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/*
* Procedures for maintaining information about logical memory blocks .
*
* Peter Bergner , IBM Corp . June 2001.
* Copyright ( C ) 2001 Peter Bergner .
*
* This program is free software ; you can redistribute it and / or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation ; either version
* 2 of the License , or ( at your option ) any later version .
*/
# include <linux/kernel.h>
# include <linux/init.h>
# include <linux/bitops.h>
# include <linux/memblock.h>
# define MEMBLOCK_ALLOC_ANYWHERE 0
struct memblock memblock ;
static int memblock_debug ;
static int __init early_memblock ( char * p )
{
if ( p & & strstr ( p , " debug " ) )
memblock_debug = 1 ;
return 0 ;
}
early_param ( " memblock " , early_memblock ) ;
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static void memblock_dump ( struct memblock_type * region , char * name )
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{
unsigned long long base , size ;
int i ;
pr_info ( " %s.cnt = 0x%lx \n " , name , region - > cnt ) ;
for ( i = 0 ; i < region - > cnt ; i + + ) {
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base = region - > regions [ i ] . base ;
size = region - > regions [ i ] . size ;
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pr_info ( " %s[0x%x] \t 0x%016llx - 0x%016llx, 0x%llx bytes \n " ,
name , i , base , base + size - 1 , size ) ;
}
}
void memblock_dump_all ( void )
{
if ( ! memblock_debug )
return ;
pr_info ( " MEMBLOCK configuration: \n " ) ;
pr_info ( " rmo_size = 0x%llx \n " , ( unsigned long long ) memblock . rmo_size ) ;
pr_info ( " memory.size = 0x%llx \n " , ( unsigned long long ) memblock . memory . size ) ;
memblock_dump ( & memblock . memory , " memory " ) ;
memblock_dump ( & memblock . reserved , " reserved " ) ;
}
static unsigned long memblock_addrs_overlap ( u64 base1 , u64 size1 , u64 base2 ,
u64 size2 )
{
return ( ( base1 < ( base2 + size2 ) ) & & ( base2 < ( base1 + size1 ) ) ) ;
}
static long memblock_addrs_adjacent ( u64 base1 , u64 size1 , u64 base2 , u64 size2 )
{
if ( base2 = = base1 + size1 )
return 1 ;
else if ( base1 = = base2 + size2 )
return - 1 ;
return 0 ;
}
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static long memblock_regions_adjacent ( struct memblock_type * type ,
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unsigned long r1 , unsigned long r2 )
{
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u64 base1 = type - > regions [ r1 ] . base ;
u64 size1 = type - > regions [ r1 ] . size ;
u64 base2 = type - > regions [ r2 ] . base ;
u64 size2 = type - > regions [ r2 ] . size ;
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return memblock_addrs_adjacent ( base1 , size1 , base2 , size2 ) ;
}
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static void memblock_remove_region ( struct memblock_type * type , unsigned long r )
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{
unsigned long i ;
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for ( i = r ; i < type - > cnt - 1 ; i + + ) {
type - > regions [ i ] . base = type - > regions [ i + 1 ] . base ;
type - > regions [ i ] . size = type - > regions [ i + 1 ] . size ;
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}
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type - > cnt - - ;
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}
/* Assumption: base addr of region 1 < base addr of region 2 */
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static void memblock_coalesce_regions ( struct memblock_type * type ,
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unsigned long r1 , unsigned long r2 )
{
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type - > regions [ r1 ] . size + = type - > regions [ r2 ] . size ;
memblock_remove_region ( type , r2 ) ;
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}
void __init memblock_init ( void )
{
/* Create a dummy zero size MEMBLOCK which will get coalesced away later.
* This simplifies the memblock_add ( ) code below . . .
*/
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memblock . memory . regions [ 0 ] . base = 0 ;
memblock . memory . regions [ 0 ] . size = 0 ;
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memblock . memory . cnt = 1 ;
/* Ditto. */
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memblock . reserved . regions [ 0 ] . base = 0 ;
memblock . reserved . regions [ 0 ] . size = 0 ;
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memblock . reserved . cnt = 1 ;
}
void __init memblock_analyze ( void )
{
int i ;
memblock . memory . size = 0 ;
for ( i = 0 ; i < memblock . memory . cnt ; i + + )
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memblock . memory . size + = memblock . memory . regions [ i ] . size ;
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}
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static long memblock_add_region ( struct memblock_type * type , u64 base , u64 size )
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{
unsigned long coalesced = 0 ;
long adjacent , i ;
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if ( ( type - > cnt = = 1 ) & & ( type - > regions [ 0 ] . size = = 0 ) ) {
type - > regions [ 0 ] . base = base ;
type - > regions [ 0 ] . size = size ;
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return 0 ;
}
/* First try and coalesce this MEMBLOCK with another. */
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for ( i = 0 ; i < type - > cnt ; i + + ) {
u64 rgnbase = type - > regions [ i ] . base ;
u64 rgnsize = type - > regions [ i ] . size ;
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if ( ( rgnbase = = base ) & & ( rgnsize = = size ) )
/* Already have this region, so we're done */
return 0 ;
adjacent = memblock_addrs_adjacent ( base , size , rgnbase , rgnsize ) ;
if ( adjacent > 0 ) {
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type - > regions [ i ] . base - = size ;
type - > regions [ i ] . size + = size ;
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coalesced + + ;
break ;
} else if ( adjacent < 0 ) {
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type - > regions [ i ] . size + = size ;
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coalesced + + ;
break ;
}
}
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if ( ( i < type - > cnt - 1 ) & & memblock_regions_adjacent ( type , i , i + 1 ) ) {
memblock_coalesce_regions ( type , i , i + 1 ) ;
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coalesced + + ;
}
if ( coalesced )
return coalesced ;
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if ( type - > cnt > = MAX_MEMBLOCK_REGIONS )
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return - 1 ;
/* Couldn't coalesce the MEMBLOCK, so add it to the sorted table. */
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for ( i = type - > cnt - 1 ; i > = 0 ; i - - ) {
if ( base < type - > regions [ i ] . base ) {
type - > regions [ i + 1 ] . base = type - > regions [ i ] . base ;
type - > regions [ i + 1 ] . size = type - > regions [ i ] . size ;
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} else {
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type - > regions [ i + 1 ] . base = base ;
type - > regions [ i + 1 ] . size = size ;
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break ;
}
}
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if ( base < type - > regions [ 0 ] . base ) {
type - > regions [ 0 ] . base = base ;
type - > regions [ 0 ] . size = size ;
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}
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type - > cnt + + ;
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return 0 ;
}
long memblock_add ( u64 base , u64 size )
{
/* On pSeries LPAR systems, the first MEMBLOCK is our RMO region. */
if ( base = = 0 )
memblock . rmo_size = size ;
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return memblock_add_region ( & memblock . memory , base , size ) ;
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}
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static long __memblock_remove ( struct memblock_type * type , u64 base , u64 size )
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{
u64 rgnbegin , rgnend ;
u64 end = base + size ;
int i ;
rgnbegin = rgnend = 0 ; /* supress gcc warnings */
/* Find the region where (base, size) belongs to */
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for ( i = 0 ; i < type - > cnt ; i + + ) {
rgnbegin = type - > regions [ i ] . base ;
rgnend = rgnbegin + type - > regions [ i ] . size ;
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if ( ( rgnbegin < = base ) & & ( end < = rgnend ) )
break ;
}
/* Didn't find the region */
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if ( i = = type - > cnt )
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return - 1 ;
/* Check to see if we are removing entire region */
if ( ( rgnbegin = = base ) & & ( rgnend = = end ) ) {
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memblock_remove_region ( type , i ) ;
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return 0 ;
}
/* Check to see if region is matching at the front */
if ( rgnbegin = = base ) {
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type - > regions [ i ] . base = end ;
type - > regions [ i ] . size - = size ;
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return 0 ;
}
/* Check to see if the region is matching at the end */
if ( rgnend = = end ) {
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type - > regions [ i ] . size - = size ;
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return 0 ;
}
/*
* We need to split the entry - adjust the current one to the
* beginging of the hole and add the region after hole .
*/
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type - > regions [ i ] . size = base - type - > regions [ i ] . base ;
return memblock_add_region ( type , end , rgnend - end ) ;
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}
long memblock_remove ( u64 base , u64 size )
{
return __memblock_remove ( & memblock . memory , base , size ) ;
}
long __init memblock_free ( u64 base , u64 size )
{
return __memblock_remove ( & memblock . reserved , base , size ) ;
}
long __init memblock_reserve ( u64 base , u64 size )
{
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struct memblock_type * _rgn = & memblock . reserved ;
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BUG_ON ( 0 = = size ) ;
return memblock_add_region ( _rgn , base , size ) ;
}
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long memblock_overlaps_region ( struct memblock_type * type , u64 base , u64 size )
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{
unsigned long i ;
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for ( i = 0 ; i < type - > cnt ; i + + ) {
u64 rgnbase = type - > regions [ i ] . base ;
u64 rgnsize = type - > regions [ i ] . size ;
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if ( memblock_addrs_overlap ( base , size , rgnbase , rgnsize ) )
break ;
}
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return ( i < type - > cnt ) ? i : - 1 ;
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}
static u64 memblock_align_down ( u64 addr , u64 size )
{
return addr & ~ ( size - 1 ) ;
}
static u64 memblock_align_up ( u64 addr , u64 size )
{
return ( addr + ( size - 1 ) ) & ~ ( size - 1 ) ;
}
static u64 __init memblock_alloc_nid_unreserved ( u64 start , u64 end ,
u64 size , u64 align )
{
u64 base , res_base ;
long j ;
base = memblock_align_down ( ( end - size ) , align ) ;
while ( start < = base ) {
j = memblock_overlaps_region ( & memblock . reserved , base , size ) ;
if ( j < 0 ) {
/* this area isn't reserved, take it */
if ( memblock_add_region ( & memblock . reserved , base , size ) < 0 )
base = ~ ( u64 ) 0 ;
return base ;
}
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res_base = memblock . reserved . regions [ j ] . base ;
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if ( res_base < size )
break ;
base = memblock_align_down ( res_base - size , align ) ;
}
return ~ ( u64 ) 0 ;
}
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static u64 __init memblock_alloc_nid_region ( struct memblock_region * mp ,
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u64 ( * nid_range ) ( u64 , u64 , int * ) ,
u64 size , u64 align , int nid )
{
u64 start , end ;
start = mp - > base ;
end = start + mp - > size ;
start = memblock_align_up ( start , align ) ;
while ( start < end ) {
u64 this_end ;
int this_nid ;
this_end = nid_range ( start , end , & this_nid ) ;
if ( this_nid = = nid ) {
u64 ret = memblock_alloc_nid_unreserved ( start , this_end ,
size , align ) ;
if ( ret ! = ~ ( u64 ) 0 )
return ret ;
}
start = this_end ;
}
return ~ ( u64 ) 0 ;
}
u64 __init memblock_alloc_nid ( u64 size , u64 align , int nid ,
u64 ( * nid_range ) ( u64 start , u64 end , int * nid ) )
{
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struct memblock_type * mem = & memblock . memory ;
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int i ;
BUG_ON ( 0 = = size ) ;
size = memblock_align_up ( size , align ) ;
for ( i = 0 ; i < mem - > cnt ; i + + ) {
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u64 ret = memblock_alloc_nid_region ( & mem - > regions [ i ] ,
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nid_range ,
size , align , nid ) ;
if ( ret ! = ~ ( u64 ) 0 )
return ret ;
}
return memblock_alloc ( size , align ) ;
}
u64 __init memblock_alloc ( u64 size , u64 align )
{
return memblock_alloc_base ( size , align , MEMBLOCK_ALLOC_ANYWHERE ) ;
}
u64 __init memblock_alloc_base ( u64 size , u64 align , u64 max_addr )
{
u64 alloc ;
alloc = __memblock_alloc_base ( size , align , max_addr ) ;
if ( alloc = = 0 )
panic ( " ERROR: Failed to allocate 0x%llx bytes below 0x%llx. \n " ,
( unsigned long long ) size , ( unsigned long long ) max_addr ) ;
return alloc ;
}
u64 __init __memblock_alloc_base ( u64 size , u64 align , u64 max_addr )
{
long i , j ;
u64 base = 0 ;
u64 res_base ;
BUG_ON ( 0 = = size ) ;
size = memblock_align_up ( size , align ) ;
/* On some platforms, make sure we allocate lowmem */
/* Note that MEMBLOCK_REAL_LIMIT may be MEMBLOCK_ALLOC_ANYWHERE */
if ( max_addr = = MEMBLOCK_ALLOC_ANYWHERE )
max_addr = MEMBLOCK_REAL_LIMIT ;
for ( i = memblock . memory . cnt - 1 ; i > = 0 ; i - - ) {
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u64 memblockbase = memblock . memory . regions [ i ] . base ;
u64 memblocksize = memblock . memory . regions [ i ] . size ;
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if ( memblocksize < size )
continue ;
if ( max_addr = = MEMBLOCK_ALLOC_ANYWHERE )
base = memblock_align_down ( memblockbase + memblocksize - size , align ) ;
else if ( memblockbase < max_addr ) {
base = min ( memblockbase + memblocksize , max_addr ) ;
base = memblock_align_down ( base - size , align ) ;
} else
continue ;
while ( base & & memblockbase < = base ) {
j = memblock_overlaps_region ( & memblock . reserved , base , size ) ;
if ( j < 0 ) {
/* this area isn't reserved, take it */
if ( memblock_add_region ( & memblock . reserved , base , size ) < 0 )
return 0 ;
return base ;
}
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res_base = memblock . reserved . regions [ j ] . base ;
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if ( res_base < size )
break ;
base = memblock_align_down ( res_base - size , align ) ;
}
}
return 0 ;
}
/* You must call memblock_analyze() before this. */
u64 __init memblock_phys_mem_size ( void )
{
return memblock . memory . size ;
}
u64 memblock_end_of_DRAM ( void )
{
int idx = memblock . memory . cnt - 1 ;
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return ( memblock . memory . regions [ idx ] . base + memblock . memory . regions [ idx ] . size ) ;
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}
/* You must call memblock_analyze() after this. */
void __init memblock_enforce_memory_limit ( u64 memory_limit )
{
unsigned long i ;
u64 limit ;
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struct memblock_region * p ;
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if ( ! memory_limit )
return ;
/* Truncate the memblock regions to satisfy the memory limit. */
limit = memory_limit ;
for ( i = 0 ; i < memblock . memory . cnt ; i + + ) {
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if ( limit > memblock . memory . regions [ i ] . size ) {
limit - = memblock . memory . regions [ i ] . size ;
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continue ;
}
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memblock . memory . regions [ i ] . size = limit ;
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memblock . memory . cnt = i + 1 ;
break ;
}
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if ( memblock . memory . regions [ 0 ] . size < memblock . rmo_size )
memblock . rmo_size = memblock . memory . regions [ 0 ] . size ;
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memory_limit = memblock_end_of_DRAM ( ) ;
/* And truncate any reserves above the limit also. */
for ( i = 0 ; i < memblock . reserved . cnt ; i + + ) {
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p = & memblock . reserved . regions [ i ] ;
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if ( p - > base > memory_limit )
p - > size = 0 ;
else if ( ( p - > base + p - > size ) > memory_limit )
p - > size = memory_limit - p - > base ;
if ( p - > size = = 0 ) {
memblock_remove_region ( & memblock . reserved , i ) ;
i - - ;
}
}
}
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static int memblock_search ( struct memblock_type * type , u64 addr )
{
unsigned int left = 0 , right = type - > cnt ;
do {
unsigned int mid = ( right + left ) / 2 ;
if ( addr < type - > regions [ mid ] . base )
right = mid ;
else if ( addr > = ( type - > regions [ mid ] . base +
type - > regions [ mid ] . size ) )
left = mid + 1 ;
else
return mid ;
} while ( left < right ) ;
return - 1 ;
}
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int __init memblock_is_reserved ( u64 addr )
{
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return memblock_search ( & memblock . reserved , addr ) ! = - 1 ;
}
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int memblock_is_memory ( u64 addr )
{
return memblock_search ( & memblock . memory , addr ) ! = - 1 ;
}
int memblock_is_region_memory ( u64 base , u64 size )
{
int idx = memblock_search ( & memblock . reserved , base ) ;
if ( idx = = - 1 )
return 0 ;
return memblock . reserved . regions [ idx ] . base < = base & &
( memblock . reserved . regions [ idx ] . base +
memblock . reserved . regions [ idx ] . size ) > = ( base + size ) ;
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}
int memblock_is_region_reserved ( u64 base , u64 size )
{
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return memblock_overlaps_region ( & memblock . reserved , base , size ) > = 0 ;
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}