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问题:
I'm trying to write some simple test code as a demonstration of hooking the system call table.
"sys_call_table" is no longer exported in 2.6, so I'm just grabbing the address from the System.map file, and I can see it is correct (Looking through the memory at the address I found, I can see the pointers to the system calls).
However, when I try to modify this table, the kernel gives an "Oops" with "unable to handle kernel paging request at virtual address c061e4f4" and the machine reboots.
This is CentOS 5.4 running 2.6.18-164.10.1.el5. Is there some sort of protection or do I just have a bug? I know it comes with SELinux, and I've tried putting it in to permissive mode, but it doesn't make a difference
Here's my code:
#include <linux/kernel.h> #include <linux/module.h> #include <linux/moduleparam.h> #include <linux/unistd.h> void **sys_call_table; asmlinkage int (*original_call) (const char*, int, int); asmlinkage int our_sys_open(const char* file, int flags, int mode) { printk("A file was opened\n"); return original_call(file, flags, mode); } int init_module() { // sys_call_table address in System.map sys_call_table = (void*)0xc061e4e0; original_call = sys_call_table[__NR_open]; // Hook: Crashes here sys_call_table[__NR_open] = our_sys_open; } void cleanup_module() { // Restore the original call sys_call_table[__NR_open] = original_call; }
回答1:
I finally found the answer myself.
http://www.linuxforums.org/forum/linux-kernel/133982-cannot-modify-sys_call_table.html
The kernel was changed at some point so that the system call table is read only.
cypherpunk:
Even if it is late but the Solution may interest others too: In the entry.S file you will find: Code:
.section .rodata,"a" #include "syscall_table_32.S"
sys_call_table -> ReadOnly You have to compile the Kernel new if you want to "hack" around with sys_call_table...
The link also has an example of changing the memory to be writable.
nasekomoe:
Hi everybody. Thanks for replies. I solved the problem long ago by modifying access to memory pages. I have implemented two functions that do it for my upper level code:
#include <asm/cacheflush.h> #ifdef KERN_2_6_24 #include <asm/semaphore.h> int set_page_rw(long unsigned int _addr) { struct page *pg; pgprot_t prot; pg = virt_to_page(_addr); prot.pgprot = VM_READ | VM_WRITE; return change_page_attr(pg, 1, prot); } int set_page_ro(long unsigned int _addr) { struct page *pg; pgprot_t prot; pg = virt_to_page(_addr); prot.pgprot = VM_READ; return change_page_attr(pg, 1, prot); } #else #include <linux/semaphore.h> int set_page_rw(long unsigned int _addr) { return set_memory_rw(_addr, 1); } int set_page_ro(long unsigned int _addr) { return set_memory_ro(_addr, 1); } #endif // KERN_2_6_24
Here's a modified version of the original code that works for me.
#include <linux/kernel.h> #include <linux/module.h> #include <linux/moduleparam.h> #include <linux/unistd.h> #include <asm/semaphore.h> #include <asm/cacheflush.h> void **sys_call_table; asmlinkage int (*original_call) (const char*, int, int); asmlinkage int our_sys_open(const char* file, int flags, int mode) { printk("A file was opened\n"); return original_call(file, flags, mode); } int set_page_rw(long unsigned int _addr) { struct page *pg; pgprot_t prot; pg = virt_to_page(_addr); prot.pgprot = VM_READ | VM_WRITE; return change_page_attr(pg, 1, prot); } int init_module() { // sys_call_table address in System.map sys_call_table = (void*)0xc061e4e0; original_call = sys_call_table[__NR_open]; set_page_rw(sys_call_table); sys_call_table[__NR_open] = our_sys_open; } void cleanup_module() { // Restore the original call sys_call_table[__NR_open] = original_call; }
回答2:
Thanks Stephen, your research here was helpful to me. I had a few problems, though, as I was trying this on a 2.6.32 kernel, and getting WARNING: at arch/x86/mm/pageattr.c:877 change_page_attr_set_clr+0x343/0x530() (Not tainted)
followed by a kernel OOPS about not being able to write to the memory address.
The comment above the mentioned line states:
// People should not be passing in unaligned addresses
The following modified code works:
int set_page_rw(long unsigned int _addr) { return set_memory_rw(PAGE_ALIGN(_addr) - PAGE_SIZE, 1); } int set_page_ro(long unsigned int _addr) { return set_memory_ro(PAGE_ALIGN(_addr) - PAGE_SIZE, 1); }
Note that this still doesn't actually set the page as read/write in some situations. The static_protections()
function, which is called inside of set_memory_rw()
, removes the _PAGE_RW
flag if:
- It's in the BIOS area
- The address is inside .rodata
- CONFIG_DEBUG_RODATA is set and the kernel is set to read-only
I found this out after debugging why I still got "unable to handle kernel paging request" when trying to modify the address of kernel functions. I was eventually able to solve that problem by finding the page table entry for the address myself and manually setting it to writable. Thankfully, the lookup_address()
function is exported in version 2.6.26+. Here is the code I wrote to do that:
void set_addr_rw(unsigned long addr) { unsigned int level; pte_t *pte = lookup_address(addr, &level); if (pte->pte &~ _PAGE_RW) pte->pte |= _PAGE_RW; } void set_addr_ro(unsigned long addr) { unsigned int level; pte_t *pte = lookup_address(addr, &level); pte->pte = pte->pte &~_PAGE_RW; }
Finally, while Mark's answer is technically correct, it'll case problem when ran inside Xen. If you want to disable write-protect, use the read/write cr0 functions. I macro them like this:
#define GPF_DISABLE write_cr0(read_cr0() & (~ 0x10000)) #define GPF_ENABLE write_cr0(read_cr0() | 0x10000)
Hope this helps anyone else who stumbles upon this question.
回答3:
Note that the following will also work instead of using change_page_attr and cannot be depreciated:
static void disable_page_protection(void) { unsigned long value; asm volatile("mov %%cr0,%0" : "=r" (value)); if (value & 0x00010000) { value &= ~0x00010000; asm volatile("mov %0,%%cr0": : "r" (value)); } } static void enable_page_protection(void) { unsigned long value; asm volatile("mov %%cr0,%0" : "=r" (value)); if (!(value & 0x00010000)) { value |= 0x00010000; asm volatile("mov %0,%%cr0": : "r" (value)); } }
回答4:
If you are dealing with kernel 3.4 and later (it can also work with earlier kernels, I didn't test it) I would recommend a smarter way to acquire the system callы table location.
For example
#include <linux/module.h> #include <linux/kallsyms.h> static unsigned long **p_sys_call_table; /* Aquire system calls table address */ p_sys_call_table = (void *) kallsyms_lookup_name("sys_call_table");
That's it. No addresses, it works fine with every kernel I've tested.
The same way you can use a not exported Kernel function from your module:
static int (*ref_access_remote_vm)(struct mm_struct *mm, unsigned long addr, void *buf, int len, int write); ref_access_remote_vm = (void *)kallsyms_lookup_name("access_remote_vm");
Enjoy!