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/*
* *
* * PCI Lower Bus Adapter ( LBA ) manager
* *
* * ( c ) Copyright 1999 , 2000 Grant Grundler
* * ( c ) Copyright 1999 , 2000 Hewlett - Packard Company
* *
* * This program is free software ; you can redistribute it and / or modify
* * it under the terms of the GNU General Public License as published by
* * the Free Software Foundation ; either version 2 of the License , or
* * ( at your option ) any later version .
* *
* *
* * This module primarily provides access to PCI bus ( config / IOport
* * spaces ) on platforms with an SBA / LBA chipset . A / B / C / J / L / N - class
* * with 4 digit model numbers - eg C3000 ( and A400 . . . sigh ) .
* *
* * LBA driver isn ' t as simple as the Dino driver because :
* * ( a ) this chip has substantial bug fixes between revisions
* * ( Only one Dino bug has a software workaround : ^ ( )
* * ( b ) has more options which we don ' t ( yet ) support ( DMA hints , OLARD )
* * ( c ) IRQ support lives in the I / O SAPIC driver ( not with PCI driver )
* * ( d ) play nicely with both PAT and " Legacy " PA - RISC firmware ( PDC ) .
* * ( dino only deals with " Legacy " PDC )
* *
* * LBA driver passes the I / O SAPIC HPA to the I / O SAPIC driver .
* * ( I / O SAPIC is integratd in the LBA chip ) .
* *
* * FIXME : Add support to SBA and LBA drivers for DMA hint sets
* * FIXME : Add support for PCI card hot - plug ( OLARD ) .
*/
# include <linux/delay.h>
# include <linux/types.h>
# include <linux/kernel.h>
# include <linux/spinlock.h>
# include <linux/init.h> /* for __init and __devinit */
# include <linux/pci.h>
# include <linux/ioport.h>
# include <linux/slab.h>
# include <asm/byteorder.h>
# include <asm/pdc.h>
# include <asm/pdcpat.h>
# include <asm/page.h>
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# include <asm/ropes.h>
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# include <asm/hardware.h> /* for register_parisc_driver() stuff */
# include <asm/parisc-device.h>
# include <asm/io.h> /* read/write stuff */
# undef DEBUG_LBA /* general stuff */
# undef DEBUG_LBA_PORT /* debug I/O Port access */
# undef DEBUG_LBA_CFG /* debug Config Space Access (ie PCI Bus walk) */
# undef DEBUG_LBA_PAT /* debug PCI Resource Mgt code - PDC PAT only */
# undef FBB_SUPPORT /* Fast Back-Back xfers - NOT READY YET */
# ifdef DEBUG_LBA
# define DBG(x...) printk(x)
# else
# define DBG(x...)
# endif
# ifdef DEBUG_LBA_PORT
# define DBG_PORT(x...) printk(x)
# else
# define DBG_PORT(x...)
# endif
# ifdef DEBUG_LBA_CFG
# define DBG_CFG(x...) printk(x)
# else
# define DBG_CFG(x...)
# endif
# ifdef DEBUG_LBA_PAT
# define DBG_PAT(x...) printk(x)
# else
# define DBG_PAT(x...)
# endif
/*
* * Config accessor functions only pass in the 8 - bit bus number and not
* * the 8 - bit " PCI Segment " number . Each LBA will be assigned a PCI bus
* * number based on what firmware wrote into the scratch register .
* *
* * The " secondary " bus number is set to this before calling
* * pci_register_ops ( ) . If any PPB ' s are present , the scan will
* * discover them and update the " secondary " and " subordinate "
* * fields in the pci_bus structure .
* *
* * Changes in the configuration * may * result in a different
* * bus number for each LBA depending on what firmware does .
*/
# define MODULE_NAME "LBA"
/* non-postable I/O port space, densely packed */
# define LBA_PORT_BASE (PCI_F_EXTEND | 0xfee00000UL)
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static void __iomem * astro_iop_base __read_mostly ;
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static u32 lba_t32 ;
/* lba flags */
# define LBA_FLAG_SKIP_PROBE 0x10
# define LBA_SKIP_PROBE(d) ((d)->flags & LBA_FLAG_SKIP_PROBE)
/* Looks nice and keeps the compiler happy */
# define LBA_DEV(d) ((struct lba_device *) (d))
/*
* * Only allow 8 subsidiary busses per LBA
* * Problem is the PCI bus numbering is globally shared .
*/
# define LBA_MAX_NUM_BUSES 8
/************************************
* LBA register read and write support
*
* BE WARNED : register writes are posted .
* ( ie follow writes which must reach HW with a read )
*/
# define READ_U8(addr) __raw_readb(addr)
# define READ_U16(addr) __raw_readw(addr)
# define READ_U32(addr) __raw_readl(addr)
# define WRITE_U8(value, addr) __raw_writeb(value, addr)
# define WRITE_U16(value, addr) __raw_writew(value, addr)
# define WRITE_U32(value, addr) __raw_writel(value, addr)
# define READ_REG8(addr) readb(addr)
# define READ_REG16(addr) readw(addr)
# define READ_REG32(addr) readl(addr)
# define READ_REG64(addr) readq(addr)
# define WRITE_REG8(value, addr) writeb(value, addr)
# define WRITE_REG16(value, addr) writew(value, addr)
# define WRITE_REG32(value, addr) writel(value, addr)
# define LBA_CFG_TOK(bus,dfn) ((u32) ((bus)<<16 | (dfn)<<8))
# define LBA_CFG_BUS(tok) ((u8) ((tok)>>16))
# define LBA_CFG_DEV(tok) ((u8) ((tok)>>11) & 0x1f)
# define LBA_CFG_FUNC(tok) ((u8) ((tok)>>8 ) & 0x7)
/*
* * Extract LBA ( Rope ) number from HPA
* * REVISIT : 16 ropes for Stretch / Ike ?
*/
# define ROPES_PER_IOC 8
# define LBA_NUM(x) ((((unsigned long) x) >> 13) & (ROPES_PER_IOC-1))
static void
lba_dump_res ( struct resource * r , int d )
{
int i ;
if ( NULL = = r )
return ;
printk ( KERN_DEBUG " (%p) " , r - > parent ) ;
for ( i = d ; i ; - - i ) printk ( " " ) ;
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printk ( KERN_DEBUG " %p [%lx,%lx]/%lx \n " , r ,
( long ) r - > start , ( long ) r - > end , r - > flags ) ;
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lba_dump_res ( r - > child , d + 2 ) ;
lba_dump_res ( r - > sibling , d ) ;
}
/*
* * LBA rev 2.0 , 2.1 , 2.2 , and 3.0 bus walks require a complex
* * workaround for cfg cycles :
* * - - preserve LBA state
* * - - prevent any DMA from occurring
* * - - turn on smart mode
* * - - probe with config writes before doing config reads
* * - - check ERROR_STATUS
* * - - clear ERROR_STATUS
* * - - restore LBA state
* *
* * The workaround is only used for device discovery .
*/
static int lba_device_present ( u8 bus , u8 dfn , struct lba_device * d )
{
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u8 first_bus = d - > hba . hba_bus - > busn_res . start ;
u8 last_sub_bus = d - > hba . hba_bus - > busn_res . end ;
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if ( ( bus < first_bus ) | |
( bus > last_sub_bus ) | |
( ( bus - first_bus ) > = LBA_MAX_NUM_BUSES ) ) {
return 0 ;
}
return 1 ;
}
# define LBA_CFG_SETUP(d, tok) { \
/* Save contents of error config register. */ \
error_config = READ_REG32 ( d - > hba . base_addr + LBA_ERROR_CONFIG ) ; \
\
/* Save contents of status control register. */ \
status_control = READ_REG32 ( d - > hba . base_addr + LBA_STAT_CTL ) ; \
\
/* For LBA rev 2.0, 2.1, 2.2, and 3.0, we must disable DMA \
* * arbitration for full bus walks . \
*/ \
/* Save contents of arb mask register. */ \
arb_mask = READ_REG32 ( d - > hba . base_addr + LBA_ARB_MASK ) ; \
\
/* \
* Turn off all device arbitration bits ( i . e . everything \
* except arbitration enable bit ) . \
*/ \
WRITE_REG32 ( 0x1 , d - > hba . base_addr + LBA_ARB_MASK ) ; \
\
/* \
* Set the smart mode bit so that master aborts don ' t cause \
* LBA to go into PCI fatal mode ( required ) . \
*/ \
WRITE_REG32 ( error_config | LBA_SMART_MODE , d - > hba . base_addr + LBA_ERROR_CONFIG ) ; \
}
# define LBA_CFG_PROBE(d, tok) { \
/* \
* Setup Vendor ID write and read back the address register \
* to make sure that LBA is the bus master . \
*/ \
WRITE_REG32 ( tok | PCI_VENDOR_ID , ( d ) - > hba . base_addr + LBA_PCI_CFG_ADDR ) ; \
/* \
* Read address register to ensure that LBA is the bus master , \
* which implies that DMA traffic has stopped when DMA arb is off . \
*/ \
lba_t32 = READ_REG32 ( ( d ) - > hba . base_addr + LBA_PCI_CFG_ADDR ) ; \
/* \
* Generate a cfg write cycle ( will have no affect on \
* Vendor ID register since read - only ) . \
*/ \
WRITE_REG32 ( ~ 0 , ( d ) - > hba . base_addr + LBA_PCI_CFG_DATA ) ; \
/* \
* Make sure write has completed before proceeding further , \
* i . e . before setting clear enable . \
*/ \
lba_t32 = READ_REG32 ( ( d ) - > hba . base_addr + LBA_PCI_CFG_ADDR ) ; \
}
/*
* HPREVISIT :
* - - Can ' t tell if config cycle got the error .
*
* OV bit is broken until rev 4.0 , so can ' t use OV bit and
* LBA_ERROR_LOG_ADDR to tell if error belongs to config cycle .
*
* As of rev 4.0 , no longer need the error check .
*
* - - Even if we could tell , we still want to return - 1
* for * * ANY * * error ( not just master abort ) .
*
* - - Only clear non - fatal errors ( we don ' t want to bring
* LBA out of pci - fatal mode ) .
*
* Actually , there is still a race in which
* we could be clearing a fatal error . We will
* live with this during our initial bus walk
* until rev 4.0 ( no driver activity during
* initial bus walk ) . The initial bus walk
* has race conditions concerning the use of
* smart mode as well .
*/
# define LBA_MASTER_ABORT_ERROR 0xc
# define LBA_FATAL_ERROR 0x10
# define LBA_CFG_MASTER_ABORT_CHECK(d, base, tok, error) { \
u32 error_status = 0 ; \
/* \
* Set clear enable ( CE ) bit . Unset by HW when new \
* errors are logged - - LBA HW ERS section 14.3 .3 ) . \
*/ \
WRITE_REG32 ( status_control | CLEAR_ERRLOG_ENABLE , base + LBA_STAT_CTL ) ; \
error_status = READ_REG32 ( base + LBA_ERROR_STATUS ) ; \
if ( ( error_status & 0x1f ) ! = 0 ) { \
/* \
* Fail the config read request . \
*/ \
error = 1 ; \
if ( ( error_status & LBA_FATAL_ERROR ) = = 0 ) { \
/* \
* Clear error status ( if fatal bit not set ) by setting \
* clear error log bit ( CL ) . \
*/ \
WRITE_REG32 ( status_control | CLEAR_ERRLOG , base + LBA_STAT_CTL ) ; \
} \
} \
}
# define LBA_CFG_TR4_ADDR_SETUP(d, addr) \
WRITE_REG32 ( ( ( addr ) & ~ 3 ) , ( d ) - > hba . base_addr + LBA_PCI_CFG_ADDR ) ;
# define LBA_CFG_ADDR_SETUP(d, addr) { \
WRITE_REG32 ( ( ( addr ) & ~ 3 ) , ( d ) - > hba . base_addr + LBA_PCI_CFG_ADDR ) ; \
/* \
* Read address register to ensure that LBA is the bus master , \
* which implies that DMA traffic has stopped when DMA arb is off . \
*/ \
lba_t32 = READ_REG32 ( ( d ) - > hba . base_addr + LBA_PCI_CFG_ADDR ) ; \
}
# define LBA_CFG_RESTORE(d, base) { \
/* \
* Restore status control register ( turn off clear enable ) . \
*/ \
WRITE_REG32 ( status_control , base + LBA_STAT_CTL ) ; \
/* \
* Restore error config register ( turn off smart mode ) . \
*/ \
WRITE_REG32 ( error_config , base + LBA_ERROR_CONFIG ) ; \
/* \
* Restore arb mask register ( reenables DMA arbitration ) . \
*/ \
WRITE_REG32 ( arb_mask , base + LBA_ARB_MASK ) ; \
}
static unsigned int
lba_rd_cfg ( struct lba_device * d , u32 tok , u8 reg , u32 size )
{
u32 data = ~ 0U ;
int error = 0 ;
u32 arb_mask = 0 ; /* used by LBA_CFG_SETUP/RESTORE */
u32 error_config = 0 ; /* used by LBA_CFG_SETUP/RESTORE */
u32 status_control = 0 ; /* used by LBA_CFG_SETUP/RESTORE */
LBA_CFG_SETUP ( d , tok ) ;
LBA_CFG_PROBE ( d , tok ) ;
LBA_CFG_MASTER_ABORT_CHECK ( d , d - > hba . base_addr , tok , error ) ;
if ( ! error ) {
void __iomem * data_reg = d - > hba . base_addr + LBA_PCI_CFG_DATA ;
LBA_CFG_ADDR_SETUP ( d , tok | reg ) ;
switch ( size ) {
case 1 : data = ( u32 ) READ_REG8 ( data_reg + ( reg & 3 ) ) ; break ;
case 2 : data = ( u32 ) READ_REG16 ( data_reg + ( reg & 2 ) ) ; break ;
case 4 : data = READ_REG32 ( data_reg ) ; break ;
}
}
LBA_CFG_RESTORE ( d , d - > hba . base_addr ) ;
return ( data ) ;
}
static int elroy_cfg_read ( struct pci_bus * bus , unsigned int devfn , int pos , int size , u32 * data )
{
struct lba_device * d = LBA_DEV ( parisc_walk_tree ( bus - > bridge ) ) ;
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u32 local_bus = ( bus - > parent = = NULL ) ? 0 : bus - > busn_res . start ;
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u32 tok = LBA_CFG_TOK ( local_bus , devfn ) ;
void __iomem * data_reg = d - > hba . base_addr + LBA_PCI_CFG_DATA ;
if ( ( pos > 255 ) | | ( devfn > 255 ) )
return - EINVAL ;
/* FIXME: B2K/C3600 workaround is always use old method... */
/* if (!LBA_SKIP_PROBE(d)) */ {
/* original - Generate config cycle on broken elroy
with risk we will miss PCI bus errors . */
* data = lba_rd_cfg ( d , tok , pos , size ) ;
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DBG_CFG ( " %s(%x+%2x) -> 0x%x (a) \n " , __func__ , tok , pos , * data ) ;
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return 0 ;
}
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if ( LBA_SKIP_PROBE ( d ) & & ! lba_device_present ( bus - > busn_res . start , devfn , d ) ) {
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DBG_CFG ( " %s(%x+%2x) -> -1 (b) \n " , __func__ , tok , pos ) ;
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/* either don't want to look or know device isn't present. */
* data = ~ 0U ;
return ( 0 ) ;
}
/* Basic Algorithm
* * Should only get here on fully working LBA rev .
* * This is how simple the code should have been .
*/
LBA_CFG_ADDR_SETUP ( d , tok | pos ) ;
switch ( size ) {
case 1 : * data = READ_REG8 ( data_reg + ( pos & 3 ) ) ; break ;
case 2 : * data = READ_REG16 ( data_reg + ( pos & 2 ) ) ; break ;
case 4 : * data = READ_REG32 ( data_reg ) ; break ;
}
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DBG_CFG ( " %s(%x+%2x) -> 0x%x (c) \n " , __func__ , tok , pos , * data ) ;
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return 0 ;
}
static void
lba_wr_cfg ( struct lba_device * d , u32 tok , u8 reg , u32 data , u32 size )
{
int error = 0 ;
u32 arb_mask = 0 ;
u32 error_config = 0 ;
u32 status_control = 0 ;
void __iomem * data_reg = d - > hba . base_addr + LBA_PCI_CFG_DATA ;
LBA_CFG_SETUP ( d , tok ) ;
LBA_CFG_ADDR_SETUP ( d , tok | reg ) ;
switch ( size ) {
case 1 : WRITE_REG8 ( data , data_reg + ( reg & 3 ) ) ; break ;
case 2 : WRITE_REG16 ( data , data_reg + ( reg & 2 ) ) ; break ;
case 4 : WRITE_REG32 ( data , data_reg ) ; break ;
}
LBA_CFG_MASTER_ABORT_CHECK ( d , d - > hba . base_addr , tok , error ) ;
LBA_CFG_RESTORE ( d , d - > hba . base_addr ) ;
}
/*
* LBA 4.0 config write code implements non - postable semantics
* by doing a read of CONFIG ADDR after the write .
*/
static int elroy_cfg_write ( struct pci_bus * bus , unsigned int devfn , int pos , int size , u32 data )
{
struct lba_device * d = LBA_DEV ( parisc_walk_tree ( bus - > bridge ) ) ;
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u32 local_bus = ( bus - > parent = = NULL ) ? 0 : bus - > busn_res . start ;
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u32 tok = LBA_CFG_TOK ( local_bus , devfn ) ;
if ( ( pos > 255 ) | | ( devfn > 255 ) )
return - EINVAL ;
if ( ! LBA_SKIP_PROBE ( d ) ) {
/* Original Workaround */
lba_wr_cfg ( d , tok , pos , ( u32 ) data , size ) ;
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DBG_CFG ( " %s(%x+%2x) = 0x%x (a) \n " , __func__ , tok , pos , data ) ;
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return 0 ;
}
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if ( LBA_SKIP_PROBE ( d ) & & ( ! lba_device_present ( bus - > busn_res . start , devfn , d ) ) ) {
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DBG_CFG ( " %s(%x+%2x) = 0x%x (b) \n " , __func__ , tok , pos , data ) ;
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return 1 ; /* New Workaround */
}
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DBG_CFG ( " %s(%x+%2x) = 0x%x (c) \n " , __func__ , tok , pos , data ) ;
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/* Basic Algorithm */
LBA_CFG_ADDR_SETUP ( d , tok | pos ) ;
switch ( size ) {
case 1 : WRITE_REG8 ( data , d - > hba . base_addr + LBA_PCI_CFG_DATA + ( pos & 3 ) ) ;
break ;
case 2 : WRITE_REG16 ( data , d - > hba . base_addr + LBA_PCI_CFG_DATA + ( pos & 2 ) ) ;
break ;
case 4 : WRITE_REG32 ( data , d - > hba . base_addr + LBA_PCI_CFG_DATA ) ;
break ;
}
/* flush posted write */
lba_t32 = READ_REG32 ( d - > hba . base_addr + LBA_PCI_CFG_ADDR ) ;
return 0 ;
}
static struct pci_ops elroy_cfg_ops = {
. read = elroy_cfg_read ,
. write = elroy_cfg_write ,
} ;
/*
* The mercury_cfg_ops are slightly misnamed ; they ' re also used for Elroy
* TR4 .0 as no additional bugs were found in this areea between Elroy and
* Mercury
*/
static int mercury_cfg_read ( struct pci_bus * bus , unsigned int devfn , int pos , int size , u32 * data )
{
struct lba_device * d = LBA_DEV ( parisc_walk_tree ( bus - > bridge ) ) ;
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u32 local_bus = ( bus - > parent = = NULL ) ? 0 : bus - > busn_res . start ;
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u32 tok = LBA_CFG_TOK ( local_bus , devfn ) ;
void __iomem * data_reg = d - > hba . base_addr + LBA_PCI_CFG_DATA ;
if ( ( pos > 255 ) | | ( devfn > 255 ) )
return - EINVAL ;
LBA_CFG_TR4_ADDR_SETUP ( d , tok | pos ) ;
switch ( size ) {
case 1 :
* data = READ_REG8 ( data_reg + ( pos & 3 ) ) ;
break ;
case 2 :
* data = READ_REG16 ( data_reg + ( pos & 2 ) ) ;
break ;
case 4 :
* data = READ_REG32 ( data_reg ) ; break ;
break ;
}
DBG_CFG ( " mercury_cfg_read(%x+%2x) -> 0x%x \n " , tok , pos , * data ) ;
return 0 ;
}
/*
* LBA 4.0 config write code implements non - postable semantics
* by doing a read of CONFIG ADDR after the write .
*/
static int mercury_cfg_write ( struct pci_bus * bus , unsigned int devfn , int pos , int size , u32 data )
{
struct lba_device * d = LBA_DEV ( parisc_walk_tree ( bus - > bridge ) ) ;
void __iomem * data_reg = d - > hba . base_addr + LBA_PCI_CFG_DATA ;
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u32 local_bus = ( bus - > parent = = NULL ) ? 0 : bus - > busn_res . start ;
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u32 tok = LBA_CFG_TOK ( local_bus , devfn ) ;
if ( ( pos > 255 ) | | ( devfn > 255 ) )
return - EINVAL ;
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DBG_CFG ( " %s(%x+%2x) <- 0x%x (c) \n " , __func__ , tok , pos , data ) ;
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LBA_CFG_TR4_ADDR_SETUP ( d , tok | pos ) ;
switch ( size ) {
case 1 :
WRITE_REG8 ( data , data_reg + ( pos & 3 ) ) ;
break ;
case 2 :
WRITE_REG16 ( data , data_reg + ( pos & 2 ) ) ;
break ;
case 4 :
WRITE_REG32 ( data , data_reg ) ;
break ;
}
/* flush posted write */
lba_t32 = READ_U32 ( d - > hba . base_addr + LBA_PCI_CFG_ADDR ) ;
return 0 ;
}
static struct pci_ops mercury_cfg_ops = {
. read = mercury_cfg_read ,
. write = mercury_cfg_write ,
} ;
static void
lba_bios_init ( void )
{
DBG ( MODULE_NAME " : lba_bios_init \n " ) ;
}
# ifdef CONFIG_64BIT
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/*
* truncate_pat_collision : Deal with overlaps or outright collisions
* between PAT PDC reported ranges .
*
* Broken PA8800 firmware will report lmmio range that
* overlaps with CPU HPA . Just truncate the lmmio range .
*
* BEWARE : conflicts with this lmmio range may be an
* elmmio range which is pointing down another rope .
*
* FIXME : only deals with one collision per range . . . theoretically we
* could have several . Supporting more than one collision will get messy .
*/
static unsigned long
truncate_pat_collision ( struct resource * root , struct resource * new )
{
unsigned long start = new - > start ;
unsigned long end = new - > end ;
struct resource * tmp = root - > child ;
if ( end < = start | | start < root - > start | | ! tmp )
return 0 ;
/* find first overlap */
while ( tmp & & tmp - > end < start )
tmp = tmp - > sibling ;
/* no entries overlap */
if ( ! tmp ) return 0 ;
/* found one that starts behind the new one
* * Don ' t need to do anything .
*/
if ( tmp - > start > = end ) return 0 ;
if ( tmp - > start < = start ) {
/* "front" of new one overlaps */
new - > start = tmp - > end + 1 ;
if ( tmp - > end > = end ) {
/* AACCKK! totally overlaps! drop this range. */
return 1 ;
}
}
if ( tmp - > end < end ) {
/* "end" of new one overlaps */
new - > end = tmp - > start - 1 ;
}
printk ( KERN_WARNING " LBA: Truncating lmmio_space [%lx/%lx] "
" to [%lx,%lx] \n " ,
start , end ,
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( long ) new - > start , ( long ) new - > end ) ;
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return 0 ; /* truncation successful */
}
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# else
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# define truncate_pat_collision(r,n) (0)
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# endif
/*
* * The algorithm is generic code .
* * But it needs to access local data structures to get the IRQ base .
* * Could make this a " pci_fixup_irq(bus, region) " but not sure
* * it ' s worth it .
* *
* * Called by do_pci_scan_bus ( ) immediately after each PCI bus is walked .
* * Resources aren ' t allocated until recursive buswalk below HBA is completed .
*/
static void
lba_fixup_bus ( struct pci_bus * bus )
{
struct list_head * ln ;
# ifdef FBB_SUPPORT
u16 status ;
# endif
struct lba_device * ldev = LBA_DEV ( parisc_walk_tree ( bus - > bridge ) ) ;
DBG ( " lba_fixup_bus(0x%p) bus %d platform_data 0x%p \n " ,
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bus , ( int ) bus - > busn_res . start , bus - > bridge - > platform_data ) ;
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/*
* * Properly Setup MMIO resources for this bus .
* * pci_alloc_primary_bus ( ) mangles this .
*/
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if ( bus - > parent ) {
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int i ;
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/* PCI-PCI Bridge */
pci_read_bridge_bases ( bus ) ;
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for ( i = PCI_BRIDGE_RESOURCES ; i < PCI_NUM_RESOURCES ; i + + ) {
pci_claim_resource ( bus - > self , i ) ;
}
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} else {
/* Host-PCI Bridge */
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int err ;
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DBG ( " lba_fixup_bus() %s [%lx/%lx]/%lx \n " ,
ldev - > hba . io_space . name ,
ldev - > hba . io_space . start , ldev - > hba . io_space . end ,
ldev - > hba . io_space . flags ) ;
DBG ( " lba_fixup_bus() %s [%lx/%lx]/%lx \n " ,
ldev - > hba . lmmio_space . name ,
ldev - > hba . lmmio_space . start , ldev - > hba . lmmio_space . end ,
ldev - > hba . lmmio_space . flags ) ;
err = request_resource ( & ioport_resource , & ( ldev - > hba . io_space ) ) ;
if ( err < 0 ) {
lba_dump_res ( & ioport_resource , 2 ) ;
BUG ( ) ;
}
if ( ldev - > hba . elmmio_space . start ) {
err = request_resource ( & iomem_resource ,
& ( ldev - > hba . elmmio_space ) ) ;
if ( err < 0 ) {
printk ( " FAILED: lba_fixup_bus() request for "
" elmmio_space [%lx/%lx] \n " ,
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( long ) ldev - > hba . elmmio_space . start ,
( long ) ldev - > hba . elmmio_space . end ) ;
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/* lba_dump_res(&iomem_resource, 2); */
/* BUG(); */
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}
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}
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if ( ldev - > hba . lmmio_space . flags ) {
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err = request_resource ( & iomem_resource , & ( ldev - > hba . lmmio_space ) ) ;
if ( err < 0 ) {
printk ( KERN_ERR " FAILED: lba_fixup_bus() request for "
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" lmmio_space [%lx/%lx] \n " ,
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( long ) ldev - > hba . lmmio_space . start ,
( long ) ldev - > hba . lmmio_space . end ) ;
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}
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}
# ifdef CONFIG_64BIT
/* GMMIO is distributed range. Every LBA/Rope gets part it. */
if ( ldev - > hba . gmmio_space . flags ) {
err = request_resource ( & iomem_resource , & ( ldev - > hba . gmmio_space ) ) ;
if ( err < 0 ) {
printk ( " FAILED: lba_fixup_bus() request for "
" gmmio_space [%lx/%lx] \n " ,
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( long ) ldev - > hba . gmmio_space . start ,
( long ) ldev - > hba . gmmio_space . end ) ;
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lba_dump_res ( & iomem_resource , 2 ) ;
BUG ( ) ;
}
}
# endif
}
list_for_each ( ln , & bus - > devices ) {
int i ;
struct pci_dev * dev = pci_dev_b ( ln ) ;
DBG ( " lba_fixup_bus() %s \n " , pci_name ( dev ) ) ;
/* Virtualize Device/Bridge Resources. */
for ( i = 0 ; i < PCI_BRIDGE_RESOURCES ; i + + ) {
struct resource * res = & dev - > resource [ i ] ;
/* If resource not allocated - skip it */
if ( ! res - > start )
continue ;
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/*
* * FIXME : this will result in whinging for devices
* * that share expansion ROMs ( think quad tulip ) , but
* * isn ' t harmful .
*/
pci_claim_resource ( dev , i ) ;
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}
# ifdef FBB_SUPPORT
/*
* * If one device does not support FBB transfers ,
* * No one on the bus can be allowed to use them .
*/
( void ) pci_read_config_word ( dev , PCI_STATUS , & status ) ;
bus - > bridge_ctl & = ~ ( status & PCI_STATUS_FAST_BACK ) ;
# endif
/*
* * P2PB ' s have no IRQs . ignore them .
*/
if ( ( dev - > class > > 8 ) = = PCI_CLASS_BRIDGE_PCI )
continue ;
/* Adjust INTERRUPT_LINE for this dev */
iosapic_fixup_irq ( ldev - > iosapic_obj , dev ) ;
}
# ifdef FBB_SUPPORT
/* FIXME/REVISIT - finish figuring out to set FBB on both
* * pci_setup_bridge ( ) clobbers PCI_BRIDGE_CONTROL .
* * Can ' t fixup here anyway . . . . garr . . .
*/
if ( fbb_enable ) {
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if ( bus - > parent ) {
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u8 control ;
/* enable on PPB */
( void ) pci_read_config_byte ( bus - > self , PCI_BRIDGE_CONTROL , & control ) ;
( void ) pci_write_config_byte ( bus - > self , PCI_BRIDGE_CONTROL , control | PCI_STATUS_FAST_BACK ) ;
} else {
/* enable on LBA */
}
fbb_enable = PCI_COMMAND_FAST_BACK ;
}
/* Lastly enable FBB/PERR/SERR on all devices too */
list_for_each ( ln , & bus - > devices ) {
( void ) pci_read_config_word ( dev , PCI_COMMAND , & status ) ;
status | = PCI_COMMAND_PARITY | PCI_COMMAND_SERR | fbb_enable ;
( void ) pci_write_config_word ( dev , PCI_COMMAND , status ) ;
}
# endif
}
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static struct pci_bios_ops lba_bios_ops = {
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. init = lba_bios_init ,
. fixup_bus = lba_fixup_bus ,
} ;
/*******************************************************
* *
* * LBA Sprockets " I/O Port " Space Accessor Functions
* *
* * This set of accessor functions is intended for use with
* * " legacy firmware " ( ie Sprockets on Allegro / Forte boxes ) .
* *
* * Many PCI devices don ' t require use of I / O port space ( eg Tulip ,
* * NCR720 ) since they export the same registers to both MMIO and
* * I / O port space . In general I / O port space is slower than
* * MMIO since drivers are designed so PIO writes can be posted .
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# define LBA_PORT_IN(size, mask) \
static u # # size lba_astro_in # # size ( struct pci_hba_data * d , u16 addr ) \
{ \
u # # size t ; \
t = READ_REG # # size ( astro_iop_base + addr ) ; \
DBG_PORT ( " 0x%x \n " , t ) ; \
return ( t ) ; \
}
LBA_PORT_IN ( 8 , 3 )
LBA_PORT_IN ( 16 , 2 )
LBA_PORT_IN ( 32 , 0 )
/*
* * BUG X4107 : Ordering broken - DMA RD return can bypass PIO WR
* *
* * Fixed in Elroy 2.2 . The READ_U32 ( . . . , LBA_FUNC_ID ) below is
* * guarantee non - postable completion semantics - not avoid X4107 .
* * The READ_U32 only guarantees the write data gets to elroy but
* * out to the PCI bus . We can ' t read stuff from I / O port space
* * since we don ' t know what has side - effects . Attempting to read
* * from configuration space would be suicidal given the number of
* * bugs in that elroy functionality .
* *
* * Description :
* * DMA read results can improperly pass PIO writes ( X4107 ) . The
* * result of this bug is that if a processor modifies a location in
* * memory after having issued PIO writes , the PIO writes are not
* * guaranteed to be completed before a PCI device is allowed to see
* * the modified data in a DMA read .
* *
* * Note that IKE bug X3719 in TR1 IKEs will result in the same
* * symptom .
* *
* * Workaround :
* * The workaround for this bug is to always follow a PIO write with
* * a PIO read to the same bus before starting DMA on that PCI bus .
* *
*/
# define LBA_PORT_OUT(size, mask) \
static void lba_astro_out # # size ( struct pci_hba_data * d , u16 addr , u # # size val ) \
{ \
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DBG_PORT ( " %s(0x%p, 0x%x, 0x%x) \n " , __func__ , d , addr , val ) ; \
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WRITE_REG # # size ( val , astro_iop_base + addr ) ; \
if ( LBA_DEV ( d ) - > hw_rev < 3 ) \
lba_t32 = READ_U32 ( d - > base_addr + LBA_FUNC_ID ) ; \
}
LBA_PORT_OUT ( 8 , 3 )
LBA_PORT_OUT ( 16 , 2 )
LBA_PORT_OUT ( 32 , 0 )
static struct pci_port_ops lba_astro_port_ops = {
. inb = lba_astro_in8 ,
. inw = lba_astro_in16 ,
. inl = lba_astro_in32 ,
. outb = lba_astro_out8 ,
. outw = lba_astro_out16 ,
. outl = lba_astro_out32
} ;
# ifdef CONFIG_64BIT
# define PIOP_TO_GMMIO(lba, addr) \
( ( lba ) - > iop_base + ( ( ( addr ) & 0xFFFC ) < < 10 ) + ( ( addr ) & 3 ) )
/*******************************************************
* *
* * LBA PAT " I/O Port " Space Accessor Functions
* *
* * This set of accessor functions is intended for use with
* * " PAT PDC " firmware ( ie Prelude / Rhapsody / Piranha boxes ) .
* *
* * This uses the PIOP space located in the first 64 MB of GMMIO .
* * Each rope gets a full 64 * KB * ( ie 4 bytes per page ) this way .
* * bits 1 : 0 stay the same . bits 15 : 2 become 25 : 12.
* * Then add the base and we can generate an I / O Port cycle .
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# undef LBA_PORT_IN
# define LBA_PORT_IN(size, mask) \
static u # # size lba_pat_in # # size ( struct pci_hba_data * l , u16 addr ) \
{ \
u # # size t ; \
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DBG_PORT ( " %s(0x%p, 0x%x) -> " , __func__ , l , addr ) ; \
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t = READ_REG # # size ( PIOP_TO_GMMIO ( LBA_DEV ( l ) , addr ) ) ; \
DBG_PORT ( " 0x%x \n " , t ) ; \
return ( t ) ; \
}
LBA_PORT_IN ( 8 , 3 )
LBA_PORT_IN ( 16 , 2 )
LBA_PORT_IN ( 32 , 0 )
# undef LBA_PORT_OUT
# define LBA_PORT_OUT(size, mask) \
static void lba_pat_out # # size ( struct pci_hba_data * l , u16 addr , u # # size val ) \
{ \
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void __iomem * where = PIOP_TO_GMMIO ( LBA_DEV ( l ) , addr ) ; \
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DBG_PORT ( " %s(0x%p, 0x%x, 0x%x) \n " , __func__ , l , addr , val ) ; \
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WRITE_REG # # size ( val , where ) ; \
/* flush the I/O down to the elroy at least */ \
lba_t32 = READ_U32 ( l - > base_addr + LBA_FUNC_ID ) ; \
}
LBA_PORT_OUT ( 8 , 3 )
LBA_PORT_OUT ( 16 , 2 )
LBA_PORT_OUT ( 32 , 0 )
static struct pci_port_ops lba_pat_port_ops = {
. inb = lba_pat_in8 ,
. inw = lba_pat_in16 ,
. inl = lba_pat_in32 ,
. outb = lba_pat_out8 ,
. outw = lba_pat_out16 ,
. outl = lba_pat_out32
} ;
/*
* * make range information from PDC available to PCI subsystem .
* * We make the PDC call here in order to get the PCI bus range
* * numbers . The rest will get forwarded in pcibios_fixup_bus ( ) .
* * We don ' t have a struct pci_bus assigned to us yet .
*/
static void
lba_pat_resources ( struct parisc_device * pa_dev , struct lba_device * lba_dev )
{
unsigned long bytecnt ;
long io_count ;
long status ; /* PDC return status */
long pa_count ;
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pdc_pat_cell_mod_maddr_block_t * pa_pdc_cell ; /* PA_VIEW */
pdc_pat_cell_mod_maddr_block_t * io_pdc_cell ; /* IO_VIEW */
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int i ;
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pa_pdc_cell = kzalloc ( sizeof ( pdc_pat_cell_mod_maddr_block_t ) , GFP_KERNEL ) ;
if ( ! pa_pdc_cell )
return ;
io_pdc_cell = kzalloc ( sizeof ( pdc_pat_cell_mod_maddr_block_t ) , GFP_KERNEL ) ;
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if ( ! io_pdc_cell ) {
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kfree ( pa_pdc_cell ) ;
return ;
}
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/* return cell module (IO view) */
status = pdc_pat_cell_module ( & bytecnt , pa_dev - > pcell_loc , pa_dev - > mod_index ,
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PA_VIEW , pa_pdc_cell ) ;
pa_count = pa_pdc_cell - > mod [ 1 ] ;
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status | = pdc_pat_cell_module ( & bytecnt , pa_dev - > pcell_loc , pa_dev - > mod_index ,
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IO_VIEW , io_pdc_cell ) ;
io_count = io_pdc_cell - > mod [ 1 ] ;
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/* We've already done this once for device discovery...*/
if ( status ! = PDC_OK ) {
panic ( " pdc_pat_cell_module() call failed for LBA! \n " ) ;
}
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if ( PAT_GET_ENTITY ( pa_pdc_cell - > mod_info ) ! = PAT_ENTITY_LBA ) {
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panic ( " pdc_pat_cell_module() entity returned != PAT_ENTITY_LBA! \n " ) ;
}
/*
* * Inspect the resources PAT tells us about
*/
for ( i = 0 ; i < pa_count ; i + + ) {
struct {
unsigned long type ;
unsigned long start ;
unsigned long end ; /* aka finish */
} * p , * io ;
struct resource * r ;
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p = ( void * ) & ( pa_pdc_cell - > mod [ 2 + i * 3 ] ) ;
io = ( void * ) & ( io_pdc_cell - > mod [ 2 + i * 3 ] ) ;
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/* Convert the PAT range data to PCI "struct resource" */
switch ( p - > type & 0xff ) {
case PAT_PBNUM :
lba_dev - > hba . bus_num . start = p - > start ;
lba_dev - > hba . bus_num . end = p - > end ;
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lba_dev - > hba . bus_num . flags = IORESOURCE_BUS ;
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break ;
case PAT_LMMIO :
/* used to fix up pre-initialized MEM BARs */
if ( ! lba_dev - > hba . lmmio_space . start ) {
sprintf ( lba_dev - > hba . lmmio_name ,
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" PCI%02x LMMIO " ,
( int ) lba_dev - > hba . bus_num . start ) ;
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lba_dev - > hba . lmmio_space_offset = p - > start -
io - > start ;
r = & lba_dev - > hba . lmmio_space ;
r - > name = lba_dev - > hba . lmmio_name ;
} else if ( ! lba_dev - > hba . elmmio_space . start ) {
sprintf ( lba_dev - > hba . elmmio_name ,
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" PCI%02x ELMMIO " ,
( int ) lba_dev - > hba . bus_num . start ) ;
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r = & lba_dev - > hba . elmmio_space ;
r - > name = lba_dev - > hba . elmmio_name ;
} else {
printk ( KERN_WARNING MODULE_NAME
" only supports 2 LMMIO resources! \n " ) ;
break ;
}
r - > start = p - > start ;
r - > end = p - > end ;
r - > flags = IORESOURCE_MEM ;
r - > parent = r - > sibling = r - > child = NULL ;
break ;
case PAT_GMMIO :
/* MMIO space > 4GB phys addr; for 64-bit BAR */
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sprintf ( lba_dev - > hba . gmmio_name , " PCI%02x GMMIO " ,
( int ) lba_dev - > hba . bus_num . start ) ;
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r = & lba_dev - > hba . gmmio_space ;
r - > name = lba_dev - > hba . gmmio_name ;
r - > start = p - > start ;
r - > end = p - > end ;
r - > flags = IORESOURCE_MEM ;
r - > parent = r - > sibling = r - > child = NULL ;
break ;
case PAT_NPIOP :
printk ( KERN_WARNING MODULE_NAME
" range[%d] : ignoring NPIOP (0x%lx) \n " ,
i , p - > start ) ;
break ;
case PAT_PIOP :
/*
* * Postable I / O port space is per PCI host adapter .
* * base of 64 MB PIOP region
*/
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lba_dev - > iop_base = ioremap_nocache ( p - > start , 64 * 1024 * 1024 ) ;
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sprintf ( lba_dev - > hba . io_name , " PCI%02x Ports " ,
( int ) lba_dev - > hba . bus_num . start ) ;
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r = & lba_dev - > hba . io_space ;
r - > name = lba_dev - > hba . io_name ;
r - > start = HBA_PORT_BASE ( lba_dev - > hba . hba_num ) ;
r - > end = r - > start + HBA_PORT_SPACE_SIZE - 1 ;
r - > flags = IORESOURCE_IO ;
r - > parent = r - > sibling = r - > child = NULL ;
break ;
default :
printk ( KERN_WARNING MODULE_NAME
" range[%d] : unknown pat range type (0x%lx) \n " ,
i , p - > type & 0xff ) ;
break ;
}
}
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kfree ( pa_pdc_cell ) ;
kfree ( io_pdc_cell ) ;
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}
# else
/* keep compiler from complaining about missing declarations */
# define lba_pat_port_ops lba_astro_port_ops
# define lba_pat_resources(pa_dev, lba_dev)
# endif /* CONFIG_64BIT */
extern void sba_distributed_lmmio ( struct parisc_device * , struct resource * ) ;
extern void sba_directed_lmmio ( struct parisc_device * , struct resource * ) ;
static void
lba_legacy_resources ( struct parisc_device * pa_dev , struct lba_device * lba_dev )
{
struct resource * r ;
int lba_num ;
lba_dev - > hba . lmmio_space_offset = PCI_F_EXTEND ;
/*
* * With " legacy " firmware , the lowest byte of FW_SCRATCH
* * represents bus - > secondary and the second byte represents
* * bus - > subsidiary ( i . e . highest PPB programmed by firmware ) .
* * PCI bus walk * should * end up with the same result .
* * FIXME : But we don ' t have sanity checks in PCI or LBA .
*/
lba_num = READ_REG32 ( lba_dev - > hba . base_addr + LBA_FW_SCRATCH ) ;
r = & ( lba_dev - > hba . bus_num ) ;
r - > name = " LBA PCI Busses " ;
r - > start = lba_num & 0xff ;
r - > end = ( lba_num > > 8 ) & 0xff ;
/* Set up local PCI Bus resources - we don't need them for
* * Legacy boxes but it ' s nice to see in / proc / iomem .
*/
r = & ( lba_dev - > hba . lmmio_space ) ;
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sprintf ( lba_dev - > hba . lmmio_name , " PCI%02x LMMIO " ,
( int ) lba_dev - > hba . bus_num . start ) ;
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r - > name = lba_dev - > hba . lmmio_name ;
# if 1
/* We want the CPU -> IO routing of addresses.
* The SBA BASE / MASK registers control CPU - > IO routing .
* Ask SBA what is routed to this rope / LBA .
*/
sba_distributed_lmmio ( pa_dev , r ) ;
# else
/*
* The LBA BASE / MASK registers control IO - > System routing .
*
* The following code works but doesn ' t get us what we want .
* Well , only because firmware ( v5 .0 ) on C3000 doesn ' t program
* the LBA BASE / MASE registers to be the exact inverse of
* the corresponding SBA registers . Other Astro / Pluto
* based platform firmware may do it right .
*
* Should someone want to mess with MSI , they may need to
* reprogram LBA BASE / MASK registers . Thus preserve the code
* below until MSI is known to work on C3000 / A500 / N4000 / RP3440 .
*
* Using the code below , / proc / iomem shows :
* . . .
* f0000000 - f0ffffff : PCI00 LMMIO
* f05d0000 - f05d0000 : lcd_data
* f05d0008 - f05d0008 : lcd_cmd
* f1000000 - f1ffffff : PCI01 LMMIO
* f4000000 - f4ffffff : PCI02 LMMIO
* f4000000 - f4001fff : sym53c8xx
* f4002000 - f4003fff : sym53c8xx
* f4004000 - f40043ff : sym53c8xx
* f4005000 - f40053ff : sym53c8xx
* f4007000 - f4007fff : ohci_hcd
* f4008000 - f40083ff : tulip
* f6000000 - f6ffffff : PCI03 LMMIO
* f8000000 - fbffffff : PCI00 ELMMIO
* fa100000 - fa4fffff : stifb mmio
* fb000000 - fb1fffff : stifb fb
*
* But everything listed under PCI02 actually lives under PCI00 .
* This is clearly wrong .
*
* Asking SBA how things are routed tells the correct story :
* LMMIO_BASE / MASK / ROUTE f4000001 fc000000 00000000
* DIR0_BASE / MASK / ROUTE fa000001 fe000000 00000006
* DIR1_BASE / MASK / ROUTE f9000001 ff000000 00000004
* DIR2_BASE / MASK / ROUTE f0000000 fc000000 00000000
* DIR3_BASE / MASK / ROUTE f0000000 fc000000 00000000
*
* Which looks like this in / proc / iomem :
* f4000000 - f47fffff : PCI00 LMMIO
* f4000000 - f4001fff : sym53c8xx
* . . . [ deteled core devices - same as above ] . . .
* f4008000 - f40083ff : tulip
* f4800000 - f4ffffff : PCI01 LMMIO
* f6000000 - f67fffff : PCI02 LMMIO
* f7000000 - f77fffff : PCI03 LMMIO
* f9000000 - f9ffffff : PCI02 ELMMIO
* fa000000 - fbffffff : PCI03 ELMMIO
* fa100000 - fa4fffff : stifb mmio
* fb000000 - fb1fffff : stifb fb
*
* ie all Built - in core are under now correctly under PCI00 .
* The " PCI02 ELMMIO " directed range is for :
* + - [ 02 ] - - - 03.0 3 Dfx Interactive , Inc . Voodoo 2
*
* All is well now .
*/
r - > start = READ_REG32 ( lba_dev - > hba . base_addr + LBA_LMMIO_BASE ) ;
if ( r - > start & 1 ) {
unsigned long rsize ;
r - > flags = IORESOURCE_MEM ;
/* mmio_mask also clears Enable bit */
r - > start & = mmio_mask ;
r - > start = PCI_HOST_ADDR ( HBA_DATA ( lba_dev ) , r - > start ) ;
rsize = ~ READ_REG32 ( lba_dev - > hba . base_addr + LBA_LMMIO_MASK ) ;
/*
* * Each rope only gets part of the distributed range .
* * Adjust " window " for this rope .
*/
rsize / = ROPES_PER_IOC ;
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r - > start + = ( rsize + 1 ) * LBA_NUM ( pa_dev - > hpa . start ) ;
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r - > end = r - > start + rsize ;
} else {
r - > end = r - > start = 0 ; /* Not enabled. */
}
# endif
/*
* * " Directed " ranges are used when the " distributed range " isn ' t
* * sufficient for all devices below a given LBA . Typically devices
* * like graphics cards or X25 may need a directed range when the
* * bus has multiple slots ( ie multiple devices ) or the device
* * needs more than the typical 4 or 8 MB a distributed range offers .
* *
* * The main reason for ignoring it now frigging complications .
* * Directed ranges may overlap ( and have precedence ) over
* * distributed ranges . Or a distributed range assigned to a unused
* * rope may be used by a directed range on a different rope .
* * Support for graphics devices may require fixing this
* * since they may be assigned a directed range which overlaps
* * an existing ( but unused portion of ) distributed range .
*/
r = & ( lba_dev - > hba . elmmio_space ) ;
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sprintf ( lba_dev - > hba . elmmio_name , " PCI%02x ELMMIO " ,
( int ) lba_dev - > hba . bus_num . start ) ;
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r - > name = lba_dev - > hba . elmmio_name ;
# if 1
/* See comment which precedes call to sba_directed_lmmio() */
sba_directed_lmmio ( pa_dev , r ) ;
# else
r - > start = READ_REG32 ( lba_dev - > hba . base_addr + LBA_ELMMIO_BASE ) ;
if ( r - > start & 1 ) {
unsigned long rsize ;
r - > flags = IORESOURCE_MEM ;
/* mmio_mask also clears Enable bit */
r - > start & = mmio_mask ;
r - > start = PCI_HOST_ADDR ( HBA_DATA ( lba_dev ) , r - > start ) ;
rsize = READ_REG32 ( lba_dev - > hba . base_addr + LBA_ELMMIO_MASK ) ;
r - > end = r - > start + ~ rsize ;
}
# endif
r = & ( lba_dev - > hba . io_space ) ;
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sprintf ( lba_dev - > hba . io_name , " PCI%02x Ports " ,
( int ) lba_dev - > hba . bus_num . start ) ;
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r - > name = lba_dev - > hba . io_name ;
r - > flags = IORESOURCE_IO ;
r - > start = READ_REG32 ( lba_dev - > hba . base_addr + LBA_IOS_BASE ) & ~ 1L ;
r - > end = r - > start + ( READ_REG32 ( lba_dev - > hba . base_addr + LBA_IOS_MASK ) ^ ( HBA_PORT_SPACE_SIZE - 1 ) ) ;
/* Virtualize the I/O Port space ranges */
lba_num = HBA_PORT_BASE ( lba_dev - > hba . hba_num ) ;
r - > start | = lba_num ;
r - > end | = lba_num ;
}
/**************************************************************************
* *
* * LBA initialization code ( HW and SW )
* *
* * o identify LBA chip itself
* * o initialize LBA chip modes ( HardFail )
* * o FIXME : initialize DMA hints for reasonable defaults
* * o enable configuration functions
* * o call pci_register_ops ( ) to discover devs ( fixup / fixup_bus get invoked )
* *
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
static int __init
lba_hw_init ( struct lba_device * d )
{
u32 stat ;
u32 bus_reset ; /* PDC_PAT_BUG */
#if 0
printk ( KERN_DEBUG " LBA %lx STAT_CTL %Lx ERROR_CFG %Lx STATUS %Lx DMA_CTL %Lx \n " ,
d - > hba . base_addr ,
READ_REG64 ( d - > hba . base_addr + LBA_STAT_CTL ) ,
READ_REG64 ( d - > hba . base_addr + LBA_ERROR_CONFIG ) ,
READ_REG64 ( d - > hba . base_addr + LBA_ERROR_STATUS ) ,
READ_REG64 ( d - > hba . base_addr + LBA_DMA_CTL ) ) ;
printk ( KERN_DEBUG " ARB mask %Lx pri %Lx mode %Lx mtlt %Lx \n " ,
READ_REG64 ( d - > hba . base_addr + LBA_ARB_MASK ) ,
READ_REG64 ( d - > hba . base_addr + LBA_ARB_PRI ) ,
READ_REG64 ( d - > hba . base_addr + LBA_ARB_MODE ) ,
READ_REG64 ( d - > hba . base_addr + LBA_ARB_MTLT ) ) ;
printk ( KERN_DEBUG " HINT cfg 0x%Lx \n " ,
READ_REG64 ( d - > hba . base_addr + LBA_HINT_CFG ) ) ;
printk ( KERN_DEBUG " HINT reg " ) ;
{ int i ;
for ( i = LBA_HINT_BASE ; i < ( 14 * 8 + LBA_HINT_BASE ) ; i + = 8 )
printk ( " %Lx " , READ_REG64 ( d - > hba . base_addr + i ) ) ;
}
printk ( " \n " ) ;
# endif /* DEBUG_LBA_PAT */
# ifdef CONFIG_64BIT
/*
* FIXME add support for PDC_PAT_IO " Get slot status " - OLAR support
* Only N - Class and up can really make use of Get slot status .
* maybe L - class too but I ' ve never played with it there .
*/
# endif
/* PDC_PAT_BUG: exhibited in rev 40.48 on L2000 */
bus_reset = READ_REG32 ( d - > hba . base_addr + LBA_STAT_CTL + 4 ) & 1 ;
if ( bus_reset ) {
printk ( KERN_DEBUG " NOTICE: PCI bus reset still asserted! (clearing) \n " ) ;
}
stat = READ_REG32 ( d - > hba . base_addr + LBA_ERROR_CONFIG ) ;
if ( stat & LBA_SMART_MODE ) {
printk ( KERN_DEBUG " NOTICE: LBA in SMART mode! (cleared) \n " ) ;
stat & = ~ LBA_SMART_MODE ;
WRITE_REG32 ( stat , d - > hba . base_addr + LBA_ERROR_CONFIG ) ;
}
/* Set HF mode as the default (vs. -1 mode). */
stat = READ_REG32 ( d - > hba . base_addr + LBA_STAT_CTL ) ;
WRITE_REG32 ( stat | HF_ENABLE , d - > hba . base_addr + LBA_STAT_CTL ) ;
/*
* * Writing a zero to STAT_CTL . rf ( bit 0 ) will clear reset signal
* * if it ' s not already set . If we just cleared the PCI Bus Reset
* * signal , wait a bit for the PCI devices to recover and setup .
*/
if ( bus_reset )
mdelay ( pci_post_reset_delay ) ;
if ( 0 = = READ_REG32 ( d - > hba . base_addr + LBA_ARB_MASK ) ) {
/*
* * PDC_PAT_BUG : PDC rev 40.48 on L2000 .
* * B2000 / C3600 / J6000 also have this problem ?
* *
* * Elroys with hot pluggable slots don ' t get configured
* * correctly if the slot is empty . ARB_MASK is set to 0
* * and we can ' t master transactions on the bus if it ' s
* * not at least one . 0x3 enables elroy and first slot .
*/
printk ( KERN_DEBUG " NOTICE: Enabling PCI Arbitration \n " ) ;
WRITE_REG32 ( 0x3 , d - > hba . base_addr + LBA_ARB_MASK ) ;
}
/*
* * FIXME : Hint registers are programmed with default hint
* * values by firmware . Hints should be sane even if we
* * can ' t reprogram them the way drivers want .
*/
return 0 ;
}
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/*
* Unfortunately , when firmware numbers busses , it doesn ' t take into account
* Cardbus bridges . So we have to renumber the busses to suit ourselves .
* Elroy / Mercury don ' t actually know what bus number they ' re attached to ;
* we use bus 0 to indicate the directly attached bus and any other bus
* number will be taken care of by the PCI - PCI bridge .
*/
static unsigned int lba_next_bus = 0 ;
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/*
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* Determine if lba should claim this chip ( return 0 ) or not ( return 1 ) .
* If so , initialize the chip and tell other partners in crime they
* have work to do .
*/
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static int __init
lba_driver_probe ( struct parisc_device * dev )
{
struct lba_device * lba_dev ;
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LIST_HEAD ( resources ) ;
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struct pci_bus * lba_bus ;
struct pci_ops * cfg_ops ;
u32 func_class ;
void * tmp_obj ;
char * version ;
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void __iomem * addr = ioremap_nocache ( dev - > hpa . start , 4096 ) ;
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int max ;
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/* Read HW Rev First */
func_class = READ_REG32 ( addr + LBA_FCLASS ) ;
if ( IS_ELROY ( dev ) ) {
func_class & = 0xf ;
switch ( func_class ) {
case 0 : version = " TR1.0 " ; break ;
case 1 : version = " TR2.0 " ; break ;
case 2 : version = " TR2.1 " ; break ;
case 3 : version = " TR2.2 " ; break ;
case 4 : version = " TR3.0 " ; break ;
case 5 : version = " TR4.0 " ; break ;
default : version = " TR4+ " ;
}
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printk ( KERN_INFO " Elroy version %s (0x%x) found at 0x%lx \n " ,
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version , func_class & 0xf , ( long ) dev - > hpa . start ) ;
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if ( func_class < 2 ) {
printk ( KERN_WARNING " Can't support LBA older than "
" TR2.1 - continuing under adversity. \n " ) ;
}
#if 0
/* Elroy TR4.0 should work with simple algorithm.
But it doesn ' t . Still missing something . * sigh *
*/
if ( func_class > 4 ) {
cfg_ops = & mercury_cfg_ops ;
} else
# endif
{
cfg_ops = & elroy_cfg_ops ;
}
} else if ( IS_MERCURY ( dev ) | | IS_QUICKSILVER ( dev ) ) {
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int major , minor ;
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func_class & = 0xff ;
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major = func_class > > 4 , minor = func_class & 0xf ;
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/* We could use one printk for both Elroy and Mercury,
* but for the mask for func_class .
*/
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printk ( KERN_INFO " %s version TR%d.%d (0x%x) found at 0x%lx \n " ,
IS_MERCURY ( dev ) ? " Mercury " : " Quicksilver " , major ,
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minor , func_class , ( long ) dev - > hpa . start ) ;
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cfg_ops = & mercury_cfg_ops ;
} else {
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printk ( KERN_ERR " Unknown LBA found at 0x%lx \n " ,
( long ) dev - > hpa . start ) ;
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return - ENODEV ;
}
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/* Tell I/O SAPIC driver we have a IRQ handler/region. */
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tmp_obj = iosapic_register ( dev - > hpa . start + LBA_IOSAPIC_BASE ) ;
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/* NOTE: PCI devices (e.g. 103c:1005 graphics card) which don't
* * have an IRT entry will get NULL back from iosapic code .
*/
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lba_dev = kzalloc ( sizeof ( struct lba_device ) , GFP_KERNEL ) ;
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if ( ! lba_dev ) {
printk ( KERN_ERR " lba_init_chip - couldn't alloc lba_device \n " ) ;
return ( 1 ) ;
}
/* ---------- First : initialize data we already have --------- */
lba_dev - > hw_rev = func_class ;
lba_dev - > hba . base_addr = addr ;
lba_dev - > hba . dev = dev ;
lba_dev - > iosapic_obj = tmp_obj ; /* save interrupt handle */
lba_dev - > hba . iommu = sba_get_iommu ( dev ) ; /* get iommu data */
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parisc_set_drvdata ( dev , lba_dev ) ;
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/* ------------ Second : initialize common stuff ---------- */
pci_bios = & lba_bios_ops ;
pcibios_register_hba ( HBA_DATA ( lba_dev ) ) ;
spin_lock_init ( & lba_dev - > lba_lock ) ;
if ( lba_hw_init ( lba_dev ) )
return ( 1 ) ;
/* ---------- Third : setup I/O Port and MMIO resources --------- */
if ( is_pdc_pat ( ) ) {
/* PDC PAT firmware uses PIOP region of GMMIO space. */
pci_port = & lba_pat_port_ops ;
/* Go ask PDC PAT what resources this LBA has */
lba_pat_resources ( dev , lba_dev ) ;
} else {
if ( ! astro_iop_base ) {
/* Sprockets PDC uses NPIOP region */
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astro_iop_base = ioremap_nocache ( LBA_PORT_BASE , 64 * 1024 ) ;
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pci_port = & lba_astro_port_ops ;
}
/* Poke the chip a bit for /proc output */
lba_legacy_resources ( dev , lba_dev ) ;
}
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if ( lba_dev - > hba . bus_num . start < lba_next_bus )
lba_dev - > hba . bus_num . start = lba_next_bus ;
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/* Overlaps with elmmio can (and should) fail here.
* We will prune ( or ignore ) the distributed range .
*
* FIXME : SBA code should register all elmmio ranges first .
* that would take care of elmmio ranges routed
* to a different rope ( already discovered ) from
* getting registered * after * LBA code has already
* registered it ' s distributed lmmio range .
*/
if ( truncate_pat_collision ( & iomem_resource ,
& ( lba_dev - > hba . lmmio_space ) ) ) {
printk ( KERN_WARNING " LBA: lmmio_space [%lx/%lx] duplicate! \n " ,
( long ) lba_dev - > hba . lmmio_space . start ,
( long ) lba_dev - > hba . lmmio_space . end ) ;
lba_dev - > hba . lmmio_space . flags = 0 ;
}
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pci_add_resource_offset ( & resources , & lba_dev - > hba . io_space ,
HBA_PORT_BASE ( lba_dev - > hba . hba_num ) ) ;
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if ( lba_dev - > hba . elmmio_space . start )
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pci_add_resource_offset ( & resources , & lba_dev - > hba . elmmio_space ,
lba_dev - > hba . lmmio_space_offset ) ;
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if ( lba_dev - > hba . lmmio_space . flags )
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pci_add_resource_offset ( & resources , & lba_dev - > hba . lmmio_space ,
lba_dev - > hba . lmmio_space_offset ) ;
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if ( lba_dev - > hba . gmmio_space . flags )
pci_add_resource ( & resources , & lba_dev - > hba . gmmio_space ) ;
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pci_add_resource ( & resources , & lba_dev - > hba . bus_num ) ;
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dev - > dev . platform_data = lba_dev ;
lba_bus = lba_dev - > hba . hba_bus =
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pci_create_root_bus ( & dev - > dev , lba_dev - > hba . bus_num . start ,
cfg_ops , NULL , & resources ) ;
if ( ! lba_bus ) {
pci_free_resource_list ( & resources ) ;
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return 0 ;
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}
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max = pci_scan_child_bus ( lba_bus ) ;
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/* This is in lieu of calling pci_assign_unassigned_resources() */
if ( is_pdc_pat ( ) ) {
/* assign resources to un-initialized devices */
DBG_PAT ( " LBA pci_bus_size_bridges() \n " ) ;
pci_bus_size_bridges ( lba_bus ) ;
DBG_PAT ( " LBA pci_bus_assign_resources() \n " ) ;
pci_bus_assign_resources ( lba_bus ) ;
# ifdef DEBUG_LBA_PAT
DBG_PAT ( " \n LBA PIOP resource tree \n " ) ;
lba_dump_res ( & lba_dev - > hba . io_space , 2 ) ;
DBG_PAT ( " \n LBA LMMIO resource tree \n " ) ;
lba_dump_res ( & lba_dev - > hba . lmmio_space , 2 ) ;
# endif
}
pci_enable_bridges ( lba_bus ) ;
/*
* * Once PCI register ops has walked the bus , access to config
* * space is restricted . Avoids master aborts on config cycles .
* * Early LBA revs go fatal on * any * master abort .
*/
if ( cfg_ops = = & elroy_cfg_ops ) {
lba_dev - > flags | = LBA_FLAG_SKIP_PROBE ;
}
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lba_next_bus = max + 1 ;
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pci_bus_add_devices ( lba_bus ) ;
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/* Whew! Finally done! Tell services we got this one covered. */
return 0 ;
}
static struct parisc_device_id lba_tbl [ ] = {
{ HPHW_BRIDGE , HVERSION_REV_ANY_ID , ELROY_HVERS , 0xa } ,
{ HPHW_BRIDGE , HVERSION_REV_ANY_ID , MERCURY_HVERS , 0xa } ,
{ HPHW_BRIDGE , HVERSION_REV_ANY_ID , QUICKSILVER_HVERS , 0xa } ,
{ 0 , }
} ;
static struct parisc_driver lba_driver = {
. name = MODULE_NAME ,
. id_table = lba_tbl ,
. probe = lba_driver_probe ,
} ;
/*
* * One time initialization to let the world know the LBA was found .
* * Must be called exactly once before pci_init ( ) .
*/
void __init lba_init ( void )
{
register_parisc_driver ( & lba_driver ) ;
}
/*
* * Initialize the IBASE / IMASK registers for LBA ( Elroy ) .
* * Only called from sba_iommu . c in order to route ranges ( MMIO vs DMA ) .
* * sba_iommu is responsible for locking ( none needed at init time ) .
*/
void lba_set_iregs ( struct parisc_device * lba , u32 ibase , u32 imask )
{
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void __iomem * base_addr = ioremap_nocache ( lba - > hpa . start , 4096 ) ;
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imask < < = 2 ; /* adjust for hints - 2 more bits */
/* Make sure we aren't trying to set bits that aren't writeable. */
WARN_ON ( ( ibase & 0x001fffff ) ! = 0 ) ;
WARN_ON ( ( imask & 0x001fffff ) ! = 0 ) ;
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DBG ( " %s() ibase 0x%x imask 0x%x \n " , __func__ , ibase , imask ) ;
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WRITE_REG32 ( imask , base_addr + LBA_IMASK ) ;
WRITE_REG32 ( ibase , base_addr + LBA_IBASE ) ;
iounmap ( base_addr ) ;
}