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// SPDX-License-Identifier: GPL-2.0
# include <linux/init.h>
# include <linux/static_call.h>
# include <linux/bug.h>
# include <linux/smp.h>
# include <linux/sort.h>
# include <linux/slab.h>
# include <linux/module.h>
# include <linux/cpu.h>
# include <linux/processor.h>
# include <asm/sections.h>
extern struct static_call_site __start_static_call_sites [ ] ,
__stop_static_call_sites [ ] ;
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extern struct static_call_tramp_key __start_static_call_tramp_key [ ] ,
__stop_static_call_tramp_key [ ] ;
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static bool static_call_initialized ;
/* mutex to protect key modules/sites */
static DEFINE_MUTEX ( static_call_mutex ) ;
static void static_call_lock ( void )
{
mutex_lock ( & static_call_mutex ) ;
}
static void static_call_unlock ( void )
{
mutex_unlock ( & static_call_mutex ) ;
}
static inline void * static_call_addr ( struct static_call_site * site )
{
return ( void * ) ( ( long ) site - > addr + ( long ) & site - > addr ) ;
}
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static inline unsigned long __static_call_key ( const struct static_call_site * site )
{
return ( long ) site - > key + ( long ) & site - > key ;
}
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static inline struct static_call_key * static_call_key ( const struct static_call_site * site )
{
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return ( void * ) ( __static_call_key ( site ) & ~ STATIC_CALL_SITE_FLAGS ) ;
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}
/* These assume the key is word-aligned. */
static inline bool static_call_is_init ( struct static_call_site * site )
{
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return __static_call_key ( site ) & STATIC_CALL_SITE_INIT ;
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}
static inline bool static_call_is_tail ( struct static_call_site * site )
{
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return __static_call_key ( site ) & STATIC_CALL_SITE_TAIL ;
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}
static inline void static_call_set_init ( struct static_call_site * site )
{
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site - > key = ( __static_call_key ( site ) | STATIC_CALL_SITE_INIT ) -
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( long ) & site - > key ;
}
static int static_call_site_cmp ( const void * _a , const void * _b )
{
const struct static_call_site * a = _a ;
const struct static_call_site * b = _b ;
const struct static_call_key * key_a = static_call_key ( a ) ;
const struct static_call_key * key_b = static_call_key ( b ) ;
if ( key_a < key_b )
return - 1 ;
if ( key_a > key_b )
return 1 ;
return 0 ;
}
static void static_call_site_swap ( void * _a , void * _b , int size )
{
long delta = ( unsigned long ) _a - ( unsigned long ) _b ;
struct static_call_site * a = _a ;
struct static_call_site * b = _b ;
struct static_call_site tmp = * a ;
a - > addr = b - > addr - delta ;
a - > key = b - > key - delta ;
b - > addr = tmp . addr + delta ;
b - > key = tmp . key + delta ;
}
static inline void static_call_sort_entries ( struct static_call_site * start ,
struct static_call_site * stop )
{
sort ( start , stop - start , sizeof ( struct static_call_site ) ,
static_call_site_cmp , static_call_site_swap ) ;
}
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static inline bool static_call_key_has_mods ( struct static_call_key * key )
{
return ! ( key - > type & 1 ) ;
}
static inline struct static_call_mod * static_call_key_next ( struct static_call_key * key )
{
if ( ! static_call_key_has_mods ( key ) )
return NULL ;
return key - > mods ;
}
static inline struct static_call_site * static_call_key_sites ( struct static_call_key * key )
{
if ( static_call_key_has_mods ( key ) )
return NULL ;
return ( struct static_call_site * ) ( key - > type & ~ 1 ) ;
}
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void __static_call_update ( struct static_call_key * key , void * tramp , void * func )
{
struct static_call_site * site , * stop ;
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struct static_call_mod * site_mod , first ;
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cpus_read_lock ( ) ;
static_call_lock ( ) ;
if ( key - > func = = func )
goto done ;
key - > func = func ;
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arch_static_call_transform ( NULL , tramp , func , false ) ;
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/*
* If uninitialized , we ' ll not update the callsites , but they still
* point to the trampoline and we just patched that .
*/
if ( WARN_ON_ONCE ( ! static_call_initialized ) )
goto done ;
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first = ( struct static_call_mod ) {
. next = static_call_key_next ( key ) ,
. mod = NULL ,
. sites = static_call_key_sites ( key ) ,
} ;
for ( site_mod = & first ; site_mod ; site_mod = site_mod - > next ) {
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bool init = system_state < SYSTEM_RUNNING ;
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struct module * mod = site_mod - > mod ;
if ( ! site_mod - > sites ) {
/*
* This can happen if the static call key is defined in
* a module which doesn ' t use it .
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*
* It also happens in the has_mods case , where the
* ' first ' entry has no sites associated with it .
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*/
continue ;
}
stop = __stop_static_call_sites ;
if ( mod ) {
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# ifdef CONFIG_MODULES
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stop = mod - > static_call_sites +
mod - > num_static_call_sites ;
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init = mod - > state = = MODULE_STATE_COMING ;
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# endif
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}
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for ( site = site_mod - > sites ;
site < stop & & static_call_key ( site ) = = key ; site + + ) {
void * site_addr = static_call_addr ( site ) ;
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if ( ! init & & static_call_is_init ( site ) )
continue ;
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if ( ! kernel_text_address ( ( unsigned long ) site_addr ) ) {
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/*
* This skips patching built - in __exit , which
* is part of init_section_contains ( ) but is
* not part of kernel_text_address ( ) .
*
* Skipping built - in __exit is fine since it
* will never be executed .
*/
WARN_ONCE ( ! static_call_is_init ( site ) ,
" can't patch static call site at %pS " ,
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site_addr ) ;
continue ;
}
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arch_static_call_transform ( site_addr , NULL , func ,
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static_call_is_tail ( site ) ) ;
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}
}
done :
static_call_unlock ( ) ;
cpus_read_unlock ( ) ;
}
EXPORT_SYMBOL_GPL ( __static_call_update ) ;
static int __static_call_init ( struct module * mod ,
struct static_call_site * start ,
struct static_call_site * stop )
{
struct static_call_site * site ;
struct static_call_key * key , * prev_key = NULL ;
struct static_call_mod * site_mod ;
if ( start = = stop )
return 0 ;
static_call_sort_entries ( start , stop ) ;
for ( site = start ; site < stop ; site + + ) {
void * site_addr = static_call_addr ( site ) ;
if ( ( mod & & within_module_init ( ( unsigned long ) site_addr , mod ) ) | |
( ! mod & & init_section_contains ( site_addr , 1 ) ) )
static_call_set_init ( site ) ;
key = static_call_key ( site ) ;
if ( key ! = prev_key ) {
prev_key = key ;
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/*
* For vmlinux ( ! mod ) avoid the allocation by storing
* the sites pointer in the key itself . Also see
* __static_call_update ( ) ' s @ first .
*
* This allows architectures ( eg . x86 ) to call
* static_call_init ( ) before memory allocation works .
*/
if ( ! mod ) {
key - > sites = site ;
key - > type | = 1 ;
goto do_transform ;
}
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site_mod = kzalloc ( sizeof ( * site_mod ) , GFP_KERNEL ) ;
if ( ! site_mod )
return - ENOMEM ;
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/*
* When the key has a direct sites pointer , extract
* that into an explicit struct static_call_mod , so we
* can have a list of modules .
*/
if ( static_call_key_sites ( key ) ) {
site_mod - > mod = NULL ;
site_mod - > next = NULL ;
site_mod - > sites = static_call_key_sites ( key ) ;
key - > mods = site_mod ;
site_mod = kzalloc ( sizeof ( * site_mod ) , GFP_KERNEL ) ;
if ( ! site_mod )
return - ENOMEM ;
}
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site_mod - > mod = mod ;
site_mod - > sites = site ;
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site_mod - > next = static_call_key_next ( key ) ;
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key - > mods = site_mod ;
}
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do_transform :
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arch_static_call_transform ( site_addr , NULL , key - > func ,
static_call_is_tail ( site ) ) ;
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}
return 0 ;
}
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static int addr_conflict ( struct static_call_site * site , void * start , void * end )
{
unsigned long addr = ( unsigned long ) static_call_addr ( site ) ;
if ( addr < = ( unsigned long ) end & &
addr + CALL_INSN_SIZE > ( unsigned long ) start )
return 1 ;
return 0 ;
}
static int __static_call_text_reserved ( struct static_call_site * iter_start ,
struct static_call_site * iter_stop ,
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void * start , void * end , bool init )
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{
struct static_call_site * iter = iter_start ;
while ( iter < iter_stop ) {
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if ( init | | ! static_call_is_init ( iter ) ) {
if ( addr_conflict ( iter , start , end ) )
return 1 ;
}
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iter + + ;
}
return 0 ;
}
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# ifdef CONFIG_MODULES
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static int __static_call_mod_text_reserved ( void * start , void * end )
{
struct module * mod ;
int ret ;
preempt_disable ( ) ;
mod = __module_text_address ( ( unsigned long ) start ) ;
WARN_ON_ONCE ( __module_text_address ( ( unsigned long ) end ) ! = mod ) ;
if ( ! try_module_get ( mod ) )
mod = NULL ;
preempt_enable ( ) ;
if ( ! mod )
return 0 ;
ret = __static_call_text_reserved ( mod - > static_call_sites ,
mod - > static_call_sites + mod - > num_static_call_sites ,
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start , end , mod - > state = = MODULE_STATE_COMING ) ;
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module_put ( mod ) ;
return ret ;
}
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static unsigned long tramp_key_lookup ( unsigned long addr )
{
struct static_call_tramp_key * start = __start_static_call_tramp_key ;
struct static_call_tramp_key * stop = __stop_static_call_tramp_key ;
struct static_call_tramp_key * tramp_key ;
for ( tramp_key = start ; tramp_key ! = stop ; tramp_key + + ) {
unsigned long tramp ;
tramp = ( long ) tramp_key - > tramp + ( long ) & tramp_key - > tramp ;
if ( tramp = = addr )
return ( long ) tramp_key - > key + ( long ) & tramp_key - > key ;
}
return 0 ;
}
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static int static_call_add_module ( struct module * mod )
{
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struct static_call_site * start = mod - > static_call_sites ;
struct static_call_site * stop = start + mod - > num_static_call_sites ;
struct static_call_site * site ;
for ( site = start ; site ! = stop ; site + + ) {
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unsigned long s_key = __static_call_key ( site ) ;
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unsigned long addr = s_key & ~ STATIC_CALL_SITE_FLAGS ;
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unsigned long key ;
/*
* Is the key is exported , ' addr ' points to the key , which
* means modules are allowed to call static_call_update ( ) on
* it .
*
* Otherwise , the key isn ' t exported , and ' addr ' points to the
* trampoline so we need to lookup the key .
*
* We go through this dance to prevent crazy modules from
* abusing sensitive static calls .
*/
if ( ! kernel_text_address ( addr ) )
continue ;
key = tramp_key_lookup ( addr ) ;
if ( ! key ) {
pr_warn ( " Failed to fixup __raw_static_call() usage at: %ps \n " ,
static_call_addr ( site ) ) ;
return - EINVAL ;
}
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key | = s_key & STATIC_CALL_SITE_FLAGS ;
site - > key = key - ( long ) & site - > key ;
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}
return __static_call_init ( mod , start , stop ) ;
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}
static void static_call_del_module ( struct module * mod )
{
struct static_call_site * start = mod - > static_call_sites ;
struct static_call_site * stop = mod - > static_call_sites +
mod - > num_static_call_sites ;
struct static_call_key * key , * prev_key = NULL ;
struct static_call_mod * site_mod , * * prev ;
struct static_call_site * site ;
for ( site = start ; site < stop ; site + + ) {
key = static_call_key ( site ) ;
if ( key = = prev_key )
continue ;
prev_key = key ;
for ( prev = & key - > mods , site_mod = key - > mods ;
site_mod & & site_mod - > mod ! = mod ;
prev = & site_mod - > next , site_mod = site_mod - > next )
;
if ( ! site_mod )
continue ;
* prev = site_mod - > next ;
kfree ( site_mod ) ;
}
}
static int static_call_module_notify ( struct notifier_block * nb ,
unsigned long val , void * data )
{
struct module * mod = data ;
int ret = 0 ;
cpus_read_lock ( ) ;
static_call_lock ( ) ;
switch ( val ) {
case MODULE_STATE_COMING :
ret = static_call_add_module ( mod ) ;
if ( ret ) {
WARN ( 1 , " Failed to allocate memory for static calls " ) ;
static_call_del_module ( mod ) ;
}
break ;
case MODULE_STATE_GOING :
static_call_del_module ( mod ) ;
break ;
}
static_call_unlock ( ) ;
cpus_read_unlock ( ) ;
return notifier_from_errno ( ret ) ;
}
static struct notifier_block static_call_module_nb = {
. notifier_call = static_call_module_notify ,
} ;
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# else
static inline int __static_call_mod_text_reserved ( void * start , void * end )
{
return 0 ;
}
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# endif /* CONFIG_MODULES */
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int static_call_text_reserved ( void * start , void * end )
{
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bool init = system_state < SYSTEM_RUNNING ;
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int ret = __static_call_text_reserved ( __start_static_call_sites ,
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__stop_static_call_sites , start , end , init ) ;
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if ( ret )
return ret ;
return __static_call_mod_text_reserved ( start , end ) ;
}
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int __init static_call_init ( void )
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{
int ret ;
if ( static_call_initialized )
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return 0 ;
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cpus_read_lock ( ) ;
static_call_lock ( ) ;
ret = __static_call_init ( NULL , __start_static_call_sites ,
__stop_static_call_sites ) ;
static_call_unlock ( ) ;
cpus_read_unlock ( ) ;
if ( ret ) {
pr_err ( " Failed to allocate memory for static_call! \n " ) ;
BUG ( ) ;
}
static_call_initialized = true ;
# ifdef CONFIG_MODULES
register_module_notifier ( & static_call_module_nb ) ;
# endif
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return 0 ;
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}
early_initcall ( static_call_init ) ;
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long __static_call_return0 ( void )
{
return 0 ;
}
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# ifdef CONFIG_STATIC_CALL_SELFTEST
static int func_a ( int x )
{
return x + 1 ;
}
static int func_b ( int x )
{
return x + 2 ;
}
DEFINE_STATIC_CALL ( sc_selftest , func_a ) ;
static struct static_call_data {
int ( * func ) ( int ) ;
int val ;
int expect ;
} static_call_data [ ] __initdata = {
{ NULL , 2 , 3 } ,
{ func_b , 2 , 4 } ,
{ func_a , 2 , 3 }
} ;
static int __init test_static_call_init ( void )
{
int i ;
for ( i = 0 ; i < ARRAY_SIZE ( static_call_data ) ; i + + ) {
struct static_call_data * scd = & static_call_data [ i ] ;
if ( scd - > func )
static_call_update ( sc_selftest , scd - > func ) ;
WARN_ON ( static_call ( sc_selftest ) ( scd - > val ) ! = scd - > expect ) ;
}
return 0 ;
}
early_initcall ( test_static_call_init ) ;
# endif /* CONFIG_STATIC_CALL_SELFTEST */