分类:
2010-11-30 20:14:25
原文地址:Linux下实现劫持系统调用的总结(上)--代码及实现 作者:Godbach
Linux内核版本2.6中已经不再导出系统调用符号表了。因此,如果想实现劫持系统调用,就得想办法找到系统调用表的地址。网上应该可以搜到相关的实现。我这里找到了albcamus兄的精华文章,并在内核版本
本文欢迎自由转载,但请标明出处和本文链接,并保持本文的完整性。
CU: Godbach
Blog:http://blog.chinaunix.net/u/33048/index.html
Dec 2, 2009
一、代码及实现
(一) 劫持open系统调用的代码
内核态实现劫持系统调用的代码如下,来自参考链接1,即albcamus兄提供的代码。我这里屏蔽了一些代码,仅实现了劫持open系统调用。
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
MODULE_DESCRIPTION("Intercept the system
call table in Linux");
MODULE_AUTHOR("alert7 (alert7@xfocus.org)
\n\t\talbcamus
MODULE_LICENSE("GPL");
/* comment the following line to shut me up */
#define INTERCEPT_DEBUG
#ifdef INTERCEPT_DEBUG
#define dbgprint(format,args...) \
printk("intercept: function:%s-L%d: "format, __FUNCTION__,
__LINE__, ##args);
#else
#define dbgprint(format,args...)
do {} while(0);
#endif
/**
* the system call table
*/
void **my_table;
unsigned int orig_cr0;
/**
* the original syscall functions
*/
asmlinkage long (*old_open) (char __user
*filename, int flags, int mode);
asmlinkage int
(*old_execve) (struct pt_regs regs);
/** do_execve and do_fork */
unsigned int can_exec_fork = 0;
int
(*new_do_execve) (char * filename,
char __user *__user *argv,
char __user *__user *envp,
struct pt_regs * regs);
struct idtr {
unsigned short limit;
unsigned int base;
} __attribute__ ((packed));
struct idt {
unsigned short off1;
unsigned short sel;
unsigned char none, flags;
unsigned short off2;
} __attribute__ ((packed));
#if 0
/**
* check
if we can intercept fork/vfork/clone/execve or not
*
* return
: 0 for no, 1 for yes
*/
struct kprobe kp_exec;
unsigned int can_intercept_fork_exec(void)
{
int
ret = 0;
#ifndef CONFIG_KPROBES
return ret;
#endif
kp_exec.symbol_name = "do_execve";
ret =
register_kprobe(&kp_exec);
if
(ret != 0 ) {
dbgprint("cannot find do_execve by kprobe.\n");
return 0;
}
new_do_execve = ( int (*)
(char *,
char __user * __user *,
char __user * __user *,
struct pt_regs *
)
) kp_exec.addr;
dbgprint("do_execve at %p\n", (void *)kp_exec.addr);
unregister_kprobe(&kp_exec);
return 1;
}
#endif
/**
* clear WP bit of CR0, and return the original
value
*/
unsigned int clear_and_return_cr0(void)
{
unsigned int cr0 = 0;
unsigned
int ret;
asm
volatile ("movl %%cr0, %%eax"
: "=a"(cr0)
);
ret =
cr0;
/*
clear the 20 bit of CR0, a.k.a WP bit */
cr0
&= 0xfffeffff;
asm
volatile ("movl %%eax, %%cr0"
:
: "a"(cr0)
);
return ret;
}
/** set CR0 with new value
*
* @val : new value to set in cr0
*/
void setback_cr0(unsigned int val)
{
asm
volatile ("movl %%eax, %%cr0"
:
: "a"(val)
);
}
/**
* Return the first appearence of NEEDLE in
HAYSTACK.
* */
static void *memmem(const void *haystack,
size_t haystack_len,
const void *needle, size_t needle_len)
{/*{{{*/
const
char *begin;
const
char *const last_possible
=
(const char *) haystack + haystack_len - needle_len;
if
(needle_len == 0)
/* The first occurrence of the empty string is deemed to occur at
the beginning of the string. */
return (void *) haystack;
/*
Sanity check, otherwise the loop might search through the whole
memory. */
if
(__builtin_expect(haystack_len < needle_len, 0))
return NULL;
for
(begin = (const char *) haystack; begin <= last_possible;
++begin)
if (begin[0] == ((const char *) needle)[0]
&& !memcmp((const void *) &begin[1],
(const void *) ((const char
*) needle + 1),
needle_len - 1))
return (void *) begin;
return NULL;
}/*}}}*/
/**
* Find the location of sys_call_table
*/
static unsigned long get_sys_call_table(void)
{/*{{{*/
/* we'll read first 100 bytes of int $0x80 */
#define OFFSET_SYSCALL 100
struct idtr idtr;
struct idt idt;
unsigned sys_call_off;
unsigned retval;
char
sc_asm[OFFSET_SYSCALL], *p;
/*
well, let's read IDTR */
asm("sidt %0":"=m"(idtr)
:
:"memory" );
dbgprint("idtr base at 0x%X, limit at 0x%X\n", (unsigned
int)idtr.base,(unsigned short)idtr.limit);
/*
Read in IDT for vector 0x80 (syscall) */
memcpy(&idt, (char *) idtr.base + 8 * 0x80, sizeof(idt));
sys_call_off = (idt.off2 << 16) | idt.off1;
dbgprint("idt80: flags=%X sel=%X off=%X\n",
(unsigned) idt.flags, (unsigned) idt.sel, sys_call_off);
/* we
have syscall routine address now, look for syscall table
dispatch (indirect call) */
memcpy(sc_asm, (void *)sys_call_off, OFFSET_SYSCALL);
/**
*
Search opcode of `call sys_call_table(,eax,4)'
*/
p =
(char *) memmem(sc_asm, OFFSET_SYSCALL, "\xff\x14\x85", 3);
if (p
== NULL)
return 0;
retval = *(unsigned *) (p + 3);
if
(p) {
dbgprint("sys_call_table at 0x%x, call dispatch at 0x%x\n",
retval, (unsigned int) p);
}
return
retval;
#undef OFFSET_SYSCALL
}/*}}}*/
/**
* new_open - replace the original sys_open when
initilazing,
*
as well as be got rid of when removed
*/
asmlinkage long new_open(char *filename, int
flags, int mode)
{
dbgprint("call open()\n");
return old_open (filename, flags, mode);
}
/**
* new_execve - you should change this function
whenever the kernel's sys_execve()
* changes
*/
asmlinkage int new_execve(struct pt_regs regs)
{
int
error;
char
*filename;
dbgprint("Hello\n");
filename = getname( (char __user *) regs.ebx );
error
= PTR_ERR(filename);
if (
IS_ERR(filename) )
goto out;
dbgprint("file to execve: %s\n", filename);
error
= new_do_execve(filename,
(char __user * __user *)
regs.ecx,
(char __user * __user *)
regs.edx,
®s);
if
(error == 0) {
task_lock(current);
current->ptrace &= ~PT_DTRACE;
task_unlock(current);
set_thread_flag(TIF_IRET);
}
putname (filename);
out:
return error;
}
static int intercept_init(void)
{
my_table = (void **)get_sys_call_table();
if
(my_table == NULL)
return -1;
dbgprint("sys call table address %p\n", (void *) my_table);
#define REPLACE(x) old_##x =
my_table[__NR_##x];\
my_table[__NR_##x] = new_##x
REPLACE(open);
#if 0
can_exec_fork = can_intercept_fork_exec();
if(can_exec_fork == 1)
REPLACE(execve);
#endif
#undef REPLACE
return 0;
}
static int __init this_init(void)
{
int
ret;
printk("syscall intercept: Hi, poor linux!\n");
orig_cr0 = clear_and_return_cr0();
ret =
intercept_init();
setback_cr0(orig_cr0);
return ret;
}
static void __exit this_fini(void)
{
printk("syscall intercept: bye, poor linux!\n");
#define RESTORE(x) my_table[__NR_##x] = old_##x
orig_cr0 = clear_and_return_cr0();
RESTORE(open);
#if 0
if(can_exec_fork == 1)
RESTORE(execve);
#endif
setback_cr0(orig_cr0);
#undef RESTORE
}
module_init(this_init);
module_exit(this_fini);
(二) 编译及实践
Makefile如下:
obj-m :=hack_open.o
EXTRA_CFLAGS :=
-Dsymname=sys_call_table
KDIR := /lib/modules/$(shell uname -r)/build
PWD := $(shell pwd)
default:
make -C $(KDIR) SUBDIRS=$(PWD) modules
clean:
rm -rf .*.cmd *.mod.c *.o *.ko .tmp* *.symvers
编译之后,加载模块,然后查看日志信息
Sep 24 19:06:49
localhost kernel: intercept: function:get_sys_call_table-L220: sys_call_table
at 0xc
Sep 24 19:06:49 localhost kernel: intercept: function:intercept_init-L276: sys
call table address c
Sep 24 19:06:50 localhost kernel: intercept: function:new_open-L234: hello
Sep 24 19:07:00 localhost last message repeated 460 times
可见open系统调用执行次数之频繁。
--未完待续