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// SPDX-License-Identifier: GPL-2.0
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/*
* Functions for working with the Flattened Device Tree data format
*
* Copyright 2009 Benjamin Herrenschmidt , IBM Corp
* benh @ kernel . crashing . org
*/
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# define pr_fmt(fmt) "OF: fdt: " fmt
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# include <linux/crash_dump.h>
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# include <linux/crc32.h>
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# include <linux/kernel.h>
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# include <linux/initrd.h>
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# include <linux/memblock.h>
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# include <linux/mutex.h>
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# include <linux/of.h>
# include <linux/of_fdt.h>
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# include <linux/of_reserved_mem.h>
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# include <linux/sizes.h>
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# include <linux/string.h>
# include <linux/errno.h>
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# include <linux/slab.h>
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# include <linux/libfdt.h>
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# include <linux/debugfs.h>
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# include <linux/serial_core.h>
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# include <linux/sysfs.h>
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# include <linux/random.h>
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ARM: prom.h: Fix build error by removing unneeded header file
Fix the following build error:
CC [M] fs/udf/balloc.o
In file included from /home/fabio/next/linux-next/arch/arm/include/asm/prom.h:16,
from include/linux/of.h:140,
from include/asm-generic/gpio.h:7,
from arch/arm/plat-mxc/include/mach/irqs.h:14,
from /home/fabio/next/linux-next/arch/arm/include/asm/irq.h:4,
from /home/fabio/next/linux-next/arch/arm/include/asm/hardirq.h:6,
from include/linux/hardirq.h:7,
from include/linux/highmem.h:8,
from include/linux/pagemap.h:10,
from include/linux/buffer_head.h:13,
from fs/udf/udfdecl.h:11,
from fs/udf/balloc.c:22:
/home/fabio/next/linux-next/arch/arm/include/asm/setup.h:146: error: redefinition of 'struct tag'
Signed-off-by: Fabio Estevam <fabio.estevam@freescale.com>
[grant.likely: fix build failure on drivers/of/fdt.c]
Signed-off-by: Grant Likely <grant.likely@secretlab.ca>
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# include <asm/setup.h> /* for COMMAND_LINE_SIZE */
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# include <asm/page.h>
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# include "of_private.h"
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/*
* of_fdt_limit_memory - limit the number of regions in the / memory node
* @ limit : maximum entries
*
* Adjust the flattened device tree to have at most ' limit ' number of
* memory entries in the / memory node . This function may be called
* any time after initial_boot_param is set .
*/
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void __init of_fdt_limit_memory ( int limit )
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{
int memory ;
int len ;
const void * val ;
int nr_address_cells = OF_ROOT_NODE_ADDR_CELLS_DEFAULT ;
int nr_size_cells = OF_ROOT_NODE_SIZE_CELLS_DEFAULT ;
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const __be32 * addr_prop ;
const __be32 * size_prop ;
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int root_offset ;
int cell_size ;
root_offset = fdt_path_offset ( initial_boot_params , " / " ) ;
if ( root_offset < 0 )
return ;
addr_prop = fdt_getprop ( initial_boot_params , root_offset ,
" #address-cells " , NULL ) ;
if ( addr_prop )
nr_address_cells = fdt32_to_cpu ( * addr_prop ) ;
size_prop = fdt_getprop ( initial_boot_params , root_offset ,
" #size-cells " , NULL ) ;
if ( size_prop )
nr_size_cells = fdt32_to_cpu ( * size_prop ) ;
cell_size = sizeof ( uint32_t ) * ( nr_address_cells + nr_size_cells ) ;
memory = fdt_path_offset ( initial_boot_params , " /memory " ) ;
if ( memory > 0 ) {
val = fdt_getprop ( initial_boot_params , memory , " reg " , & len ) ;
if ( len > limit * cell_size ) {
len = limit * cell_size ;
pr_debug ( " Limiting number of entries to %d \n " , limit ) ;
fdt_setprop ( initial_boot_params , memory , " reg " , val ,
len ) ;
}
}
}
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static bool of_fdt_device_is_available ( const void * blob , unsigned long node )
{
const char * status = fdt_getprop ( blob , node , " status " , NULL ) ;
if ( ! status )
return true ;
if ( ! strcmp ( status , " ok " ) | | ! strcmp ( status , " okay " ) )
return true ;
return false ;
}
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static void * unflatten_dt_alloc ( void * * mem , unsigned long size ,
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unsigned long align )
{
void * res ;
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* mem = PTR_ALIGN ( * mem , align ) ;
res = * mem ;
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* mem + = size ;
return res ;
}
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static void populate_properties ( const void * blob ,
int offset ,
void * * mem ,
struct device_node * np ,
const char * nodename ,
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bool dryrun )
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{
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struct property * pp , * * pprev = NULL ;
int cur ;
bool has_name = false ;
pprev = & np - > properties ;
for ( cur = fdt_first_property_offset ( blob , offset ) ;
cur > = 0 ;
cur = fdt_next_property_offset ( blob , cur ) ) {
const __be32 * val ;
const char * pname ;
u32 sz ;
val = fdt_getprop_by_offset ( blob , cur , & pname , & sz ) ;
if ( ! val ) {
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pr_warn ( " Cannot locate property at 0x%x \n " , cur ) ;
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continue ;
}
if ( ! pname ) {
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pr_warn ( " Cannot find property name at 0x%x \n " , cur ) ;
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continue ;
}
if ( ! strcmp ( pname , " name " ) )
has_name = true ;
pp = unflatten_dt_alloc ( mem , sizeof ( struct property ) ,
__alignof__ ( struct property ) ) ;
if ( dryrun )
continue ;
/* We accept flattened tree phandles either in
* ePAPR - style " phandle " properties , or the
* legacy " linux,phandle " properties . If both
* appear and have different values , things
* will get weird . Don ' t do that .
*/
if ( ! strcmp ( pname , " phandle " ) | |
! strcmp ( pname , " linux,phandle " ) ) {
if ( ! np - > phandle )
np - > phandle = be32_to_cpup ( val ) ;
}
/* And we process the "ibm,phandle" property
* used in pSeries dynamic device tree
* stuff
*/
if ( ! strcmp ( pname , " ibm,phandle " ) )
np - > phandle = be32_to_cpup ( val ) ;
pp - > name = ( char * ) pname ;
pp - > length = sz ;
pp - > value = ( __be32 * ) val ;
* pprev = pp ;
pprev = & pp - > next ;
}
/* With version 0x10 we may not have the name property,
* recreate it here from the unit name if absent
*/
if ( ! has_name ) {
const char * p = nodename , * ps = p , * pa = NULL ;
int len ;
while ( * p ) {
if ( ( * p ) = = ' @ ' )
pa = p ;
else if ( ( * p ) = = ' / ' )
ps = p + 1 ;
p + + ;
}
if ( pa < ps )
pa = p ;
len = ( pa - ps ) + 1 ;
pp = unflatten_dt_alloc ( mem , sizeof ( struct property ) + len ,
__alignof__ ( struct property ) ) ;
if ( ! dryrun ) {
pp - > name = " name " ;
pp - > length = len ;
pp - > value = pp + 1 ;
* pprev = pp ;
memcpy ( pp - > value , ps , len - 1 ) ;
( ( char * ) pp - > value ) [ len - 1 ] = 0 ;
pr_debug ( " fixed up name for %s -> %s \n " ,
nodename , ( char * ) pp - > value ) ;
}
}
}
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static int populate_node ( const void * blob ,
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int offset ,
void * * mem ,
struct device_node * dad ,
struct device_node * * pnp ,
bool dryrun )
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{
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struct device_node * np ;
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const char * pathp ;
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int len ;
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pathp = fdt_get_name ( blob , offset , & len ) ;
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if ( ! pathp ) {
* pnp = NULL ;
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return len ;
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}
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len + + ;
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np = unflatten_dt_alloc ( mem , sizeof ( struct device_node ) + len ,
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__alignof__ ( struct device_node ) ) ;
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if ( ! dryrun ) {
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char * fn ;
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of_node_init ( np ) ;
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np - > full_name = fn = ( ( char * ) np ) + sizeof ( * np ) ;
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memcpy ( fn , pathp , len ) ;
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if ( dad ! = NULL ) {
np - > parent = dad ;
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np - > sibling = dad - > child ;
dad - > child = np ;
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}
}
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populate_properties ( blob , offset , mem , np , pathp , dryrun ) ;
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if ( ! dryrun ) {
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np - > name = of_get_property ( np , " name " , NULL ) ;
if ( ! np - > name )
np - > name = " <NULL> " ;
}
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* pnp = np ;
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return 0 ;
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}
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static void reverse_nodes ( struct device_node * parent )
{
struct device_node * child , * next ;
/* In-depth first */
child = parent - > child ;
while ( child ) {
reverse_nodes ( child ) ;
child = child - > sibling ;
}
/* Reverse the nodes in the child list */
child = parent - > child ;
parent - > child = NULL ;
while ( child ) {
next = child - > sibling ;
child - > sibling = parent - > child ;
parent - > child = child ;
child = next ;
}
}
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/**
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* unflatten_dt_nodes - Alloc and populate a device_node from the flat tree
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* @ blob : The parent device tree blob
* @ mem : Memory chunk to use for allocating device nodes and properties
* @ dad : Parent struct device_node
* @ nodepp : The device_node tree created by the call
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*
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* Return : The size of unflattened device tree or error code
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*/
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static int unflatten_dt_nodes ( const void * blob ,
void * mem ,
struct device_node * dad ,
struct device_node * * nodepp )
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{
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struct device_node * root ;
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int offset = 0 , depth = 0 , initial_depth = 0 ;
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# define FDT_MAX_DEPTH 64
struct device_node * nps [ FDT_MAX_DEPTH ] ;
void * base = mem ;
bool dryrun = ! base ;
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int ret ;
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if ( nodepp )
* nodepp = NULL ;
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/*
* We ' re unflattening device sub - tree if @ dad is valid . There are
* possibly multiple nodes in the first level of depth . We need
* set @ depth to 1 to make fdt_next_node ( ) happy as it bails
* immediately when negative @ depth is found . Otherwise , the device
* nodes except the first one won ' t be unflattened successfully .
*/
if ( dad )
depth = initial_depth = 1 ;
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root = dad ;
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nps [ depth ] = dad ;
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for ( offset = 0 ;
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offset > = 0 & & depth > = initial_depth ;
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offset = fdt_next_node ( blob , offset , & depth ) ) {
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if ( WARN_ON_ONCE ( depth > = FDT_MAX_DEPTH - 1 ) )
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continue ;
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if ( ! IS_ENABLED ( CONFIG_OF_KOBJ ) & &
! of_fdt_device_is_available ( blob , offset ) )
continue ;
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ret = populate_node ( blob , offset , & mem , nps [ depth ] ,
& nps [ depth + 1 ] , dryrun ) ;
if ( ret < 0 )
return ret ;
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if ( ! dryrun & & nodepp & & ! * nodepp )
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* nodepp = nps [ depth + 1 ] ;
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if ( ! dryrun & & ! root )
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root = nps [ depth + 1 ] ;
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}
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if ( offset < 0 & & offset ! = - FDT_ERR_NOTFOUND ) {
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pr_err ( " Error %d processing FDT \n " , offset ) ;
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return - EINVAL ;
}
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/*
* Reverse the child list . Some drivers assumes node order matches . dts
* node order
*/
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if ( ! dryrun )
reverse_nodes ( root ) ;
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return mem - base ;
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}
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/**
* __unflatten_device_tree - create tree of device_nodes from flat blob
* @ blob : The blob to expand
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* @ dad : Parent device node
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* @ mynodes : The device_node tree created by the call
* @ dt_alloc : An allocator that provides a virtual address to memory
* for the resulting tree
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* @ detached : if true set OF_DETACHED on @ mynodes
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*
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* unflattens a device - tree , creating the tree of struct device_node . It also
* fills the " name " and " type " pointers of the nodes so the normal device - tree
* walking functions can be used .
*
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* Return : NULL on failure or the memory chunk containing the unflattened
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* device tree on success .
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*/
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void * __unflatten_device_tree ( const void * blob ,
struct device_node * dad ,
struct device_node * * mynodes ,
void * ( * dt_alloc ) ( u64 size , u64 align ) ,
bool detached )
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{
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int size ;
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void * mem ;
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int ret ;
if ( mynodes )
* mynodes = NULL ;
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pr_debug ( " -> unflatten_device_tree() \n " ) ;
if ( ! blob ) {
pr_debug ( " No device tree pointer \n " ) ;
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return NULL ;
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}
pr_debug ( " Unflattening device tree: \n " ) ;
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pr_debug ( " magic: %08x \n " , fdt_magic ( blob ) ) ;
pr_debug ( " size: %08x \n " , fdt_totalsize ( blob ) ) ;
pr_debug ( " version: %08x \n " , fdt_version ( blob ) ) ;
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if ( fdt_check_header ( blob ) ) {
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pr_err ( " Invalid device tree blob header \n " ) ;
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return NULL ;
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}
/* First pass, scan for size */
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size = unflatten_dt_nodes ( blob , NULL , dad , NULL ) ;
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if ( size < = 0 )
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return NULL ;
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size = ALIGN ( size , 4 ) ;
pr_debug ( " size is %d, allocating... \n " , size ) ;
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/* Allocate memory for the expanded device tree */
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mem = dt_alloc ( size + 4 , __alignof__ ( struct device_node ) ) ;
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if ( ! mem )
return NULL ;
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memset ( mem , 0 , size ) ;
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* ( __be32 * ) ( mem + size ) = cpu_to_be32 ( 0xdeadbeef ) ;
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pr_debug ( " unflattening %p... \n " , mem ) ;
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/* Second pass, do actual unflattening */
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ret = unflatten_dt_nodes ( blob , mem , dad , mynodes ) ;
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if ( be32_to_cpup ( mem + size ) ! = 0xdeadbeef )
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pr_warn ( " End of tree marker overwritten: %08x \n " ,
be32_to_cpup ( mem + size ) ) ;
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if ( ret < = 0 )
return NULL ;
if ( detached & & mynodes & & * mynodes ) {
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of_node_set_flag ( * mynodes , OF_DETACHED ) ;
pr_debug ( " unflattened tree is detached \n " ) ;
}
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pr_debug ( " <- unflatten_device_tree() \n " ) ;
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return mem ;
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}
static void * kernel_tree_alloc ( u64 size , u64 align )
{
return kzalloc ( size , GFP_KERNEL ) ;
}
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static DEFINE_MUTEX ( of_fdt_unflatten_mutex ) ;
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/**
* of_fdt_unflatten_tree - create tree of device_nodes from flat blob
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* @ blob : Flat device tree blob
* @ dad : Parent device node
* @ mynodes : The device tree created by the call
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*
* unflattens the device - tree passed by the firmware , creating the
* tree of struct device_node . It also fills the " name " and " type "
* pointers of the nodes so the normal device - tree walking functions
* can be used .
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*
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* Return : NULL on failure or the memory chunk containing the unflattened
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* device tree on success .
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*/
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void * of_fdt_unflatten_tree ( const unsigned long * blob ,
struct device_node * dad ,
struct device_node * * mynodes )
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{
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void * mem ;
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mutex_lock ( & of_fdt_unflatten_mutex ) ;
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mem = __unflatten_device_tree ( blob , dad , mynodes , & kernel_tree_alloc ,
true ) ;
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mutex_unlock ( & of_fdt_unflatten_mutex ) ;
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return mem ;
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}
EXPORT_SYMBOL_GPL ( of_fdt_unflatten_tree ) ;
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/* Everything below here references initial_boot_params directly. */
int __initdata dt_root_addr_cells ;
int __initdata dt_root_size_cells ;
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void * initial_boot_params __ro_after_init ;
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# ifdef CONFIG_OF_EARLY_FLATTREE
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static u32 of_fdt_crc32 ;
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static int __init early_init_dt_reserve_memory ( phys_addr_t base ,
phys_addr_t size , bool nomap )
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{
if ( nomap ) {
/*
* If the memory is already reserved ( by another region ) , we
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* should not allow it to be marked nomap , but don ' t worry
* if the region isn ' t memory as it won ' t be mapped .
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*/
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if ( memblock_overlaps_region ( & memblock . memory , base , size ) & &
memblock_is_region_reserved ( base , size ) )
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return - EBUSY ;
return memblock_mark_nomap ( base , size ) ;
}
return memblock_reserve ( base , size ) ;
}
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/*
2020-05-11 18:04:57 +03:00
* __reserved_mem_reserve_reg ( ) - reserve all memory described in ' reg ' property
2014-02-28 17:42:47 +04:00
*/
static int __init __reserved_mem_reserve_reg ( unsigned long node ,
const char * uname )
{
int t_len = ( dt_root_addr_cells + dt_root_size_cells ) * sizeof ( __be32 ) ;
phys_addr_t base , size ;
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int len ;
const __be32 * prop ;
2019-05-30 13:39:27 +03:00
int first = 1 ;
bool nomap ;
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prop = of_get_flat_dt_prop ( node , " reg " , & len ) ;
if ( ! prop )
return - ENOENT ;
if ( len & & len % t_len ! = 0 ) {
pr_err ( " Reserved memory: invalid reg property in '%s', skipping node. \n " ,
uname ) ;
return - EINVAL ;
}
nomap = of_get_flat_dt_prop ( node , " no-map " , NULL ) ! = NULL ;
while ( len > = t_len ) {
base = dt_mem_next_cell ( dt_root_addr_cells , & prop ) ;
size = dt_mem_next_cell ( dt_root_size_cells , & prop ) ;
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if ( size & &
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early_init_dt_reserve_memory ( base , size , nomap ) = = 0 )
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pr_debug ( " Reserved memory: reserved region for node '%s': base %pa, size %lu MiB \n " ,
uname , & base , ( unsigned long ) ( size / SZ_1M ) ) ;
2014-02-28 17:42:47 +04:00
else
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pr_err ( " Reserved memory: failed to reserve memory for node '%s': base %pa, size %lu MiB \n " ,
uname , & base , ( unsigned long ) ( size / SZ_1M ) ) ;
2014-02-28 17:42:47 +04:00
len - = t_len ;
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if ( first ) {
fdt_reserved_mem_save_node ( node , uname , base , size ) ;
first = 0 ;
}
2014-02-28 17:42:47 +04:00
}
return 0 ;
}
2021-03-18 13:40:33 +03:00
/*
2014-02-28 17:42:47 +04:00
* __reserved_mem_check_root ( ) - check if # size - cells , # address - cells provided
* in / reserved - memory matches the values supported by the current implementation ,
* also check if ranges property has been provided
*/
2014-04-08 09:48:07 +04:00
static int __init __reserved_mem_check_root ( unsigned long node )
2014-02-28 17:42:47 +04:00
{
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const __be32 * prop ;
2014-02-28 17:42:47 +04:00
prop = of_get_flat_dt_prop ( node , " #size-cells " , NULL ) ;
if ( ! prop | | be32_to_cpup ( prop ) ! = dt_root_size_cells )
return - EINVAL ;
prop = of_get_flat_dt_prop ( node , " #address-cells " , NULL ) ;
if ( ! prop | | be32_to_cpup ( prop ) ! = dt_root_addr_cells )
return - EINVAL ;
prop = of_get_flat_dt_prop ( node , " ranges " , NULL ) ;
if ( ! prop )
return - EINVAL ;
return 0 ;
}
2021-03-18 13:40:33 +03:00
/*
2021-10-20 23:44:36 +03:00
* fdt_scan_reserved_mem ( ) - scan a single FDT node for reserved memory
2014-02-28 17:42:47 +04:00
*/
2021-10-20 23:44:36 +03:00
static int __init fdt_scan_reserved_mem ( void )
2014-02-28 17:42:47 +04:00
{
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int node , child ;
const void * fdt = initial_boot_params ;
node = fdt_path_offset ( fdt , " /reserved-memory " ) ;
if ( node < 0 )
return - ENODEV ;
if ( __reserved_mem_check_root ( node ) ! = 0 ) {
pr_err ( " Reserved memory: unsupported node format, ignoring \n " ) ;
return - EINVAL ;
2014-02-28 17:42:47 +04:00
}
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fdt_for_each_subnode ( child , fdt , node ) {
const char * uname ;
int err ;
2014-02-28 17:42:47 +04:00
2021-10-20 23:44:36 +03:00
if ( ! of_fdt_device_is_available ( fdt , child ) )
continue ;
uname = fdt_get_name ( fdt , child , NULL ) ;
2014-02-28 17:42:47 +04:00
2021-10-20 23:44:36 +03:00
err = __reserved_mem_reserve_reg ( child , uname ) ;
if ( err = = - ENOENT & & of_get_flat_dt_prop ( child , " size " , NULL ) )
fdt_reserved_mem_save_node ( child , uname , 0 , 0 ) ;
}
2014-02-28 17:42:47 +04:00
return 0 ;
}
2021-08-11 11:51:01 +03:00
/*
2021-08-25 12:40:40 +03:00
* fdt_reserve_elfcorehdr ( ) - reserves memory for elf core header
2021-08-11 11:51:01 +03:00
*
* This function reserves the memory occupied by an elf core header
* described in the device tree . This region contains all the
* information about primary kernel ' s core image and is used by a dump
* capture kernel to access the system memory on primary kernel .
*/
2021-08-25 12:40:40 +03:00
static void __init fdt_reserve_elfcorehdr ( void )
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{
if ( ! IS_ENABLED ( CONFIG_CRASH_DUMP ) | | ! elfcorehdr_size )
return ;
if ( memblock_is_region_reserved ( elfcorehdr_addr , elfcorehdr_size ) ) {
pr_warn ( " elfcorehdr is overlapped \n " ) ;
return ;
}
memblock_reserve ( elfcorehdr_addr , elfcorehdr_size ) ;
pr_info ( " Reserving %llu KiB of memory at 0x%llx for elfcorehdr \n " ,
elfcorehdr_size > > 10 , elfcorehdr_addr ) ;
}
2014-02-28 17:42:47 +04:00
/**
* early_init_fdt_scan_reserved_mem ( ) - create reserved memory regions
*
* This function grabs memory from early allocator for device exclusive use
* defined in device tree structures . It should be called by arch specific code
* once the early allocator ( i . e . memblock ) has been fully activated .
*/
void __init early_init_fdt_scan_reserved_mem ( void )
{
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int n ;
u64 base , size ;
2014-03-14 01:36:36 +04:00
if ( ! initial_boot_params )
return ;
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fdt_scan_reserved_mem ( ) ;
fdt_reserve_elfcorehdr ( ) ;
2014-04-02 07:46:48 +04:00
/* Process header /memreserve/ fields */
for ( n = 0 ; ; n + + ) {
fdt_get_mem_rsv ( initial_boot_params , n , & base , & size ) ;
if ( ! size )
break ;
2022-07-23 04:53:31 +03:00
memblock_reserve ( base , size ) ;
2014-04-02 07:46:48 +04:00
}
2022-01-28 07:23:21 +03:00
fdt_init_reserved_mem ( ) ;
2014-02-28 17:42:47 +04:00
}
2015-06-01 14:40:31 +03:00
/**
* early_init_fdt_reserve_self ( ) - reserve the memory used by the FDT blob
*/
void __init early_init_fdt_reserve_self ( void )
{
if ( ! initial_boot_params )
return ;
/* Reserve the dtb region */
2022-07-23 04:53:31 +03:00
memblock_reserve ( __pa ( initial_boot_params ) ,
fdt_totalsize ( initial_boot_params ) ) ;
2015-06-01 14:40:31 +03:00
}
2010-11-19 02:55:01 +03:00
/**
* of_scan_flat_dt - scan flattened tree blob and call callback on each .
* @ it : callback function
* @ data : context data pointer
*
* This function is used to scan the flattened device - tree , it is
* used to extract the memory information at boot before we can
* unflatten the tree
*/
int __init of_scan_flat_dt ( int ( * it ) ( unsigned long node ,
const char * uname , int depth ,
void * data ) ,
void * data )
{
2014-04-03 00:10:14 +04:00
const void * blob = initial_boot_params ;
const char * pathp ;
int offset , rc = 0 , depth = - 1 ;
2016-11-23 12:40:07 +03:00
if ( ! blob )
return 0 ;
for ( offset = fdt_next_node ( blob , - 1 , & depth ) ;
offset > = 0 & & depth > = 0 & & ! rc ;
offset = fdt_next_node ( blob , offset , & depth ) ) {
2014-04-03 00:10:14 +04:00
pathp = fdt_get_name ( blob , offset , NULL ) ;
rc = it ( offset , pathp , depth , data ) ;
}
2010-11-19 02:55:01 +03:00
return rc ;
}
2017-04-18 22:12:18 +03:00
/**
* of_scan_flat_dt_subnodes - scan sub - nodes of a node call callback on each .
2021-03-18 13:40:33 +03:00
* @ parent : parent node
2017-04-18 22:12:18 +03:00
* @ it : callback function
* @ data : context data pointer
*
* This function is used to scan sub - nodes of a node .
*/
int __init of_scan_flat_dt_subnodes ( unsigned long parent ,
int ( * it ) ( unsigned long node ,
const char * uname ,
void * data ) ,
void * data )
{
const void * blob = initial_boot_params ;
int node ;
fdt_for_each_subnode ( node , blob , parent ) {
const char * pathp ;
int rc ;
pathp = fdt_get_name ( blob , node , NULL ) ;
rc = it ( node , pathp , data ) ;
if ( rc )
return rc ;
}
return 0 ;
}
2016-04-07 15:03:33 +03:00
/**
* of_get_flat_dt_subnode_by_name - get the subnode by given name
*
* @ node : the parent node
* @ uname : the name of subnode
* @ return offset of the subnode , or - FDT_ERR_NOTFOUND if there is none
*/
2019-05-14 23:40:52 +03:00
int __init of_get_flat_dt_subnode_by_name ( unsigned long node , const char * uname )
2016-04-07 15:03:33 +03:00
{
return fdt_subnode_offset ( initial_boot_params , node , uname ) ;
}
2021-03-18 13:40:33 +03:00
/*
2010-11-19 02:55:01 +03:00
* of_get_flat_dt_root - find the root node in the flat blob
*/
unsigned long __init of_get_flat_dt_root ( void )
{
2014-04-03 00:10:14 +04:00
return 0 ;
2010-11-19 02:55:01 +03:00
}
2021-03-18 13:40:33 +03:00
/*
2010-11-19 02:55:01 +03:00
* of_get_flat_dt_prop - Given a node in the flat blob , return the property ptr
*
* This function can be used within scan_flattened_dt callback to get
* access to properties
*/
2014-04-02 08:49:03 +04:00
const void * __init of_get_flat_dt_prop ( unsigned long node , const char * name ,
int * size )
2010-11-19 02:55:01 +03:00
{
2014-04-03 00:10:14 +04:00
return fdt_getprop ( initial_boot_params , node , name , size ) ;
2010-11-19 02:55:01 +03:00
}
2019-06-15 06:03:43 +03:00
/**
* of_fdt_is_compatible - Return true if given node from the given blob has
* compat in its compatible list
* @ blob : A device tree blob
* @ node : node to test
* @ compat : compatible string to compare with compatible list .
*
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* Return : a non - zero value on match with smaller values returned for more
2019-06-15 06:03:43 +03:00
* specific compatible values .
*/
static int of_fdt_is_compatible ( const void * blob ,
unsigned long node , const char * compat )
{
const char * cp ;
int cplen ;
unsigned long l , score = 0 ;
cp = fdt_getprop ( blob , node , " compatible " , & cplen ) ;
if ( cp = = NULL )
return 0 ;
while ( cplen > 0 ) {
score + + ;
if ( of_compat_cmp ( cp , compat , strlen ( compat ) ) = = 0 )
return score ;
l = strlen ( cp ) + 1 ;
cp + = l ;
cplen - = l ;
}
return 0 ;
}
2010-11-19 02:55:01 +03:00
/**
* of_flat_dt_is_compatible - Return true if given node has compat in compatible list
* @ node : node to test
* @ compat : compatible string to compare with compatible list .
*/
int __init of_flat_dt_is_compatible ( unsigned long node , const char * compat )
{
return of_fdt_is_compatible ( initial_boot_params , node , compat ) ;
}
2021-03-18 13:40:33 +03:00
/*
2010-10-30 19:49:09 +04:00
* of_flat_dt_match - Return true if node matches a list of compatible values
*/
2019-05-14 23:40:52 +03:00
static int __init of_flat_dt_match ( unsigned long node , const char * const * compat )
2010-10-30 19:49:09 +04:00
{
2019-06-15 06:03:43 +03:00
unsigned int tmp , score = 0 ;
if ( ! compat )
return 0 ;
while ( * compat ) {
tmp = of_fdt_is_compatible ( initial_boot_params , node , * compat ) ;
if ( tmp & & ( score = = 0 | | ( tmp < score ) ) )
score = tmp ;
compat + + ;
}
return score ;
2010-10-30 19:49:09 +04:00
}
2021-03-18 13:40:33 +03:00
/*
* of_get_flat_dt_phandle - Given a node in the flat blob , return the phandle
2017-04-18 22:12:18 +03:00
*/
uint32_t __init of_get_flat_dt_phandle ( unsigned long node )
{
return fdt_get_phandle ( initial_boot_params , node ) ;
}
2013-08-28 06:41:56 +04:00
const char * __init of_flat_dt_get_machine_name ( void )
{
const char * name ;
unsigned long dt_root = of_get_flat_dt_root ( ) ;
name = of_get_flat_dt_prop ( dt_root , " model " , NULL ) ;
if ( ! name )
name = of_get_flat_dt_prop ( dt_root , " compatible " , NULL ) ;
return name ;
}
/**
* of_flat_dt_match_machine - Iterate match tables to find matching machine .
*
* @ default_match : A machine specific ptr to return in case of no match .
* @ get_next_compat : callback function to return next compatible match table .
*
* Iterate through machine match tables to find the best match for the machine
* compatible string in the FDT .
*/
const void * __init of_flat_dt_match_machine ( const void * default_match ,
const void * ( * get_next_compat ) ( const char * const * * ) )
{
const void * data = NULL ;
const void * best_data = default_match ;
const char * const * compat ;
unsigned long dt_root ;
unsigned int best_score = ~ 1 , score = 0 ;
dt_root = of_get_flat_dt_root ( ) ;
while ( ( data = get_next_compat ( & compat ) ) ) {
score = of_flat_dt_match ( dt_root , compat ) ;
if ( score > 0 & & score < best_score ) {
best_data = data ;
best_score = score ;
}
}
if ( ! best_data ) {
const char * prop ;
2014-04-02 08:49:03 +04:00
int size ;
2013-08-28 06:41:56 +04:00
pr_err ( " \n unrecognized device tree list: \n [ " ) ;
prop = of_get_flat_dt_prop ( dt_root , " compatible " , & size ) ;
if ( prop ) {
while ( size > 0 ) {
printk ( " '%s' " , prop ) ;
size - = strlen ( prop ) + 1 ;
prop + = strlen ( prop ) + 1 ;
}
}
printk ( " ] \n \n " ) ;
return NULL ;
}
pr_info ( " Machine model: %s \n " , of_flat_dt_get_machine_name ( ) ) ;
return best_data ;
}
2016-02-16 15:52:33 +03:00
static void __early_init_dt_declare_initrd ( unsigned long start ,
unsigned long end )
{
2023-03-24 18:54:21 +03:00
/*
* __va ( ) is not yet available this early on some platforms . In that
* case , the platform uses phys_initrd_start / phys_initrd_size instead
* and does the VA conversion itself .
2018-11-06 01:54:30 +03:00
*/
2023-03-24 18:54:21 +03:00
if ( ! IS_ENABLED ( CONFIG_ARM64 ) & &
! ( IS_ENABLED ( CONFIG_RISCV ) & & IS_ENABLED ( CONFIG_64BIT ) ) ) {
2018-11-06 01:54:30 +03:00
initrd_start = ( unsigned long ) __va ( start ) ;
initrd_end = ( unsigned long ) __va ( end ) ;
initrd_below_start_ok = 1 ;
}
2016-02-16 15:52:33 +03:00
}
2009-11-24 13:26:58 +03:00
/**
* early_init_dt_check_for_initrd - Decode initrd location from flat tree
* @ node : reference to node containing initrd location ( ' chosen ' )
*/
2013-08-31 02:06:53 +04:00
static void __init early_init_dt_check_for_initrd ( unsigned long node )
2009-11-24 13:26:58 +03:00
{
2013-07-01 22:20:35 +04:00
u64 start , end ;
2014-04-02 08:49:03 +04:00
int len ;
const __be32 * prop ;
2009-11-24 13:26:58 +03:00
2021-08-11 11:51:03 +03:00
if ( ! IS_ENABLED ( CONFIG_BLK_DEV_INITRD ) )
return ;
2009-11-24 13:26:58 +03:00
pr_debug ( " Looking for initrd properties... " ) ;
prop = of_get_flat_dt_prop ( node , " linux,initrd-start " , & len ) ;
2010-01-30 11:31:21 +03:00
if ( ! prop )
return ;
2013-07-01 22:20:35 +04:00
start = of_read_number ( prop , len / 4 ) ;
2010-01-30 11:31:21 +03:00
prop = of_get_flat_dt_prop ( node , " linux,initrd-end " , & len ) ;
if ( ! prop )
return ;
2013-07-01 22:20:35 +04:00
end = of_read_number ( prop , len / 4 ) ;
of/fdt: Don't calculate initrd size from DT if start > end
If the properties 'linux,initrd-start' and 'linux,initrd-end' of
the chosen node populated from the bootloader, eg. U-Boot, are so that
start > end, then the phys_initrd_size calculated from end - start is
negative that subsequently gets converted to a high positive value for
being unsigned long long. Then, the memory region with the (invalid)
size is added to the bootmem and attempted being paged in paging_init()
that results in the kernel fault.
For example, on the FVP ARM64 system I'm running, the U-Boot populates
the 'linux,initrd-start' with 8800_0000 and 'linux,initrd-end' with 0.
The phys_initrd_size calculated is then ffff_ffff_7800_0000
(= 0 - 8800_0000 = -8800_0000 + ULLONG_MAX + 1). paging_init() then
attempts to map the address 8800_0000 + ffff_ffff_7800_0000 and oops'es
as below.
It should be stressed, it is generally a fault of the bootloader's with
the kernel relying on it, however we should not allow the bootloader's
misconfiguration to lead to the kernel oops. Not only the kernel should be
bullet proof against it but also finding the root cause of the paging
fault spanning over the bootloader, DT, and kernel may happen is not so
easy.
Unable to handle kernel paging request at virtual address fffffffefe43c000
Mem abort info:
ESR = 0x96000007
EC = 0x25: DABT (current EL), IL = 32 bits
SET = 0, FnV = 0
EA = 0, S1PTW = 0
Data abort info:
ISV = 0, ISS = 0x00000007
CM = 0, WnR = 0
swapper pgtable: 4k pages, 39-bit VAs, pgdp=0000000080e3d000
[fffffffefe43c000] pgd=0000000080de9003, pud=0000000080de9003
Unable to handle kernel paging request at virtual address ffffff8000de9f90
Mem abort info:
ESR = 0x96000005
EC = 0x25: DABT (current EL), IL = 32 bits
SET = 0, FnV = 0
EA = 0, S1PTW = 0
Data abort info:
ISV = 0, ISS = 0x00000005
CM = 0, WnR = 0
swapper pgtable: 4k pages, 39-bit VAs, pgdp=0000000080e3d000
[ffffff8000de9f90] pgd=0000000000000000, pud=0000000000000000
Internal error: Oops: 96000005 [#1] PREEMPT SMP
Modules linked in:
CPU: 0 PID: 0 Comm: swapper Not tainted 5.4.51-yocto-standard #1
Hardware name: FVP Base (DT)
pstate: 60000085 (nZCv daIf -PAN -UAO)
pc : show_pte+0x12c/0x1b4
lr : show_pte+0x100/0x1b4
sp : ffffffc010ce3b30
x29: ffffffc010ce3b30 x28: ffffffc010ceed80
x27: fffffffefe43c000 x26: fffffffefe43a028
x25: 0000000080bf0000 x24: 0000000000000025
x23: ffffffc010b8d000 x22: ffffffc010e3d000
x23: ffffffc010b8d000 x22: ffffffc010e3d000
x21: 0000000080de9000 x20: ffffff7f80000f90
x19: fffffffefe43c000 x18: 0000000000000030
x17: 0000000000001400 x16: 0000000000001c00
x15: ffffffc010cef1b8 x14: ffffffffffffffff
x13: ffffffc010df1f40 x12: ffffffc010df1b70
x11: ffffffc010ce3b30 x10: ffffffc010ce3b30
x9 : 00000000ffffffc8 x8 : 0000000000000000
x7 : 000000000000000f x6 : ffffffc010df16e8
x5 : 0000000000000000 x4 : 0000000000000000
x3 : 00000000ffffffff x2 : 0000000000000000
x1 : 0000008080000000 x0 : ffffffc010af1d68
Call trace:
show_pte+0x12c/0x1b4
die_kernel_fault+0x54/0x78
__do_kernel_fault+0x11c/0x128
do_translation_fault+0x58/0xac
do_mem_abort+0x50/0xb0
el1_da+0x1c/0x90
__create_pgd_mapping+0x348/0x598
paging_init+0x3f0/0x70d0
setup_arch+0x2c0/0x5d4
start_kernel+0x94/0x49c
Code: 92748eb5 900052a0 9135a000 cb010294 (f8756a96)
Signed-off-by: Marek Bykowski <marek.bykowski@gmail.com>
Link: https://lore.kernel.org/r/20220909023358.76881-1-marek.bykowski@gmail.com
Signed-off-by: Rob Herring <robh@kernel.org>
2022-09-09 05:33:57 +03:00
if ( start > end )
return ;
2009-11-24 13:26:58 +03:00
2016-02-16 15:52:33 +03:00
__early_init_dt_declare_initrd ( start , end ) ;
2018-11-06 01:54:28 +03:00
phys_initrd_start = start ;
phys_initrd_size = end - start ;
2013-08-31 02:06:53 +04:00
2021-06-16 12:27:45 +03:00
pr_debug ( " initrd_start=0x%llx initrd_end=0x%llx \n " , start , end ) ;
2009-11-24 13:26:58 +03:00
}
2021-08-11 11:51:01 +03:00
/**
* early_init_dt_check_for_elfcorehdr - Decode elfcorehdr location from flat
* tree
* @ node : reference to node containing elfcorehdr location ( ' chosen ' )
*/
static void __init early_init_dt_check_for_elfcorehdr ( unsigned long node )
{
const __be32 * prop ;
int len ;
if ( ! IS_ENABLED ( CONFIG_CRASH_DUMP ) )
return ;
pr_debug ( " Looking for elfcorehdr property... " ) ;
prop = of_get_flat_dt_prop ( node , " linux,elfcorehdr " , & len ) ;
if ( ! prop | | ( len < ( dt_root_addr_cells + dt_root_size_cells ) ) )
return ;
elfcorehdr_addr = dt_mem_next_cell ( dt_root_addr_cells , & prop ) ;
elfcorehdr_size = dt_mem_next_cell ( dt_root_size_cells , & prop ) ;
pr_debug ( " elfcorehdr_start=0x%llx elfcorehdr_size=0x%llx \n " ,
elfcorehdr_addr , elfcorehdr_size ) ;
}
2021-12-14 07:01:56 +03:00
static unsigned long chosen_node_offset = - FDT_ERR_NOTFOUND ;
2021-08-11 11:51:02 +03:00
2022-05-06 14:44:00 +03:00
/*
* The main usage of linux , usable - memory - range is for crash dump kernel .
* Originally , the number of usable - memory regions is one . Now there may
* be two regions , low region and high region .
* To make compatibility with existing user - space and older kdump , the low
* region is always the last range of linux , usable - memory - range if exist .
*/
# define MAX_USABLE_RANGES 2
2021-08-11 11:51:02 +03:00
/**
* early_init_dt_check_for_usable_mem_range - Decode usable memory range
* location from flat tree
*/
efi: apply memblock cap after memblock_add()
On arm64, during kdump kernel saves vmcore, it runs into the following bug:
...
[ 15.148919] usercopy: Kernel memory exposure attempt detected from SLUB object 'kmem_cache_node' (offset 0, size 4096)!
[ 15.159707] ------------[ cut here ]------------
[ 15.164311] kernel BUG at mm/usercopy.c:99!
[ 15.168482] Internal error: Oops - BUG: 0 [#1] SMP
[ 15.173261] Modules linked in: xfs libcrc32c crct10dif_ce ghash_ce sha2_ce sha256_arm64 sha1_ce sbsa_gwdt ast i2c_algo_bit drm_vram_helper drm_kms_helper syscopyarea sysfillrect sysimgblt fb_sys_fops cec drm_ttm_helper ttm drm nvme nvme_core xgene_hwmon i2c_designware_platform i2c_designware_core dm_mirror dm_region_hash dm_log dm_mod overlay squashfs zstd_decompress loop
[ 15.206186] CPU: 0 PID: 542 Comm: cp Not tainted 5.16.0-rc4 #1
[ 15.212006] Hardware name: GIGABYTE R272-P30-JG/MP32-AR0-JG, BIOS F12 (SCP: 1.5.20210426) 05/13/2021
[ 15.221125] pstate: 60400009 (nZCv daif +PAN -UAO -TCO -DIT -SSBS BTYPE=--)
[ 15.228073] pc : usercopy_abort+0x9c/0xa0
[ 15.232074] lr : usercopy_abort+0x9c/0xa0
[ 15.236070] sp : ffff8000121abba0
[ 15.239371] x29: ffff8000121abbb0 x28: 0000000000003000 x27: 0000000000000000
[ 15.246494] x26: 0000000080000400 x25: 0000ffff885c7000 x24: 0000000000000000
[ 15.253617] x23: 000007ff80400000 x22: ffff07ff80401000 x21: 0000000000000001
[ 15.260739] x20: 0000000000001000 x19: ffff07ff80400000 x18: ffffffffffffffff
[ 15.267861] x17: 656a626f2042554c x16: 53206d6f72662064 x15: 6574636574656420
[ 15.274983] x14: 74706d6574746120 x13: 2129363930342065 x12: 7a6973202c302074
[ 15.282105] x11: ffffc8b041d1b148 x10: 00000000ffff8000 x9 : ffffc8b04012812c
[ 15.289228] x8 : 00000000ffff7fff x7 : ffffc8b041d1b148 x6 : 0000000000000000
[ 15.296349] x5 : 0000000000000000 x4 : 0000000000007fff x3 : 0000000000000000
[ 15.303471] x2 : 0000000000000000 x1 : ffff07ff8c064800 x0 : 000000000000006b
[ 15.310593] Call trace:
[ 15.313027] usercopy_abort+0x9c/0xa0
[ 15.316677] __check_heap_object+0xd4/0xf0
[ 15.320762] __check_object_size.part.0+0x160/0x1e0
[ 15.325628] __check_object_size+0x2c/0x40
[ 15.329711] copy_oldmem_page+0x7c/0x140
[ 15.333623] read_from_oldmem.part.0+0xfc/0x1c0
[ 15.338142] __read_vmcore.constprop.0+0x23c/0x350
[ 15.342920] read_vmcore+0x28/0x34
[ 15.346309] proc_reg_read+0xb4/0xf0
[ 15.349871] vfs_read+0xb8/0x1f0
[ 15.353088] ksys_read+0x74/0x100
[ 15.356390] __arm64_sys_read+0x28/0x34
...
This bug introduced by commit b261dba2fdb2 ("arm64: kdump: Remove custom
linux,usable-memory-range handling"), which moves
memblock_cap_memory_range() to fdt, but it breaches the rules that
memblock_cap_memory_range() should come after memblock_add() etc as said
in commit e888fa7bb882 ("memblock: Check memory add/cap ordering").
As a consequence, the virtual address set up by copy_oldmem_page() does
not bail out from the test of virt_addr_valid() in check_heap_object(),
and finally hits the BUG_ON().
Since memblock allocator has no idea about when the memblock is fully
populated, while efi_init() is aware, so tackling this issue by calling the
interface early_init_dt_check_for_usable_mem_range() exposed by of/fdt.
Fixes: b261dba2fdb2 ("arm64: kdump: Remove custom linux,usable-memory-range handling")
Signed-off-by: Pingfan Liu <kernelfans@gmail.com>
Cc: Rob Herring <robh+dt@kernel.org>
Cc: Zhen Lei <thunder.leizhen@huawei.com>
Cc: Catalin Marinas <catalin.marinas@arm.com>
Cc: Will Deacon <will@kernel.org>
Cc: Andrew Morton <akpm@linux-foundation.org>
Cc: Mike Rapoport <rppt@kernel.org>
Cc: Geert Uytterhoeven <geert+renesas@glider.be>
Cc: Frank Rowand <frowand.list@gmail.com>
Cc: Ard Biesheuvel <ardb@kernel.org>
Cc: Nick Terrell <terrelln@fb.com>
Cc: linux-arm-kernel@lists.infradead.org
To: devicetree@vger.kernel.org
To: linux-efi@vger.kernel.org
Acked-by: Ard Biesheuvel <ardb@kernel.org>
Signed-off-by: Rob Herring <robh@kernel.org>
Link: https://lore.kernel.org/r/20211215021348.8766-1-kernelfans@gmail.com
2021-12-15 05:13:48 +03:00
void __init early_init_dt_check_for_usable_mem_range ( void )
2021-08-11 11:51:02 +03:00
{
2022-05-06 14:44:00 +03:00
struct memblock_region rgn [ MAX_USABLE_RANGES ] = { 0 } ;
const __be32 * prop , * endp ;
int len , i ;
2021-12-14 07:01:56 +03:00
unsigned long node = chosen_node_offset ;
if ( ( long ) node < 0 )
return ;
2021-08-11 11:51:02 +03:00
pr_debug ( " Looking for usable-memory-range property... " ) ;
prop = of_get_flat_dt_prop ( node , " linux,usable-memory-range " , & len ) ;
2022-05-06 14:44:00 +03:00
if ( ! prop | | ( len % ( dt_root_addr_cells + dt_root_size_cells ) ) )
2021-08-11 11:51:02 +03:00
return ;
2022-05-06 14:44:00 +03:00
endp = prop + ( len / sizeof ( __be32 ) ) ;
for ( i = 0 ; i < MAX_USABLE_RANGES & & prop < endp ; i + + ) {
rgn [ i ] . base = dt_mem_next_cell ( dt_root_addr_cells , & prop ) ;
rgn [ i ] . size = dt_mem_next_cell ( dt_root_size_cells , & prop ) ;
2021-08-11 11:51:02 +03:00
2022-05-06 14:44:00 +03:00
pr_debug ( " cap_mem_regions[%d]: base=%pa, size=%pa \n " ,
i , & rgn [ i ] . base , & rgn [ i ] . size ) ;
}
2021-12-14 07:01:56 +03:00
2022-05-06 14:44:00 +03:00
memblock_cap_memory_range ( rgn [ 0 ] . base , rgn [ 0 ] . size ) ;
for ( i = 1 ; i < MAX_USABLE_RANGES & & rgn [ i ] . size ; i + + )
memblock_add ( rgn [ i ] . base , rgn [ i ] . size ) ;
2021-08-11 11:51:02 +03:00
}
2014-03-27 17:07:01 +04:00
# ifdef CONFIG_SERIAL_EARLYCON
2016-09-27 23:54:12 +03:00
int __init early_init_dt_scan_chosen_stdout ( void )
2014-03-27 17:07:01 +04:00
{
int offset ;
2016-01-17 02:23:42 +03:00
const char * p , * q , * options = NULL ;
2014-03-27 17:07:01 +04:00
int l ;
2020-11-23 13:23:13 +03:00
const struct earlycon_id * match ;
2014-03-27 17:07:01 +04:00
const void * fdt = initial_boot_params ;
2022-06-28 15:07:05 +03:00
int ret ;
2014-03-27 17:07:01 +04:00
offset = fdt_path_offset ( fdt , " /chosen " ) ;
if ( offset < 0 )
offset = fdt_path_offset ( fdt , " /chosen@0 " ) ;
if ( offset < 0 )
return - ENOENT ;
p = fdt_getprop ( fdt , offset , " stdout-path " , & l ) ;
if ( ! p )
p = fdt_getprop ( fdt , offset , " linux,stdout-path " , & l ) ;
if ( ! p | | ! l )
return - ENOENT ;
2016-01-17 02:23:42 +03:00
q = strchrnul ( p , ' : ' ) ;
if ( * q ! = ' \0 ' )
options = q + 1 ;
2016-01-17 02:23:48 +03:00
l = q - p ;
2015-10-10 11:29:30 +03:00
2014-03-27 17:07:01 +04:00
/* Get the node specified by stdout-path */
2016-01-17 02:23:48 +03:00
offset = fdt_path_offset_namelen ( fdt , p , l ) ;
if ( offset < 0 ) {
pr_warn ( " earlycon: stdout-path %.*s not found \n " , l , p ) ;
return 0 ;
}
2014-03-27 17:07:01 +04:00
2020-11-23 13:23:13 +03:00
for ( match = __earlycon_table ; match < __earlycon_table_end ; match + + ) {
2016-01-17 02:23:39 +03:00
if ( ! match - > compatible [ 0 ] )
continue ;
if ( fdt_node_check_compatible ( fdt , offset , match - > compatible ) )
2014-03-27 17:07:01 +04:00
continue ;
2022-06-28 15:07:05 +03:00
ret = of_setup_earlycon ( match , offset , options ) ;
if ( ! ret | | ret = = - EALREADY )
2019-09-10 08:58:33 +03:00
return 0 ;
2014-03-27 17:07:01 +04:00
}
return - ENODEV ;
}
# endif
2021-03-18 13:40:33 +03:00
/*
2009-11-24 13:27:10 +03:00
* early_init_dt_scan_root - fetch the top level address and size cells
*/
2021-11-18 21:12:11 +03:00
int __init early_init_dt_scan_root ( void )
2009-11-24 13:27:10 +03:00
{
2014-04-02 08:49:03 +04:00
const __be32 * prop ;
2021-11-18 21:12:11 +03:00
const void * fdt = initial_boot_params ;
int node = fdt_path_offset ( fdt , " / " ) ;
2009-11-24 13:27:10 +03:00
2021-11-18 21:12:11 +03:00
if ( node < 0 )
return - ENODEV ;
2009-11-24 13:27:10 +03:00
2010-01-30 11:45:26 +03:00
dt_root_size_cells = OF_ROOT_NODE_SIZE_CELLS_DEFAULT ;
dt_root_addr_cells = OF_ROOT_NODE_ADDR_CELLS_DEFAULT ;
2009-11-24 13:27:10 +03:00
prop = of_get_flat_dt_prop ( node , " #size-cells " , NULL ) ;
2010-01-30 11:45:26 +03:00
if ( prop )
dt_root_size_cells = be32_to_cpup ( prop ) ;
2009-11-24 13:27:10 +03:00
pr_debug ( " dt_root_size_cells = %x \n " , dt_root_size_cells ) ;
prop = of_get_flat_dt_prop ( node , " #address-cells " , NULL ) ;
2010-01-30 11:45:26 +03:00
if ( prop )
dt_root_addr_cells = be32_to_cpup ( prop ) ;
2009-11-24 13:27:10 +03:00
pr_debug ( " dt_root_addr_cells = %x \n " , dt_root_addr_cells ) ;
2021-11-18 21:12:11 +03:00
return 0 ;
2009-11-24 13:27:10 +03:00
}
2014-04-02 08:49:03 +04:00
u64 __init dt_mem_next_cell ( int s , const __be32 * * cellp )
2009-11-24 13:37:56 +03:00
{
2014-04-02 08:49:03 +04:00
const __be32 * p = * cellp ;
2009-11-24 13:37:56 +03:00
* cellp = p + s ;
return of_read_number ( p , s ) ;
}
2021-03-18 13:40:33 +03:00
/*
2017-06-21 02:46:28 +03:00
* early_init_dt_scan_memory - Look for and parse memory nodes
2010-02-02 07:34:14 +03:00
*/
2021-12-15 18:01:02 +03:00
int __init early_init_dt_scan_memory ( void )
2010-02-02 07:34:14 +03:00
{
2022-12-23 14:27:47 +03:00
int node , found_memory = 0 ;
2021-12-15 18:01:02 +03:00
const void * fdt = initial_boot_params ;
2010-02-02 07:34:14 +03:00
2021-12-15 18:01:02 +03:00
fdt_for_each_subnode ( node , fdt , 0 ) {
const char * type = of_get_flat_dt_prop ( node , " device_type " , NULL ) ;
const __be32 * reg , * endp ;
int l ;
bool hotpluggable ;
2010-02-02 07:34:14 +03:00
2021-12-15 18:01:02 +03:00
/* We are scanning "memory" nodes only */
if ( type = = NULL | | strcmp ( type , " memory " ) ! = 0 )
continue ;
2010-02-02 07:34:14 +03:00
of/fdt: Ignore disabled memory nodes
When we boot a machine using a devicetree, the generic DT code goes
through all nodes with a 'device_type = "memory"' property, and collects
all memory banks mentioned there. However it does not check for the
status property, so any nodes which are explicitly "disabled" will still
be added as a memblock.
This ends up badly for QEMU, when booting with secure firmware on
arm/arm64 machines, because QEMU adds a node describing secure-only
memory:
===================
secram@e000000 {
secure-status = "okay";
status = "disabled";
reg = <0x00 0xe000000 0x00 0x1000000>;
device_type = "memory";
};
===================
The kernel will eventually use that memory block (which is located below
the main DRAM bank), but accesses to that will be answered with an
SError:
===================
[ 0.000000] Internal error: synchronous external abort: 96000050 [#1] PREEMPT SMP
[ 0.000000] Modules linked in:
[ 0.000000] CPU: 0 PID: 0 Comm: swapper Not tainted 5.18.0-rc6-00014-g10c8acb8b679 #524
[ 0.000000] Hardware name: linux,dummy-virt (DT)
[ 0.000000] pstate: 200000c5 (nzCv daIF -PAN -UAO -TCO -DIT -SSBS BTYPE=--)
[ 0.000000] pc : new_slab+0x190/0x340
[ 0.000000] lr : new_slab+0x184/0x340
[ 0.000000] sp : ffff80000a4b3d10
....
==================
The actual crash location and call stack will be somewhat random, and
depend on the specific allocation of that physical memory range.
As the DT spec[1] explicitly mentions standard properties, add a simple
check to skip over disabled memory nodes, so that we only use memory
that is meant for non-secure code to use.
That fixes booting a QEMU arm64 VM with EL3 enabled ("secure=on"), when
not using UEFI. In this case the QEMU generated DT will be handed on
to the kernel, which will see the secram node.
This issue is reproducible when using TF-A together with U-Boot as
firmware, then booting with the "booti" command.
When using U-Boot as an UEFI provider, the code there [2] explicitly
filters for disabled nodes when generating the UEFI memory map, so we
are safe.
EDK/2 only reads the first bank of the first DT memory node [3] to learn
about memory, so we got lucky there.
[1] https://github.com/devicetree-org/devicetree-specification/blob/main/source/chapter3-devicenodes.rst#memory-node (after the table)
[2] https://source.denx.de/u-boot/u-boot/-/blob/master/lib/fdtdec.c#L1061-1063
[3] https://github.com/tianocore/edk2/blob/master/ArmVirtPkg/PrePi/FdtParser.c
Reported-by: Ross Burton <ross.burton@arm.com>
Signed-off-by: Andre Przywara <andre.przywara@arm.com>
Signed-off-by: Rob Herring <robh@kernel.org>
Link: https://lore.kernel.org/r/20220517101410.3493781-1-andre.przywara@arm.com
2022-05-17 13:14:10 +03:00
if ( ! of_fdt_device_is_available ( fdt , node ) )
continue ;
2021-12-15 18:01:02 +03:00
reg = of_get_flat_dt_prop ( node , " linux,usable-memory " , & l ) ;
if ( reg = = NULL )
reg = of_get_flat_dt_prop ( node , " reg " , & l ) ;
if ( reg = = NULL )
continue ;
2010-02-02 07:34:14 +03:00
2021-12-15 18:01:02 +03:00
endp = reg + ( l / sizeof ( __be32 ) ) ;
hotpluggable = of_get_flat_dt_prop ( node , " hotpluggable " , NULL ) ;
2010-02-02 07:34:14 +03:00
2021-12-15 18:01:02 +03:00
pr_debug ( " memory scan node %s, reg size %d, \n " ,
fdt_get_name ( fdt , node , NULL ) , l ) ;
2010-02-02 07:34:14 +03:00
2021-12-15 18:01:02 +03:00
while ( ( endp - reg ) > = ( dt_root_addr_cells + dt_root_size_cells ) ) {
u64 base , size ;
2010-02-02 07:34:14 +03:00
2021-12-15 18:01:02 +03:00
base = dt_mem_next_cell ( dt_root_addr_cells , & reg ) ;
size = dt_mem_next_cell ( dt_root_size_cells , & reg ) ;
2010-02-02 07:34:14 +03:00
2021-12-15 18:01:02 +03:00
if ( size = = 0 )
continue ;
pr_debug ( " - %llx, %llx \n " , base , size ) ;
2016-12-13 03:43:02 +03:00
2021-12-15 18:01:02 +03:00
early_init_dt_add_memory_arch ( base , size ) ;
2016-12-13 03:43:02 +03:00
2022-12-23 14:27:47 +03:00
found_memory = 1 ;
2021-12-15 18:01:02 +03:00
if ( ! hotpluggable )
continue ;
2010-02-02 07:34:14 +03:00
2021-12-15 18:01:02 +03:00
if ( memblock_mark_hotplug ( base , size ) )
pr_warn ( " failed to mark hotplug range 0x%llx - 0x%llx \n " ,
base , base + size ) ;
}
}
2022-12-23 14:27:47 +03:00
return found_memory ;
2010-02-02 07:34:14 +03:00
}
2021-11-18 21:12:10 +03:00
int __init early_init_dt_scan_chosen ( char * cmdline )
2009-12-11 09:42:21 +03:00
{
2021-11-18 21:12:10 +03:00
int l , node ;
2014-04-02 08:49:03 +04:00
const char * p ;
2019-08-23 09:24:51 +03:00
const void * rng_seed ;
2021-11-18 21:12:10 +03:00
const void * fdt = initial_boot_params ;
2009-12-11 09:42:21 +03:00
2021-11-18 21:12:10 +03:00
node = fdt_path_offset ( fdt , " /chosen " ) ;
if ( node < 0 )
node = fdt_path_offset ( fdt , " /chosen@0 " ) ;
if ( node < 0 )
2023-01-03 21:00:32 +03:00
/* Handle the cmdline config options even if no /chosen node */
goto handle_cmdline ;
2009-12-11 09:42:21 +03:00
2021-12-14 07:01:56 +03:00
chosen_node_offset = node ;
2009-12-11 09:42:21 +03:00
early_init_dt_check_for_initrd ( node ) ;
2021-08-11 11:51:01 +03:00
early_init_dt_check_for_elfcorehdr ( node ) ;
2009-12-11 09:42:21 +03:00
2023-01-03 21:00:32 +03:00
rng_seed = of_get_flat_dt_prop ( node , " rng-seed " , & l ) ;
if ( rng_seed & & l > 0 ) {
add_bootloader_randomness ( rng_seed , l ) ;
/* try to clear seed so it won't be found. */
fdt_nop_property ( initial_boot_params , node , " rng-seed " ) ;
/* update CRC check value */
of_fdt_crc32 = crc32_be ( ~ 0 , initial_boot_params ,
fdt_totalsize ( initial_boot_params ) ) ;
}
2011-03-31 05:57:33 +04:00
/* Retrieve command line */
2009-12-11 09:42:21 +03:00
p = of_get_flat_dt_prop ( node , " bootargs " , & l ) ;
if ( p ! = NULL & & l > 0 )
2022-08-19 00:00:53 +03:00
strscpy ( cmdline , p , min ( l , COMMAND_LINE_SIZE ) ) ;
2009-12-11 09:42:21 +03:00
2023-01-03 21:00:32 +03:00
handle_cmdline :
2023-01-03 21:00:31 +03:00
/*
* CONFIG_CMDLINE is meant to be a default in case nothing else
* managed to set the command line , unless CONFIG_CMDLINE_FORCE
* is set in which case we override whatever was found earlier .
*/
# ifdef CONFIG_CMDLINE
# if defined(CONFIG_CMDLINE_EXTEND)
strlcat ( cmdline , " " , COMMAND_LINE_SIZE ) ;
strlcat ( cmdline , CONFIG_CMDLINE , COMMAND_LINE_SIZE ) ;
# elif defined(CONFIG_CMDLINE_FORCE)
strscpy ( cmdline , CONFIG_CMDLINE , COMMAND_LINE_SIZE ) ;
# else
/* No arguments from boot loader, use kernel's cmdl*/
if ( ! ( ( char * ) cmdline ) [ 0 ] )
strscpy ( cmdline , CONFIG_CMDLINE , COMMAND_LINE_SIZE ) ;
# endif
# endif /* CONFIG_CMDLINE */
pr_debug ( " Command line is: %s \n " , ( char * ) cmdline ) ;
2021-11-18 21:12:10 +03:00
return 0 ;
2009-12-11 09:42:21 +03:00
}
2016-02-16 15:52:32 +03:00
# ifndef MIN_MEMBLOCK_ADDR
# define MIN_MEMBLOCK_ADDR __pa(PAGE_OFFSET)
# endif
2015-08-18 12:34:41 +03:00
# ifndef MAX_MEMBLOCK_ADDR
# define MAX_MEMBLOCK_ADDR ((phys_addr_t)~0)
# endif
2014-07-08 04:45:43 +04:00
2013-09-25 07:20:01 +04:00
void __init __weak early_init_dt_add_memory_arch ( u64 base , u64 size )
{
2016-02-16 15:52:32 +03:00
const u64 phys_offset = MIN_MEMBLOCK_ADDR ;
2014-08-20 19:10:31 +04:00
2018-10-27 01:04:48 +03:00
if ( size < PAGE_SIZE - ( base & ~ PAGE_MASK ) ) {
pr_warn ( " Ignoring memory block 0x%llx - 0x%llx \n " ,
base , base + size ) ;
return ;
}
2014-08-20 19:10:31 +04:00
if ( ! PAGE_ALIGNED ( base ) ) {
size - = PAGE_SIZE - ( base & ~ PAGE_MASK ) ;
base = PAGE_ALIGN ( base ) ;
}
2013-09-25 07:20:01 +04:00
size & = PAGE_MASK ;
2014-06-20 07:13:38 +04:00
2015-08-18 12:34:41 +03:00
if ( base > MAX_MEMBLOCK_ADDR ) {
2019-10-18 06:18:33 +03:00
pr_warn ( " Ignoring memory block 0x%llx - 0x%llx \n " ,
base , base + size ) ;
2014-07-08 04:45:43 +04:00
return ;
}
2014-06-20 07:13:38 +04:00
2015-08-18 12:34:41 +03:00
if ( base + size - 1 > MAX_MEMBLOCK_ADDR ) {
2019-10-18 06:18:33 +03:00
pr_warn ( " Ignoring memory range 0x%llx - 0x%llx \n " ,
( ( u64 ) MAX_MEMBLOCK_ADDR ) + 1 , base + size ) ;
2015-08-18 12:34:41 +03:00
size = MAX_MEMBLOCK_ADDR - base + 1 ;
2014-06-20 07:13:38 +04:00
}
2013-09-25 07:20:01 +04:00
if ( base + size < phys_offset ) {
2019-10-18 06:18:33 +03:00
pr_warn ( " Ignoring memory block 0x%llx - 0x%llx \n " ,
base , base + size ) ;
2013-09-25 07:20:01 +04:00
return ;
}
if ( base < phys_offset ) {
2019-10-18 06:18:33 +03:00
pr_warn ( " Ignoring memory range 0x%llx - 0x%llx \n " ,
base , phys_offset ) ;
2013-09-25 07:20:01 +04:00
size - = phys_offset - base ;
base = phys_offset ;
}
memblock_add ( base , size ) ;
}
2018-01-06 00:32:33 +03:00
static void * __init early_init_dt_alloc_memory_arch ( u64 size , u64 align )
2015-06-19 04:35:46 +03:00
{
2019-03-12 09:30:31 +03:00
void * ptr = memblock_alloc ( size , align ) ;
if ( ! ptr )
panic ( " %s: Failed to allocate %llu bytes align=0x%llx \n " ,
__func__ , size , align ) ;
return ptr ;
2015-06-19 04:35:46 +03:00
}
2013-08-29 00:18:32 +04:00
2014-07-15 21:03:34 +04:00
bool __init early_init_dt_verify ( void * params )
2013-08-26 18:47:40 +04:00
{
if ( ! params )
return false ;
/* check device tree validity */
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if ( fdt_check_header ( params ) )
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return false ;
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/* Setup flat device-tree pointer */
initial_boot_params = params ;
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of_fdt_crc32 = crc32_be ( ~ 0 , initial_boot_params ,
fdt_totalsize ( initial_boot_params ) ) ;
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return true ;
}
void __init early_init_dt_scan_nodes ( void )
{
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int rc ;
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/* Initialize {size,address}-cells info */
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early_init_dt_scan_root ( ) ;
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/* Retrieve various information from the /chosen node */
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rc = early_init_dt_scan_chosen ( boot_command_line ) ;
if ( rc )
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pr_warn ( " No chosen node found, continuing without \n " ) ;
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/* Setup memory, calling early_init_dt_add_memory_arch */
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early_init_dt_scan_memory ( ) ;
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/* Handle linux,usable-memory-range property */
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early_init_dt_check_for_usable_mem_range ( ) ;
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}
bool __init early_init_dt_scan ( void * params )
{
bool status ;
status = early_init_dt_verify ( params ) ;
if ( ! status )
return false ;
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early_init_dt_scan_nodes ( ) ;
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return true ;
}
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/**
* unflatten_device_tree - create tree of device_nodes from flat blob
*
* unflattens the device - tree passed by the firmware , creating the
* tree of struct device_node . It also fills the " name " and " type "
* pointers of the nodes so the normal device - tree walking functions
* can be used .
*/
void __init unflatten_device_tree ( void )
{
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__unflatten_device_tree ( initial_boot_params , NULL , & of_root ,
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early_init_dt_alloc_memory_arch , false ) ;
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/* Get pointer to "/chosen" and "/aliases" nodes for use everywhere */
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of_alias_scan ( early_init_dt_alloc_memory_arch ) ;
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unittest_unflatten_overlay_base ( ) ;
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}
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/**
* unflatten_and_copy_device_tree - copy and create tree of device_nodes from flat blob
*
* Copies and unflattens the device - tree passed by the firmware , creating the
* tree of struct device_node . It also fills the " name " and " type "
* pointers of the nodes so the normal device - tree walking functions
* can be used . This should only be used when the FDT memory has not been
* reserved such is the case when the FDT is built - in to the kernel init
* section . If the FDT memory is reserved already then unflatten_device_tree
* should be used instead .
*/
void __init unflatten_and_copy_device_tree ( void )
{
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int size ;
void * dt ;
if ( ! initial_boot_params ) {
pr_warn ( " No valid device tree found, continuing without \n " ) ;
return ;
}
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size = fdt_totalsize ( initial_boot_params ) ;
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dt = early_init_dt_alloc_memory_arch ( size ,
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roundup_pow_of_two ( FDT_V17_SIZE ) ) ;
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if ( dt ) {
memcpy ( dt , initial_boot_params , size ) ;
initial_boot_params = dt ;
}
unflatten_device_tree ( ) ;
}
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# ifdef CONFIG_SYSFS
static ssize_t of_fdt_raw_read ( struct file * filp , struct kobject * kobj ,
struct bin_attribute * bin_attr ,
char * buf , loff_t off , size_t count )
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{
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memcpy ( buf , initial_boot_params + off , count ) ;
return count ;
}
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static int __init of_fdt_raw_init ( void )
{
static struct bin_attribute of_fdt_raw_attr =
__BIN_ATTR ( fdt , S_IRUSR , of_fdt_raw_read , NULL , 0 ) ;
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if ( ! initial_boot_params )
return 0 ;
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if ( of_fdt_crc32 ! = crc32_be ( ~ 0 , initial_boot_params ,
fdt_totalsize ( initial_boot_params ) ) ) {
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pr_warn ( " not creating '/sys/firmware/fdt': CRC check failed \n " ) ;
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return 0 ;
}
of_fdt_raw_attr . size = fdt_totalsize ( initial_boot_params ) ;
return sysfs_create_bin_file ( firmware_kobj , & of_fdt_raw_attr ) ;
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}
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late_initcall ( of_fdt_raw_init ) ;
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# endif
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# endif /* CONFIG_OF_EARLY_FLATTREE */