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// SPDX-License-Identifier: GPL-2.0-or-later
/*
* LSM initialization functions
*/
#define pr_fmt(fmt) "LSM: " fmt
#include <linux/init.h>
#include <linux/lsm_hooks.h>
#include "lsm.h"
/* LSM enabled constants. */
static __initdata int lsm_enabled_true = 1;
static __initdata int lsm_enabled_false = 0;
/* Pointers to LSM sections defined in include/asm-generic/vmlinux.lds.h */
extern struct lsm_info __start_lsm_info[], __end_lsm_info[];
extern struct lsm_info __start_early_lsm_info[], __end_early_lsm_info[];
/* Build and boot-time LSM ordering. */
static __initconst const char *const lsm_order_builtin = CONFIG_LSM;
static __initdata const char *lsm_order_cmdline;
static __initdata const char *lsm_order_legacy;
/* Ordered list of LSMs to initialize. */
static __initdata struct lsm_info *lsm_order[MAX_LSM_COUNT + 1];
static __initdata struct lsm_info *lsm_exclusive;
static __initdata bool debug;
#define init_debug(...) \
do { \
if (debug) \
pr_info(__VA_ARGS__); \
} while (0)
#define lsm_order_for_each(iter) \
for ((iter) = lsm_order; *(iter); (iter)++)
#define lsm_for_each_raw(iter) \
for ((iter) = __start_lsm_info; \
(iter) < __end_lsm_info; (iter)++)
#define lsm_early_for_each_raw(iter) \
for ((iter) = __start_early_lsm_info; \
(iter) < __end_early_lsm_info; (iter)++)
/**
* lsm_choose_security - Legacy "major" LSM selection
* @str: kernel command line parameter
*/
static int __init lsm_choose_security(char *str)
{
lsm_order_legacy = str;
return 1;
}
__setup("security=", lsm_choose_security);
/**
* lsm_choose_lsm - Modern LSM selection
* @str: kernel command line parameter
*/
static int __init lsm_choose_lsm(char *str)
{
lsm_order_cmdline = str;
return 1;
}
__setup("lsm=", lsm_choose_lsm);
/**
* lsm_debug_enable - Enable LSM framework debugging
* @str: kernel command line parameter
*
* Currently we only provide debug info during LSM initialization, but we may
* want to expand this in the future.
*/
static int __init lsm_debug_enable(char *str)
{
debug = true;
return 1;
}
__setup("lsm.debug", lsm_debug_enable);
/**
* lsm_enabled_set - Mark a LSM as enabled
* @lsm: LSM definition
* @enabled: enabled flag
*/
static void __init lsm_enabled_set(struct lsm_info *lsm, bool enabled)
{
/*
* When an LSM hasn't configured an enable variable, we can use
* a hard-coded location for storing the default enabled state.
*/
if (!lsm->enabled ||
lsm->enabled == &lsm_enabled_true ||
lsm->enabled == &lsm_enabled_false) {
lsm->enabled = enabled ? &lsm_enabled_true : &lsm_enabled_false;
} else {
*lsm->enabled = enabled;
}
}
/**
* lsm_is_enabled - Determine if a LSM is enabled
* @lsm: LSM definition
*/
static inline bool lsm_is_enabled(struct lsm_info *lsm)
{
return (lsm->enabled ? *lsm->enabled : false);
}
/**
* lsm_order_exists - Determine if a LSM exists in the ordered list
* @lsm: LSM definition
*/
static bool __init lsm_order_exists(struct lsm_info *lsm)
{
struct lsm_info **check;
lsm_order_for_each(check) {
if (*check == lsm)
return true;
}
return false;
}
/**
* lsm_order_append - Append a LSM to the ordered list
* @lsm: LSM definition
* @src: source of the addition
*
* Append @lsm to the enabled LSM array after ensuring that it hasn't been
* explicitly disabled, is a duplicate entry, or would run afoul of the
* LSM_FLAG_EXCLUSIVE logic.
*/
static void __init lsm_order_append(struct lsm_info *lsm, const char *src)
{
/* Ignore duplicate selections. */
if (lsm_order_exists(lsm))
return;
/* Skip explicitly disabled LSMs. */
if (lsm->enabled && !lsm_is_enabled(lsm))
goto out;
if (WARN(lsm_active_cnt == MAX_LSM_COUNT,
"%s: out of LSM static calls!?\n", src)) {
lsm_enabled_set(lsm, false);
goto out;
}
if (lsm->flags & LSM_FLAG_EXCLUSIVE) {
if (lsm_exclusive) {
init_debug("exclusive disabled: %s\n", lsm->id->name);
lsm_enabled_set(lsm, false);
goto out;
} else {
init_debug("exclusive chosen: %s\n", lsm->id->name);
lsm_exclusive = lsm;
}
}
lsm_enabled_set(lsm, true);
lsm_order[lsm_active_cnt] = lsm;
lsm_idlist[lsm_active_cnt++] = lsm->id;
out:
init_debug("%s ordered: %s (%s)\n", src, lsm->id->name,
lsm_is_enabled(lsm) ? "enabled" : "disabled");
}
/**
* lsm_blob_size_update - Update the LSM blob size and offset information
* @sz_req: the requested additional blob size
* @sz_cur: the existing blob size
*/
static void __init lsm_blob_size_update(unsigned int *sz_req,
unsigned int *sz_cur)
{
unsigned int offset;
if (*sz_req == 0)
return;
offset = ALIGN(*sz_cur, sizeof(void *));
*sz_cur = offset + *sz_req;
*sz_req = offset;
}
/**
* lsm_prepare - Prepare the LSM framework for a new LSM
* @lsm: LSM definition
*/
static void __init lsm_prepare(struct lsm_info *lsm)
{
struct lsm_blob_sizes *blobs = lsm->blobs;
if (!blobs)
return;
/* Register the LSM blob sizes. */
blobs = lsm->blobs;
lsm_blob_size_update(&blobs->lbs_cred, &blob_sizes.lbs_cred);
lsm_blob_size_update(&blobs->lbs_file, &blob_sizes.lbs_file);
lsm_blob_size_update(&blobs->lbs_ib, &blob_sizes.lbs_ib);
/* inode blob gets an rcu_head in addition to LSM blobs. */
if (blobs->lbs_inode && blob_sizes.lbs_inode == 0)
blob_sizes.lbs_inode = sizeof(struct rcu_head);
lsm_blob_size_update(&blobs->lbs_inode, &blob_sizes.lbs_inode);
lsm_blob_size_update(&blobs->lbs_ipc, &blob_sizes.lbs_ipc);
lsm_blob_size_update(&blobs->lbs_key, &blob_sizes.lbs_key);
lsm_blob_size_update(&blobs->lbs_msg_msg, &blob_sizes.lbs_msg_msg);
lsm_blob_size_update(&blobs->lbs_perf_event,
&blob_sizes.lbs_perf_event);
lsm_blob_size_update(&blobs->lbs_sock, &blob_sizes.lbs_sock);
lsm_blob_size_update(&blobs->lbs_superblock,
&blob_sizes.lbs_superblock);
lsm_blob_size_update(&blobs->lbs_task, &blob_sizes.lbs_task);
lsm_blob_size_update(&blobs->lbs_tun_dev, &blob_sizes.lbs_tun_dev);
lsm_blob_size_update(&blobs->lbs_xattr_count,
&blob_sizes.lbs_xattr_count);
lsm_blob_size_update(&blobs->lbs_bdev, &blob_sizes.lbs_bdev);
lsm_blob_size_update(&blobs->lbs_bpf_map, &blob_sizes.lbs_bpf_map);
lsm_blob_size_update(&blobs->lbs_bpf_prog, &blob_sizes.lbs_bpf_prog);
lsm_blob_size_update(&blobs->lbs_bpf_token, &blob_sizes.lbs_bpf_token);
}
/**
* lsm_init_single - Initialize a given LSM
* @lsm: LSM definition
*/
static void __init lsm_init_single(struct lsm_info *lsm)
{
int ret;
if (!lsm_is_enabled(lsm))
return;
init_debug("initializing %s\n", lsm->id->name);
ret = lsm->init();
WARN(ret, "%s failed to initialize: %d\n", lsm->id->name, ret);
}
/**
* lsm_order_parse - Parse the comma delimited LSM list
* @list: LSM list
* @src: source of the list
*/
static void __init lsm_order_parse(const char *list, const char *src)
{
struct lsm_info *lsm;
char *sep, *name, *next;
/* Handle any Legacy LSM exclusions if one was specified. */
if (lsm_order_legacy) {
/*
* To match the original "security=" behavior, this explicitly
* does NOT fallback to another Legacy Major if the selected
* one was separately disabled: disable all non-matching
* Legacy Major LSMs.
*/
lsm_for_each_raw(lsm) {
if ((lsm->flags & LSM_FLAG_LEGACY_MAJOR) &&
strcmp(lsm->id->name, lsm_order_legacy)) {
lsm_enabled_set(lsm, false);
init_debug("security=%s disabled: %s (only one legacy major LSM)\n",
lsm_order_legacy, lsm->id->name);
}
}
}
/* LSM_ORDER_FIRST */
lsm_for_each_raw(lsm) {
if (lsm->order == LSM_ORDER_FIRST)
lsm_order_append(lsm, "first");
}
/* Normal or "mutable" LSMs */
sep = kstrdup(list, GFP_KERNEL);
next = sep;
/* Walk the list, looking for matching LSMs. */
while ((name = strsep(&next, ",")) != NULL) {
lsm_for_each_raw(lsm) {
if (!strcmp(lsm->id->name, name) &&
lsm->order == LSM_ORDER_MUTABLE)
lsm_order_append(lsm, src);
}
}
kfree(sep);
/* Legacy LSM if specified. */
if (lsm_order_legacy) {
lsm_for_each_raw(lsm) {
if (!strcmp(lsm->id->name, lsm_order_legacy))
lsm_order_append(lsm, src);
}
}
/* LSM_ORDER_LAST */
lsm_for_each_raw(lsm) {
if (lsm->order == LSM_ORDER_LAST)
lsm_order_append(lsm, "last");
}
/* Disable all LSMs not previously enabled. */
lsm_for_each_raw(lsm) {
if (lsm_order_exists(lsm))
continue;
lsm_enabled_set(lsm, false);
init_debug("%s skipped: %s (not in requested order)\n",
src, lsm->id->name);
}
}
/**
* lsm_init_ordered - Initialize the ordered LSMs
*/
static void __init lsm_init_ordered(void)
{
unsigned int first = 0;
struct lsm_info **lsm;
struct lsm_info *early;
if (lsm_order_cmdline) {
if (lsm_order_legacy) {
pr_warn("security=%s is ignored because it is superseded by lsm=%s\n",
lsm_order_legacy, lsm_order_cmdline);
lsm_order_legacy = NULL;
}
lsm_order_parse(lsm_order_cmdline, "cmdline");
} else
lsm_order_parse(lsm_order_builtin, "builtin");
lsm_order_for_each(lsm) {
lsm_prepare(*lsm);
}
pr_info("initializing lsm=");
lsm_early_for_each_raw(early) {
if (lsm_is_enabled(early))
pr_cont("%s%s",
first++ == 0 ? "" : ",", early->id->name);
}
lsm_order_for_each(lsm) {
if (lsm_is_enabled(*lsm))
pr_cont("%s%s",
first++ == 0 ? "" : ",", (*lsm)->id->name);
}
pr_cont("\n");
init_debug("cred blob size = %d\n", blob_sizes.lbs_cred);
init_debug("file blob size = %d\n", blob_sizes.lbs_file);
init_debug("ib blob size = %d\n", blob_sizes.lbs_ib);
init_debug("inode blob size = %d\n", blob_sizes.lbs_inode);
init_debug("ipc blob size = %d\n", blob_sizes.lbs_ipc);
#ifdef CONFIG_KEYS
init_debug("key blob size = %d\n", blob_sizes.lbs_key);
#endif /* CONFIG_KEYS */
init_debug("msg_msg blob size = %d\n", blob_sizes.lbs_msg_msg);
init_debug("sock blob size = %d\n", blob_sizes.lbs_sock);
init_debug("superblock blob size = %d\n", blob_sizes.lbs_superblock);
init_debug("perf event blob size = %d\n", blob_sizes.lbs_perf_event);
init_debug("task blob size = %d\n", blob_sizes.lbs_task);
init_debug("tun device blob size = %d\n", blob_sizes.lbs_tun_dev);
init_debug("xattr slots = %d\n", blob_sizes.lbs_xattr_count);
init_debug("bdev blob size = %d\n", blob_sizes.lbs_bdev);
init_debug("bpf map blob size = %d\n", blob_sizes.lbs_bpf_map);
init_debug("bpf prog blob size = %d\n", blob_sizes.lbs_bpf_prog);
init_debug("bpf token blob size = %d\n", blob_sizes.lbs_bpf_token);
if (blob_sizes.lbs_file)
lsm_file_cache = kmem_cache_create("lsm_file_cache",
blob_sizes.lbs_file, 0,
SLAB_PANIC, NULL);
if (blob_sizes.lbs_inode)
lsm_inode_cache = kmem_cache_create("lsm_inode_cache",
blob_sizes.lbs_inode, 0,
SLAB_PANIC, NULL);
if (lsm_cred_alloc((struct cred __rcu *)current->cred, GFP_KERNEL))
panic("%s: early cred alloc failed.\n", __func__);
if (lsm_task_alloc(current))
panic("%s: early task alloc failed.\n", __func__);
lsm_order_for_each(lsm) {
lsm_init_single(*lsm);
}
}
static void __init lsm_static_call_init(struct security_hook_list *hl)
{
struct lsm_static_call *scall = hl->scalls;
int i;
for (i = 0; i < MAX_LSM_COUNT; i++) {
/* Update the first static call that is not used yet */
if (!scall->hl) {
__static_call_update(scall->key, scall->trampoline,
hl->hook.lsm_func_addr);
scall->hl = hl;
static_branch_enable(scall->active);
return;
}
scall++;
}
panic("%s - Ran out of static slots.\n", __func__);
}
/**
* security_add_hooks - Add a modules hooks to the hook lists.
* @hooks: the hooks to add
* @count: the number of hooks to add
* @lsmid: the identification information for the security module
*
* Each LSM has to register its hooks with the infrastructure.
*/
void __init security_add_hooks(struct security_hook_list *hooks, int count,
const struct lsm_id *lsmid)
{
int i;
for (i = 0; i < count; i++) {
hooks[i].lsmid = lsmid;
lsm_static_call_init(&hooks[i]);
}
}
int __init early_security_init(void)
{
struct lsm_info *lsm;
lsm_early_for_each_raw(lsm) {
lsm_enabled_set(lsm, true);
lsm_order_append(lsm, "early");
lsm_prepare(lsm);
lsm_init_single(lsm);
}
return 0;
}
/**
* security_init - initializes the security framework
*
* This should be called early in the kernel initialization sequence.
*/
int __init security_init(void)
{
struct lsm_info *lsm;
init_debug("legacy security=%s\n", lsm_order_legacy ? : " *unspecified*");
init_debug(" CONFIG_LSM=%s\n", lsm_order_builtin);
init_debug("boot arg lsm=%s\n", lsm_order_cmdline ? : " *unspecified*");
/*
* Append the names of the early LSM modules now that kmalloc() is
* available
*/
lsm_early_for_each_raw(lsm) {
init_debug(" early started: %s (%s)\n", lsm->id->name,
lsm_is_enabled(lsm) ? "enabled" : "disabled");
}
/* Load LSMs in specified order. */
lsm_init_ordered();
return 0;
}
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