/*************************************************************************** * * Purpose: * ------- * (1) Hide files with the string MAGIC_HIDE in filename, * where MAGIC_HIDE is defined below. * By default, MAGIC_HIDE is defined as "samhain". * * (2) Hide all processes, if the executable has the string MAGIC_HIDE * in its name. * * * Configuration: * ------------- * If not building within the samhain system, you may remove the * line '#include "config.h"' and in the line * '#define MAGIC_HIDE SH_MAGIC_HIDE', replace SH_MAGIC_HIDE with * "someString" (in quotes !). */ /* #define _(string) string */ #include "config.h" #undef _ #define _(string) string /* define if this is a 2.6 kernel */ /* #define LINUX26 */ #define MAGIC_HIDE SH_MAGIC_HIDE /* #define MAGIC_HIDE "someString" */ /* define this if you have a modversioned kernel */ /* #define MODVERSIONS */ /* the address of the sys_call_table (not exported in 2.5 kernels) */ #define MAGIC_ADDRESS SH_SYSCALLTABLE /* * Install: * ------- * gcc -Wall -O2 -c samhain_hide.c * mv samhain_hide.o /lib/modules/KERNEL_VERSION/misc/ * * (Replace KERNEL_VERSION with your kernel's version.) * * Usage: * ----- * To load the module: * insmod samhain_hide (for improved safety: 'sync && insmod samhain_hide') * * To unload the module * rmmod samhain_hide (for improved safety: 'sync && rmmod samhain_hide') * * * Details: * ------- * The following kernel syscalls are replaced: * sys_getdents [hide files/directories/processes (/proc/PID)] * * Tested on: * --------- * Linux 2.2, 2.4, 2.6 * * Copyright: * --------- * Copyright (C) 2001, 2002 Rainer Wichmann (http://la-samhna.de) * * License: * ------- * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License, version 2, as * published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. * ***************************************************************************/ /***************************************************** * * The defines: * *****************************************************/ /* This is a Linux Loadable Kernel Module. */ #ifndef LINUX26 #define __KERNEL__ #define MODULE #endif #define LINUX /* Define for debugging. */ /* #define HIDE_DEBUG */ /* query_module */ /* #define FILE_DEBUG */ /* getdents */ /* #define READ_DEBUG */ /* read */ /* #define PROC_DEBUG */ /* procfs */ /***************************************************** * * The include files: * *****************************************************/ /* The configure options (#defines) for the Kernel */ #if SH_KERNEL_NUMERIC >= 206019 #include #else #include #endif #ifndef LINUX26 #ifdef CONFIG_MODVERSIONS #include #endif #endif #ifdef LINUX26 #include #endif #include /* File tables structures. If directory caching is used, * will be included here, and __LINUX_DCACHE_H * will thus be defined. */ #include #include /* Include the SYS_syscall defines. */ #ifndef LINUX26 #include #else #define SYS_getdents 141 #define SYS_getdents64 220 #endif /* Includes for 'getdents' per the manpage. */ #include #include #include /* To access userspace memory. */ #include /* Include for lock_kernel(). */ #include #if SH_KERNEL_NUMERIC >= 206019 #include #endif /* Include for fget(). */ #include /***************************************************** * * The global variables: * *****************************************************/ /* The kernel syscall table. Not exported anymore in 2.5 ff., and also * not in the RedHat 2.4 kernel. */ #if 0 extern void * sys_call_table[]; #define sh_sys_call_table sys_call_table #endif unsigned long * sh_sys_call_table = (unsigned long *) MAGIC_ADDRESS; /* The old address of the sys_getdents syscall. */ int (*old_getdents)(unsigned int, struct dirent *, unsigned int); #ifdef __NR_getdents64 long (*old_getdents64)(unsigned int, struct dirent64 *, unsigned int); #endif char hidden[] = MAGIC_HIDE; /***************************************************** * * The functions: * *****************************************************/ MODULE_AUTHOR("Rainer Wichmann"); MODULE_DESCRIPTION("Hide files/processes/modules with MAGIC_HIDE in name."); #if defined(MODULE_LICENSE) || defined(LINUX26) MODULE_LICENSE("GPL"); #endif #ifdef LINUX26 /* Default is to hide ourselves. */ static int removeme = 1; #ifdef MODULE_PARM MODULE_PARM (removeme, "i"); #else module_param(removeme, int, 0444); #endif #ifdef MODULE_PARM_DESC MODULE_PARM_DESC(removeme, "Choose zero for not hiding."); #endif /* LINUX26 */ #endif /* * struct task_struct is defined in linux/sched.h * * as of 2.4.20, the vanilla kernel holds (among others): * struct task_struct *next_task, *prev_task; * * Redhat kernel seems to have a different scheduler. * use: * struct task_struct * find_task_by_pid (int pid); */ #if defined(SH_VANILLA_KERNEL) && !defined(LINUX26) /* * Fetch the task struct for a given PID. */ struct task_struct * fetch_task_struct (int pid) { struct task_struct * task_ptr; #ifdef PROC_DEBUG printk("FETCH TASK %d\n", pid); #endif task_ptr = current; do { if (task_ptr->pid == (pid_t) pid ) return (task_ptr); task_ptr = task_ptr->next_task; } while (task_ptr != current); #ifdef PROC_DEBUG printk("FETCH TASK: NOT FOUND !!!\n"); #endif return (NULL); } #else /* * RedHat 2.4.20 kernel */ struct task_struct * fetch_task_struct (int pid) { struct task_struct * task_ptr = NULL; task_ptr = find_task_by_pid (pid); return (task_ptr); } #endif /* Convert a string to an int. * Does not recognize integers with a sign (+/-) in front. */ int my_atoi(char * in_str) { int i = 0; int retval = 0; int conv = 0; if (in_str == NULL) return (-1); while(in_str[i] != '\0') { /* Break if not numeric. */ if (in_str[i] < '0' || in_str[i] > '9') break; ++conv; /* Leading zeroes (should not happen in /proc) */ if (retval == 0 && in_str[i] == '0') retval = retval; else retval = retval * 10; retval = retval + (in_str[i] - '0'); i++; } if (conv == 0) return (-1); else return (retval); } /* Purpose: * * Hide all files/dirs that include the string MAGIC_HIDE in their * name. */ int new_getdents (unsigned int fd, struct dirent *dirp, unsigned int count) { int status = 0; /* Return value from original getdents */ struct inode * dir_inode; struct file * fd_file; int dir_is_proc = 0; struct dirent * dirp_prev; struct dirent * dirp_new; struct dirent * dirp_current; int dir_table_bytes; int forward_bytes; struct task_struct * task_ptr; int hide_it = 0; long dirp_offset; unsigned long dummy; lock_kernel(); status = (*old_getdents)(fd, dirp, count); #ifdef FILE_DEBUG printk("STATUS %d\n", status); #endif /* 0: end of directory. * -1: some error */ if (status <= 0) { unlock_kernel(); return (status); } /* Handle directory caching. dir_inode is the inode of the directory. */ #if defined(files_fdtable) { struct fdtable *fdt = files_fdtable(current->files); fd_file = rcu_dereference(fdt->fd[fd]); } #else { fd_file = current->files->fd[fd]; } #endif #if defined(__LINUX_DCACHE_H) dir_inode = fd_file->f_dentry->d_inode; #else dir_inode = fd_file->f_inode; #endif /* Check for the /proc directory */ if (dir_inode->i_ino == PROC_ROOT_INO #ifndef LINUX26 && !MAJOR(dir_inode->i_dev) && MINOR(dir_inode->i_dev) == 1 #endif ) dir_is_proc = 1; /* Allocate space for new dirent table. Can't use GFP_KERNEL * (kernel oops) */ dirp_new = (struct dirent *) kmalloc (status, GFP_ATOMIC); if (dirp_new == NULL) { unlock_kernel(); return (status); } /* Copy the dirp table to kernel space. */ dummy = (unsigned long) copy_from_user(dirp_new, dirp, status); #ifdef FILE_DEBUG printk("COPY to kernel\n"); #endif /* Loop over the dirp table to find entries to hide. */ dir_table_bytes = status; dirp_current = dirp_new; dirp_prev = NULL; while (dir_table_bytes > 0) { hide_it = 0; if (dirp_current->d_reclen == 0) break; dirp_offset = dirp_current->d_off; #ifdef FILE_DEBUG printk("DIRENT %d %d %ld\n", dir_table_bytes, dirp_current->d_reclen, dirp_current->d_off); #endif dir_table_bytes -= dirp_current->d_reclen; forward_bytes = dirp_current->d_reclen; #ifdef FILE_DEBUG printk("ENTRY %s\n", dirp_current->d_name); #endif /* If /proc is scanned (e.g. by 'ps'), hide the entry for * any process where the executable has MAGIC_HIDE in its name. */ if (dir_is_proc == 1) { task_ptr = fetch_task_struct(my_atoi(dirp_current->d_name)); if (task_ptr != NULL) { if (strstr(task_ptr->comm, hidden) != NULL) hide_it = 1; } } /* If it is a regular directory, hide any entry with * MAGIC_HIDE in its name. */ else { if (strstr (dirp_current->d_name, hidden) != NULL) hide_it = 1; } if (hide_it == 1) { #ifdef FILE_DEBUG printk(" -->HIDDEN %s\n", dirp_current->d_name); #endif if (dir_table_bytes > 0) { status -= dirp_current->d_reclen; memmove (dirp_current, (char *) dirp_current + dirp_current->d_reclen, dir_table_bytes); /* Set forward_bytes to 0, because now dirp_current is the * (previously) next entry in the dirp table. */ forward_bytes = 0; dirp_prev = dirp_current; } else { status -= dirp_current->d_reclen; if (dirp_prev != NULL) dirp_prev->d_off = dirp_offset; } } else { dirp_prev = dirp_current; if (dir_table_bytes == 0 && dirp_prev != NULL) dirp_prev->d_off = dirp_offset; } /* Next entry in dirp table. */ if (dir_table_bytes > 0) dirp_current = (struct dirent *) ( (char *) dirp_current + forward_bytes); } /* Copy our modified dirp table back to user space. */ dummy = (unsigned long) copy_to_user(dirp, dirp_new, status); #ifdef FILE_DEBUG printk("COPY to user\n"); #endif kfree (dirp_new); #ifdef FILE_DEBUG printk("KFREE\n"); #endif unlock_kernel(); return (status); } /* For 2.4 kernel */ #ifdef __NR_getdents64 long new_getdents64 (unsigned int fd, struct dirent64 *dirp, unsigned int count) { long status = 0; /* Return value from original getdents */ struct inode * dir_inode; struct file * fd_file; int dir_is_proc = 0; struct dirent64 * dirp_prev; struct dirent64 * dirp_new; struct dirent64 * dirp_current; int dir_table_bytes; int forward_bytes; struct task_struct * task_ptr; int hide_it = 0; __s64 dirp_offset; unsigned long dummy; lock_kernel(); status = (*old_getdents64)(fd, dirp, count); #ifdef FILE_DEBUG printk("STATUS64 %ld\n", status); #endif /* 0: end of directory. * -1: some error */ if (status <= 0) { unlock_kernel(); return (status); } /* Handle directory caching. dir_inode is the inode of the directory. */ #if defined(files_fdtable) { struct fdtable *fdt = files_fdtable(current->files); fd_file = rcu_dereference(fdt->fd[fd]); } #else { fd_file = current->files->fd[fd]; } #endif #if defined(__LINUX_DCACHE_H) dir_inode = fd_file->f_dentry->d_inode; #else dir_inode = fd_file->f_inode; #endif #ifdef FILE_DEBUG printk("INODE64\n"); #endif /* Check for the /proc directory */ if (dir_inode->i_ino == PROC_ROOT_INO #ifndef LINUX26 && !MAJOR(dir_inode->i_dev) /* && MINOR(dir_inode->i_dev) == 1 */ /* MINOR commented out because of problems with 2.4.17 */ #endif ) { dir_is_proc = 1; #ifdef PROC_DEBUG printk("PROC_CHECK64\n"); #endif } /* Allocate space for new dirent table. Can't use GFP_KERNEL * (kernel oops) */ dirp_new = kmalloc ((size_t)status, GFP_ATOMIC); #ifdef FILE_DEBUG printk("KMALLOC64_0\n"); #endif if (dirp_new == NULL) { unlock_kernel(); return (status); } #ifdef FILE_DEBUG printk("KMALLOC64\n"); #endif /* Copy the dirp table to kernel space. */ dummy = (unsigned long) copy_from_user(dirp_new, dirp, status); #ifdef FILE_DEBUG printk("COPY64 to kernel\n"); #endif /* Loop over the dirp table to find entries to hide. */ dir_table_bytes = status; dirp_current = dirp_new; dirp_prev = NULL; while (dir_table_bytes > 0) { hide_it = 0; if (dirp_current->d_reclen == 0) break; dirp_offset = dirp_current->d_off; #ifdef FILE_DEBUG printk("DIRENT %d %d %lld\n", dir_table_bytes, dirp_current->d_reclen, dirp_current->d_off); #endif dir_table_bytes -= dirp_current->d_reclen; forward_bytes = dirp_current->d_reclen; #ifdef FILE_DEBUG printk("ENTRY %s\n", dirp_current->d_name); #endif /* If /proc is scanned (e.g. by 'ps'), hide the entry for * any process where the executable has MAGIC_HIDE in its name. */ if (dir_is_proc == 1) { #ifdef PROC_DEBUG printk("PROC %s\n", dirp_current->d_name); #endif task_ptr = fetch_task_struct(my_atoi(dirp_current->d_name)); if (task_ptr != NULL) { #ifdef PROC_DEBUG printk("PROC %s <> %s\n", task_ptr->comm, hidden); #endif if (strstr(task_ptr->comm, hidden) != NULL) hide_it = 1; } } /* If it is a regular directory, hide any entry with * MAGIC_HIDE in its name. */ else { if (strstr (dirp_current->d_name, hidden) != NULL) hide_it = 1; } if (hide_it == 1) { #ifdef FILE_DEBUG printk(" -->HIDDEN %s\n", dirp_current->d_name); #endif if (dir_table_bytes > 0) { status -= dirp_current->d_reclen; memmove (dirp_current, (char *) dirp_current + dirp_current->d_reclen, dir_table_bytes); /* Set forward_bytes to 0, because now dirp_current is the * (previously) next entry in the dirp table. */ forward_bytes = 0; dirp_prev = dirp_current; } else { status -= dirp_current->d_reclen; if (dirp_prev != NULL) dirp_prev->d_off = dirp_offset; } } else { dirp_prev = dirp_current; if (dir_table_bytes == 0 && dirp_prev != NULL) dirp_prev->d_off = dirp_offset; } /* Next entry in dirp table. */ if (dir_table_bytes > 0) dirp_current = (struct dirent64 *) ( (char *) dirp_current + forward_bytes); } /* Copy our modified dirp table back to user space. */ dummy = (unsigned long) copy_to_user(dirp, dirp_new, status); kfree (dirp_new); unlock_kernel(); return (status); } #endif #ifdef LINUX26 static struct module *find_module(const char *name) { struct module *mod; struct list_head * modules = (struct list_head *) SH_LIST_MODULES; list_for_each_entry(mod, modules, list) { if (strcmp(mod->name, name) == 0) return mod; } return NULL; } #endif /* The initialisation function. Automatically called when module is inserted * via the 'insmod' command. */ #ifdef LINUX26 static int __init samhain_hide_init(void) #else int init_module(void) #endif { lock_kernel(); /* Unfortunately this does not fully prevent the module from appearing * in /proc/ksyms. */ #ifndef LINUX26 EXPORT_NO_SYMBOLS; #endif /* Replace the 'sys_getdents' syscall with the new version. */ old_getdents = (void*) sh_sys_call_table[SYS_getdents]; sh_sys_call_table[SYS_getdents] = (unsigned long) new_getdents; #ifdef __NR_getdents64 old_getdents64 = (void*) sh_sys_call_table[SYS_getdents64]; sh_sys_call_table[SYS_getdents64] = (unsigned long) new_getdents64; #endif #ifdef LINUX26 { #if defined(SH_MODLIST_LOCK) spinlock_t * modlist_lock = (spinlock_t * ) SH_MODLIST_LOCK; #endif #if SH_KERNEL_NUMERIC >= 206019 struct mutex * module_mutex = (struct mutex *) SH_MODLIST_MUTEX; #endif struct module *mod; #if SH_KERNEL_NUMERIC >= 206019 mutex_lock(module_mutex); #endif mod = find_module(SH_INSTALL_NAME"_hide"); if (mod) { /* Delete from various lists */ #if defined(SH_MODLIST_LOCK) spin_lock_irq(modlist_lock); #endif if (removeme == 1) { list_del(&mod->list); } #if defined(SH_MODLIST_LOCK) spin_unlock_irq(modlist_lock); #endif } #if SH_KERNEL_NUMERIC >= 206019 mutex_unlock(module_mutex); #endif } #endif unlock_kernel(); return (0); } /* The cleanup function. Automatically called when module is removed * via the 'rmmod' command. */ #ifdef LINUX26 static void __exit samhain_hide_cleanup(void) #else void cleanup_module(void) #endif { lock_kernel(); /* Restore the new syscalls to the original version. */ sh_sys_call_table[SYS_getdents] = (unsigned long) old_getdents; #ifdef __NR_getdents64 sh_sys_call_table[SYS_getdents64] = (unsigned long) old_getdents64; #endif unlock_kernel(); } #ifdef LINUX26 module_init(samhain_hide_init); module_exit(samhain_hide_cleanup); #endif