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/* sunxvr500.c: Sun 3DLABS XVR-500 Expert3D fb driver for sparc64 systems
*
* License : GPL
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*
* Copyright ( C ) 2007 David S . Miller ( davem @ davemloft . net )
*/
# include <linux/kernel.h>
# include <linux/fb.h>
# include <linux/pci.h>
# include <linux/init.h>
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# include <linux/of_device.h>
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# include <asm/io.h>
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/* XXX This device has a 'dev-comm' property which apparently is
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* XXX a pointer into the openfirmware ' s address space which is
* XXX a shared area the kernel driver can use to keep OBP
* XXX informed about the current resolution setting . The idea
* XXX is that the kernel can change resolutions , and as long
* XXX as the values in the ' dev - comm ' area are accurate then
* XXX OBP can still render text properly to the console .
* XXX
* XXX I ' m still working out the layout of this and whether there
* XXX are any signatures we need to look for etc .
*/
struct e3d_info {
struct fb_info * info ;
struct pci_dev * pdev ;
spinlock_t lock ;
char __iomem * fb_base ;
unsigned long fb_base_phys ;
unsigned long fb8_buf_diff ;
unsigned long regs_base_phys ;
void __iomem * ramdac ;
struct device_node * of_node ;
unsigned int width ;
unsigned int height ;
unsigned int depth ;
unsigned int fb_size ;
u32 fb_base_reg ;
u32 fb8_0_off ;
u32 fb8_1_off ;
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u32 pseudo_palette [ 16 ] ;
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} ;
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static int e3d_get_props ( struct e3d_info * ep )
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{
ep - > width = of_getintprop_default ( ep - > of_node , " width " , 0 ) ;
ep - > height = of_getintprop_default ( ep - > of_node , " height " , 0 ) ;
ep - > depth = of_getintprop_default ( ep - > of_node , " depth " , 8 ) ;
if ( ! ep - > width | | ! ep - > height ) {
printk ( KERN_ERR " e3d: Critical properties missing for %s \n " ,
pci_name ( ep - > pdev ) ) ;
return - EINVAL ;
}
return 0 ;
}
/* My XVR-500 comes up, at 1280x768 and a FB base register value of
* 0x04000000 , the following video layout register values :
*
* RAMDAC_VID_WH 0x03ff04ff
* RAMDAC_VID_CFG 0x1a0b0088
* RAMDAC_VID_32FB_0 0x04000000
* RAMDAC_VID_32FB_1 0x04800000
* RAMDAC_VID_8FB_0 0x05000000
* RAMDAC_VID_8FB_1 0x05200000
* RAMDAC_VID_XXXFB 0x05400000
* RAMDAC_VID_YYYFB 0x05c00000
* RAMDAC_VID_ZZZFB 0x05e00000
*/
/* Video layout registers */
# define RAMDAC_VID_WH 0x00000070UL /* (height-1)<<16 | (width-1) */
# define RAMDAC_VID_CFG 0x00000074UL /* 0x1a000088|(linesz_log2<<16) */
# define RAMDAC_VID_32FB_0 0x00000078UL /* PCI base 32bpp FB buffer 0 */
# define RAMDAC_VID_32FB_1 0x0000007cUL /* PCI base 32bpp FB buffer 1 */
# define RAMDAC_VID_8FB_0 0x00000080UL /* PCI base 8bpp FB buffer 0 */
# define RAMDAC_VID_8FB_1 0x00000084UL /* PCI base 8bpp FB buffer 1 */
# define RAMDAC_VID_XXXFB 0x00000088UL /* PCI base of XXX FB */
# define RAMDAC_VID_YYYFB 0x0000008cUL /* PCI base of YYY FB */
# define RAMDAC_VID_ZZZFB 0x00000090UL /* PCI base of ZZZ FB */
/* CLUT registers */
# define RAMDAC_INDEX 0x000000bcUL
# define RAMDAC_DATA 0x000000c0UL
static void e3d_clut_write ( struct e3d_info * ep , int index , u32 val )
{
void __iomem * ramdac = ep - > ramdac ;
unsigned long flags ;
spin_lock_irqsave ( & ep - > lock , flags ) ;
writel ( index , ramdac + RAMDAC_INDEX ) ;
writel ( val , ramdac + RAMDAC_DATA ) ;
spin_unlock_irqrestore ( & ep - > lock , flags ) ;
}
static int e3d_setcolreg ( unsigned regno ,
unsigned red , unsigned green , unsigned blue ,
unsigned transp , struct fb_info * info )
{
struct e3d_info * ep = info - > par ;
u32 red_8 , green_8 , blue_8 ;
u32 red_10 , green_10 , blue_10 ;
u32 value ;
if ( regno > = 256 )
return 1 ;
red_8 = red > > 8 ;
green_8 = green > > 8 ;
blue_8 = blue > > 8 ;
value = ( blue_8 < < 24 ) | ( green_8 < < 16 ) | ( red_8 < < 8 ) ;
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if ( info - > fix . visual = = FB_VISUAL_TRUECOLOR & & regno < 16 )
( ( u32 * ) info - > pseudo_palette ) [ regno ] = value ;
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red_10 = red > > 6 ;
green_10 = green > > 6 ;
blue_10 = blue > > 6 ;
value = ( blue_10 < < 20 ) | ( green_10 < < 10 ) | ( red_10 < < 0 ) ;
e3d_clut_write ( ep , regno , value ) ;
return 0 ;
}
/* XXX This is a bit of a hack. I can't figure out exactly how the
* XXX two 8 bpp areas of the framebuffer work . I imagine there is
* XXX a WID attribute somewhere else in the framebuffer which tells
* XXX the ramdac which of the two 8 bpp framebuffer regions to take
* XXX the pixel from . So , for now , render into both regions to make
* XXX sure the pixel shows up .
*/
static void e3d_imageblit ( struct fb_info * info , const struct fb_image * image )
{
struct e3d_info * ep = info - > par ;
unsigned long flags ;
spin_lock_irqsave ( & ep - > lock , flags ) ;
cfb_imageblit ( info , image ) ;
info - > screen_base + = ep - > fb8_buf_diff ;
cfb_imageblit ( info , image ) ;
info - > screen_base - = ep - > fb8_buf_diff ;
spin_unlock_irqrestore ( & ep - > lock , flags ) ;
}
static void e3d_fillrect ( struct fb_info * info , const struct fb_fillrect * rect )
{
struct e3d_info * ep = info - > par ;
unsigned long flags ;
spin_lock_irqsave ( & ep - > lock , flags ) ;
cfb_fillrect ( info , rect ) ;
info - > screen_base + = ep - > fb8_buf_diff ;
cfb_fillrect ( info , rect ) ;
info - > screen_base - = ep - > fb8_buf_diff ;
spin_unlock_irqrestore ( & ep - > lock , flags ) ;
}
static void e3d_copyarea ( struct fb_info * info , const struct fb_copyarea * area )
{
struct e3d_info * ep = info - > par ;
unsigned long flags ;
spin_lock_irqsave ( & ep - > lock , flags ) ;
cfb_copyarea ( info , area ) ;
info - > screen_base + = ep - > fb8_buf_diff ;
cfb_copyarea ( info , area ) ;
info - > screen_base - = ep - > fb8_buf_diff ;
spin_unlock_irqrestore ( & ep - > lock , flags ) ;
}
static struct fb_ops e3d_ops = {
. owner = THIS_MODULE ,
. fb_setcolreg = e3d_setcolreg ,
. fb_fillrect = e3d_fillrect ,
. fb_copyarea = e3d_copyarea ,
. fb_imageblit = e3d_imageblit ,
} ;
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static int e3d_set_fbinfo ( struct e3d_info * ep )
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{
struct fb_info * info = ep - > info ;
struct fb_var_screeninfo * var = & info - > var ;
info - > flags = FBINFO_DEFAULT ;
info - > fbops = & e3d_ops ;
info - > screen_base = ep - > fb_base ;
info - > screen_size = ep - > fb_size ;
info - > pseudo_palette = ep - > pseudo_palette ;
/* Fill fix common fields */
strlcpy ( info - > fix . id , " e3d " , sizeof ( info - > fix . id ) ) ;
info - > fix . smem_start = ep - > fb_base_phys ;
info - > fix . smem_len = ep - > fb_size ;
info - > fix . type = FB_TYPE_PACKED_PIXELS ;
if ( ep - > depth = = 32 | | ep - > depth = = 24 )
info - > fix . visual = FB_VISUAL_TRUECOLOR ;
else
info - > fix . visual = FB_VISUAL_PSEUDOCOLOR ;
var - > xres = ep - > width ;
var - > yres = ep - > height ;
var - > xres_virtual = var - > xres ;
var - > yres_virtual = var - > yres ;
var - > bits_per_pixel = ep - > depth ;
var - > red . offset = 8 ;
var - > red . length = 8 ;
var - > green . offset = 16 ;
var - > green . length = 8 ;
var - > blue . offset = 24 ;
var - > blue . length = 8 ;
var - > transp . offset = 0 ;
var - > transp . length = 0 ;
if ( fb_alloc_cmap ( & info - > cmap , 256 , 0 ) ) {
printk ( KERN_ERR " e3d: Cannot allocate color map. \n " ) ;
return - ENOMEM ;
}
return 0 ;
}
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static int e3d_pci_register ( struct pci_dev * pdev ,
const struct pci_device_id * ent )
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{
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struct device_node * of_node ;
const char * device_type ;
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struct fb_info * info ;
struct e3d_info * ep ;
unsigned int line_length ;
int err ;
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of_node = pci_device_to_OF_node ( pdev ) ;
if ( ! of_node ) {
printk ( KERN_ERR " e3d: Cannot find OF node of %s \n " ,
pci_name ( pdev ) ) ;
return - ENODEV ;
}
device_type = of_get_property ( of_node , " device_type " , NULL ) ;
if ( ! device_type ) {
printk ( KERN_INFO " e3d: Ignoring secondary output device "
" at %s \n " , pci_name ( pdev ) ) ;
return - ENODEV ;
}
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err = pci_enable_device ( pdev ) ;
if ( err < 0 ) {
printk ( KERN_ERR " e3d: Cannot enable PCI device %s \n " ,
pci_name ( pdev ) ) ;
goto err_out ;
}
info = framebuffer_alloc ( sizeof ( struct e3d_info ) , & pdev - > dev ) ;
if ( ! info ) {
printk ( KERN_ERR " e3d: Cannot allocate fb_info \n " ) ;
err = - ENOMEM ;
goto err_disable ;
}
ep = info - > par ;
ep - > info = info ;
ep - > pdev = pdev ;
spin_lock_init ( & ep - > lock ) ;
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ep - > of_node = of_node ;
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/* Read the PCI base register of the frame buffer, which we
* need in order to interpret the RAMDAC_VID_ * FB * values in
* the ramdac correctly .
*/
pci_read_config_dword ( pdev , PCI_BASE_ADDRESS_0 ,
& ep - > fb_base_reg ) ;
ep - > fb_base_reg & = PCI_BASE_ADDRESS_MEM_MASK ;
ep - > regs_base_phys = pci_resource_start ( pdev , 1 ) ;
err = pci_request_region ( pdev , 1 , " e3d regs " ) ;
if ( err < 0 ) {
printk ( " e3d: Cannot request region 1 for %s \n " ,
pci_name ( pdev ) ) ;
goto err_release_fb ;
}
ep - > ramdac = ioremap ( ep - > regs_base_phys + 0x8000 , 0x1000 ) ;
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if ( ! ep - > ramdac ) {
err = - ENOMEM ;
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goto err_release_pci1 ;
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}
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ep - > fb8_0_off = readl ( ep - > ramdac + RAMDAC_VID_8FB_0 ) ;
ep - > fb8_0_off - = ep - > fb_base_reg ;
ep - > fb8_1_off = readl ( ep - > ramdac + RAMDAC_VID_8FB_1 ) ;
ep - > fb8_1_off - = ep - > fb_base_reg ;
ep - > fb8_buf_diff = ep - > fb8_1_off - ep - > fb8_0_off ;
ep - > fb_base_phys = pci_resource_start ( pdev , 0 ) ;
ep - > fb_base_phys + = ep - > fb8_0_off ;
err = pci_request_region ( pdev , 0 , " e3d framebuffer " ) ;
if ( err < 0 ) {
printk ( " e3d: Cannot request region 0 for %s \n " ,
pci_name ( pdev ) ) ;
goto err_unmap_ramdac ;
}
err = e3d_get_props ( ep ) ;
if ( err )
goto err_release_pci0 ;
line_length = ( readl ( ep - > ramdac + RAMDAC_VID_CFG ) > > 16 ) & 0xff ;
line_length = 1 < < line_length ;
switch ( ep - > depth ) {
case 8 :
info - > fix . line_length = line_length ;
break ;
case 16 :
info - > fix . line_length = line_length * 2 ;
break ;
case 24 :
info - > fix . line_length = line_length * 3 ;
break ;
case 32 :
info - > fix . line_length = line_length * 4 ;
break ;
}
ep - > fb_size = info - > fix . line_length * ep - > height ;
ep - > fb_base = ioremap ( ep - > fb_base_phys , ep - > fb_size ) ;
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if ( ! ep - > fb_base ) {
err = - ENOMEM ;
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goto err_release_pci0 ;
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}
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err = e3d_set_fbinfo ( ep ) ;
if ( err )
goto err_unmap_fb ;
pci_set_drvdata ( pdev , info ) ;
printk ( " e3d: Found device at %s \n " , pci_name ( pdev ) ) ;
err = register_framebuffer ( info ) ;
if ( err < 0 ) {
printk ( KERN_ERR " e3d: Could not register framebuffer %s \n " ,
pci_name ( pdev ) ) ;
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goto err_free_cmap ;
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}
return 0 ;
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err_free_cmap :
fb_dealloc_cmap ( & info - > cmap ) ;
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err_unmap_fb :
iounmap ( ep - > fb_base ) ;
err_release_pci0 :
pci_release_region ( pdev , 0 ) ;
err_unmap_ramdac :
iounmap ( ep - > ramdac ) ;
err_release_pci1 :
pci_release_region ( pdev , 1 ) ;
err_release_fb :
framebuffer_release ( info ) ;
err_disable :
pci_disable_device ( pdev ) ;
err_out :
return err ;
}
static struct pci_device_id e3d_pci_table [ ] = {
{ PCI_DEVICE ( PCI_VENDOR_ID_3DLABS , 0x7a0 ) , } ,
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{ PCI_DEVICE ( 0x1091 , 0x7a0 ) , } ,
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{ PCI_DEVICE ( PCI_VENDOR_ID_3DLABS , 0x7a2 ) , } ,
{ . vendor = PCI_VENDOR_ID_3DLABS ,
. device = PCI_ANY_ID ,
. subvendor = PCI_VENDOR_ID_3DLABS ,
. subdevice = 0x0108 ,
} ,
{ . vendor = PCI_VENDOR_ID_3DLABS ,
. device = PCI_ANY_ID ,
. subvendor = PCI_VENDOR_ID_3DLABS ,
. subdevice = 0x0140 ,
} ,
{ . vendor = PCI_VENDOR_ID_3DLABS ,
. device = PCI_ANY_ID ,
. subvendor = PCI_VENDOR_ID_3DLABS ,
. subdevice = 0x1024 ,
} ,
{ 0 , }
} ;
static struct pci_driver e3d_driver = {
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. driver = {
. suppress_bind_attrs = true ,
} ,
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. name = " e3d " ,
. id_table = e3d_pci_table ,
. probe = e3d_pci_register ,
} ;
static int __init e3d_init ( void )
{
if ( fb_get_options ( " e3d " , NULL ) )
return - ENODEV ;
return pci_register_driver ( & e3d_driver ) ;
}
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device_initcall ( e3d_init ) ;