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# include <linux/kernel.h>
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# include <linux/export.h>
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# include <linux/of.h>
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# include <linux/of_address.h>
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# include <linux/of_pci.h>
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# include <linux/slab.h>
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static inline int __of_pci_pci_compare ( struct device_node * node ,
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unsigned int data )
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{
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int devfn ;
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devfn = of_pci_get_devfn ( node ) ;
if ( devfn < 0 )
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return 0 ;
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return devfn = = data ;
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}
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struct device_node * of_pci_find_child_device ( struct device_node * parent ,
unsigned int devfn )
{
struct device_node * node , * node2 ;
for_each_child_of_node ( parent , node ) {
if ( __of_pci_pci_compare ( node , devfn ) )
return node ;
/*
* Some OFs create a parent node " multifunc-device " as
* a fake root for all functions of a multi - function
* device we go down them as well .
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*/
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if ( ! strcmp ( node - > name , " multifunc-device " ) ) {
for_each_child_of_node ( node , node2 ) {
if ( __of_pci_pci_compare ( node2 , devfn ) ) {
of_node_put ( node ) ;
return node2 ;
}
}
}
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}
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return NULL ;
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}
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EXPORT_SYMBOL_GPL ( of_pci_find_child_device ) ;
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/**
* of_pci_get_devfn ( ) - Get device and function numbers for a device node
* @ np : device node
*
* Parses a standard 5 - cell PCI resource and returns an 8 - bit value that can
* be passed to the PCI_SLOT ( ) and PCI_FUNC ( ) macros to extract the device
* and function numbers respectively . On error a negative error code is
* returned .
*/
int of_pci_get_devfn ( struct device_node * np )
{
unsigned int size ;
const __be32 * reg ;
reg = of_get_property ( np , " reg " , & size ) ;
if ( ! reg | | size < 5 * sizeof ( __be32 ) )
return - EINVAL ;
return ( be32_to_cpup ( reg ) > > 8 ) & 0xff ;
}
EXPORT_SYMBOL_GPL ( of_pci_get_devfn ) ;
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/**
* of_pci_parse_bus_range ( ) - parse the bus - range property of a PCI device
* @ node : device node
* @ res : address to a struct resource to return the bus - range
*
* Returns 0 on success or a negative error - code on failure .
*/
int of_pci_parse_bus_range ( struct device_node * node , struct resource * res )
{
const __be32 * values ;
int len ;
values = of_get_property ( node , " bus-range " , & len ) ;
if ( ! values | | len < sizeof ( * values ) * 2 )
return - EINVAL ;
res - > name = node - > name ;
res - > start = be32_to_cpup ( values + + ) ;
res - > end = be32_to_cpup ( values ) ;
res - > flags = IORESOURCE_BUS ;
return 0 ;
}
EXPORT_SYMBOL_GPL ( of_pci_parse_bus_range ) ;
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/**
* This function will try to obtain the host bridge domain number by
* finding a property called " linux,pci-domain " of the given device node .
*
* @ node : device tree node with the domain information
*
* Returns the associated domain number from DT in the range [ 0 - 0xffff ] , or
* a negative value if the required property is not found .
*/
int of_get_pci_domain_nr ( struct device_node * node )
{
const __be32 * value ;
int len ;
u16 domain ;
value = of_get_property ( node , " linux,pci-domain " , & len ) ;
if ( ! value | | len < sizeof ( * value ) )
return - EINVAL ;
domain = ( u16 ) be32_to_cpup ( value ) ;
return domain ;
}
EXPORT_SYMBOL_GPL ( of_get_pci_domain_nr ) ;
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# if defined(CONFIG_OF_ADDRESS)
/**
* of_pci_get_host_bridge_resources - Parse PCI host bridge resources from DT
* @ dev : device node of the host bridge having the range property
* @ busno : bus number associated with the bridge root bus
* @ bus_max : maximum number of buses for this bridge
* @ resources : list where the range of resources will be added after DT parsing
* @ io_base : pointer to a variable that will contain on return the physical
* address for the start of the I / O range . Can be NULL if the caller doesn ' t
* expect IO ranges to be present in the device tree .
*
* It is the caller ' s job to free the @ resources list .
*
* This function will parse the " ranges " property of a PCI host bridge device
* node and setup the resource mapping based on its content . It is expected
* that the property conforms with the Power ePAPR document .
*
* It returns zero if the range parsing has been successful or a standard error
* value if it failed .
*/
int of_pci_get_host_bridge_resources ( struct device_node * dev ,
unsigned char busno , unsigned char bus_max ,
struct list_head * resources , resource_size_t * io_base )
{
struct resource * res ;
struct resource * bus_range ;
struct of_pci_range range ;
struct of_pci_range_parser parser ;
char range_type [ 4 ] ;
int err ;
if ( io_base )
* io_base = ( resource_size_t ) OF_BAD_ADDR ;
bus_range = kzalloc ( sizeof ( * bus_range ) , GFP_KERNEL ) ;
if ( ! bus_range )
return - ENOMEM ;
pr_info ( " PCI host bridge %s ranges: \n " , dev - > full_name ) ;
err = of_pci_parse_bus_range ( dev , bus_range ) ;
if ( err ) {
bus_range - > start = busno ;
bus_range - > end = bus_max ;
bus_range - > flags = IORESOURCE_BUS ;
pr_info ( " No bus range found for %s, using %pR \n " ,
dev - > full_name , bus_range ) ;
} else {
if ( bus_range - > end > bus_range - > start + bus_max )
bus_range - > end = bus_range - > start + bus_max ;
}
pci_add_resource ( resources , bus_range ) ;
/* Check for ranges property */
err = of_pci_range_parser_init ( & parser , dev ) ;
if ( err )
goto parse_failed ;
pr_debug ( " Parsing ranges property... \n " ) ;
for_each_of_pci_range ( & parser , & range ) {
/* Read next ranges element */
if ( ( range . flags & IORESOURCE_TYPE_BITS ) = = IORESOURCE_IO )
snprintf ( range_type , 4 , " IO " ) ;
else if ( ( range . flags & IORESOURCE_TYPE_BITS ) = = IORESOURCE_MEM )
snprintf ( range_type , 4 , " MEM " ) ;
else
snprintf ( range_type , 4 , " err " ) ;
pr_info ( " %s %#010llx..%#010llx -> %#010llx \n " , range_type ,
range . cpu_addr , range . cpu_addr + range . size - 1 ,
range . pci_addr ) ;
/*
* If we failed translation or got a zero - sized region
* then skip this range
*/
if ( range . cpu_addr = = OF_BAD_ADDR | | range . size = = 0 )
continue ;
res = kzalloc ( sizeof ( struct resource ) , GFP_KERNEL ) ;
if ( ! res ) {
err = - ENOMEM ;
goto parse_failed ;
}
err = of_pci_range_to_resource ( & range , dev , res ) ;
if ( err )
goto conversion_failed ;
if ( resource_type ( res ) = = IORESOURCE_IO ) {
if ( ! io_base ) {
pr_err ( " I/O range found for %s. Please provide an io_base pointer to save CPU base address \n " ,
dev - > full_name ) ;
err = - EINVAL ;
goto conversion_failed ;
}
if ( * io_base ! = ( resource_size_t ) OF_BAD_ADDR )
pr_warn ( " More than one I/O resource converted for %s. CPU base address for old range lost! \n " ,
dev - > full_name ) ;
* io_base = range . cpu_addr ;
}
pci_add_resource_offset ( resources , res , res - > start - range . pci_addr ) ;
}
return 0 ;
conversion_failed :
kfree ( res ) ;
parse_failed :
pci_free_resource_list ( resources ) ;
return err ;
}
EXPORT_SYMBOL_GPL ( of_pci_get_host_bridge_resources ) ;
# endif /* CONFIG_OF_ADDRESS */
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# ifdef CONFIG_PCI_MSI
static LIST_HEAD ( of_pci_msi_chip_list ) ;
static DEFINE_MUTEX ( of_pci_msi_chip_mutex ) ;
int of_pci_msi_chip_add ( struct msi_chip * chip )
{
if ( ! of_property_read_bool ( chip - > of_node , " msi-controller " ) )
return - EINVAL ;
mutex_lock ( & of_pci_msi_chip_mutex ) ;
list_add ( & chip - > list , & of_pci_msi_chip_list ) ;
mutex_unlock ( & of_pci_msi_chip_mutex ) ;
return 0 ;
}
EXPORT_SYMBOL_GPL ( of_pci_msi_chip_add ) ;
void of_pci_msi_chip_remove ( struct msi_chip * chip )
{
mutex_lock ( & of_pci_msi_chip_mutex ) ;
list_del ( & chip - > list ) ;
mutex_unlock ( & of_pci_msi_chip_mutex ) ;
}
EXPORT_SYMBOL_GPL ( of_pci_msi_chip_remove ) ;
struct msi_chip * of_pci_find_msi_chip_by_node ( struct device_node * of_node )
{
struct msi_chip * c ;
mutex_lock ( & of_pci_msi_chip_mutex ) ;
list_for_each_entry ( c , & of_pci_msi_chip_list , list ) {
if ( c - > of_node = = of_node ) {
mutex_unlock ( & of_pci_msi_chip_mutex ) ;
return c ;
}
}
mutex_unlock ( & of_pci_msi_chip_mutex ) ;
return NULL ;
}
EXPORT_SYMBOL_GPL ( of_pci_find_msi_chip_by_node ) ;
# endif /* CONFIG_PCI_MSI */