diff --git a/source/_posts/AFL-first-learn.md b/source/_posts/AFL-first-learn.md index b2674bf9..f521ee73 100644 --- a/source/_posts/AFL-first-learn.md +++ b/source/_posts/AFL-first-learn.md @@ -268,9 +268,9 @@ operation),也不是一个针对任何特定理论的概念验证(proof of con 在编译过的程序中插桩能够捕获分支(边缘)的覆盖率,并且还能检测到粗略的分支执行命中次数(branch-taken hit counts)。在分支点注入的代码大致如下: ``` - cur_location = ; - shared_mem[cur_location ^ prev_location]++; - prev_location = cur_location >> 1; + cur_location = ; //用一个随机数标记当前基本块 + shared_mem[cur_location ^ prev_location]++; //将当前块和前一块异或保存到shared_mem[] + prev_location = cur_location >> 1; //cur_location右移1位区分从当前块到当前块的转跳 ``` cur_location的值是随机产生的,为的是简化连接复杂对象的过程和保持XOR输出分布是均匀的。 shared_mem[] 数组是一个调用者 (caller) 传给被插桩的二进制程序的64kB的共享空间。其中的每一字节可以理解成对于插桩代码中特别的元组(branch_src, branch_dst)的一次命中(hit)。 @@ -290,7 +290,7 @@ shared_mem[] 数组是一个调用者 (caller) 传给被插桩的二进制程序 > A -> B -> D -> C -> E (tuples: AB, BD, DC, CE) > 这有助于发现底层代码的微小错误条件。因为安全漏洞通常是一些非预期(或不正确)的语句转移(一个tuple就是一个语句转移),而不是没覆盖到某块代码。 -上边伪代码的最后一行移位操作是为了让tuple具有定向性(没有这一行的话,A^B和B^A就没区别了,同样,A^A和B^B也没区别了)。采用左移的原因跟Intel CPU的一些特性有关。 +上边伪代码的最后一行移位操作是为了让tuple具有定向性(没有这一行的话,A^B和B^A就没区别了,同样,A^A和B^B也没区别了)。采用右移的原因跟Intel CPU的一些特性有关。 ## 2)发现新路径(Detecting new behaviors) AFL的fuzzers使用一个**全局Map**来存储之前执行时看到的tuple。这些数据可以被用来对不同的trace进行快速对比,从而可以计算出是否新执行了一个dword指令/一个qword-wide指令/一个简单的循环。 diff --git a/source/_posts/afl-first-try.md b/source/_posts/afl-first-try.md new file mode 100644 index 00000000..f2dcd335 --- /dev/null +++ b/source/_posts/afl-first-try.md @@ -0,0 +1,390 @@ +--- +title: AFL初次实践 +date: 2019-07-09 14:46:07 +tags: +- AFL +- 模糊测试 +categories: 二进制 +--- + +这篇文章是对afl的简单使用,可大致分为黑盒测试和白盒测试两个部分。白盒测试从对目标程序的插桩编译开始,然后使用fuzzer对其模糊测试发现崩溃,最后对测试的代码覆盖率进行评估。黑盒测试则演示得较简略。 +参考:https://paper.seebug.org/841/#_1 + +**部署afl** +> ``` +> wget http://lcamtuf.coredump.cx/afl/releases/afl-latest.tgz +> tar -zxvf afl-latest.tgz +> cd afl-2.52b/ +> make +> sudo make install +> ``` + +**部署qemu** +> ``` +> $ CPU_TARGET=x86_64 ./build_qemu_support.sh +> [+] Build process successful! +> [*] Copying binary... +> -rwxr-xr-x 1 han han 10972920 7月 9 10:43 ../afl-qemu-trace +> [+] Successfully created '../afl-qemu-trace'. +> [!] Note: can't test instrumentation when CPU_TARGET set. +> [+] All set, you can now (hopefully) use the -Q mode in afl-fuzz! +> ``` + +------------- + +# 白盒测试 +## 目标程序编译 +1. 源代码 +``` +#undef _FORTIFY_SOURCE +#include +#include +#include + +void vulnerable_function() { + char buf[128]; + read(STDIN_FILENO, buf, 256); +} + +int main(int argc, char** argv) { + vulnerable_function(); + write(STDOUT_FILENO, "Hello, World\n", 13); +} +``` + +2. gcc编译(不插桩) +```-fprofile-arcs -ftest-coverage +$ gcc v1.c -o v1 +$ ./v1 +what +Hello, World +``` +生成v1的目的一是为了和afl-gcc的编译做对比,二是为黑盒测试做铺垫。 + +3. 使用afl-gcc进行编译 +*-fno-stack-protector 该选项会禁止stack canary保护 +-z execstack 允许堆栈可执行* +``` +$ ../afl-2.52b/afl-gcc -fno-stack-protector -z execstack v1.c -o v1-afl +afl-cc 2.52b by +afl-as 2.52b by +[+] Instrumented 2 locations (64-bit, non-hardened mode, ratio 100%). +``` + +## 测试插桩程序 +**afl-showmap** 跟踪单个输入的执行路径,并打印程序执行的输出、捕获的元组(tuples),tuple用于获取分支信息,从而衡量衡量程序覆盖情况。 +``` +$ ./afl-showmap -o /dev/null -- ../vuln/v1 <<(echo test) +afl-showmap 2.52b by +[*] Executing '../vuln/v1'... + +-- Program output begins -- +Hello, World +-- Program output ends -- + +[-] PROGRAM ABORT : No instrumentation detected + Location : main(), afl-showmap.c:773 +``` + +``` +$ ./afl-showmap -o /dev/null -- ../vuln/v1-afl <<(echo test) +afl-showmap 2.52b by +[*] Executing '../vuln/v1-afl'... + +-- Program output begins -- +Hello, World +-- Program output ends -- +[+] Captured 1 tuples in '/dev/null'. +``` +可见,afl-gcc相对于gcc的不同在于采用了插桩计算覆盖率,在这个实例程序中捕捉到了一个元组 + + +## 执行FUZZER +1. 修改core +在执行afl-fuzz前,如果系统配置为将核心转储文件(core)通知发送到外部程序。 +``` +$ ./afl-fuzz -i ../vuln/testcase/ -o ../vuln/out/ ../vuln/v1-afl +afl-fuzz 2.52b by +[+] You have 2 CPU cores and 2 runnable tasks (utilization: 100%). +[*] Checking CPU core loadout... +[+] Found a free CPU core, binding to #0. +[*] Checking core_pattern... + +[-] Hmm, your system is configured to send core dump notifications to an + external utility. This will cause issues: there will be an extended delay + between stumbling upon a crash and having this information relayed to the + fuzzer via the standard waitpid() API. + + To avoid having crashes misinterpreted as timeouts, please log in as root + and temporarily modify /proc/sys/kernel/core_pattern, like so: + + echo core >/proc/sys/kernel/core_pattern + +[-] PROGRAM ABORT : Pipe at the beginning of 'core_pattern' + Location : check_crash_handling(), afl-fuzz.c:7275 +``` +将导致将崩溃信息发送到Fuzzer之间的延迟增大,进而可能将崩溃被误报为超时,所以我们得临时修改core_pattern文件,如下所示: +``` +echo core >/proc/sys/kernel/core_pattern + +``` + +2. 通用fuzz语法 +afl-fuzz对于直接从stdin接受输入的目标二进制文件,通常的语法是: +``` +$ ./afl-fuzz -i testcase_dir -o findings_dir / path / to / program [... params ...] +``` +对于从文件中获取输入的程序,使用“@@”标记目标命令行中应放置输入文件名的位置。模糊器将替换为您: +``` +$ ./afl-fuzz -i testcase_dir -o findings_dir / path / to / program @@ +``` +此时afl会给我们返回一些信息,这里提示我们有些测试用例无效 +``` +afl-fuzz 2.52b by +[+] You have 2 CPU cores and 2 runnable tasks (utilization: 100%). +[*] Checking CPU core loadout... +[+] Found a free CPU core, binding to #0. +[*] Checking core_pattern... +[*] Setting up output directories... +[+] Output directory exists but deemed OK to reuse. +[*] Deleting old session data... +[+] Output dir cleanup successful. +[*] Scanning '../vuln/testcase/'... +[+] No auto-generated dictionary tokens to reuse. +[*] Creating hard links for all input files... +[*] Validating target binary... +[*] Attempting dry run with 'id:000000,orig:1'... +[*] Spinning up the fork server... +[+] All right - fork server is up. + len = 3, map size = 1, exec speed = 295 us +[*] Attempting dry run with 'id:000001,orig:2'... + len = 23, map size = 1, exec speed = 125 us +[!] WARNING: No new instrumentation output, test case may be useless. +[+] All test cases processed. + +[!] WARNING: Some test cases look useless. Consider using a smaller set. +[+] Here are some useful stats: + + Test case count : 1 favored, 0 variable, 2 total + Bitmap range : 1 to 1 bits (average: 1.00 bits) + Exec timing : 125 to 295 us (average: 210 us) + +[*] No -t option specified, so I'll use exec timeout of 20 ms. +[+] All set and ready to roll! + +``` + +3. 状态窗口 +我们可以看到afl很快就给我们制造了崩溃 + +``` + american fuzzy lop 2.52b (v1-afl) + +┌─ process timing ─────────────────────────────────────┬─ overall results ─────┐ +│ run time : 0 days, 0 hrs, 4 min, 19 sec │ cycles done : 2477 │ +│ last new path : 0 days, 0 hrs, 2 min, 27 sec │ total paths : 3 │ +│ last uniq crash : 0 days, 0 hrs, 4 min, 19 sec │ uniq crashes : 1 │ +│ last uniq hang : 0 days, 0 hrs, 2 min, 12 sec │ uniq hangs : 1 │ +├─ cycle progress ────────────────────┬─ map coverage ─┴───────────────────────┤ +│ now processing : 2 (66.67%) │ map density : 0.00% / 0.00% │ +│ paths timed out : 0 (0.00%) │ count coverage : 1.00 bits/tuple │ +├─ stage progress ────────────────────┼─ findings in depth ────────────────────┤ +│ now trying : havoc │ favored paths : 1 (33.33%) │ +│ stage execs : 1433/1536 (93.29%) │ new edges on : 2 (66.67%) │ +│ total execs : 2.32M │ total crashes : 93.1k (1 unique) │ +│ exec speed : 0.00/sec (zzzz...) │ total tmouts : 8 (1 unique) │ +├─ fuzzing strategy yields ───────────┴───────────────┬─ path geometry ────────┤ +│ bit flips : 0/1152, 0/1149, 0/1143 │ levels : 2 │ +│ byte flips : 0/144, 0/14, 0/10 │ pending : 0 │ +│ arithmetics : 0/888, 0/25, 0/0 │ pend fav : 0 │ +│ known ints : 0/98, 0/390, 0/440 │ own finds : 1 │ +│ dictionary : 0/0, 0/0, 0/0 │ imported : n/a │ +│ havoc : 2/1.50M, 0/819k │ stability : 100.00% │ +│ trim : 11.88%/64, 80.00% ├────────────────────────┘ +└─────────────────────────────────────────────────────┘ [cpu000:102%] │ +│ stage execs : 1432/1536 (93.23%) │ new edges on : 2 (66.67%) │ ++++ Testing aborted by user +++ │ total crashes : 93.1k (1 unique) │ +[+] We're done here. Have a nice day! │ total tmouts : 8 (1 unique) │ +├─ fuzzing strategy yields ───────────┴───────────────┬─ path geometry ────────┤ + +``` +由上面AFL状态窗口: +① Process timing:Fuzzer运行时长、以及距离最近发现的路径、崩溃和挂起(超时)经过了多长时间。 +已经运行4m19s,距离上一个最新路径已经过去2min27s,距离上一个独特崩溃已经过去4min19s(可见找到崩溃的速度非常快),距离上一次挂起已经过去2m12s。 + +② Overall results:Fuzzer当前状态的概述。 + +③ Cycle progress:我们输入队列的距离。队列一共有3个用例,现在是第二个,66.67% + +④ Map coverage:目标二进制文件中的插桩代码所观察到覆盖范围的细节。 + +⑤ Stage progress:Fuzzer现在正在执行的文件变异策略、执行次数和执行速度。 + +⑥ Findings in depth:有关我们找到的执行路径,异常和挂起数量的信息。 + +⑦ Fuzzing strategy yields:关于突变策略产生的最新行为和结果的详细信息。 + +⑧ Path geometry:有关Fuzzer找到的执行路径的信息。 + +⑨ CPU load:CPU利用率 + +## afl何时结束 +(1) 状态窗口中”cycles done”字段颜色变为绿色该字段的颜色可以作为何时停止测试的参考,随着周期数不断增大,其颜色也会由洋红色,逐步变为黄色、蓝色、绿色。当其变为绿色时,继续Fuzzing下去也很难有新的发现了,这时便可以通过Ctrl-C停止afl-fuzz。 +(2) 距上一次发现新路径(或者崩溃)已经过去很长时间 +(3) 目标程序的代码几乎被测试用例完全覆盖 + +## 处理输出结果 +> 确定造成这些crashes的bug是否可以利用,怎么利用? + +afl在fuzzing的过程中同时也产生了这些文件 +``` +$ tree ../vuln/out/ +../vuln/out/ +├── crashes +│   ├── id:000000,sig:11,src:000000,op:havoc,rep:64 +│   └── README.txt +├── fuzz_bitmap +├── fuzzer_stats +├── hangs +├── plot_data +└── queue + ├── id:000000,orig:1 + └── id:000001,orig:2 + +3 directories, 7 files +``` +在输出目录中创建了三个子目录并实时更新: + +* queue: 测试每个独特执行路径的案例,以及用户提供的所有起始文件。 +* crashes: 导致被测程序接收致命信号的独特测试用例(例如,SIGSEGV,SIGILL,SIGABRT)。条目按接收信号分组。 +* hangs: 导致测试程序超时的独特测试用例。将某些内容归类为挂起之前的默认时间限制是1秒内的较大值和-t参数的值。可以通过设置AFL_HANG_TMOUT来微调该值,但这很少是必需的。 +* 崩溃和挂起被视为“唯一” :如果相关的执行路径涉及在先前记录的故障中未见的任何状态转换。如果可以通过多种方式达到单个错误,那么在此过程中会有一些计数通货膨胀,但这应该会迅速逐渐减少。 +* fuzzer_stats:afl-fuzz的运行状态。 +* plot_data:用于afl-plot绘图。 + +## 崩溃类型和可利用性 +1. triage_crashes +AFL源码的experimental目录中有一个名为triage_crashes.sh的脚本,可以帮助我们触发收集到的crashes。例如下面的例子中,11代表了SIGSEGV信号,有可能是因为缓冲区溢出导致进程引用了无效的内存;06代表了SIGABRT信号,可能是执行了abort\assert函数或double free导致,这些结果可以作为简单的参考。 + +``` +$ experimental/crash_triage/triage_crashes.sh ../vuln/out/ ../vuln/v1-afl 2>&1 | grep SIGNAL ++++ ID 000000, SIGNAL 11 +++ +``` +2. crashwalk +如果你想得到更细致的crashes分类结果,以及导致crashes的具体原因,那么crashwalk就是不错的选择之一。这个工具基于gdb的exploitable插件,安装也相对简单,在ubuntu上,只需要如下几步即可: +``` +$ apt-get install gdb golang +$ mkdir tools +$ cd tools +$ git clone https://github.com/jfoote/exploitable.git +$ mkdir go +$ export GOPATH=~/tools/go +$ export CW_EXPLOITABLE=~/tools/exploitable/exploitable/exploitable.py +$ go get -u github.com/bnagy/crashwalk/cmd/... +``` +- [ ] 这部分我好像还没完成 + +3. afl-collect +``` +$ afl-collect -d crashes.db -e gdb_script -j 8 -r ../vuln/out/ ../vuln/testcase -- ../vuln/v1-afl + +*** GDB+EXPLOITABLE SCRIPT OUTPUT *** +[00001] out:id:000000,sig:11,src:000000,op:havoc,rep:64.................: EXPLOITABLE [ReturnAv (1/22)] +*** ***************************** *** +``` + +------------- + +# 代码覆盖率及其相关概念 +> 代码覆盖率是模糊测试中一个极其重要的概念,使用代码覆盖率可以评估和改进测试过程,执行到的代码越多,找到bug的可能性就越大,毕竟,在覆盖的代码中并不能100%发现bug,在未覆盖的代码中却是100%找不到任何bug的。 +> 代码覆盖率是一种度量代码的覆盖程度的方式,也就是指源代码中的某行代码是否已执行;对二进制程序,还可将此概念理解为汇编代码中的某条指令是否已执行。其计量方式很多,但无论是GCC的GCOV还是LLVM的SanitizerCoverage,都提供函数(function)、基本块(basic-block)、边界(edge)三种级别的覆盖率检测。 + +## 计算代码覆盖率 +**GCOV**:插桩生成覆盖率 **LCOV**:图形展示覆盖率 **afl-cov**:调用前两个工具计算afl测试用例的覆盖率 + +1. gcc插桩 +``` +$ gcc -fprofile-arcs -ftest-coverage ./v1.c -o v1-cov +``` + +2. afl-cov计算之前fuzzer的过程(结束后) +``` +$ ../afl-2.52b/afl-cov/afl-cov -d ./out/ --enable-branch-coverage -c . -e "cat AFL_FILE | ./v1-cov AFL_FILE" + + Non-zero exit status '1' for CMD: /usr/bin/readelf -a cat + +*** Imported 2 new test cases from: ./out//queue + + [+] AFL test case: id:000000,orig:1 (0 / 2), cycle: 0 + lines......: 100.0% (6 of 6 lines) + functions..: 100.0% (2 of 2 functions) + branches...: no data found + + Coverage diff (init) id:000000,orig:1 + diff (init) -> id:000000,orig:1 + New src file: /home/han/ck/vuln/v1.c + New 'function' coverage: main() + New 'function' coverage: vulnerable_function() + New 'line' coverage: 11 + New 'line' coverage: 12 + New 'line' coverage: 13 + New 'line' coverage: 6 + New 'line' coverage: 8 + New 'line' coverage: 9 + +++++++ BEGIN - first exec output for CMD: cat ./out//queue/id:000000,orig:1 | ./v1-cov ./out//queue/id:000000,orig:1 + Hello, World + ++++++ END + + [+] AFL test case: id:000001,orig:2 (1 / 2), cycle: 0 + lines......: 100.0% (6 of 6 lines) + functions..: 100.0% (2 of 2 functions) + branches...: no data found + [+] Processed 2 / 2 test cases. + + [+] Final zero coverage report: ./out//cov/zero-cov + [+] Final positive coverage report: ./out//cov/pos-cov + lines......: 100.0% (6 of 6 lines) + functions..: 100.0% (2 of 2 functions) + branches...: no data found + [+] Final lcov web report: ./out//cov/web/index.html +``` +3. LCOV展示 + +![](https://res.cloudinary.com/dozyfkbg3/image/upload/v1562570048/afl/1.png) + + +------------------ + +# 黑盒测试(使用qemu + +``` +$ ./afl-fuzz -i ../vuln/testcase/ -o ../vuln/outQemu -Q ../vuln/v1 +american fuzzy lop 2.52b (v1) + +┌─ process timing ─────────────────────────────────────┬─ overall results ─────┐ +│ run time : 0 days, 0 hrs, 0 min, 41 sec │ cycles done : 232 │ +│ last new path : none yet (odd, check syntax!) │ total paths : 2 │ +│ last uniq crash : 0 days, 0 hrs, 0 min, 41 sec │ uniq crashes : 1 │ +│ last uniq hang : none seen yet │ uniq hangs : 0 │ +├─ cycle progress ────────────────────┬─ map coverage ─┴───────────────────────┤ +│ now processing : 0* (0.00%) │ map density : 0.04% / 0.04% │ +│ paths timed out : 0 (0.00%) │ count coverage : 1.00 bits/tuple │ +├─ stage progress ────────────────────┼─ findings in depth ────────────────────┤ +│ now trying : havoc │ favored paths : 1 (50.00%) │ +│ stage execs : 255/256 (99.61%) │ new edges on : 1 (50.00%) │ +│ total execs : 121k │ total crashes : 33 (1 unique) │ +│ exec speed : 2860/sec │ total tmouts : 0 (0 unique) │ +├─ fuzzing strategy yields ───────────┴───────────────┬─ path geometry ────────┤ +│ bit flips : 0/56, 0/54, 0/50 │ levels : 1 │ +│ byte flips : 0/7, 0/5, 0/1 │ pending : 0 │ +│ arithmetics : 0/392, 0/25, 0/0 │ pend fav : 0 │ +│ known ints : 0/36, 0/138, 0/44 │ own finds : 0 │ +│ dictionary : 0/0, 0/0, 0/0 │ imported : n/a │ +│ havoc : 1/120k, 0/0 │ stability : 100.00% │ +│ trim : 82.61%/5, 0.00% ├────────────────────────┘ +^C────────────────────────────────────────────────────┘ [cpu000:102%] + +``` + +- [ ] 待完成对黑盒测试原理的分析 diff --git a/source/_posts/pack-and-unpack.md b/source/_posts/pack-and-unpack.md index f87e208c..8af38a27 100644 --- a/source/_posts/pack-and-unpack.md +++ b/source/_posts/pack-and-unpack.md @@ -1,5 +1,5 @@ --- -title: pack and unpack +title: 加壳与脱壳 date: 2019-05-14 11:20:59 tags: --- diff --git a/source/bookmarks/index.md b/source/bookmarks/index.md index 299e3649..ac16fcdd 100644 --- a/source/bookmarks/index.md +++ b/source/bookmarks/index.md @@ -28,7 +28,7 @@ comments: false > [codeforces](http://codeforces.com/)  [leetcode](https://leetcode-cn.com/) ## 工具 -> [mitmproxy](https://mitmproxy.org/)  [msfvenom](https://www.offensive-security.com/metasploit-unleashed/msfvenom/)  [shellphish](https://github.com/shellphish)  [KALItools](https://tools.kali.org/) +> [mitmproxy](https://mitmproxy.org/)  [msfvenom](https://www.offensive-security.com/metasploit-unleashed/msfvenom/)  [shellphish](https://github.com/shellphish)  [KALItools](https://tools.kali.org/) [valgrind-内存泄露扫描利器](http://www.valgrind.org/) ## 资源下载 > [Emoji表情](https://emojipedia.org/)  [Apk镜像](https://www.apkmirror.com/) diff --git a/themes/next/layout/_third-party/comments/gitment.swig b/themes/next/layout/_third-party/comments/gitment.swig index 398779e7..80be498c 100644 --- a/themes/next/layout/_third-party/comments/gitment.swig +++ b/themes/next/layout/_third-party/comments/gitment.swig @@ -7,8 +7,8 @@ {% else %} {% set CommentsClass = "Gitment" %} - - + + {% endif %} @@ -23,7 +23,7 @@