I am trying to produce a SHA1 of the hex memory address of the following ksym_name:
static char ksym_name[KSYM_NAME_LEN] = "pid_max";
The above code is from : Watch a variable (memory address) change in Linux kernel, and print stack trace when it changes?, file name : testhrarr.c
I am trying to implement this proof of concept -that differing hashes signifies violation of ksym_name integrity. Implementation shall be in the form of a Linux Kernel Module via insmod module_name.ko, hence C codes to work at the Linux Kernel level.
Example: 0xf7ce31a8 - original memory location of kysm_name of pid_max If the memory location changes to e.g. 0xf7ce31c1 - signifies integrity violation, symbol pid_max isn't running at the original location and that an alert should be raised.
I am able to print the hex address of ksym_name via :
printk(KERN_INFO " Addresses of ksym_name of %s is : 0x%p" ,&ksym_name);
the output of which displays a hex address e.g. 0xf7ce31a8.
To illustrated what I wish to achieve, I provide an example from : How come an array's address is equal to its value in C?.
In reference to the code found in the above link, what I desire is for :
char hex_array = for storage of the hex address of %p output of &my_array' i.e. 0xf7ce31a8
as per :
char hex_array = " 0xf7ce31a8 ";
then, next step is to channel the output of %p into a char array and produce a SHA1 hash of the hex address from the output of the %p of &my_array. See printf () below:
printf("&my_array = %p\n", &my_array);
To summarize: Put %p of &my_array into char hex_array and produce a SHA1 hash from the hex address of %p for &my_array.
My questions are :
How can I place the output from %p in the printf() above into char hex_array, and then produce a SHA1 hash from the hex address of the output from %p?
How can I place the output from 0x%p in the printk() above into char my_array, and then produce a SHA1 hash from the hex address of the output from 0x%p?
I had perused these resources, but has yet to find the solution:
Thanks in advance for any kind assistance.