From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: From: Vlad Drakula X-Mailer: The Bat! (v1.52f) Business Organization: Siberia X-Priority: 3 (Normal) Message-ID: <102377088.20011024085356@intramail.ru> To: "mandrake-russian@altlinux.ru" MIME-Version: 1.0 Content-Type: text/plain; charset=koi8-r Content-Transfer-Encoding: 8bit Subject: [mdk-re] Rafal Wojtczuk/Bugtraq: Flaws in recent Linux kernels Sender: mandrake-russian-admin@altlinux.ru Errors-To: mandrake-russian-admin@altlinux.ru X-BeenThere: mandrake-russian@altlinux.ru X-Mailman-Version: 2.0 Precedence: bulk Reply-To: mandrake-russian@altlinux.ru X-Reply-To: Vlad Drakula List-Help: List-Post: List-Subscribe: , List-Id: Linux-Mandrake RE / ALT Linux discussion list List-Unsubscribe: , List-Archive: Date: Wed Oct 24 06:47:11 2001 X-Original-Date: Wed, 24 Oct 2001 08:53:56 +0600 Archived-At: List-Archive: List-Post: Hello mandrake-russian, Вопрос - ALT тоже этому подвержен? Rafal Wojtczuk/Bugtraq: Flaws in recent Linux kernels Oct 18, 2001, 22 :15 UTC (15 Talkback[s]) (7726 reads) [ Users can solve this one with a quick visit to one of kernel.org's many mirrors and a download of 2.4.10 or later. Patches are also referenced below -ed. ] From: Rafal Wojtczuk To: bugtraq@securityfocus.com Subject: Flaws in recent Linux kernels Date: 18 Oct 2001 17:35:40 +0000 Hello, There are two bugs present in Linux kernels 2.2.x, x<=19 and 2.4.y, y<=9. The first vulnerability results in local DoS. The second one, involving ptrace, can be used to gain root privileges locally (in case of default install of most popular distributions). Linux 2.0.x is not vulnerable to the ptrace bug mentioned. I. Local DoS via deep symlinks An attacker can force the kernel to spend almost arbitrary amount of time on dereferencing a single symlink, which prevents other processes from running. The attached script, mklink.sh, takes a single parameter N. The script creates 5 symlinks, each of them containing 2*N+1 path elements. When N=3, the symlinks look this way: $ ls -lG drwxr-xr-x 2 nergal 4096 wrz 21 14:46 l lrwxrwxrwx 1 nergal 53 wrz 21 14:46 l0 -> l1/../l1/../l1/../l/../../../../../../../etc/services lrwxrwxrwx 1 nergal 19 wrz 21 14:46 l1 -> l2/../l2/../l2/../l lrwxrwxrwx 1 nergal 19 wrz 21 14:46 l2 -> l3/../l3/../l3/../l lrwxrwxrwx 1 nergal 19 wrz 21 14:46 l3 -> l4/../l4/../l4/../l lrwxrwxrwx 1 nergal 19 wrz 21 14:46 l4 -> l5/../l5/../l5/../l drwxr-xr-x 2 nergal 4096 wrz 21 14:46 l5 drwxr-xr-x 2 rybagowa 4096 lut 27 1999 still_here The amount of time the command "head l0" consumes (measured with time(1)) follows: N system time 10: sys 0m0.050s 20: sys 0m1.400s 30: sys 0m10.150s 40: sys 0m41.840s When "head l0" is being executed, other processes are not scheduled to run. Thus the possibility of local DoS (in case of SMP you may need to spawn one mklink.sh process per cpu). The time spent on dereferencing "l0" is proportional to the number of path elements in normalized "l0". So, when N=120, the scheduler should be locked out for about three hours. One can reach N=600, in case of 2.4.9; also in case of 2.4.9, one can create even more (up to eight) levels of symlinks. 2.4.10 fixed this problem, but not completely. Under 2.4.10 "head l0" command would not block the scheduler, but it cannot be killed. The problem is fully solved in 2.4.12. II. Root compromise by ptrace(3) In order for this flaw to be exploitable, /usr/bin/newgrp must be setuid root and world-executable. Additionally, newgrp, when run with no arguments, should not prompt for password. This conditions are satisfied in case of most popular Linux distributions (but not Openwall GNU/*/Linux). Suppose the following flow of execution (initially, Process 1 and Process 2 are unprivileged): Time Process 1 Process 2 0 ptrace(PTRACE_ATTACH, pid of Process 2,...) 1 execve /usr/bin/newgrp 2 execve /any/thing/suid 3 execve default user shell 4 execve ./insert_shellcode The unexpected happens at moment 2. Process 2 is still traced, execve /any/thing/suid succeeds, and the setuid bit is honored ! This is so because 1) the property of "having an ptrace-attached child" survives the execve 2) at moment 2, the tracer (process 1) has CAP_SYS_PTRACE set (well, has all root privs), therefore it is allowed to trace even execve of setuid binary. In moment 3, newgrp executes a shell, which is an usual behavior. This shell is still able to control the process 2 with ptrace. Therefore, the "./insert_shellcode" binary is able to insert arbitrary code into the address space of Process 2. Game over. In order to exploit this kernel vulnerability, one needs a setuid root binary which execs an user-defined binary (or a shell). Newgrp is appropriate on most distributions. On default install of slackware it does not work (the password fields in /etc/group are empty, and newgrp demands a password). However, one can use "su" on this distribution. "su" binary is compiled without PAM support on slackware, therefore it execs an user shell. Do you remember the exploit against *BSD procfs, published in January 2000 (http://www.securityfocus.com/cgi-bin/archive.pl?id=1&mid=43189) ? This one is very similar; a setuid binary is spawned so that the system treats it as a tracing process. Observe that in case of newgrp, only CAP_SYS_SETGID is required (plus probably some reserved egid E to read gshadow; provided that gshadow would be readable by gid E). If the file system supported granting capabilities to programs (not only +s bit), this bug could have been benign. Similarly, "su" needs only CAP_SYS_SETUID+CAP_SYS_SETGID (and egid shadow). The "least privilege" rule, strictly applied, can save from a lot of unexpected trouble. This bug seems to be Linux-specific. I have tested FreeBSD, OpenBSD and [older versions of] Irix and Solaris. None of the tested systems honored setuid bit when an executing process was traced, even when the tracer was root. III. Vendor status The kernel developers were notified on 18th September. vendor-sec at lists dot de was notified on 9th October. IV. Availability of patches. 2.4.12 kernel fixes both presented problems. The attached patches, 2.2.19-deep-symlink.patch and 2.2.19-ptrace.patch, both blessed by Linus, can be used to close the vulnerability in 2.2.19. The (updated) Openwall GNU/*/Linux kernel patches can be retrieved from http://www.openwall.com/linux/ Note that the default Owl installation is not vulnerable to the ptrace bug described. V. The exploits The attached mklink.sh script creates malicious symlinks. ptrace-exp.c and insert_shellcode.c exploit the ptrace bug on i386 architecture. You will probably need to adjust #define in the latter. Note that ptrace-exp uses LD_DEBUG variable to force a setuid program to generate output. This technique (stderr redirected to a pipe, LD_DEBUG set, especially LD_DEBUG=symbols) allows for forced suspending of a setuid binary in a precisely determined moments, which may be helpful to build exploits which rely on race-conditions. And finally, notice that under Owl LD_DEBUG is ignored in case of suid binaries. Save yourself, Nergal http://www.7bulls.com -- Best regards, Vlad mailto:sib_drakula@intramail.ru