libpath=$PWD:/tmp/lib
|
||
# r2preload=yes
|
||
# preload=/lib/libfoo.so
|
||
# setuid=2000
|
||
# seteuid=2000
|
||
# setgid=2001
|
||
# setegid=2001
|
||
# nice=5
|
||
```
|
||
|
||
rarun2 是一个可以使用不同环境、参数、标准输入、权限和文件描述符的启动器。
|
||
|
||
常用的参数设置:
|
||
- `program`
|
||
- `arg1`, `arg2`,...
|
||
- `setenv`
|
||
- `stdin`, `stdout`
|
||
|
||
例子:
|
||
- `rarun2 program=a.out arg1=$(ragg2 -P 300 -r)`
|
||
- `rarun2 program=a.out stdin=$(python a.py)`
|
||
|
||
#### rax2
|
||
```text
|
||
$ rax2 -h
|
||
Usage: rax2 [options] [expr ...]
|
||
=[base] ; rax2 =10 0x46 -> output in base 10
|
||
int -> hex ; rax2 10
|
||
hex -> int ; rax2 0xa
|
||
-int -> hex ; rax2 -77
|
||
-hex -> int ; rax2 0xffffffb3
|
||
int -> bin ; rax2 b30
|
||
int -> ternary ; rax2 t42
|
||
bin -> int ; rax2 1010d
|
||
float -> hex ; rax2 3.33f
|
||
hex -> float ; rax2 Fx40551ed8
|
||
oct -> hex ; rax2 35o
|
||
hex -> oct ; rax2 Ox12 (O is a letter)
|
||
bin -> hex ; rax2 1100011b
|
||
hex -> bin ; rax2 Bx63
|
||
hex -> ternary ; rax2 Tx23
|
||
raw -> hex ; rax2 -S < /binfile
|
||
hex -> raw ; rax2 -s 414141
|
||
-b bin -> str ; rax2 -b 01000101 01110110
|
||
-B str -> bin ; rax2 -B hello
|
||
-d force integer ; rax2 -d 3 -> 3 instead of 0x3
|
||
-e swap endianness ; rax2 -e 0x33
|
||
-D base64 decode ;
|
||
-E base64 encode ;
|
||
-f floating point ; rax2 -f 6.3+2.1
|
||
-F stdin slurp C hex ; rax2 -F < shellcode.c
|
||
-h help ; rax2 -h
|
||
-k keep base ; rax2 -k 33+3 -> 36
|
||
-K randomart ; rax2 -K 0x34 1020304050
|
||
-n binary number ; rax2 -n 0x1234 # 34120000
|
||
-N binary number ; rax2 -N 0x1234 # \x34\x12\x00\x00
|
||
-r r2 style output ; rax2 -r 0x1234
|
||
-s hexstr -> raw ; rax2 -s 43 4a 50
|
||
-S raw -> hexstr ; rax2 -S < /bin/ls > ls.hex
|
||
-t tstamp -> str ; rax2 -t 1234567890
|
||
-x hash string ; rax2 -x linux osx
|
||
-u units ; rax2 -u 389289238 # 317.0M
|
||
-w signed word ; rax2 -w 16 0xffff
|
||
-v version ; rax2 -v
|
||
```
|
||
|
||
rax2 是一个格式转换工具,在二进制、八进制、十六进制数字和字符串之间进行转换。
|
||
|
||
重要参数:
|
||
- `-e`:交换字节顺序。
|
||
- `-s`:十六进制->字符
|
||
- `-S`:字符->十六进制
|
||
- `-D`, `-E`:base64 解码和编码
|
||
|
||
|
||
## 交互式使用方法
|
||
当我们进入到 Radare2 的交互式界面后,就可以使用交互式命令进行操作。
|
||
|
||
输入 `?` 可以获得帮助信息,由于命令太多,我们只会重点介绍一些常用命令:
|
||
```text
|
||
[0x00000000]> ?
|
||
Usage: [.][times][cmd][~grep][@[@iter]addr!size][|>pipe] ; ...
|
||
Append '?' to any char command to get detailed help
|
||
Prefix with number to repeat command N times (f.ex: 3x)
|
||
|%var =valueAlias for 'env' command
|
||
| *[?] off[=[0x]value] Pointer read/write data/values (see ?v, wx, wv)
|
||
| (macro arg0 arg1) Manage scripting macros
|
||
| .[?] [-|(m)|f|!sh|cmd] Define macro or load r2, cparse or rlang file
|
||
| =[?] [cmd] Send/Listen for Remote Commands (rap://, http://, <fd>)
|
||
| /[?] Search for bytes, regexps, patterns, ..
|
||
| ![?] [cmd] Run given command as in system(3)
|
||
| #[?] !lang [..] Hashbang to run an rlang script
|
||
| a[?] Analysis commands
|
||
| b[?] Display or change the block size
|
||
| c[?] [arg] Compare block with given data
|
||
| C[?] Code metadata (comments, format, hints, ..)
|
||
| d[?] Debugger commands
|
||
| e[?] [a[=b]] List/get/set config evaluable vars
|
||
| f[?] [name][sz][at] Add flag at current address
|
||
| g[?] [arg] Generate shellcodes with r_egg
|
||
| i[?] [file] Get info about opened file from r_bin
|
||
| k[?] [sdb-query] Run sdb-query. see k? for help, 'k *', 'k **' ...
|
||
| L[?] [-] [plugin] list, unload load r2 plugins
|
||
| m[?] Mountpoints commands
|
||
| o[?] [file] ([offset]) Open file at optional address
|
||
| p[?] [len] Print current block with format and length
|
||
| P[?] Project management utilities
|
||
| q[?] [ret] Quit program with a return value
|
||
| r[?] [len] Resize file
|
||
| s[?] [addr] Seek to address (also for '0x', '0x1' == 's 0x1')
|
||
| S[?] Io section manipulation information
|
||
| t[?] Types, noreturn, signatures, C parser and more
|
||
| T[?] [-] [num|msg] Text log utility
|
||
| u[?] uname/undo seek/write
|
||
| V Enter visual mode (V! = panels, VV = fcngraph, VVV = callgraph)
|
||
| w[?] [str] Multiple write operations
|
||
| x[?] [len] Alias for 'px' (print hexadecimal)
|
||
| y[?] [len] [[[@]addr Yank/paste bytes from/to memory
|
||
| z[?] Zignatures management
|
||
| ?[??][expr] Help or evaluate math expression
|
||
| ?$? Show available '$' variables and aliases
|
||
| ?@? Misc help for '@' (seek), '~' (grep) (see ~??)
|
||
| ?:? List and manage core plugins
|
||
```
|
||
|
||
于是我们知道了 Radare2 交互命令的一般格式,如下所示:
|
||
```text
|
||
[.][times][cmd][~grep][@[@iter]addr!size][|>pipe] ; ...
|
||
```
|
||
如果你对 *nix shell, sed, awk 等比较熟悉的话,也可以帮助你很快掌握 radare2 命令。
|
||
- 在任意字符命令后面加上 `?` 可以获得关于该命令更多的细节。如 `a?`、`p?`、`!?`、`@?`。
|
||
- 当命令以数字开头时表示重复运行的次数。如 `3x`。
|
||
- `!` 单独使用可以显示命令使用历史记录。
|
||
- `;` 是命令分隔符,可以在一行上运行多个命令。如 `px 10; pd 20`。
|
||
- `..` 重复运行上一条命令,使用回车键也一样。
|
||
- `/` 用于在文件中进行搜索操作。
|
||
- 以 `!` 开头可以运行 shell 命令。用法:`!<cmd>`。
|
||
- `!ls`
|
||
- `|` 是管道符。用法:`<r2command> | <program|H|>`。
|
||
- `pd | less`
|
||
- `~` 用于文本比配(grep)。用法:`[command]~[modifier][word,word][endmodifier][[column]][:line]`。
|
||
- `i~:0` 显示 `i` 输出的第一行
|
||
- `pd~mov,eax` 反汇编并匹配 mov 或 eax 所在行
|
||
- `pi~mov&eax` 匹配 mov 和 eax 都有的行
|
||
- `i~0x400$` 匹配以 0x400 结尾的行
|
||
- `???` 可以获得以 `?` 开头的命令的细节
|
||
- `?` 可以做各种进制和格式的快速转换。如 `? 1234`
|
||
- `?p vaddr` 获得虚拟地址 vaddr 的物理地址
|
||
- `?P paddr` 获得物理地址 paddr 的虚拟地址
|
||
- `?v` 以十六进制的形式显示某数学表达式的结果。如 `?v eip-0x804800`。
|
||
- `?l str` 获得 str 的长度,结果被临时保存,使用 `?v` 可输出结果。
|
||
- `@@` foreach 迭代器,在列出的偏移处重复执行命令。
|
||
- `wx ff @@ 10 20 30` 在偏移 10、20、30 处写入 ff
|
||
- `p8 4 @@ fcn.*` 打印处每个函数的头 4 个字节
|
||
- `?$?` 可以显示表达式所使用变量的帮助信息。用法:`?v [$.]`。
|
||
- `$$` 是当前所处的虚拟地址
|
||
- `$?` 是最后一个运算的值
|
||
- `$s` 文件大小
|
||
- `$b` 块大小
|
||
- `$l` 操作码长度
|
||
- `$j` 跳转地址。当 `$$` 处是一个类似 `jmp` 的指令时,`$j` 中保存着将要跳转到的地址
|
||
- `$f` 跳转失败地址。即当前跳转没有生效,`$f` 中保存下一条指令的地址
|
||
- `$m` 操作码内存引用。如:`mov eax,[0x10] => 0x10`
|
||
- `e` 用于进行配置信息的修改
|
||
- `e asm.bytes=false` 关闭指令 raw bytes 的显示
|
||
|
||
默认情况下,执行的每条命令都有一个参考点,通常是内存中的当前位置,由命令前的十六进制数字指示。任何的打印、写入或分析命令都在当前位置执行。例如反汇编当前位置的一条指令:
|
||
```
|
||
[0x00005060]> pd 1
|
||
;-- entry0:
|
||
;-- rip:
|
||
0x00005060 31ed xor ebp, ebp
|
||
```
|
||
block size 是在我们没有指定行数的时候使用的默认值,输入 `b` 即可看到,使用 `b [num]` 修改字节数,这时使用打印命令如 `pd` 时,将反汇编相应字节的指令。
|
||
```
|
||
[0x00005060]> b
|
||
0x100
|
||
[0x00005060]> b 10
|
||
[0x00005060]> b
|
||
0xa
|
||
[0x00005060]> pd
|
||
;-- entry0:
|
||
;-- rip:
|
||
0x00005060 31ed xor ebp, ebp
|
||
0x00005062 4989d1 mov r9, rdx
|
||
```
|
||
|
||
#### 分析(analyze)
|
||
所有与分析有关的命令都以 `a` 开头:
|
||
```text
|
||
[0x00000000]> a?
|
||
|Usage: a[abdefFghoprxstc] [...]
|
||
| ab [hexpairs] analyze bytes
|
||
| abb [len] analyze N basic blocks in [len] (section.size by default)
|
||
| aa[?] analyze all (fcns + bbs) (aa0 to avoid sub renaming)
|
||
| ac [cycles] analyze which op could be executed in [cycles]
|
||
| ad[?] analyze data trampoline (wip)
|
||
| ad [from] [to] analyze data pointers to (from-to)
|
||
| ae[?] [expr] analyze opcode eval expression (see ao)
|
||
| af[?] analyze Functions
|
||
| aF same as above, but using anal.depth=1
|
||
| ag[?] [options] output Graphviz code
|
||
| ah[?] analysis hints (force opcode size, ...)
|
||
| ai [addr] address information (show perms, stack, heap, ...)
|
||
| ao[?] [len] analyze Opcodes (or emulate it)
|
||
| aO Analyze N instructions in M bytes
|
||
| ar[?] like 'dr' but for the esil vm. (registers)
|
||
| ap find prelude for current offset
|
||
| ax[?] manage refs/xrefs (see also afx?)
|
||
| as[?] [num] analyze syscall using dbg.reg
|
||
| at[?] [.] analyze execution traces
|
||
| av[?] [.] show vtables
|
||
```
|
||
```text
|
||
[0x00000000]> aa?
|
||
|Usage: aa[0*?] # see also 'af' and 'afna'
|
||
| aa alias for 'af@@ sym.*;af@entry0;afva'
|
||
| aa* analyze all flags starting with sym. (af @@ sym.*)
|
||
| aaa[?] autoname functions after aa (see afna)
|
||
| aab aab across io.sections.text
|
||
| aac [len] analyze function calls (af @@ `pi len~call[1]`)
|
||
| aad [len] analyze data references to code
|
||
| aae [len] ([addr]) analyze references with ESIL (optionally to address)
|
||
| aai[j] show info of all analysis parameters
|
||
| aar[?] [len] analyze len bytes of instructions for references
|
||
| aan autoname functions that either start with fcn.* or sym.func.*
|
||
| aas [len] analyze symbols (af @@= `isq~[0]`)
|
||
| aat [len] analyze all consecutive functions in section
|
||
| aaT [len] analyze code after trap-sleds
|
||
| aap find and analyze function preludes
|
||
| aav [sat] find values referencing a specific section or map
|
||
| aau [len] list mem areas (larger than len bytes) not covered by functions
|
||
```
|
||
- `afl`:列出所有函数。
|
||
- `axt [addr]`:找到对给定地址的交叉引用。
|
||
- `af [addr]`:当你发现某个地址处有一个函数,但是没有被分析出来的时候,可以使用该命令重新分析。
|
||
|
||
#### Flags
|
||
flag 用于将给定的偏移与名称相关联,flag 被分为几个 flag spaces,用于存放不同的 flag。
|
||
```text
|
||
[0x00000000]> f?
|
||
|Usage: f [?] [flagname] # Manage offset-name flags
|
||
| f list flags (will only list flags from selected flagspaces)
|
||
| f?flagname check if flag exists or not, See ?? and ?!
|
||
| f. [*[*]] list local per-function flags (*) as r2 commands
|
||
| f.blah=$$+12 set local function label named 'blah'
|
||
| f* list flags in r commands
|
||
| f name 12 @ 33 set flag 'name' with length 12 at offset 33
|
||
| f name = 33 alias for 'f name @ 33' or 'f name 1 33'
|
||
| f name 12 33 [cmt] same as above + optional comment
|
||
| f-.blah@fcn.foo delete local label from function at current seek (also f.-)
|
||
| f-- delete all flags and flagspaces (deinit)
|
||
| f+name 12 @ 33 like above but creates new one if doesnt exist
|
||
| f-name remove flag 'name'
|
||
| f-@addr remove flag at address expression
|
||
| f. fname list all local labels for the given function
|
||
| f= [glob] list range bars graphics with flag offsets and sizes
|
||
| fa [name] [alias] alias a flag to evaluate an expression
|
||
| fb [addr] set base address for new flags
|
||
| fb [addr] [flag*] move flags matching 'flag' to relative addr
|
||
| fc[?][name] [color] set color for given flag
|
||
| fC [name] [cmt] set comment for given flag
|
||
| fd addr return flag+delta
|
||
| fe- resets the enumerator counter
|
||
| fe [name] create flag name.#num# enumerated flag. See fe?
|
||
| fi [size] | [from] [to] show flags in current block or range
|
||
| fg bring visual mode to foreground
|
||
| fj list flags in JSON format
|
||
| fl (@[flag]) [size] show or set flag length (size)
|
||
| fla [glob] automatically compute the size of all flags matching glob
|
||
| fm addr move flag at current offset to new address
|
||
| fn list flags displaying the real name (demangled)
|
||
| fo show fortunes
|
||
| fr [old] [[new]] rename flag (if no new flag current seek one is used)
|
||
| fR[?] [f] [t] [m] relocate all flags matching f&~m 'f'rom, 't'o, 'm'ask
|
||
| fs[?]+-* manage flagspaces
|
||
| fS[on] sort flags by offset or name
|
||
| fV[*-] [nkey] [offset] dump/restore visual marks (mK/'K)
|
||
| fx[d] show hexdump (or disasm) of flag:flagsize
|
||
| fz[?][name] add named flag zone -name to delete. see fz?[name]
|
||
```
|
||
常见用法:
|
||
- `f flag_name @ addr`:给地址 addr 创建一个 flag,当不指定地址时则默认指定当前地址。
|
||
- `f-flag_name`:删除flag。
|
||
- `fs`:管理命名空间。
|
||
```
|
||
[0x00005060]> fs?
|
||
|Usage: fs [*] [+-][flagspace|addr] # Manage flagspaces
|
||
| fs display flagspaces
|
||
| fs* display flagspaces as r2 commands
|
||
| fsj display flagspaces in JSON
|
||
| fs * select all flagspaces
|
||
| fs flagspace select flagspace or create if it doesn't exist
|
||
| fs-flagspace remove flagspace
|
||
| fs-* remove all flagspaces
|
||
| fs+foo push previous flagspace and set
|
||
| fs- pop to the previous flagspace
|
||
| fs-. remove the current flagspace
|
||
| fsm [addr] move flags at given address to the current flagspace
|
||
| fss display flagspaces stack
|
||
| fss* display flagspaces stack in r2 commands
|
||
| fssj display flagspaces stack in JSON
|
||
| fsr newname rename selected flagspace
|
||
```
|
||
|
||
#### 定位(seeking)
|
||
使用 `s` 命令可以改变当前位置:
|
||
```text
|
||
[0x00000000]> s?
|
||
|Usage: s # Seek commands
|
||
| s Print current address
|
||
| s:pad Print current address with N padded zeros (defaults to 8)
|
||
| s addr Seek to address
|
||
| s- Undo seek
|
||
| s- n Seek n bytes backward
|
||
| s-- Seek blocksize bytes backward
|
||
| s+ Redo seek
|
||
| s+ n Seek n bytes forward
|
||
| s++ Seek blocksize bytes forward
|
||
| s[j*=!] List undo seek history (JSON, =list, *r2, !=names, s==)
|
||
| s/ DATA Search for next occurrence of 'DATA'
|
||
| s/x 9091 Search for next occurrence of \x90\x91
|
||
| s.hexoff Seek honoring a base from core->offset
|
||
| sa [[+-]a] [asz] Seek asz (or bsize) aligned to addr
|
||
| sb Seek aligned to bb start
|
||
| sC[?] string Seek to comment matching given string
|
||
| sf Seek to next function (f->addr+f->size)
|
||
| sf function Seek to address of specified function
|
||
| sg/sG Seek begin (sg) or end (sG) of section or file
|
||
| sl[?] [+-]line Seek to line
|
||
| sn/sp Seek to next/prev location, as specified by scr.nkey
|
||
| so [N] Seek to N next opcode(s)
|
||
| sr pc Seek to register
|
||
| ss Seek silently (without adding an entry to the seek history)
|
||
```
|
||
- `s+`,`s-`:重复或撤销。
|
||
- `s+ n`,`s- n`:定位到当前位置向前或向后 n 字节的位置。
|
||
- `s/ DATA`:定位到下一个出现 DATA 的位置。
|
||
|
||
#### 信息(information)
|
||
```text
|
||
[0x00000000]> i?
|
||
|Usage: i Get info from opened file (see rabin2's manpage)
|
||
| Output mode:
|
||
| '*' Output in radare commands
|
||
| 'j' Output in json
|
||
| 'q' Simple quiet output
|
||
| Actions:
|
||
| i|ij Show info of current file (in JSON)
|
||
| iA List archs
|
||
| ia Show all info (imports, exports, sections..)
|
||
| ib Reload the current buffer for setting of the bin (use once only)
|
||
| ic List classes, methods and fields
|
||
| iC Show signature info (entitlements, ...)
|
||
| id[?] Debug information (source lines)
|
||
| iD lang sym demangle symbolname for given language
|
||
| ie Entrypoint
|
||
| iE Exports (global symbols)
|
||
| ih Headers (alias for iH)
|
||
| iHH Verbose Headers in raw text
|
||
| ii Imports
|
||
| iI Binary info
|
||
| ik [query] Key-value database from RBinObject
|
||
| il Libraries
|
||
| iL [plugin] List all RBin plugins loaded or plugin details
|
||
| im Show info about predefined memory allocation
|
||
| iM Show main address
|
||
| io [file] Load info from file (or last opened) use bin.baddr
|
||
| ir Relocs
|
||
| iR Resources
|
||
| is Symbols
|
||
| iS [entropy,sha1] Sections (choose which hash algorithm to use)
|
||
| iV Display file version info
|
||
| iz|izj Strings in data sections (in JSON/Base64)
|
||
| izz Search for Strings in the whole binary
|
||
| iZ Guess size of binary program
|
||
```
|
||
`i` 系列命令用于获取文件的各种信息,这时配合上 `~` 命令来获得精确的输出,下面是一个类似 checksec 的输出:
|
||
```
|
||
[0x00005060]> iI ~relro,canary,nx,pic,rpath
|
||
canary true
|
||
nx true
|
||
pic true
|
||
relro full
|
||
rpath NONE
|
||
```
|
||
`~` 命令还有一些其他的用法,如获取某一行某一列等,另外使用 `~{}` 可以使 json 的输出更好看:
|
||
```text
|
||
[0x00005060]> ~?
|
||
|Usage: [command]~[modifier][word,word][endmodifier][[column]][:line]
|
||
modifier:
|
||
| & all words must match to grep the line
|
||
| $[n] sort numerically / alphabetically the Nth column
|
||
| + case insensitive grep (grep -i)
|
||
| ^ words must be placed at the beginning of line
|
||
| ! negate grep
|
||
| ? count number of matching lines
|
||
| ?. count number chars
|
||
| ?? show this help message
|
||
| :[s]-[e] show lines s-e
|
||
| .. internal 'less'
|
||
| ... internal 'hud' (like V_)
|
||
| {} json indentation
|
||
| {path} json grep
|
||
| {}.. less json indentation
|
||
| endmodifier:
|
||
| $ words must be placed at the end of line
|
||
| column:
|
||
| [n] show only column n
|
||
| [n-m] show column n to m
|
||
| [n-] show all columns starting from column n
|
||
| [i,j,k] show the columns i, j and k
|
||
| Examples:
|
||
| i~:0 show first line of 'i' output
|
||
| i~:-2 show first three lines of 'i' output
|
||
| pd~mov disasm and grep for mov
|
||
| pi~[0] show only opcode
|
||
| i~0x400$ show lines ending with 0x400
|
||
```
|
||
|
||
#### 打印(print) & 反汇编(disassembling)
|
||
```text
|
||
[0x00000000]> p?
|
||
|Usage: p[=68abcdDfiImrstuxz] [arg|len] [@addr]
|
||
| p=[?][bep] [blks] [len] [blk] show entropy/printable chars/chars bars
|
||
| p2 [len] 8x8 2bpp-tiles
|
||
| p3 [file] print stereogram (3D)
|
||
| p6[de] [len] base64 decode/encode
|
||
| p8[?][j] [len] 8bit hexpair list of bytes
|
||
| pa[edD] [arg] pa:assemble pa[dD]:disasm or pae: esil from hexpairs
|
||
| pA[n_ops] show n_ops address and type
|
||
| p[b|B|xb] [len] ([skip]) bindump N bits skipping M
|
||
| pb[?] [n] bitstream of N bits
|
||
| pB[?] [n] bitstream of N bytes
|
||
| pc[?][p] [len] output C (or python) format
|
||
| pC[d] [rows] print disassembly in columns (see hex.cols and pdi)
|
||
| pd[?] [sz] [a] [b] disassemble N opcodes (pd) or N bytes (pD)
|
||
| pf[?][.nam] [fmt] print formatted data (pf.name, pf.name $<expr>)
|
||
| ph[?][=|hash] ([len]) calculate hash for a block
|
||
| p[iI][df] [len] print N ops/bytes (f=func) (see pi? and pdi)
|
||
| pm[?] [magic] print libmagic data (see pm? and /m?)
|
||
| pr[?][glx] [len] print N raw bytes (in lines or hexblocks, 'g'unzip)
|
||
| p[kK] [len] print key in randomart (K is for mosaic)
|
||
| ps[?][pwz] [len] print pascal/wide/zero-terminated strings
|
||
| pt[?][dn] [len] print different timestamps
|
||
| pu[?][w] [len] print N url encoded bytes (w=wide)
|
||
| pv[?][jh] [mode] show variable/pointer/value in memory
|
||
| p-[?][jh] [mode] bar|json|histogram blocks (mode: e?search.in)
|
||
| px[?][owq] [len] hexdump of N bytes (o=octal, w=32bit, q=64bit)
|
||
| pz[?] [len] print zoom view (see pz? for help)
|
||
| pwd display current working directory
|
||
```
|
||
常用参数如下:
|
||
- `px`:输出十六进制数、偏移和原始数据。后跟 `o`,`w`,`q` 时分别表示8位、32位和64位。
|
||
- `p8`:输出8位的字节流。
|
||
- `ps`:输出字符串。
|
||
|
||
radare2 中反汇编操作是隐藏在打印操作中的,即使用 `pd`:
|
||
```text
|
||
[0x00000000]> pd?
|
||
|Usage: p[dD][ajbrfils] [sz] [arch] [bits] # Print Disassembly
|
||
| NOTE: len parameter can be negative
|
||
| NOTE: Pressing ENTER on empty command will repeat last pd command and also seek to end of disassembled range.
|
||
| pd N disassemble N instructions
|
||
| pd -N disassemble N instructions backward
|
||
| pD N disassemble N bytes
|
||
| pda disassemble all possible opcodes (byte per byte)
|
||
| pdb disassemble basic block
|
||
| pdc pseudo disassembler output in C-like syntax
|
||
| pdC show comments found in N instructions
|
||
| pdk disassemble all methods of a class
|
||
| pdj disassemble to json
|
||
| pdr recursive disassemble across the function graph
|
||
| pdf disassemble function
|
||
| pdi like 'pi', with offset and bytes
|
||
| pdl show instruction sizes
|
||
| pds[?] disassemble summary (strings, calls, jumps, refs) (see pdsf and pdfs)
|
||
| pdt disassemble the debugger traces (see atd)
|
||
```
|
||
`@addr` 表示一个相对寻址,这里的 addr 可以是地址、符号名等,这个操作和 `s` 命令不同,它不会改变当前位置,当然即使使用类似 `s @addr` 的命令也不会改变当前位置。
|
||
```
|
||
[0x00005060]> pd 5 @ main
|
||
;-- main:
|
||
;-- section..text:
|
||
0x00003620 4157 push r15 ; section 13 va=0x00003620 pa=0x00003620 sz=75529 vsz=75529 rwx=--r-x .text
|
||
0x00003622 4156 push r14
|
||
0x00003624 4155 push r13
|
||
0x00003626 4154 push r12
|
||
0x00003628 55 push rbp
|
||
[0x00005060]> s @ main
|
||
0x3620
|
||
[0x00005060]> s 0x3620
|
||
[0x00003620]>
|
||
```
|
||
|
||
#### 写入(write)
|
||
当你在打开 r2 时使用了参数 `-w` 时,才可以使用该命令,`w` 命令用于写入字节,它允许多种输入格式:
|
||
```text
|
||
[0x00000000]> w?
|
||
|Usage: w[x] [str] [<file] [<<EOF] [@addr]
|
||
| w[1248][+-][n] increment/decrement byte,word..
|
||
| w foobar write string 'foobar'
|
||
| w0 [len] write 'len' bytes with value 0x00
|
||
| w6[de] base64/hex write base64 [d]ecoded or [e]ncoded string
|
||
| wa[?] push ebp write opcode, separated by ';' (use '"' around the command)
|
||
| waf file assemble file and write bytes
|
||
| wao[?] op modify opcode (change conditional of jump. nop, etc)
|
||
| wA[?] r 0 alter/modify opcode at current seek (see wA?)
|
||
| wb 010203 fill current block with cyclic hexpairs
|
||
| wB[-]0xVALUE set or unset bits with given value
|
||
| wc list all write changes
|
||
| wc[?][ir*?] write cache undo/commit/reset/list (io.cache)
|
||
| wd [off] [n] duplicate N bytes from offset at current seek (memcpy) (see y?)
|
||
| we[?] [nNsxX] [arg] extend write operations (insert instead of replace)
|
||
| wf -|file write contents of file at current offset
|
||
| wh r2 whereis/which shell command
|
||
| wm f0ff set binary mask hexpair to be used as cyclic write mask
|
||
| wo[?] hex write in block with operation. 'wo?' fmi
|
||
| wp[?] -|file apply radare patch file. See wp? fmi
|
||
| wr 10 write 10 random bytes
|
||
| ws pstring write 1 byte for length and then the string
|
||
| wt[f][?] file [sz] write to file (from current seek, blocksize or sz bytes)
|
||
| wts host:port [sz] send data to remote host:port via tcp://
|
||
| ww foobar write wide string 'f\x00o\x00o\x00b\x00a\x00r\x00'
|
||
| wx[?][fs] 9090 write two intel nops (from wxfile or wxseek)
|
||
| wv[?] eip+34 write 32-64 bit value
|
||
| wz string write zero terminated string (like w + \x00)
|
||
```
|
||
常见用法:
|
||
- `wa`:写入操作码,如 `wa jmp 0x8048320`
|
||
- `wx`:写入十六进制数。
|
||
- `wv`:写入32或64位的值。
|
||
- `wo`:有很多子命令,用于将当前位置的值做运算后覆盖原值。
|
||
```
|
||
[0x00005060]> wo?
|
||
|Usage: wo[asmdxoArl24] [hexpairs] @ addr[!bsize]
|
||
| wo[24aAdlmorwx] without hexpair values, clipboard is used
|
||
| wo2 [val] 2= 2 byte endian swap
|
||
| wo4 [val] 4= 4 byte endian swap
|
||
| woa [val] += addition (f.ex: woa 0102)
|
||
| woA [val] &= and
|
||
| wod [val] /= divide
|
||
| woD[algo] [key] [IV] decrypt current block with given algo and key
|
||
| woe [from to] [step] [wsz=1] .. create sequence
|
||
| woE [algo] [key] [IV] encrypt current block with given algo and key
|
||
| wol [val] <<= shift left
|
||
| wom [val] *= multiply
|
||
| woo [val] |= or
|
||
| wop[DO] [arg] De Bruijn Patterns
|
||
| wor [val] >>= shift right
|
||
| woR random bytes (alias for 'wr $b')
|
||
| wos [val] -= substraction
|
||
| wow [val] == write looped value (alias for 'wb')
|
||
| wox [val] ^= xor (f.ex: wox 0x90)
|
||
```
|
||
|
||
#### 调试(debugging)
|
||
在开启 r2 时使用参数 `-d` 即可开启调试模式,当然如果你已经加载了程序,可以使用命令 `ood` 重新开启调试。
|
||
```
|
||
[0x7f8363c75f30]> d?
|
||
|Usage: d # Debug commands
|
||
| db[?] Breakpoints commands
|
||
| dbt[?] Display backtrace based on dbg.btdepth and dbg.btalgo
|
||
| dc[?] Continue execution
|
||
| dd[?] File descriptors (!fd in r1)
|
||
| de[-sc] [rwx] [rm] [e] Debug with ESIL (see de?)
|
||
| dg <file> Generate a core-file (WIP)
|
||
| dH [handler] Transplant process to a new handler
|
||
| di[?] Show debugger backend information (See dh)
|
||
| dk[?] List, send, get, set, signal handlers of child
|
||
| dL [handler] List or set debugger handler
|
||
| dm[?] Show memory maps
|
||
| do[?] Open process (reload, alias for 'oo')
|
||
| doo[args] Reopen in debugger mode with args (alias for 'ood')
|
||
| dp[?] List, attach to process or thread id
|
||
| dr[?] Cpu registers
|
||
| ds[?] Step, over, source line
|
||
| dt[?] Display instruction traces (dtr=reset)
|
||
| dw <pid> Block prompt until pid dies
|
||
| dx[?] Inject and run code on target process (See gs)
|
||
```
|
||
|
||
#### 视图模式
|
||
在调试时使用视图模式是十分有用的,因为你既可以查看程序当前的位置,也可以查看任何你想看的位置。输入 `V` 即可进入视图模式,按下 `p/P` 可在不同模式之间进行切换,按下 `?` 即可查看帮助,想退出时按下 `q`。
|
||
```text
|
||
Visual mode help:
|
||
? show this help
|
||
?? show the user-friendly hud
|
||
$ toggle asm.pseudo
|
||
% in cursor mode finds matching pair, otherwise toggle autoblocksz
|
||
@ redraw screen every 1s (multi-user view), in cursor set position
|
||
! enter into the visual panels mode
|
||
_ enter the flag/comment/functions/.. hud (same as VF_)
|
||
= set cmd.vprompt (top row)
|
||
| set cmd.cprompt (right column)
|
||
. seek to program counter
|
||
" toggle the column mode (uses pC..)
|
||
/ in cursor mode search in current block
|
||
:cmd run radare command
|
||
;[-]cmt add/remove comment
|
||
0 seek to beginning of current function
|
||
[1-9] follow jmp/call identified by shortcut (like ;[1])
|
||
,file add a link to the text file
|
||
/*+-[] change block size, [] = resize hex.cols
|
||
</> seek aligned to block size (seek cursor in cursor mode)
|
||
a/A (a)ssemble code, visual (A)ssembler
|
||
b toggle breakpoint
|
||
B enumerate and inspect classes
|
||
c/C toggle (c)ursor and (C)olors
|
||
d[f?] define function, data, code, ..
|
||
D enter visual diff mode (set diff.from/to)
|
||
e edit eval configuration variables
|
||
f/F set/unset or browse flags. f- to unset, F to browse, ..
|
||
gG go seek to begin and end of file (0-$s)
|
||
hjkl move around (or HJKL) (left-down-up-right)
|
||
i insert hex or string (in hexdump) use tab to toggle
|
||
mK/'K mark/go to Key (any key)
|
||
M walk the mounted filesystems
|
||
n/N seek next/prev function/flag/hit (scr.nkey)
|
||
o go/seek to given offset
|
||
O toggle asm.esil
|
||
p/P rotate print modes (hex, disasm, debug, words, buf)
|
||
q back to radare shell
|
||
r refresh screen / in cursor mode browse comments
|
||
R randomize color palette (ecr)
|
||
sS step / step over
|
||
t browse types
|
||
T enter textlog chat console (TT)
|
||
uU undo/redo seek
|
||
v visual function/vars code analysis menu
|
||
V (V)iew graph using cmd.graph (agv?)
|
||
wW seek cursor to next/prev word
|
||
xX show xrefs/refs of current function from/to data/code
|
||
yY copy and paste selection
|
||
z fold/unfold comments in disassembly
|
||
Z toggle zoom mode
|
||
Enter follow address of jump/call
|
||
Function Keys: (See 'e key.'), defaults to:
|
||
F2 toggle breakpoint
|
||
F4 run to cursor
|
||
F7 single step
|
||
F8 step over
|
||
F9 continue
|
||
```
|
||
视图模式下的命令和命令行模式下的命令有很大不同,下面列出几个,更多的命令请查看帮助:
|
||
- `o`:定位到给定的偏移。
|
||
- `;`:添加注释。
|
||
- `V`:查看图形。
|
||
- `:`:运行 radare2 命令
|
||
|
||
|
||
## Web 界面使用
|
||
Radare2 的 GUI 尚在开发中,但有一个 Web 界面可以使用,如果刚开始你不习惯命令行操作,可以输入下面的命令:
|
||
```
|
||
$ r2 -c=H [filename]
|
||
```
|
||
默认地址为 `http://localhost:9090/`,这样你就可以在 Web 中进行操作了,但是我强烈建议你强迫自己使用命令行的操作方式。
|
||
|
||
|
||
## cutter GUI
|
||
cutter 是 r2 官方的 GUI,已经在快速开发中,基本功能已经有了,喜欢界面操作的读者可以试一下(请确保 r2 已经正确安装):
|
||
```
|
||
$ yaourt -S qt
|
||
```
|
||
```
|
||
$ git clone https://github.com/radareorg/cutter
|
||
$ cd cutter
|
||
$ mkdir build
|
||
$ cd build
|
||
$ qmake ../src
|
||
$ make
|
||
```
|
||
然后就可以运行了:
|
||
```
|
||
./cutter
|
||
```
|
||
|
||
|
||
## 在 CTF 中的运用
|
||
- [IOLI crackme](https://firmianay.github.io/2017/02/20/ioli_crackme_writeup.html)
|
||
- [radare2-explorations-binaries](https://github.com/monosource/radare2-explorations-binaries)
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## 更多资源
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- [The radare2 book](https://www.gitbook.com/book/radare/radare2book)
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- [Radare2 intro](https://github.com/radare/radare2/blob/master/doc/intro.md)
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- [Radare2 blog](http://radare.today/)
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- [A journey into Radare 2 – Part 1: Simple crackme](https://www.megabeets.net/a-journey-into-radare-2-part-1/)
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- [A journey into Radare 2 – Part 2: Exploitation](https://www.megabeets.net/a-journey-into-radare-2-part-2/)
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