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/*
* linux / drivers / video / fbmon . c
*
* Copyright ( C ) 2002 James Simmons < jsimmons @ users . sf . net >
*
* Credits :
*
* The EDID Parser is a conglomeration from the following sources :
*
* 1. SciTech SNAP Graphics Architecture
* Copyright ( C ) 1991 - 2002 SciTech Software , Inc . All rights reserved .
*
* 2. XFree86 4.3 .0 , interpret_edid . c
* Copyright 1998 by Egbert Eich < Egbert . Eich @ Physik . TU - Darmstadt . DE >
*
* 3. John Fremlin < vii @ users . sourceforge . net > and
* Ani Joshi < ajoshi @ unixbox . com >
*
* Generalized Timing Formula is derived from :
*
* GTF Spreadsheet by Andy Morrish ( 1 / 5 / 97 )
* available at http : //www.vesa.org
*
* This file is subject to the terms and conditions of the GNU General Public
* License . See the file COPYING in the main directory of this archive
* for more details .
*
*/
# include <linux/fb.h>
# include <linux/module.h>
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# include <linux/pci.h>
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# include <video/edid.h>
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# ifdef CONFIG_PPC_OF
# include <asm/prom.h>
# include <asm/pci-bridge.h>
# endif
# include "edid.h"
/*
* EDID parser
*/
# undef DEBUG /* define this for verbose EDID parsing output */
# ifdef DEBUG
# define DPRINTK(fmt, args...) printk(fmt,## args)
# else
# define DPRINTK(fmt, args...)
# endif
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# define FBMON_FIX_HEADER 1
# define FBMON_FIX_INPUT 2
# define FBMON_FIX_TIMINGS 3
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# ifdef CONFIG_FB_MODE_HELPERS
struct broken_edid {
u8 manufacturer [ 4 ] ;
u32 model ;
u32 fix ;
} ;
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static const struct broken_edid brokendb [ ] = {
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/* DEC FR-PCXAV-YZ */
{
. manufacturer = " DEC " ,
. model = 0x073a ,
. fix = FBMON_FIX_HEADER ,
} ,
/* ViewSonic PF775a */
{
. manufacturer = " VSC " ,
. model = 0x5a44 ,
. fix = FBMON_FIX_INPUT ,
} ,
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/* Sharp UXGA? */
{
. manufacturer = " SHP " ,
. model = 0x138e ,
. fix = FBMON_FIX_TIMINGS ,
} ,
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} ;
static const unsigned char edid_v1_header [ ] = { 0x00 , 0xff , 0xff , 0xff ,
0xff , 0xff , 0xff , 0x00
} ;
static void copy_string ( unsigned char * c , unsigned char * s )
{
int i ;
c = c + 5 ;
for ( i = 0 ; ( i < 13 & & * c ! = 0x0A ) ; i + + )
* ( s + + ) = * ( c + + ) ;
* s = 0 ;
while ( i - - & & ( * - - s = = 0x20 ) ) * s = 0 ;
}
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static int edid_is_serial_block ( unsigned char * block )
{
if ( ( block [ 0 ] = = 0x00 ) & & ( block [ 1 ] = = 0x00 ) & &
( block [ 2 ] = = 0x00 ) & & ( block [ 3 ] = = 0xff ) & &
( block [ 4 ] = = 0x00 ) )
return 1 ;
else
return 0 ;
}
static int edid_is_ascii_block ( unsigned char * block )
{
if ( ( block [ 0 ] = = 0x00 ) & & ( block [ 1 ] = = 0x00 ) & &
( block [ 2 ] = = 0x00 ) & & ( block [ 3 ] = = 0xfe ) & &
( block [ 4 ] = = 0x00 ) )
return 1 ;
else
return 0 ;
}
static int edid_is_limits_block ( unsigned char * block )
{
if ( ( block [ 0 ] = = 0x00 ) & & ( block [ 1 ] = = 0x00 ) & &
( block [ 2 ] = = 0x00 ) & & ( block [ 3 ] = = 0xfd ) & &
( block [ 4 ] = = 0x00 ) )
return 1 ;
else
return 0 ;
}
static int edid_is_monitor_block ( unsigned char * block )
{
if ( ( block [ 0 ] = = 0x00 ) & & ( block [ 1 ] = = 0x00 ) & &
( block [ 2 ] = = 0x00 ) & & ( block [ 3 ] = = 0xfc ) & &
( block [ 4 ] = = 0x00 ) )
return 1 ;
else
return 0 ;
}
static int edid_is_timing_block ( unsigned char * block )
{
if ( ( block [ 0 ] ! = 0x00 ) | | ( block [ 1 ] ! = 0x00 ) | |
( block [ 2 ] ! = 0x00 ) | | ( block [ 4 ] ! = 0x00 ) )
return 1 ;
else
return 0 ;
}
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static int check_edid ( unsigned char * edid )
{
unsigned char * block = edid + ID_MANUFACTURER_NAME , manufacturer [ 4 ] ;
unsigned char * b ;
u32 model ;
int i , fix = 0 , ret = 0 ;
manufacturer [ 0 ] = ( ( block [ 0 ] & 0x7c ) > > 2 ) + ' @ ' ;
manufacturer [ 1 ] = ( ( block [ 0 ] & 0x03 ) < < 3 ) +
( ( block [ 1 ] & 0xe0 ) > > 5 ) + ' @ ' ;
manufacturer [ 2 ] = ( block [ 1 ] & 0x1f ) + ' @ ' ;
manufacturer [ 3 ] = 0 ;
model = block [ 2 ] + ( block [ 3 ] < < 8 ) ;
for ( i = 0 ; i < ARRAY_SIZE ( brokendb ) ; i + + ) {
if ( ! strncmp ( manufacturer , brokendb [ i ] . manufacturer , 4 ) & &
brokendb [ i ] . model = = model ) {
fix = brokendb [ i ] . fix ;
break ;
}
}
switch ( fix ) {
case FBMON_FIX_HEADER :
for ( i = 0 ; i < 8 ; i + + ) {
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if ( edid [ i ] ! = edid_v1_header [ i ] ) {
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ret = fix ;
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break ;
}
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}
break ;
case FBMON_FIX_INPUT :
b = edid + EDID_STRUCT_DISPLAY ;
/* Only if display is GTF capable will
the input type be reset to analog */
if ( b [ 4 ] & 0x01 & & b [ 0 ] & 0x80 )
ret = fix ;
break ;
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case FBMON_FIX_TIMINGS :
b = edid + DETAILED_TIMING_DESCRIPTIONS_START ;
ret = fix ;
for ( i = 0 ; i < 4 ; i + + ) {
if ( edid_is_limits_block ( b ) ) {
ret = 0 ;
break ;
}
b + = DETAILED_TIMING_DESCRIPTION_SIZE ;
}
break ;
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}
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if ( ret )
printk ( " fbmon: The EDID Block of "
" Manufacturer: %s Model: 0x%x is known to "
" be broken, \n " , manufacturer , model ) ;
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return ret ;
}
static void fix_edid ( unsigned char * edid , int fix )
{
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int i ;
unsigned char * b , csum = 0 ;
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switch ( fix ) {
case FBMON_FIX_HEADER :
printk ( " fbmon: trying a header reconstruct \n " ) ;
memcpy ( edid , edid_v1_header , 8 ) ;
break ;
case FBMON_FIX_INPUT :
printk ( " fbmon: trying to fix input type \n " ) ;
b = edid + EDID_STRUCT_DISPLAY ;
b [ 0 ] & = ~ 0x80 ;
edid [ 127 ] + = 0x80 ;
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break ;
case FBMON_FIX_TIMINGS :
printk ( " fbmon: trying to fix monitor timings \n " ) ;
b = edid + DETAILED_TIMING_DESCRIPTIONS_START ;
for ( i = 0 ; i < 4 ; i + + ) {
if ( ! ( edid_is_serial_block ( b ) | |
edid_is_ascii_block ( b ) | |
edid_is_monitor_block ( b ) | |
edid_is_timing_block ( b ) ) ) {
b [ 0 ] = 0x00 ;
b [ 1 ] = 0x00 ;
b [ 2 ] = 0x00 ;
b [ 3 ] = 0xfd ;
b [ 4 ] = 0x00 ;
b [ 5 ] = 60 ; /* vfmin */
b [ 6 ] = 60 ; /* vfmax */
b [ 7 ] = 30 ; /* hfmin */
b [ 8 ] = 75 ; /* hfmax */
b [ 9 ] = 17 ; /* pixclock - 170 MHz*/
b [ 10 ] = 0 ; /* GTF */
break ;
}
b + = DETAILED_TIMING_DESCRIPTION_SIZE ;
}
for ( i = 0 ; i < EDID_LENGTH - 1 ; i + + )
csum + = edid [ i ] ;
edid [ 127 ] = 256 - csum ;
break ;
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}
}
static int edid_checksum ( unsigned char * edid )
{
unsigned char i , csum = 0 , all_null = 0 ;
int err = 0 , fix = check_edid ( edid ) ;
if ( fix )
fix_edid ( edid , fix ) ;
for ( i = 0 ; i < EDID_LENGTH ; i + + ) {
csum + = edid [ i ] ;
all_null | = edid [ i ] ;
}
if ( csum = = 0x00 & & all_null ) {
/* checksum passed, everything's good */
err = 1 ;
}
return err ;
}
static int edid_check_header ( unsigned char * edid )
{
int i , err = 1 , fix = check_edid ( edid ) ;
if ( fix )
fix_edid ( edid , fix ) ;
for ( i = 0 ; i < 8 ; i + + ) {
if ( edid [ i ] ! = edid_v1_header [ i ] )
err = 0 ;
}
return err ;
}
static void parse_vendor_block ( unsigned char * block , struct fb_monspecs * specs )
{
specs - > manufacturer [ 0 ] = ( ( block [ 0 ] & 0x7c ) > > 2 ) + ' @ ' ;
specs - > manufacturer [ 1 ] = ( ( block [ 0 ] & 0x03 ) < < 3 ) +
( ( block [ 1 ] & 0xe0 ) > > 5 ) + ' @ ' ;
specs - > manufacturer [ 2 ] = ( block [ 1 ] & 0x1f ) + ' @ ' ;
specs - > manufacturer [ 3 ] = 0 ;
specs - > model = block [ 2 ] + ( block [ 3 ] < < 8 ) ;
specs - > serial = block [ 4 ] + ( block [ 5 ] < < 8 ) +
( block [ 6 ] < < 16 ) + ( block [ 7 ] < < 24 ) ;
specs - > year = block [ 9 ] + 1990 ;
specs - > week = block [ 8 ] ;
DPRINTK ( " Manufacturer: %s \n " , specs - > manufacturer ) ;
DPRINTK ( " Model: %x \n " , specs - > model ) ;
DPRINTK ( " Serial#: %u \n " , specs - > serial ) ;
DPRINTK ( " Year: %u Week %u \n " , specs - > year , specs - > week ) ;
}
static void get_dpms_capabilities ( unsigned char flags ,
struct fb_monspecs * specs )
{
specs - > dpms = 0 ;
if ( flags & DPMS_ACTIVE_OFF )
specs - > dpms | = FB_DPMS_ACTIVE_OFF ;
if ( flags & DPMS_SUSPEND )
specs - > dpms | = FB_DPMS_SUSPEND ;
if ( flags & DPMS_STANDBY )
specs - > dpms | = FB_DPMS_STANDBY ;
DPRINTK ( " DPMS: Active %s, Suspend %s, Standby %s \n " ,
( flags & DPMS_ACTIVE_OFF ) ? " yes " : " no " ,
( flags & DPMS_SUSPEND ) ? " yes " : " no " ,
( flags & DPMS_STANDBY ) ? " yes " : " no " ) ;
}
static void get_chroma ( unsigned char * block , struct fb_monspecs * specs )
{
int tmp ;
DPRINTK ( " Chroma \n " ) ;
/* Chromaticity data */
tmp = ( ( block [ 5 ] & ( 3 < < 6 ) ) > > 6 ) | ( block [ 0x7 ] < < 2 ) ;
tmp * = 1000 ;
tmp + = 512 ;
specs - > chroma . redx = tmp / 1024 ;
DPRINTK ( " RedX: 0.%03d " , specs - > chroma . redx ) ;
tmp = ( ( block [ 5 ] & ( 3 < < 4 ) ) > > 4 ) | ( block [ 0x8 ] < < 2 ) ;
tmp * = 1000 ;
tmp + = 512 ;
specs - > chroma . redy = tmp / 1024 ;
DPRINTK ( " RedY: 0.%03d \n " , specs - > chroma . redy ) ;
tmp = ( ( block [ 5 ] & ( 3 < < 2 ) ) > > 2 ) | ( block [ 0x9 ] < < 2 ) ;
tmp * = 1000 ;
tmp + = 512 ;
specs - > chroma . greenx = tmp / 1024 ;
DPRINTK ( " GreenX: 0.%03d " , specs - > chroma . greenx ) ;
tmp = ( block [ 5 ] & 3 ) | ( block [ 0xa ] < < 2 ) ;
tmp * = 1000 ;
tmp + = 512 ;
specs - > chroma . greeny = tmp / 1024 ;
DPRINTK ( " GreenY: 0.%03d \n " , specs - > chroma . greeny ) ;
tmp = ( ( block [ 6 ] & ( 3 < < 6 ) ) > > 6 ) | ( block [ 0xb ] < < 2 ) ;
tmp * = 1000 ;
tmp + = 512 ;
specs - > chroma . bluex = tmp / 1024 ;
DPRINTK ( " BlueX: 0.%03d " , specs - > chroma . bluex ) ;
tmp = ( ( block [ 6 ] & ( 3 < < 4 ) ) > > 4 ) | ( block [ 0xc ] < < 2 ) ;
tmp * = 1000 ;
tmp + = 512 ;
specs - > chroma . bluey = tmp / 1024 ;
DPRINTK ( " BlueY: 0.%03d \n " , specs - > chroma . bluey ) ;
tmp = ( ( block [ 6 ] & ( 3 < < 2 ) ) > > 2 ) | ( block [ 0xd ] < < 2 ) ;
tmp * = 1000 ;
tmp + = 512 ;
specs - > chroma . whitex = tmp / 1024 ;
DPRINTK ( " WhiteX: 0.%03d " , specs - > chroma . whitex ) ;
tmp = ( block [ 6 ] & 3 ) | ( block [ 0xe ] < < 2 ) ;
tmp * = 1000 ;
tmp + = 512 ;
specs - > chroma . whitey = tmp / 1024 ;
DPRINTK ( " WhiteY: 0.%03d \n " , specs - > chroma . whitey ) ;
}
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static void calc_mode_timings ( int xres , int yres , int refresh ,
struct fb_videomode * mode )
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{
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struct fb_var_screeninfo * var ;
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var = kzalloc ( sizeof ( struct fb_var_screeninfo ) , GFP_KERNEL ) ;
if ( var ) {
var - > xres = xres ;
var - > yres = yres ;
fb_get_mode ( FB_VSYNCTIMINGS | FB_IGNOREMON ,
refresh , var , NULL ) ;
mode - > xres = xres ;
mode - > yres = yres ;
mode - > pixclock = var - > pixclock ;
mode - > refresh = refresh ;
mode - > left_margin = var - > left_margin ;
mode - > right_margin = var - > right_margin ;
mode - > upper_margin = var - > upper_margin ;
mode - > lower_margin = var - > lower_margin ;
mode - > hsync_len = var - > hsync_len ;
mode - > vsync_len = var - > vsync_len ;
mode - > vmode = 0 ;
mode - > sync = 0 ;
kfree ( var ) ;
}
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}
static int get_est_timing ( unsigned char * block , struct fb_videomode * mode )
{
int num = 0 ;
unsigned char c ;
c = block [ 0 ] ;
if ( c & 0x80 ) {
calc_mode_timings ( 720 , 400 , 70 , & mode [ num ] ) ;
mode [ num + + ] . flag = FB_MODE_IS_CALCULATED ;
DPRINTK ( " 720x400@70Hz \n " ) ;
}
if ( c & 0x40 ) {
calc_mode_timings ( 720 , 400 , 88 , & mode [ num ] ) ;
mode [ num + + ] . flag = FB_MODE_IS_CALCULATED ;
DPRINTK ( " 720x400@88Hz \n " ) ;
}
if ( c & 0x20 ) {
mode [ num + + ] = vesa_modes [ 3 ] ;
DPRINTK ( " 640x480@60Hz \n " ) ;
}
if ( c & 0x10 ) {
calc_mode_timings ( 640 , 480 , 67 , & mode [ num ] ) ;
mode [ num + + ] . flag = FB_MODE_IS_CALCULATED ;
DPRINTK ( " 640x480@67Hz \n " ) ;
}
if ( c & 0x08 ) {
mode [ num + + ] = vesa_modes [ 4 ] ;
DPRINTK ( " 640x480@72Hz \n " ) ;
}
if ( c & 0x04 ) {
mode [ num + + ] = vesa_modes [ 5 ] ;
DPRINTK ( " 640x480@75Hz \n " ) ;
}
if ( c & 0x02 ) {
mode [ num + + ] = vesa_modes [ 7 ] ;
DPRINTK ( " 800x600@56Hz \n " ) ;
}
if ( c & 0x01 ) {
mode [ num + + ] = vesa_modes [ 8 ] ;
DPRINTK ( " 800x600@60Hz \n " ) ;
}
c = block [ 1 ] ;
if ( c & 0x80 ) {
mode [ num + + ] = vesa_modes [ 9 ] ;
DPRINTK ( " 800x600@72Hz \n " ) ;
}
if ( c & 0x40 ) {
mode [ num + + ] = vesa_modes [ 10 ] ;
DPRINTK ( " 800x600@75Hz \n " ) ;
}
if ( c & 0x20 ) {
calc_mode_timings ( 832 , 624 , 75 , & mode [ num ] ) ;
mode [ num + + ] . flag = FB_MODE_IS_CALCULATED ;
DPRINTK ( " 832x624@75Hz \n " ) ;
}
if ( c & 0x10 ) {
mode [ num + + ] = vesa_modes [ 12 ] ;
DPRINTK ( " 1024x768@87Hz Interlaced \n " ) ;
}
if ( c & 0x08 ) {
mode [ num + + ] = vesa_modes [ 13 ] ;
DPRINTK ( " 1024x768@60Hz \n " ) ;
}
if ( c & 0x04 ) {
mode [ num + + ] = vesa_modes [ 14 ] ;
DPRINTK ( " 1024x768@70Hz \n " ) ;
}
if ( c & 0x02 ) {
mode [ num + + ] = vesa_modes [ 15 ] ;
DPRINTK ( " 1024x768@75Hz \n " ) ;
}
if ( c & 0x01 ) {
mode [ num + + ] = vesa_modes [ 21 ] ;
DPRINTK ( " 1280x1024@75Hz \n " ) ;
}
c = block [ 2 ] ;
if ( c & 0x80 ) {
mode [ num + + ] = vesa_modes [ 17 ] ;
DPRINTK ( " 1152x870@75Hz \n " ) ;
}
DPRINTK ( " Manufacturer's mask: %x \n " , c & 0x7F ) ;
return num ;
}
static int get_std_timing ( unsigned char * block , struct fb_videomode * mode )
{
int xres , yres = 0 , refresh , ratio , i ;
xres = ( block [ 0 ] + 31 ) * 8 ;
if ( xres < = 256 )
return 0 ;
ratio = ( block [ 1 ] & 0xc0 ) > > 6 ;
switch ( ratio ) {
case 0 :
yres = xres ;
break ;
case 1 :
yres = ( xres * 3 ) / 4 ;
break ;
case 2 :
yres = ( xres * 4 ) / 5 ;
break ;
case 3 :
yres = ( xres * 9 ) / 16 ;
break ;
}
refresh = ( block [ 1 ] & 0x3f ) + 60 ;
DPRINTK ( " %dx%d@%dHz \n " , xres , yres , refresh ) ;
for ( i = 0 ; i < VESA_MODEDB_SIZE ; i + + ) {
if ( vesa_modes [ i ] . xres = = xres & &
vesa_modes [ i ] . yres = = yres & &
vesa_modes [ i ] . refresh = = refresh ) {
* mode = vesa_modes [ i ] ;
mode - > flag | = FB_MODE_IS_STANDARD ;
return 1 ;
}
}
calc_mode_timings ( xres , yres , refresh , mode ) ;
return 1 ;
}
static int get_dst_timing ( unsigned char * block ,
struct fb_videomode * mode )
{
int j , num = 0 ;
for ( j = 0 ; j < 6 ; j + + , block + = STD_TIMING_DESCRIPTION_SIZE )
num + = get_std_timing ( block , & mode [ num ] ) ;
return num ;
}
static void get_detailed_timing ( unsigned char * block ,
struct fb_videomode * mode )
{
mode - > xres = H_ACTIVE ;
mode - > yres = V_ACTIVE ;
mode - > pixclock = PIXEL_CLOCK ;
mode - > pixclock / = 1000 ;
mode - > pixclock = KHZ2PICOS ( mode - > pixclock ) ;
mode - > right_margin = H_SYNC_OFFSET ;
mode - > left_margin = ( H_ACTIVE + H_BLANKING ) -
( H_ACTIVE + H_SYNC_OFFSET + H_SYNC_WIDTH ) ;
mode - > upper_margin = V_BLANKING - V_SYNC_OFFSET -
V_SYNC_WIDTH ;
mode - > lower_margin = V_SYNC_OFFSET ;
mode - > hsync_len = H_SYNC_WIDTH ;
mode - > vsync_len = V_SYNC_WIDTH ;
if ( HSYNC_POSITIVE )
mode - > sync | = FB_SYNC_HOR_HIGH_ACT ;
if ( VSYNC_POSITIVE )
mode - > sync | = FB_SYNC_VERT_HIGH_ACT ;
mode - > refresh = PIXEL_CLOCK / ( ( H_ACTIVE + H_BLANKING ) *
( V_ACTIVE + V_BLANKING ) ) ;
mode - > vmode = 0 ;
mode - > flag = FB_MODE_IS_DETAILED ;
DPRINTK ( " %d MHz " , PIXEL_CLOCK / 1000000 ) ;
DPRINTK ( " %d %d %d %d " , H_ACTIVE , H_ACTIVE + H_SYNC_OFFSET ,
H_ACTIVE + H_SYNC_OFFSET + H_SYNC_WIDTH , H_ACTIVE + H_BLANKING ) ;
DPRINTK ( " %d %d %d %d " , V_ACTIVE , V_ACTIVE + V_SYNC_OFFSET ,
V_ACTIVE + V_SYNC_OFFSET + V_SYNC_WIDTH , V_ACTIVE + V_BLANKING ) ;
DPRINTK ( " %sHSync %sVSync \n \n " , ( HSYNC_POSITIVE ) ? " + " : " - " ,
( VSYNC_POSITIVE ) ? " + " : " - " ) ;
}
/**
* fb_create_modedb - create video mode database
* @ edid : EDID data
* @ dbsize : database size
*
* RETURNS : struct fb_videomode , @ dbsize contains length of database
*
* DESCRIPTION :
* This function builds a mode database using the contents of the EDID
* data
*/
static struct fb_videomode * fb_create_modedb ( unsigned char * edid , int * dbsize )
{
struct fb_videomode * mode , * m ;
unsigned char * block ;
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int num = 0 , i , first = 1 ;
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mode = kzalloc ( 50 * sizeof ( struct fb_videomode ) , GFP_KERNEL ) ;
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if ( mode = = NULL )
return NULL ;
if ( edid = = NULL | | ! edid_checksum ( edid ) | |
! edid_check_header ( edid ) ) {
kfree ( mode ) ;
return NULL ;
}
* dbsize = 0 ;
DPRINTK ( " Detailed Timings \n " ) ;
block = edid + DETAILED_TIMING_DESCRIPTIONS_START ;
for ( i = 0 ; i < 4 ; i + + , block + = DETAILED_TIMING_DESCRIPTION_SIZE ) {
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if ( ! ( block [ 0 ] = = 0x00 & & block [ 1 ] = = 0x00 ) ) {
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get_detailed_timing ( block , & mode [ num ] ) ;
if ( first ) {
mode [ num ] . flag | = FB_MODE_IS_FIRST ;
first = 0 ;
}
num + + ;
}
}
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DPRINTK ( " Supported VESA Modes \n " ) ;
block = edid + ESTABLISHED_TIMING_1 ;
num + = get_est_timing ( block , & mode [ num ] ) ;
DPRINTK ( " Standard Timings \n " ) ;
block = edid + STD_TIMING_DESCRIPTIONS_START ;
for ( i = 0 ; i < STD_TIMING ; i + + , block + = STD_TIMING_DESCRIPTION_SIZE )
num + = get_std_timing ( block , & mode [ num ] ) ;
block = edid + DETAILED_TIMING_DESCRIPTIONS_START ;
for ( i = 0 ; i < 4 ; i + + , block + = DETAILED_TIMING_DESCRIPTION_SIZE ) {
if ( block [ 0 ] = = 0x00 & & block [ 1 ] = = 0x00 & & block [ 3 ] = = 0xfa )
num + = get_dst_timing ( block + 5 , & mode [ num ] ) ;
}
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/* Yikes, EDID data is totally useless */
if ( ! num ) {
kfree ( mode ) ;
return NULL ;
}
* dbsize = num ;
m = kmalloc ( num * sizeof ( struct fb_videomode ) , GFP_KERNEL ) ;
if ( ! m )
return mode ;
memmove ( m , mode , num * sizeof ( struct fb_videomode ) ) ;
kfree ( mode ) ;
return m ;
}
/**
* fb_destroy_modedb - destroys mode database
* @ modedb : mode database to destroy
*
* DESCRIPTION :
* Destroy mode database created by fb_create_modedb
*/
void fb_destroy_modedb ( struct fb_videomode * modedb )
{
kfree ( modedb ) ;
}
static int fb_get_monitor_limits ( unsigned char * edid , struct fb_monspecs * specs )
{
int i , retval = 1 ;
unsigned char * block ;
block = edid + DETAILED_TIMING_DESCRIPTIONS_START ;
DPRINTK ( " Monitor Operating Limits: " ) ;
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for ( i = 0 ; i < 4 ; i + + , block + = DETAILED_TIMING_DESCRIPTION_SIZE ) {
if ( edid_is_limits_block ( block ) ) {
specs - > hfmin = H_MIN_RATE * 1000 ;
specs - > hfmax = H_MAX_RATE * 1000 ;
specs - > vfmin = V_MIN_RATE ;
specs - > vfmax = V_MAX_RATE ;
specs - > dclkmax = MAX_PIXEL_CLOCK * 1000000 ;
specs - > gtf = ( GTF_SUPPORT ) ? 1 : 0 ;
retval = 0 ;
DPRINTK ( " From EDID \n " ) ;
break ;
}
}
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/* estimate monitor limits based on modes supported */
if ( retval ) {
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struct fb_videomode * modes , * mode ;
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int num_modes , hz , hscan , pixclock ;
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int vtotal , htotal ;
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modes = fb_create_modedb ( edid , & num_modes ) ;
if ( ! modes ) {
DPRINTK ( " None Available \n " ) ;
return 1 ;
}
retval = 0 ;
for ( i = 0 ; i < num_modes ; i + + ) {
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mode = & modes [ i ] ;
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pixclock = PICOS2KHZ ( modes [ i ] . pixclock ) * 1000 ;
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htotal = mode - > xres + mode - > right_margin + mode - > hsync_len
+ mode - > left_margin ;
vtotal = mode - > yres + mode - > lower_margin + mode - > vsync_len
+ mode - > upper_margin ;
if ( mode - > vmode & FB_VMODE_INTERLACED )
vtotal / = 2 ;
if ( mode - > vmode & FB_VMODE_DOUBLE )
vtotal * = 2 ;
hscan = ( pixclock + htotal / 2 ) / htotal ;
hscan = ( hscan + 500 ) / 1000 * 1000 ;
hz = ( hscan + vtotal / 2 ) / vtotal ;
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if ( specs - > dclkmax = = 0 | | specs - > dclkmax < pixclock )
specs - > dclkmax = pixclock ;
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if ( specs - > dclkmin = = 0 | | specs - > dclkmin > pixclock )
specs - > dclkmin = pixclock ;
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if ( specs - > hfmax = = 0 | | specs - > hfmax < hscan )
specs - > hfmax = hscan ;
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if ( specs - > hfmin = = 0 | | specs - > hfmin > hscan )
specs - > hfmin = hscan ;
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if ( specs - > vfmax = = 0 | | specs - > vfmax < hz )
specs - > vfmax = hz ;
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if ( specs - > vfmin = = 0 | | specs - > vfmin > hz )
specs - > vfmin = hz ;
}
DPRINTK ( " Extrapolated \n " ) ;
fb_destroy_modedb ( modes ) ;
}
DPRINTK ( " H: %d-%dKHz V: %d-%dHz DCLK: %dMHz \n " ,
specs - > hfmin / 1000 , specs - > hfmax / 1000 , specs - > vfmin ,
specs - > vfmax , specs - > dclkmax / 1000000 ) ;
return retval ;
}
static void get_monspecs ( unsigned char * edid , struct fb_monspecs * specs )
{
unsigned char c , * block ;
block = edid + EDID_STRUCT_DISPLAY ;
fb_get_monitor_limits ( edid , specs ) ;
c = block [ 0 ] & 0x80 ;
specs - > input = 0 ;
if ( c ) {
specs - > input | = FB_DISP_DDI ;
DPRINTK ( " Digital Display Input " ) ;
} else {
DPRINTK ( " Analog Display Input: Input Voltage - " ) ;
switch ( ( block [ 0 ] & 0x60 ) > > 5 ) {
case 0 :
DPRINTK ( " 0.700V/0.300V " ) ;
specs - > input | = FB_DISP_ANA_700_300 ;
break ;
case 1 :
DPRINTK ( " 0.714V/0.286V " ) ;
specs - > input | = FB_DISP_ANA_714_286 ;
break ;
case 2 :
DPRINTK ( " 1.000V/0.400V " ) ;
specs - > input | = FB_DISP_ANA_1000_400 ;
break ;
case 3 :
DPRINTK ( " 0.700V/0.000V " ) ;
specs - > input | = FB_DISP_ANA_700_000 ;
break ;
}
}
DPRINTK ( " \n Sync: " ) ;
c = block [ 0 ] & 0x10 ;
if ( c )
DPRINTK ( " Configurable signal level \n " ) ;
c = block [ 0 ] & 0x0f ;
specs - > signal = 0 ;
if ( c & 0x10 ) {
DPRINTK ( " Blank to Blank " ) ;
specs - > signal | = FB_SIGNAL_BLANK_BLANK ;
}
if ( c & 0x08 ) {
DPRINTK ( " Separate " ) ;
specs - > signal | = FB_SIGNAL_SEPARATE ;
}
if ( c & 0x04 ) {
DPRINTK ( " Composite " ) ;
specs - > signal | = FB_SIGNAL_COMPOSITE ;
}
if ( c & 0x02 ) {
DPRINTK ( " Sync on Green " ) ;
specs - > signal | = FB_SIGNAL_SYNC_ON_GREEN ;
}
if ( c & 0x01 ) {
DPRINTK ( " Serration on " ) ;
specs - > signal | = FB_SIGNAL_SERRATION_ON ;
}
DPRINTK ( " \n " ) ;
specs - > max_x = block [ 1 ] ;
specs - > max_y = block [ 2 ] ;
DPRINTK ( " Max H-size in cm: " ) ;
if ( specs - > max_x )
DPRINTK ( " %d \n " , specs - > max_x ) ;
else
DPRINTK ( " variable \n " ) ;
DPRINTK ( " Max V-size in cm: " ) ;
if ( specs - > max_y )
DPRINTK ( " %d \n " , specs - > max_y ) ;
else
DPRINTK ( " variable \n " ) ;
c = block [ 3 ] ;
specs - > gamma = c + 100 ;
DPRINTK ( " Gamma: " ) ;
DPRINTK ( " %d.%d \n " , specs - > gamma / 100 , specs - > gamma % 100 ) ;
get_dpms_capabilities ( block [ 4 ] , specs ) ;
switch ( ( block [ 4 ] & 0x18 ) > > 3 ) {
case 0 :
DPRINTK ( " Monochrome/Grayscale \n " ) ;
specs - > input | = FB_DISP_MONO ;
break ;
case 1 :
DPRINTK ( " RGB Color Display \n " ) ;
specs - > input | = FB_DISP_RGB ;
break ;
case 2 :
DPRINTK ( " Non-RGB Multicolor Display \n " ) ;
specs - > input | = FB_DISP_MULTI ;
break ;
default :
DPRINTK ( " Unknown \n " ) ;
specs - > input | = FB_DISP_UNKNOWN ;
break ;
}
get_chroma ( block , specs ) ;
specs - > misc = 0 ;
c = block [ 4 ] & 0x7 ;
if ( c & 0x04 ) {
DPRINTK ( " Default color format is primary \n " ) ;
specs - > misc | = FB_MISC_PRIM_COLOR ;
}
if ( c & 0x02 ) {
DPRINTK ( " First DETAILED Timing is preferred \n " ) ;
specs - > misc | = FB_MISC_1ST_DETAIL ;
}
if ( c & 0x01 ) {
printk ( " Display is GTF capable \n " ) ;
specs - > gtf = 1 ;
}
}
int fb_parse_edid ( unsigned char * edid , struct fb_var_screeninfo * var )
{
int i ;
unsigned char * block ;
if ( edid = = NULL | | var = = NULL )
return 1 ;
if ( ! ( edid_checksum ( edid ) ) )
return 1 ;
if ( ! ( edid_check_header ( edid ) ) )
return 1 ;
block = edid + DETAILED_TIMING_DESCRIPTIONS_START ;
for ( i = 0 ; i < 4 ; i + + , block + = DETAILED_TIMING_DESCRIPTION_SIZE ) {
if ( edid_is_timing_block ( block ) ) {
var - > xres = var - > xres_virtual = H_ACTIVE ;
var - > yres = var - > yres_virtual = V_ACTIVE ;
var - > height = var - > width = - 1 ;
var - > right_margin = H_SYNC_OFFSET ;
var - > left_margin = ( H_ACTIVE + H_BLANKING ) -
( H_ACTIVE + H_SYNC_OFFSET + H_SYNC_WIDTH ) ;
var - > upper_margin = V_BLANKING - V_SYNC_OFFSET -
V_SYNC_WIDTH ;
var - > lower_margin = V_SYNC_OFFSET ;
var - > hsync_len = H_SYNC_WIDTH ;
var - > vsync_len = V_SYNC_WIDTH ;
var - > pixclock = PIXEL_CLOCK ;
var - > pixclock / = 1000 ;
var - > pixclock = KHZ2PICOS ( var - > pixclock ) ;
if ( HSYNC_POSITIVE )
var - > sync | = FB_SYNC_HOR_HIGH_ACT ;
if ( VSYNC_POSITIVE )
var - > sync | = FB_SYNC_VERT_HIGH_ACT ;
return 0 ;
}
}
return 1 ;
}
void fb_edid_to_monspecs ( unsigned char * edid , struct fb_monspecs * specs )
{
unsigned char * block ;
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int i , found = 0 ;
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if ( edid = = NULL )
return ;
if ( ! ( edid_checksum ( edid ) ) )
return ;
if ( ! ( edid_check_header ( edid ) ) )
return ;
memset ( specs , 0 , sizeof ( struct fb_monspecs ) ) ;
specs - > version = edid [ EDID_STRUCT_VERSION ] ;
specs - > revision = edid [ EDID_STRUCT_REVISION ] ;
DPRINTK ( " ======================================== \n " ) ;
DPRINTK ( " Display Information (EDID) \n " ) ;
DPRINTK ( " ======================================== \n " ) ;
DPRINTK ( " EDID Version %d.%d \n " , ( int ) specs - > version ,
( int ) specs - > revision ) ;
parse_vendor_block ( edid + ID_MANUFACTURER_NAME , specs ) ;
block = edid + DETAILED_TIMING_DESCRIPTIONS_START ;
for ( i = 0 ; i < 4 ; i + + , block + = DETAILED_TIMING_DESCRIPTION_SIZE ) {
if ( edid_is_serial_block ( block ) ) {
copy_string ( block , specs - > serial_no ) ;
DPRINTK ( " Serial Number: %s \n " , specs - > serial_no ) ;
} else if ( edid_is_ascii_block ( block ) ) {
copy_string ( block , specs - > ascii ) ;
DPRINTK ( " ASCII Block: %s \n " , specs - > ascii ) ;
} else if ( edid_is_monitor_block ( block ) ) {
copy_string ( block , specs - > monitor ) ;
DPRINTK ( " Monitor Name: %s \n " , specs - > monitor ) ;
}
}
DPRINTK ( " Display Characteristics: \n " ) ;
get_monspecs ( edid , specs ) ;
specs - > modedb = fb_create_modedb ( edid , & specs - > modedb_len ) ;
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/*
* Workaround for buggy EDIDs that sets that the first
* detailed timing is preferred but has not detailed
* timing specified
*/
for ( i = 0 ; i < specs - > modedb_len ; i + + ) {
if ( specs - > modedb [ i ] . flag & FB_MODE_IS_DETAILED ) {
found = 1 ;
break ;
}
}
if ( ! found )
specs - > misc & = ~ FB_MISC_1ST_DETAIL ;
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DPRINTK ( " ======================================== \n " ) ;
}
/*
* VESA Generalized Timing Formula ( GTF )
*/
# define FLYBACK 550
# define V_FRONTPORCH 1
# define H_OFFSET 40
# define H_SCALEFACTOR 20
# define H_BLANKSCALE 128
# define H_GRADIENT 600
# define C_VAL 30
# define M_VAL 300
struct __fb_timings {
u32 dclk ;
u32 hfreq ;
u32 vfreq ;
u32 hactive ;
u32 vactive ;
u32 hblank ;
u32 vblank ;
u32 htotal ;
u32 vtotal ;
} ;
/**
* fb_get_vblank - get vertical blank time
* @ hfreq : horizontal freq
*
* DESCRIPTION :
* vblank = right_margin + vsync_len + left_margin
*
* given : right_margin = 1 ( V_FRONTPORCH )
* vsync_len = 3
* flyback = 550
*
* flyback * hfreq
* left_margin = - - - - - - - - - - - - - - - - vsync_len
* 1000000
*/
static u32 fb_get_vblank ( u32 hfreq )
{
u32 vblank ;
vblank = ( hfreq * FLYBACK ) / 1000 ;
vblank = ( vblank + 500 ) / 1000 ;
return ( vblank + V_FRONTPORCH ) ;
}
/**
* fb_get_hblank_by_freq - get horizontal blank time given hfreq
* @ hfreq : horizontal freq
* @ xres : horizontal resolution in pixels
*
* DESCRIPTION :
*
* xres * duty_cycle
* hblank = - - - - - - - - - - - - - - - - - -
* 100 - duty_cycle
*
* duty cycle = percent of htotal assigned to inactive display
* duty cycle = C - ( M / Hfreq )
*
* where : C = ( ( offset - scale factor ) * blank_scale )
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - + scale factor
* 256
* M = blank_scale * gradient
*
*/
static u32 fb_get_hblank_by_hfreq ( u32 hfreq , u32 xres )
{
u32 c_val , m_val , duty_cycle , hblank ;
c_val = ( ( ( H_OFFSET - H_SCALEFACTOR ) * H_BLANKSCALE ) / 256 +
H_SCALEFACTOR ) * 1000 ;
m_val = ( H_BLANKSCALE * H_GRADIENT ) / 256 ;
m_val = ( m_val * 1000000 ) / hfreq ;
duty_cycle = c_val - m_val ;
hblank = ( xres * duty_cycle ) / ( 100000 - duty_cycle ) ;
return ( hblank ) ;
}
/**
* fb_get_hblank_by_dclk - get horizontal blank time given pixelclock
* @ dclk : pixelclock in Hz
* @ xres : horizontal resolution in pixels
*
* DESCRIPTION :
*
* xres * duty_cycle
* hblank = - - - - - - - - - - - - - - - - - -
* 100 - duty_cycle
*
* duty cycle = percent of htotal assigned to inactive display
* duty cycle = C - ( M * h_period )
*
* where : h_period = SQRT ( 100 - C + ( 0.4 * xres * M ) / dclk ) + C - 100
* - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
* 2 * M
* M = 300 ;
* C = 30 ;
*/
static u32 fb_get_hblank_by_dclk ( u32 dclk , u32 xres )
{
u32 duty_cycle , h_period , hblank ;
dclk / = 1000 ;
h_period = 100 - C_VAL ;
h_period * = h_period ;
h_period + = ( M_VAL * xres * 2 * 1000 ) / ( 5 * dclk ) ;
h_period * = 10000 ;
h_period = int_sqrt ( h_period ) ;
h_period - = ( 100 - C_VAL ) * 100 ;
h_period * = 1000 ;
h_period / = 2 * M_VAL ;
duty_cycle = C_VAL * 1000 - ( M_VAL * h_period ) / 100 ;
hblank = ( xres * duty_cycle ) / ( 100000 - duty_cycle ) + 8 ;
hblank & = ~ 15 ;
return ( hblank ) ;
}
/**
* fb_get_hfreq - estimate hsync
* @ vfreq : vertical refresh rate
* @ yres : vertical resolution
*
* DESCRIPTION :
*
* ( yres + front_port ) * vfreq * 1000000
* hfreq = - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
* ( 1000000 - ( vfreq * FLYBACK )
*
*/
static u32 fb_get_hfreq ( u32 vfreq , u32 yres )
{
u32 divisor , hfreq ;
divisor = ( 1000000 - ( vfreq * FLYBACK ) ) / 1000 ;
hfreq = ( yres + V_FRONTPORCH ) * vfreq * 1000 ;
return ( hfreq / divisor ) ;
}
static void fb_timings_vfreq ( struct __fb_timings * timings )
{
timings - > hfreq = fb_get_hfreq ( timings - > vfreq , timings - > vactive ) ;
timings - > vblank = fb_get_vblank ( timings - > hfreq ) ;
timings - > vtotal = timings - > vactive + timings - > vblank ;
timings - > hblank = fb_get_hblank_by_hfreq ( timings - > hfreq ,
timings - > hactive ) ;
timings - > htotal = timings - > hactive + timings - > hblank ;
timings - > dclk = timings - > htotal * timings - > hfreq ;
}
static void fb_timings_hfreq ( struct __fb_timings * timings )
{
timings - > vblank = fb_get_vblank ( timings - > hfreq ) ;
timings - > vtotal = timings - > vactive + timings - > vblank ;
timings - > vfreq = timings - > hfreq / timings - > vtotal ;
timings - > hblank = fb_get_hblank_by_hfreq ( timings - > hfreq ,
timings - > hactive ) ;
timings - > htotal = timings - > hactive + timings - > hblank ;
timings - > dclk = timings - > htotal * timings - > hfreq ;
}
static void fb_timings_dclk ( struct __fb_timings * timings )
{
timings - > hblank = fb_get_hblank_by_dclk ( timings - > dclk ,
timings - > hactive ) ;
timings - > htotal = timings - > hactive + timings - > hblank ;
timings - > hfreq = timings - > dclk / timings - > htotal ;
timings - > vblank = fb_get_vblank ( timings - > hfreq ) ;
timings - > vtotal = timings - > vactive + timings - > vblank ;
timings - > vfreq = timings - > hfreq / timings - > vtotal ;
}
/*
* fb_get_mode - calculates video mode using VESA GTF
* @ flags : if : 0 - maximize vertical refresh rate
* 1 - vrefresh - driven calculation ;
* 2 - hscan - driven calculation ;
* 3 - pixelclock - driven calculation ;
* @ val : depending on @ flags , ignored , vrefresh , hsync or pixelclock
* @ var : pointer to fb_var_screeninfo
* @ info : pointer to fb_info
*
* DESCRIPTION :
* Calculates video mode based on monitor specs using VESA GTF .
* The GTF is best for VESA GTF compliant monitors but is
* specifically formulated to work for older monitors as well .
*
* If @ flag = = 0 , the function will attempt to maximize the
* refresh rate . Otherwise , it will calculate timings based on
* the flag and accompanying value .
*
* If FB_IGNOREMON bit is set in @ flags , monitor specs will be
* ignored and @ var will be filled with the calculated timings .
*
* All calculations are based on the VESA GTF Spreadsheet
* available at VESA ' s public ftp ( http : //www.vesa.org).
*
* NOTES :
* The timings generated by the GTF will be different from VESA
* DMT . It might be a good idea to keep a table of standard
* VESA modes as well . The GTF may also not work for some displays ,
* such as , and especially , analog TV .
*
* REQUIRES :
* A valid info - > monspecs , otherwise ' safe numbers ' will be used .
*/
int fb_get_mode ( int flags , u32 val , struct fb_var_screeninfo * var , struct fb_info * info )
{
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struct __fb_timings * timings ;
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u32 interlace = 1 , dscan = 1 ;
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u32 hfmin , hfmax , vfmin , vfmax , dclkmin , dclkmax , err = 0 ;
timings = kzalloc ( sizeof ( struct __fb_timings ) , GFP_KERNEL ) ;
if ( ! timings )
return - ENOMEM ;
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/*
* If monspecs are invalid , use values that are enough
* for 640 x480 @ 60
*/
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if ( ! info | | ! info - > monspecs . hfmax | | ! info - > monspecs . vfmax | |
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! info - > monspecs . dclkmax | |
info - > monspecs . hfmax < info - > monspecs . hfmin | |
info - > monspecs . vfmax < info - > monspecs . vfmin | |
info - > monspecs . dclkmax < info - > monspecs . dclkmin ) {
hfmin = 29000 ; hfmax = 30000 ;
vfmin = 60 ; vfmax = 60 ;
dclkmin = 0 ; dclkmax = 25000000 ;
} else {
hfmin = info - > monspecs . hfmin ;
hfmax = info - > monspecs . hfmax ;
vfmin = info - > monspecs . vfmin ;
vfmax = info - > monspecs . vfmax ;
dclkmin = info - > monspecs . dclkmin ;
dclkmax = info - > monspecs . dclkmax ;
}
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timings - > hactive = var - > xres ;
timings - > vactive = var - > yres ;
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if ( var - > vmode & FB_VMODE_INTERLACED ) {
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timings - > vactive / = 2 ;
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interlace = 2 ;
}
if ( var - > vmode & FB_VMODE_DOUBLE ) {
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timings - > vactive * = 2 ;
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dscan = 2 ;
}
switch ( flags & ~ FB_IGNOREMON ) {
case FB_MAXTIMINGS : /* maximize refresh rate */
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timings - > hfreq = hfmax ;
fb_timings_hfreq ( timings ) ;
if ( timings - > vfreq > vfmax ) {
timings - > vfreq = vfmax ;
fb_timings_vfreq ( timings ) ;
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}
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if ( timings - > dclk > dclkmax ) {
timings - > dclk = dclkmax ;
fb_timings_dclk ( timings ) ;
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}
break ;
case FB_VSYNCTIMINGS : /* vrefresh driven */
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timings - > vfreq = val ;
fb_timings_vfreq ( timings ) ;
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break ;
case FB_HSYNCTIMINGS : /* hsync driven */
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timings - > hfreq = val ;
fb_timings_hfreq ( timings ) ;
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break ;
case FB_DCLKTIMINGS : /* pixelclock driven */
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timings - > dclk = PICOS2KHZ ( val ) * 1000 ;
fb_timings_dclk ( timings ) ;
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break ;
default :
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err = - EINVAL ;
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}
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if ( err | | ( ! ( flags & FB_IGNOREMON ) & &
( timings - > vfreq < vfmin | | timings - > vfreq > vfmax | |
timings - > hfreq < hfmin | | timings - > hfreq > hfmax | |
timings - > dclk < dclkmin | | timings - > dclk > dclkmax ) ) ) {
err = - EINVAL ;
} else {
var - > pixclock = KHZ2PICOS ( timings - > dclk / 1000 ) ;
var - > hsync_len = ( timings - > htotal * 8 ) / 100 ;
var - > right_margin = ( timings - > hblank / 2 ) - var - > hsync_len ;
var - > left_margin = timings - > hblank - var - > right_margin -
var - > hsync_len ;
var - > vsync_len = ( 3 * interlace ) / dscan ;
var - > lower_margin = ( 1 * interlace ) / dscan ;
var - > upper_margin = ( timings - > vblank * interlace ) / dscan -
( var - > vsync_len + var - > lower_margin ) ;
}
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kfree ( timings ) ;
return err ;
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}
# else
int fb_parse_edid ( unsigned char * edid , struct fb_var_screeninfo * var )
{
return 1 ;
}
void fb_edid_to_monspecs ( unsigned char * edid , struct fb_monspecs * specs )
{
specs = NULL ;
}
void fb_destroy_modedb ( struct fb_videomode * modedb )
{
}
int fb_get_mode ( int flags , u32 val , struct fb_var_screeninfo * var ,
struct fb_info * info )
{
return - EINVAL ;
}
# endif /* CONFIG_FB_MODE_HELPERS */
/*
* fb_validate_mode - validates var against monitor capabilities
* @ var : pointer to fb_var_screeninfo
* @ info : pointer to fb_info
*
* DESCRIPTION :
* Validates video mode against monitor capabilities specified in
* info - > monspecs .
*
* REQUIRES :
* A valid info - > monspecs .
*/
int fb_validate_mode ( const struct fb_var_screeninfo * var , struct fb_info * info )
{
u32 hfreq , vfreq , htotal , vtotal , pixclock ;
u32 hfmin , hfmax , vfmin , vfmax , dclkmin , dclkmax ;
/*
* If monspecs are invalid , use values that are enough
* for 640 x480 @ 60
*/
if ( ! info - > monspecs . hfmax | | ! info - > monspecs . vfmax | |
! info - > monspecs . dclkmax | |
info - > monspecs . hfmax < info - > monspecs . hfmin | |
info - > monspecs . vfmax < info - > monspecs . vfmin | |
info - > monspecs . dclkmax < info - > monspecs . dclkmin ) {
hfmin = 29000 ; hfmax = 30000 ;
vfmin = 60 ; vfmax = 60 ;
dclkmin = 0 ; dclkmax = 25000000 ;
} else {
hfmin = info - > monspecs . hfmin ;
hfmax = info - > monspecs . hfmax ;
vfmin = info - > monspecs . vfmin ;
vfmax = info - > monspecs . vfmax ;
dclkmin = info - > monspecs . dclkmin ;
dclkmax = info - > monspecs . dclkmax ;
}
if ( ! var - > pixclock )
return - EINVAL ;
pixclock = PICOS2KHZ ( var - > pixclock ) * 1000 ;
htotal = var - > xres + var - > right_margin + var - > hsync_len +
var - > left_margin ;
vtotal = var - > yres + var - > lower_margin + var - > vsync_len +
var - > upper_margin ;
if ( var - > vmode & FB_VMODE_INTERLACED )
vtotal / = 2 ;
if ( var - > vmode & FB_VMODE_DOUBLE )
vtotal * = 2 ;
hfreq = pixclock / htotal ;
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hfreq = ( hfreq + 500 ) / 1000 * 1000 ;
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vfreq = hfreq / vtotal ;
return ( vfreq < vfmin | | vfreq > vfmax | |
hfreq < hfmin | | hfreq > hfmax | |
pixclock < dclkmin | | pixclock > dclkmax ) ?
- EINVAL : 0 ;
}
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# if defined(CONFIG_FIRMWARE_EDID) && defined(CONFIG_X86)
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/*
* We need to ensure that the EDID block is only returned for
* the primary graphics adapter .
*/
const unsigned char * fb_firmware_edid ( struct device * device )
{
struct pci_dev * dev = NULL ;
struct resource * res = NULL ;
unsigned char * edid = NULL ;
if ( device )
dev = to_pci_dev ( device ) ;
if ( dev )
res = & dev - > resource [ PCI_ROM_RESOURCE ] ;
if ( res & & res - > flags & IORESOURCE_ROM_SHADOW )
edid = edid_info . dummy ;
return edid ;
}
# else
const unsigned char * fb_firmware_edid ( struct device * device )
{
return NULL ;
}
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# endif
EXPORT_SYMBOL ( fb_firmware_edid ) ;
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EXPORT_SYMBOL ( fb_parse_edid ) ;
EXPORT_SYMBOL ( fb_edid_to_monspecs ) ;
EXPORT_SYMBOL ( fb_get_mode ) ;
EXPORT_SYMBOL ( fb_validate_mode ) ;
EXPORT_SYMBOL ( fb_destroy_modedb ) ;