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/*
* linux / kernel / resource . c
*
* Copyright ( C ) 1999 Linus Torvalds
* Copyright ( C ) 1999 Martin Mares < mj @ ucw . cz >
*
* Arbitrary resource management .
*/
# include <linux/module.h>
# include <linux/errno.h>
# include <linux/ioport.h>
# include <linux/init.h>
# include <linux/slab.h>
# include <linux/spinlock.h>
# include <linux/fs.h>
# include <linux/proc_fs.h>
# include <linux/seq_file.h>
devres: device resource management
Implement device resource management, in short, devres. A device
driver can allocate arbirary size of devres data which is associated
with a release function. On driver detach, release function is
invoked on the devres data, then, devres data is freed.
devreses are typed by associated release functions. Some devreses are
better represented by single instance of the type while others need
multiple instances sharing the same release function. Both usages are
supported.
devreses can be grouped using devres group such that a device driver
can easily release acquired resources halfway through initialization
or selectively release resources (e.g. resources for port 1 out of 4
ports).
This patch adds devres core including documentation and the following
managed interfaces.
* alloc/free : devm_kzalloc(), devm_kzfree()
* IO region : devm_request_region(), devm_release_region()
* IRQ : devm_request_irq(), devm_free_irq()
* DMA : dmam_alloc_coherent(), dmam_free_coherent(),
dmam_declare_coherent_memory(), dmam_pool_create(),
dmam_pool_destroy()
* PCI : pcim_enable_device(), pcim_pin_device(), pci_is_managed()
* iomap : devm_ioport_map(), devm_ioport_unmap(), devm_ioremap(),
devm_ioremap_nocache(), devm_iounmap(), pcim_iomap_table(),
pcim_iomap(), pcim_iounmap()
Signed-off-by: Tejun Heo <htejun@gmail.com>
Signed-off-by: Jeff Garzik <jeff@garzik.org>
2007-01-20 10:00:26 +03:00
# include <linux/device.h>
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# include <asm/io.h>
struct resource ioport_resource = {
. name = " PCI IO " ,
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. start = 0 ,
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. end = IO_SPACE_LIMIT ,
. flags = IORESOURCE_IO ,
} ;
EXPORT_SYMBOL ( ioport_resource ) ;
struct resource iomem_resource = {
. name = " PCI mem " ,
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. start = 0 ,
. end = - 1 ,
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. flags = IORESOURCE_MEM ,
} ;
EXPORT_SYMBOL ( iomem_resource ) ;
static DEFINE_RWLOCK ( resource_lock ) ;
# ifdef CONFIG_PROC_FS
enum { MAX_IORES_LEVEL = 5 } ;
static void * r_next ( struct seq_file * m , void * v , loff_t * pos )
{
struct resource * p = v ;
( * pos ) + + ;
if ( p - > child )
return p - > child ;
while ( ! p - > sibling & & p - > parent )
p = p - > parent ;
return p - > sibling ;
}
static void * r_start ( struct seq_file * m , loff_t * pos )
__acquires ( resource_lock )
{
struct resource * p = m - > private ;
loff_t l = 0 ;
read_lock ( & resource_lock ) ;
for ( p = p - > child ; p & & l < * pos ; p = r_next ( m , p , & l ) )
;
return p ;
}
static void r_stop ( struct seq_file * m , void * v )
__releases ( resource_lock )
{
read_unlock ( & resource_lock ) ;
}
static int r_show ( struct seq_file * m , void * v )
{
struct resource * root = m - > private ;
struct resource * r = v , * p ;
int width = root - > end < 0x10000 ? 4 : 8 ;
int depth ;
for ( depth = 0 , p = r ; depth < MAX_IORES_LEVEL ; depth + + , p = p - > parent )
if ( p - > parent = = root )
break ;
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seq_printf ( m , " %*s%0*llx-%0*llx : %s \n " ,
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depth * 2 , " " ,
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width , ( unsigned long long ) r - > start ,
width , ( unsigned long long ) r - > end ,
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r - > name ? r - > name : " <BAD> " ) ;
return 0 ;
}
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static const struct seq_operations resource_op = {
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. start = r_start ,
. next = r_next ,
. stop = r_stop ,
. show = r_show ,
} ;
static int ioports_open ( struct inode * inode , struct file * file )
{
int res = seq_open ( file , & resource_op ) ;
if ( ! res ) {
struct seq_file * m = file - > private_data ;
m - > private = & ioport_resource ;
}
return res ;
}
static int iomem_open ( struct inode * inode , struct file * file )
{
int res = seq_open ( file , & resource_op ) ;
if ( ! res ) {
struct seq_file * m = file - > private_data ;
m - > private = & iomem_resource ;
}
return res ;
}
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static const struct file_operations proc_ioports_operations = {
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. open = ioports_open ,
. read = seq_read ,
. llseek = seq_lseek ,
. release = seq_release ,
} ;
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static const struct file_operations proc_iomem_operations = {
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. open = iomem_open ,
. read = seq_read ,
. llseek = seq_lseek ,
. release = seq_release ,
} ;
static int __init ioresources_init ( void )
{
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proc_create ( " ioports " , 0 , NULL , & proc_ioports_operations ) ;
proc_create ( " iomem " , 0 , NULL , & proc_iomem_operations ) ;
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return 0 ;
}
__initcall ( ioresources_init ) ;
# endif /* CONFIG_PROC_FS */
/* Return the conflict entry if you can't request it */
static struct resource * __request_resource ( struct resource * root , struct resource * new )
{
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resource_size_t start = new - > start ;
resource_size_t end = new - > end ;
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struct resource * tmp , * * p ;
if ( end < start )
return root ;
if ( start < root - > start )
return root ;
if ( end > root - > end )
return root ;
p = & root - > child ;
for ( ; ; ) {
tmp = * p ;
if ( ! tmp | | tmp - > start > end ) {
new - > sibling = tmp ;
* p = new ;
new - > parent = root ;
return NULL ;
}
p = & tmp - > sibling ;
if ( tmp - > end < start )
continue ;
return tmp ;
}
}
static int __release_resource ( struct resource * old )
{
struct resource * tmp , * * p ;
p = & old - > parent - > child ;
for ( ; ; ) {
tmp = * p ;
if ( ! tmp )
break ;
if ( tmp = = old ) {
* p = tmp - > sibling ;
old - > parent = NULL ;
return 0 ;
}
p = & tmp - > sibling ;
}
return - EINVAL ;
}
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/**
* request_resource - request and reserve an I / O or memory resource
* @ root : root resource descriptor
* @ new : resource descriptor desired by caller
*
* Returns 0 for success , negative error code on error .
*/
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int request_resource ( struct resource * root , struct resource * new )
{
struct resource * conflict ;
write_lock ( & resource_lock ) ;
conflict = __request_resource ( root , new ) ;
write_unlock ( & resource_lock ) ;
return conflict ? - EBUSY : 0 ;
}
EXPORT_SYMBOL ( request_resource ) ;
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/**
* release_resource - release a previously reserved resource
* @ old : resource pointer
*/
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int release_resource ( struct resource * old )
{
int retval ;
write_lock ( & resource_lock ) ;
retval = __release_resource ( old ) ;
write_unlock ( & resource_lock ) ;
return retval ;
}
EXPORT_SYMBOL ( release_resource ) ;
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# if defined(CONFIG_MEMORY_HOTPLUG) && !defined(CONFIG_ARCH_HAS_WALK_MEMORY)
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/*
* Finds the lowest memory reosurce exists within [ res - > start . res - > end )
* the caller must specify res - > start , res - > end , res - > flags .
* If found , returns 0 , res is overwritten , if not found , returns - 1.
*/
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static int find_next_system_ram ( struct resource * res )
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{
resource_size_t start , end ;
struct resource * p ;
BUG_ON ( ! res ) ;
start = res - > start ;
end = res - > end ;
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BUG_ON ( start > = end ) ;
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read_lock ( & resource_lock ) ;
for ( p = iomem_resource . child ; p ; p = p - > sibling ) {
/* system ram is just marked as IORESOURCE_MEM */
if ( p - > flags ! = res - > flags )
continue ;
if ( p - > start > end ) {
p = NULL ;
break ;
}
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if ( ( p - > end > = start ) & & ( p - > start < end ) )
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break ;
}
read_unlock ( & resource_lock ) ;
if ( ! p )
return - 1 ;
/* copy data */
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if ( res - > start < p - > start )
res - > start = p - > start ;
if ( res - > end > p - > end )
res - > end = p - > end ;
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return 0 ;
}
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int
walk_memory_resource ( unsigned long start_pfn , unsigned long nr_pages , void * arg ,
int ( * func ) ( unsigned long , unsigned long , void * ) )
{
struct resource res ;
unsigned long pfn , len ;
u64 orig_end ;
int ret = - 1 ;
res . start = ( u64 ) start_pfn < < PAGE_SHIFT ;
res . end = ( ( u64 ) ( start_pfn + nr_pages ) < < PAGE_SHIFT ) - 1 ;
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res . flags = IORESOURCE_MEM | IORESOURCE_BUSY ;
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orig_end = res . end ;
while ( ( res . start < res . end ) & & ( find_next_system_ram ( & res ) > = 0 ) ) {
pfn = ( unsigned long ) ( res . start > > PAGE_SHIFT ) ;
len = ( unsigned long ) ( ( res . end + 1 - res . start ) > > PAGE_SHIFT ) ;
ret = ( * func ) ( pfn , len , arg ) ;
if ( ret )
break ;
res . start = res . end + 1 ;
res . end = orig_end ;
}
return ret ;
}
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# endif
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/*
* Find empty slot in the resource tree given range and alignment .
*/
static int find_resource ( struct resource * root , struct resource * new ,
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resource_size_t size , resource_size_t min ,
resource_size_t max , resource_size_t align ,
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void ( * alignf ) ( void * , struct resource * ,
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resource_size_t , resource_size_t ) ,
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void * alignf_data )
{
struct resource * this = root - > child ;
new - > start = root - > start ;
/*
* Skip past an allocated resource that starts at 0 , since the assignment
* of this - > start - 1 to new - > end below would cause an underflow .
*/
if ( this & & this - > start = = 0 ) {
new - > start = this - > end + 1 ;
this = this - > sibling ;
}
for ( ; ; ) {
if ( this )
new - > end = this - > start - 1 ;
else
new - > end = root - > end ;
if ( new - > start < min )
new - > start = min ;
if ( new - > end > max )
new - > end = max ;
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new - > start = ALIGN ( new - > start , align ) ;
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if ( alignf )
alignf ( alignf_data , new , size , align ) ;
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if ( new - > start < new - > end & & new - > end - new - > start > = size - 1 ) {
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new - > end = new - > start + size - 1 ;
return 0 ;
}
if ( ! this )
break ;
new - > start = this - > end + 1 ;
this = this - > sibling ;
}
return - EBUSY ;
}
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/**
* allocate_resource - allocate empty slot in the resource tree given range & alignment
* @ root : root resource descriptor
* @ new : resource descriptor desired by caller
* @ size : requested resource region size
* @ min : minimum size to allocate
* @ max : maximum size to allocate
* @ align : alignment requested , in bytes
* @ alignf : alignment function , optional , called if not NULL
* @ alignf_data : arbitrary data to pass to the @ alignf function
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*/
int allocate_resource ( struct resource * root , struct resource * new ,
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resource_size_t size , resource_size_t min ,
resource_size_t max , resource_size_t align ,
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void ( * alignf ) ( void * , struct resource * ,
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resource_size_t , resource_size_t ) ,
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void * alignf_data )
{
int err ;
write_lock ( & resource_lock ) ;
err = find_resource ( root , new , size , min , max , align , alignf , alignf_data ) ;
if ( err > = 0 & & __request_resource ( root , new ) )
err = - EBUSY ;
write_unlock ( & resource_lock ) ;
return err ;
}
EXPORT_SYMBOL ( allocate_resource ) ;
/**
* insert_resource - Inserts a resource in the resource tree
* @ parent : parent of the new resource
* @ new : new resource to insert
*
* Returns 0 on success , - EBUSY if the resource can ' t be inserted .
*
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* This function is equivalent to request_resource when no conflict
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* happens . If a conflict happens , and the conflicting resources
* entirely fit within the range of the new resource , then the new
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* resource is inserted and the conflicting resources become children of
* the new resource .
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*/
int insert_resource ( struct resource * parent , struct resource * new )
{
int result ;
struct resource * first , * next ;
write_lock ( & resource_lock ) ;
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for ( ; ; parent = first ) {
result = 0 ;
first = __request_resource ( parent , new ) ;
if ( ! first )
goto out ;
result = - EBUSY ;
if ( first = = parent )
goto out ;
if ( ( first - > start > new - > start ) | | ( first - > end < new - > end ) )
break ;
if ( ( first - > start = = new - > start ) & & ( first - > end = = new - > end ) )
break ;
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}
for ( next = first ; ; next = next - > sibling ) {
/* Partial overlap? Bad, and unfixable */
if ( next - > start < new - > start | | next - > end > new - > end )
goto out ;
if ( ! next - > sibling )
break ;
if ( next - > sibling - > start > new - > end )
break ;
}
result = 0 ;
new - > parent = parent ;
new - > sibling = next - > sibling ;
new - > child = first ;
next - > sibling = NULL ;
for ( next = first ; next ; next = next - > sibling )
next - > parent = new ;
if ( parent - > child = = first ) {
parent - > child = new ;
} else {
next = parent - > child ;
while ( next - > sibling ! = first )
next = next - > sibling ;
next - > sibling = new ;
}
out :
write_unlock ( & resource_lock ) ;
return result ;
}
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/**
* adjust_resource - modify a resource ' s start and size
* @ res : resource to modify
* @ start : new start value
* @ size : new size
*
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* Given an existing resource , change its start and size to match the
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* arguments . Returns 0 on success , - EBUSY if it can ' t fit .
* Existing children of the resource are assumed to be immutable .
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*/
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int adjust_resource ( struct resource * res , resource_size_t start , resource_size_t size )
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{
struct resource * tmp , * parent = res - > parent ;
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resource_size_t end = start + size - 1 ;
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int result = - EBUSY ;
write_lock ( & resource_lock ) ;
if ( ( start < parent - > start ) | | ( end > parent - > end ) )
goto out ;
for ( tmp = res - > child ; tmp ; tmp = tmp - > sibling ) {
if ( ( tmp - > start < start ) | | ( tmp - > end > end ) )
goto out ;
}
if ( res - > sibling & & ( res - > sibling - > start < = end ) )
goto out ;
tmp = parent - > child ;
if ( tmp ! = res ) {
while ( tmp - > sibling ! = res )
tmp = tmp - > sibling ;
if ( start < = tmp - > end )
goto out ;
}
res - > start = start ;
res - > end = end ;
result = 0 ;
out :
write_unlock ( & resource_lock ) ;
return result ;
}
EXPORT_SYMBOL ( adjust_resource ) ;
PCI: clean up resource alignment management
Done per Linus' request and suggestions. Linus has explained that
better than I'll be able to explain:
On Thu, Mar 27, 2008 at 10:12:10AM -0700, Linus Torvalds wrote:
> Actually, before we go any further, there might be a less intrusive
> alternative: add just a couple of flags to the resource flags field (we
> still have something like 8 unused bits on 32-bit), and use those to
> implement a generic "resource_alignment()" routine.
>
> Two flags would do it:
>
> - IORESOURCE_SIZEALIGN: size indicates alignment (regular PCI device
> resources)
>
> - IORESOURCE_STARTALIGN: start field is alignment (PCI bus resources
> during probing)
>
> and then the case of both flags zero (or both bits set) would actually be
> "invalid", and we would also clear the IORESOURCE_STARTALIGN flag when we
> actually allocate the resource (so that we don't use the "start" field as
> alignment incorrectly when it no longer indicates alignment).
>
> That wouldn't be totally generic, but it would have the nice property of
> automatically at least add sanity checking for that whole "res->start has
> the odd meaning of 'alignment' during probing" and remove the need for a
> new field, and it would allow us to have a generic "resource_alignment()"
> routine that just gets a resource pointer.
Besides, I removed IORESOURCE_BUS_HAS_VGA flag which was unused for ages.
Signed-off-by: Ivan Kokshaysky <ink@jurassic.park.msu.ru>
Cc: Linus Torvalds <torvalds@linux-foundation.org>
Cc: Gary Hade <garyhade@us.ibm.com>
Signed-off-by: Greg Kroah-Hartman <gregkh@suse.de>
2008-03-30 19:50:14 +04:00
/**
* resource_alignment - calculate resource ' s alignment
* @ res : resource pointer
*
* Returns alignment on success , 0 ( invalid alignment ) on failure .
*/
resource_size_t resource_alignment ( struct resource * res )
{
switch ( res - > flags & ( IORESOURCE_SIZEALIGN | IORESOURCE_STARTALIGN ) ) {
case IORESOURCE_SIZEALIGN :
return res - > end - res - > start + 1 ;
case IORESOURCE_STARTALIGN :
return res - > start ;
default :
return 0 ;
}
}
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/*
* This is compatibility stuff for IO resources .
*
* Note how this , unlike the above , knows about
* the IO flag meanings ( busy etc ) .
*
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* request_region creates a new busy region .
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*
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* check_region returns non - zero if the area is already busy .
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*
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* release_region releases a matching busy region .
*/
/**
* __request_region - create a new busy resource region
* @ parent : parent resource descriptor
* @ start : resource start address
* @ n : resource region size
* @ name : reserving caller ' s ID string
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*/
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struct resource * __request_region ( struct resource * parent ,
resource_size_t start , resource_size_t n ,
const char * name )
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{
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struct resource * res = kzalloc ( sizeof ( * res ) , GFP_KERNEL ) ;
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if ( res ) {
res - > name = name ;
res - > start = start ;
res - > end = start + n - 1 ;
res - > flags = IORESOURCE_BUSY ;
write_lock ( & resource_lock ) ;
for ( ; ; ) {
struct resource * conflict ;
conflict = __request_resource ( parent , res ) ;
if ( ! conflict )
break ;
if ( conflict ! = parent ) {
parent = conflict ;
if ( ! ( conflict - > flags & IORESOURCE_BUSY ) )
continue ;
}
/* Uhhuh, that didn't work out.. */
kfree ( res ) ;
res = NULL ;
break ;
}
write_unlock ( & resource_lock ) ;
}
return res ;
}
EXPORT_SYMBOL ( __request_region ) ;
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/**
* __check_region - check if a resource region is busy or free
* @ parent : parent resource descriptor
* @ start : resource start address
* @ n : resource region size
*
* Returns 0 if the region is free at the moment it is checked ,
* returns % - EBUSY if the region is busy .
*
* NOTE :
* This function is deprecated because its use is racy .
* Even if it returns 0 , a subsequent call to request_region ( )
* may fail because another driver etc . just allocated the region .
* Do NOT use it . It will be removed from the kernel .
*/
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int __check_region ( struct resource * parent , resource_size_t start ,
resource_size_t n )
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{
struct resource * res ;
res = __request_region ( parent , start , n , " check-region " ) ;
if ( ! res )
return - EBUSY ;
release_resource ( res ) ;
kfree ( res ) ;
return 0 ;
}
EXPORT_SYMBOL ( __check_region ) ;
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/**
* __release_region - release a previously reserved resource region
* @ parent : parent resource descriptor
* @ start : resource start address
* @ n : resource region size
*
* The described resource region must match a currently busy region .
*/
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void __release_region ( struct resource * parent , resource_size_t start ,
resource_size_t n )
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{
struct resource * * p ;
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resource_size_t end ;
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p = & parent - > child ;
end = start + n - 1 ;
write_lock ( & resource_lock ) ;
for ( ; ; ) {
struct resource * res = * p ;
if ( ! res )
break ;
if ( res - > start < = start & & res - > end > = end ) {
if ( ! ( res - > flags & IORESOURCE_BUSY ) ) {
p = & res - > child ;
continue ;
}
if ( res - > start ! = start | | res - > end ! = end )
break ;
* p = res - > sibling ;
write_unlock ( & resource_lock ) ;
kfree ( res ) ;
return ;
}
p = & res - > sibling ;
}
write_unlock ( & resource_lock ) ;
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printk ( KERN_WARNING " Trying to free nonexistent resource "
" <%016llx-%016llx> \n " , ( unsigned long long ) start ,
( unsigned long long ) end ) ;
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}
EXPORT_SYMBOL ( __release_region ) ;
devres: device resource management
Implement device resource management, in short, devres. A device
driver can allocate arbirary size of devres data which is associated
with a release function. On driver detach, release function is
invoked on the devres data, then, devres data is freed.
devreses are typed by associated release functions. Some devreses are
better represented by single instance of the type while others need
multiple instances sharing the same release function. Both usages are
supported.
devreses can be grouped using devres group such that a device driver
can easily release acquired resources halfway through initialization
or selectively release resources (e.g. resources for port 1 out of 4
ports).
This patch adds devres core including documentation and the following
managed interfaces.
* alloc/free : devm_kzalloc(), devm_kzfree()
* IO region : devm_request_region(), devm_release_region()
* IRQ : devm_request_irq(), devm_free_irq()
* DMA : dmam_alloc_coherent(), dmam_free_coherent(),
dmam_declare_coherent_memory(), dmam_pool_create(),
dmam_pool_destroy()
* PCI : pcim_enable_device(), pcim_pin_device(), pci_is_managed()
* iomap : devm_ioport_map(), devm_ioport_unmap(), devm_ioremap(),
devm_ioremap_nocache(), devm_iounmap(), pcim_iomap_table(),
pcim_iomap(), pcim_iounmap()
Signed-off-by: Tejun Heo <htejun@gmail.com>
Signed-off-by: Jeff Garzik <jeff@garzik.org>
2007-01-20 10:00:26 +03:00
/*
* Managed region resource
*/
struct region_devres {
struct resource * parent ;
resource_size_t start ;
resource_size_t n ;
} ;
static void devm_region_release ( struct device * dev , void * res )
{
struct region_devres * this = res ;
__release_region ( this - > parent , this - > start , this - > n ) ;
}
static int devm_region_match ( struct device * dev , void * res , void * match_data )
{
struct region_devres * this = res , * match = match_data ;
return this - > parent = = match - > parent & &
this - > start = = match - > start & & this - > n = = match - > n ;
}
struct resource * __devm_request_region ( struct device * dev ,
struct resource * parent , resource_size_t start ,
resource_size_t n , const char * name )
{
struct region_devres * dr = NULL ;
struct resource * res ;
dr = devres_alloc ( devm_region_release , sizeof ( struct region_devres ) ,
GFP_KERNEL ) ;
if ( ! dr )
return NULL ;
dr - > parent = parent ;
dr - > start = start ;
dr - > n = n ;
res = __request_region ( parent , start , n , name ) ;
if ( res )
devres_add ( dev , dr ) ;
else
devres_free ( dr ) ;
return res ;
}
EXPORT_SYMBOL ( __devm_request_region ) ;
void __devm_release_region ( struct device * dev , struct resource * parent ,
resource_size_t start , resource_size_t n )
{
struct region_devres match_data = { parent , start , n } ;
__release_region ( parent , start , n ) ;
WARN_ON ( devres_destroy ( dev , devm_region_release , devm_region_match ,
& match_data ) ) ;
}
EXPORT_SYMBOL ( __devm_release_region ) ;
2005-04-17 02:20:36 +04:00
/*
* Called from init / main . c to reserve IO ports .
*/
# define MAXRESERVE 4
static int __init reserve_setup ( char * str )
{
static int reserved ;
static struct resource reserve [ MAXRESERVE ] ;
for ( ; ; ) {
int io_start , io_num ;
int x = reserved ;
if ( get_option ( & str , & io_start ) ! = 2 )
break ;
if ( get_option ( & str , & io_num ) = = 0 )
break ;
if ( x < MAXRESERVE ) {
struct resource * res = reserve + x ;
res - > name = " reserved " ;
res - > start = io_start ;
res - > end = io_start + io_num - 1 ;
res - > flags = IORESOURCE_BUSY ;
res - > child = NULL ;
if ( request_resource ( res - > start > = 0x10000 ? & iomem_resource : & ioport_resource , res ) = = 0 )
reserved = x + 1 ;
}
}
return 1 ;
}
__setup ( " reserve= " , reserve_setup ) ;