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system.c 13.96 KB
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Luis Héctor Chávez 提交于 2021-01-03 05:47 . test: Fix the ASan tests
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/* Copyright 2017 The Chromium OS Authors. All rights reserved.
* Use of this source code is governed by a BSD-style license that can be
* found in the LICENSE file.
*/
#include "system.h"
#include <errno.h>
#include <fcntl.h>
#include <grp.h>
#include <net/if.h>
#include <pwd.h>
#include <stdbool.h>
#include <stdio.h>
#include <string.h>
#include <sys/ioctl.h>
#include <sys/prctl.h>
#include <sys/socket.h>
#include <sys/stat.h>
#include <sys/statvfs.h>
#include <unistd.h>
#include <linux/securebits.h>
#include "syscall_wrapper.h"
#include "util.h"
/*
* SECBIT_NO_CAP_AMBIENT_RAISE was added in kernel 4.3, so fill in the
* definition if the securebits header doesn't provide it.
*/
#ifndef SECBIT_NO_CAP_AMBIENT_RAISE
#define SECBIT_NO_CAP_AMBIENT_RAISE (issecure_mask(6))
#endif
#ifndef SECBIT_NO_CAP_AMBIENT_RAISE_LOCKED
#define SECBIT_NO_CAP_AMBIENT_RAISE_LOCKED (issecure_mask(7))
#endif
/*
* Assert the value of SECURE_ALL_BITS at compile-time.
* Android devices are currently compiled against 4.4 kernel headers. Kernel 4.3
* added a new securebit.
* When a new securebit is added, the new SECURE_ALL_BITS mask will return EPERM
* when used on older kernels. The compile-time assert will catch this situation
* at compile time.
*/
#if defined(__ANDROID__)
_Static_assert(SECURE_ALL_BITS == 0x55, "SECURE_ALL_BITS == 0x55.");
#endif
/* Used by lookup_(user|group) functions. */
#define MAX_PWENT_SZ (1 << 20)
#define MAX_GRENT_SZ (1 << 20)
int secure_noroot_set_and_locked(uint64_t mask)
{
return (mask & (SECBIT_NOROOT | SECBIT_NOROOT_LOCKED)) ==
(SECBIT_NOROOT | SECBIT_NOROOT_LOCKED);
}
int lock_securebits(uint64_t skip_mask, bool require_keep_caps)
{
/* The general idea is to set all bits, subject to exceptions below. */
unsigned long securebits = SECURE_ALL_BITS | SECURE_ALL_LOCKS;
/*
* SECBIT_KEEP_CAPS is special in that it is automatically cleared on
* execve(2). This implies that attempts to set SECBIT_KEEP_CAPS (as is
* the default) in processes that have it locked already (such as nested
* minijail usage) would fail. Thus, unless the caller requires it,
* allow it to remain off if it is already locked.
*/
if (!require_keep_caps) {
int current_securebits = prctl(PR_GET_SECUREBITS);
if (current_securebits < 0) {
pwarn("prctl(PR_GET_SECUREBITS) failed");
return -1;
}
if ((current_securebits & SECBIT_KEEP_CAPS_LOCKED) != 0 &&
(current_securebits & SECBIT_KEEP_CAPS) == 0) {
securebits &= ~SECBIT_KEEP_CAPS;
}
}
/*
* Ambient capabilities can only be raised if they're already present
* in the permitted *and* inheritable set. Therefore, we don't really
* need to lock the NO_CAP_AMBIENT_RAISE securebit, since we are already
* configuring the permitted and inheritable set.
*/
securebits &=
~(SECBIT_NO_CAP_AMBIENT_RAISE | SECBIT_NO_CAP_AMBIENT_RAISE_LOCKED);
/* Don't set any bits that the user requested not to be touched. */
securebits &= ~skip_mask;
if (!securebits) {
warn("not locking any securebits");
return 0;
}
int securebits_ret = prctl(PR_SET_SECUREBITS, securebits);
if (securebits_ret < 0) {
pwarn("prctl(PR_SET_SECUREBITS) failed");
return -1;
}
return 0;
}
int write_proc_file(pid_t pid, const char *content, const char *basename)
{
int fd, ret;
size_t sz, len;
ssize_t written;
char filename[32];
sz = sizeof(filename);
ret = snprintf(filename, sz, "/proc/%d/%s", pid, basename);
if (ret < 0 || (size_t)ret >= sz) {
warn("failed to generate %s filename", basename);
return -1;
}
fd = open(filename, O_WRONLY | O_CLOEXEC);
if (fd < 0) {
pwarn("failed to open '%s'", filename);
return -errno;
}
len = strlen(content);
written = write(fd, content, len);
if (written < 0) {
pwarn("failed to write '%s'", filename);
return -errno;
}
if ((size_t)written < len) {
warn("failed to write %zu bytes to '%s'", len, filename);
return -1;
}
close(fd);
return 0;
}
/*
* We specifically do not use cap_valid() as that only tells us the last
* valid cap we were *compiled* against (i.e. what the version of kernel
* headers says). If we run on a different kernel version, then it's not
* uncommon for that to be less (if an older kernel) or more (if a newer
* kernel).
* Normally, we suck up the answer via /proc. On Android, not all processes are
* guaranteed to be able to access '/proc/sys/kernel/cap_last_cap' so we
* programmatically find the value by calling prctl(PR_CAPBSET_READ).
*/
unsigned int get_last_valid_cap(void)
{
unsigned int last_valid_cap = 0;
if (is_android()) {
for (; prctl(PR_CAPBSET_READ, last_valid_cap, 0, 0, 0) >= 0;
++last_valid_cap)
;
/* |last_valid_cap| will be the first failing value. */
if (last_valid_cap > 0) {
last_valid_cap--;
}
} else {
const char cap_file[] = "/proc/sys/kernel/cap_last_cap";
FILE *fp = fopen(cap_file, "re");
if (fscanf(fp, "%u", &last_valid_cap) != 1)
pdie("fscanf(%s)", cap_file);
fclose(fp);
}
return last_valid_cap;
}
int cap_ambient_supported(void)
{
return prctl(PR_CAP_AMBIENT, PR_CAP_AMBIENT_IS_SET, CAP_CHOWN, 0, 0) >=
0;
}
int config_net_loopback(void)
{
const char ifname[] = "lo";
int sock;
struct ifreq ifr;
/* Make sure people don't try to add really long names. */
_Static_assert(sizeof(ifname) <= IFNAMSIZ, "interface name too long");
sock = socket(AF_LOCAL, SOCK_DGRAM | SOCK_CLOEXEC, 0);
if (sock < 0) {
pwarn("socket(AF_LOCAL) failed");
return -1;
}
/*
* Do the equiv of `ip link set up lo`. The kernel will assign
* IPv4 (127.0.0.1) & IPv6 (::1) addresses automatically!
*/
strcpy(ifr.ifr_name, ifname);
if (ioctl(sock, SIOCGIFFLAGS, &ifr) < 0) {
pwarn("ioctl(SIOCGIFFLAGS) failed");
return -1;
}
/* The kernel preserves ifr.ifr_name for use. */
ifr.ifr_flags |= IFF_UP | IFF_RUNNING;
if (ioctl(sock, SIOCSIFFLAGS, &ifr) < 0) {
pwarn("ioctl(SIOCSIFFLAGS) failed");
return -1;
}
close(sock);
return 0;
}
int write_pid_to_path(pid_t pid, const char *path)
{
FILE *fp = fopen(path, "we");
if (!fp) {
pwarn("failed to open '%s'", path);
return -errno;
}
if (fprintf(fp, "%d\n", (int)pid) < 0) {
/* fprintf(3) does not set errno on failure. */
warn("fprintf(%s) failed", path);
return -1;
}
if (fclose(fp)) {
pwarn("fclose(%s) failed", path);
return -errno;
}
return 0;
}
/*
* Create the |path| directory and its parents (if need be) with |mode|.
* If not |isdir|, then |path| is actually a file, so the last component
* will not be created.
*/
int mkdir_p(const char *path, mode_t mode, bool isdir)
{
int rc;
char *dir = strdup(path);
if (!dir) {
rc = errno;
pwarn("strdup(%s) failed", path);
return -rc;
}
/* Starting from the root, work our way out to the end. */
char *p = strchr(dir + 1, '/');
while (p) {
*p = '\0';
if (mkdir(dir, mode) && errno != EEXIST) {
rc = errno;
pwarn("mkdir(%s, 0%o) failed", dir, mode);
free(dir);
return -rc;
}
*p = '/';
p = strchr(p + 1, '/');
}
/*
* Create the last directory. We still check EEXIST here in case
* of trailing slashes.
*/
free(dir);
if (isdir && mkdir(path, mode) && errno != EEXIST) {
rc = errno;
pwarn("mkdir(%s, 0%o) failed", path, mode);
return -rc;
}
return 0;
}
/*
* setup_mount_destination: Ensures the mount target exists.
* Creates it if needed and possible.
*/
int setup_mount_destination(const char *source, const char *dest, uid_t uid,
uid_t gid, bool bind, unsigned long *mnt_flags)
{
int rc;
struct stat st_buf;
bool domkdir;
rc = stat(dest, &st_buf);
if (rc == 0) /* destination exists */
return 0;
/*
* Try to create the destination.
* Either make a directory or touch a file depending on the source type.
*
* If the source isn't an absolute path, assume it is a filesystem type
* such as "tmpfs" and create a directory to mount it on. The dest will
* be something like "none" or "proc" which we shouldn't be checking.
*/
if (source[0] == '/') {
/* The source is an absolute path -- it better exist! */
rc = stat(source, &st_buf);
if (rc) {
rc = errno;
pwarn("stat(%s) failed", source);
return -rc;
}
/*
* If bind mounting, we only create a directory if the source
* is a directory, else we always bind mount it as a file to
* support device nodes, sockets, etc...
*
* For all other mounts, we assume a block/char source is
* going to want a directory to mount to. If the source is
* something else (e.g. a fifo or socket), this probably will
* not do the right thing, but we'll fail later on when we try
* to mount(), so shouldn't be a big deal.
*/
domkdir = S_ISDIR(st_buf.st_mode) ||
(!bind && (S_ISBLK(st_buf.st_mode) ||
S_ISCHR(st_buf.st_mode)));
/* If bind mounting, also grab the mount flags of the source. */
if (bind && mnt_flags) {
struct statvfs stvfs_buf;
rc = statvfs(source, &stvfs_buf);
if (rc) {
rc = errno;
pwarn(
"failed to look up mount flags: source=%s",
source);
return -rc;
}
*mnt_flags = stvfs_buf.f_flag;
}
} else {
/* The source is a relative path -- assume it's a pseudo fs. */
/* Disallow relative bind mounts. */
if (bind) {
warn("relative bind-mounts are not allowed: source=%s",
source);
return -EINVAL;
}
domkdir = true;
}
/*
* Now that we know what we want to do, do it!
* We always create the intermediate dirs and the final path with 0755
* perms and root/root ownership. This shouldn't be a problem because
* the actual mount will set those perms/ownership on the mount point
* which is all people should need to access it.
*/
rc = mkdir_p(dest, 0755, domkdir);
if (rc)
return rc;
if (!domkdir) {
int fd = open(dest, O_RDWR | O_CREAT | O_CLOEXEC, 0700);
if (fd < 0) {
rc = errno;
pwarn("open(%s) failed", dest);
return -rc;
}
close(fd);
}
if (chown(dest, uid, gid)) {
rc = errno;
pwarn("chown(%s, %u, %u) failed", dest, uid, gid);
return -rc;
}
return 0;
}
/*
* lookup_user: Gets the uid/gid for the given username.
*/
int lookup_user(const char *user, uid_t *uid, gid_t *gid)
{
char *buf = NULL;
struct passwd pw;
struct passwd *ppw = NULL;
/*
* sysconf(_SC_GETPW_R_SIZE_MAX), under glibc, is documented to return
* a suggested starting size for the buffer, so let's try getting this
* size first, and fallback to a default othersise.
*/
ssize_t sz = sysconf(_SC_GETPW_R_SIZE_MAX);
if (sz == -1)
sz = 65536; /* your guess is as good as mine... */
do {
buf = malloc(sz);
if (!buf)
return -ENOMEM;
int err = getpwnam_r(user, &pw, buf, sz, &ppw);
/*
* We're safe to free the buffer here. The strings inside |pw|
* point inside |buf|, but we don't use any of them; this leaves
* the pointers dangling but it's safe.
* |ppw| points at |pw| if getpwnam_r(3) succeeded.
*/
free(buf);
if (err == ERANGE) {
/* |buf| was too small, retry with a bigger one. */
sz <<= 1;
} else if (err != 0) {
/* We got an error not related to the size of |buf|. */
return -err;
} else if (!ppw) {
/* Not found. */
return -ENOENT;
} else {
*uid = ppw->pw_uid;
*gid = ppw->pw_gid;
return 0;
}
} while (sz <= MAX_PWENT_SZ);
/* A buffer of size MAX_PWENT_SZ is still too small, return an error. */
return -ERANGE;
}
/*
* lookup_group: Gets the gid for the given group name.
*/
int lookup_group(const char *group, gid_t *gid)
{
char *buf = NULL;
struct group gr;
struct group *pgr = NULL;
/*
* sysconf(_SC_GETGR_R_SIZE_MAX), under glibc, is documented to return
* a suggested starting size for the buffer, so let's try getting this
* size first, and fallback to a default otherwise.
*/
ssize_t sz = sysconf(_SC_GETGR_R_SIZE_MAX);
if (sz == -1)
sz = 65536; /* and mine is as good as yours, really */
do {
buf = malloc(sz);
if (!buf)
return -ENOMEM;
int err = getgrnam_r(group, &gr, buf, sz, &pgr);
/*
* We're safe to free the buffer here. The strings inside |gr|
* point inside |buf|, but we don't use any of them; this leaves
* the pointers dangling but it's safe.
* |pgr| points at |gr| if getgrnam_r(3) succeeded.
*/
free(buf);
if (err == ERANGE) {
/* |buf| was too small, retry with a bigger one. */
sz <<= 1;
} else if (err != 0) {
/* We got an error not related to the size of |buf|. */
return -err;
} else if (!pgr) {
/* Not found. */
return -ENOENT;
} else {
*gid = pgr->gr_gid;
return 0;
}
} while (sz <= MAX_GRENT_SZ);
/* A buffer of size MAX_GRENT_SZ is still too small, return an error. */
return -ERANGE;
}
static bool seccomp_action_is_available(const char *wanted)
{
if (is_android()) {
/*
* Accessing |actions_avail| is generating SELinux denials, so
* skip for now.
* TODO(crbug.com/978022, jorgelo): Remove once the denial is
* fixed.
*/
return false;
}
const char actions_avail_path[] =
"/proc/sys/kernel/seccomp/actions_avail";
FILE *f = fopen(actions_avail_path, "re");
if (!f) {
pwarn("fopen(%s) failed", actions_avail_path);
return false;
}
char *actions_avail = NULL;
size_t buf_size = 0;
if (getline(&actions_avail, &buf_size, f) < 0) {
pwarn("getline() failed");
free(actions_avail);
return false;
}
/*
* This is just substring search, which means that partial matches will
* match too (e.g. "action" would match "longaction"). There are no
* seccomp actions which include other actions though, so we're good for
* now. Eventually we might want to split the string by spaces.
*/
bool available = strstr(actions_avail, wanted) != NULL;
free(actions_avail);
return available;
}
int seccomp_ret_log_available(void)
{
static int ret_log_available = -1;
if (ret_log_available == -1)
ret_log_available = seccomp_action_is_available("log");
return ret_log_available;
}
int seccomp_ret_kill_process_available(void)
{
static int ret_kill_process_available = -1;
if (ret_kill_process_available == -1)
ret_kill_process_available =
seccomp_action_is_available("kill_process");
return ret_kill_process_available;
}
bool seccomp_filter_flags_available(unsigned int flags)
{
return sys_seccomp(SECCOMP_SET_MODE_FILTER, flags, NULL) != -1 ||
errno != EINVAL;
}
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