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|
/*
* ATI Frame Buffer Device Driver Core
*
* Copyright (C) 2004 Alex Kern <alex.kern@gmx.de>
* Copyright (C) 1997-2001 Geert Uytterhoeven
* Copyright (C) 1998 Bernd Harries
* Copyright (C) 1998 Eddie C. Dost (ecd@skynet.be)
*
* This driver supports the following ATI graphics chips:
* - ATI Mach64
*
* To do: add support for
* - ATI Rage128 (from aty128fb.c)
* - ATI Radeon (from radeonfb.c)
*
* This driver is partly based on the PowerMac console driver:
*
* Copyright (C) 1996 Paul Mackerras
*
* and on the PowerMac ATI/mach64 display driver:
*
* Copyright (C) 1997 Michael AK Tesch
*
* with work by Jon Howell
* Harry AC Eaton
* Anthony Tong <atong@uiuc.edu>
*
* Generic LCD support written by Daniel Mantione, ported from 2.4.20 by Alex Kern
* Many Thanks to Ville Syrjälä for patches and fixing nasting 16 bit color bug.
*
* 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.
*
* Many thanks to Nitya from ATI devrel for support and patience !
*/
/******************************************************************************
TODO:
- cursor support on all cards and all ramdacs.
- cursor parameters controlable via ioctl()s.
- guess PLL and MCLK based on the original PLL register values initialized
by Open Firmware (if they are initialized). BIOS is done
(Anyone with Mac to help with this?)
******************************************************************************/
#include <linux/module.h>
#include <linux/moduleparam.h>
#include <linux/kernel.h>
#include <linux/errno.h>
#include <linux/string.h>
#include <linux/mm.h>
#include <linux/slab.h>
#include <linux/vmalloc.h>
#include <linux/delay.h>
#include <linux/console.h>
#include <linux/fb.h>
#include <linux/init.h>
#include <linux/pci.h>
#include <linux/interrupt.h>
#include <linux/spinlock.h>
#include <linux/wait.h>
#include <linux/backlight.h>
#include <asm/io.h>
#include <asm/uaccess.h>
#include <video/mach64.h>
#include "atyfb.h"
#include "ati_ids.h"
#ifdef __powerpc__
#include <asm/machdep.h>
#include <asm/prom.h>
#include "../macmodes.h"
#endif
#ifdef __sparc__
#include <asm/pbm.h>
#include <asm/fbio.h>
#endif
#ifdef CONFIG_ADB_PMU
#include <linux/adb.h>
#include <linux/pmu.h>
#endif
#ifdef CONFIG_BOOTX_TEXT
#include <asm/btext.h>
#endif
#ifdef CONFIG_PMAC_BACKLIGHT
#include <asm/backlight.h>
#endif
#ifdef CONFIG_MTRR
#include <asm/mtrr.h>
#endif
/*
* Debug flags.
*/
#undef DEBUG
/*#define DEBUG*/
/* Make sure n * PAGE_SIZE is protected at end of Aperture for GUI-regs */
/* - must be large enough to catch all GUI-Regs */
/* - must be aligned to a PAGE boundary */
#define GUI_RESERVE (1 * PAGE_SIZE)
/* FIXME: remove the FAIL definition */
#define FAIL(msg) do { \
if (!(var->activate & FB_ACTIVATE_TEST)) \
printk(KERN_CRIT "atyfb: " msg "\n"); \
return -EINVAL; \
} while (0)
#define FAIL_MAX(msg, x, _max_) do { \
if (x > _max_) { \
if (!(var->activate & FB_ACTIVATE_TEST)) \
printk(KERN_CRIT "atyfb: " msg " %x(%x)\n", x, _max_); \
return -EINVAL; \
} \
} while (0)
#ifdef DEBUG
#define DPRINTK(fmt, args...) printk(KERN_DEBUG "atyfb: " fmt, ## args)
#else
#define DPRINTK(fmt, args...)
#endif
#define PRINTKI(fmt, args...) printk(KERN_INFO "atyfb: " fmt, ## args)
#define PRINTKE(fmt, args...) printk(KERN_ERR "atyfb: " fmt, ## args)
#if defined(CONFIG_PM) || defined(CONFIG_PMAC_BACKLIGHT) || defined (CONFIG_FB_ATY_GENERIC_LCD)
static const u32 lt_lcd_regs[] = {
CONFIG_PANEL_LG,
LCD_GEN_CNTL_LG,
DSTN_CONTROL_LG,
HFB_PITCH_ADDR_LG,
HORZ_STRETCHING_LG,
VERT_STRETCHING_LG,
0, /* EXT_VERT_STRETCH */
LT_GIO_LG,
POWER_MANAGEMENT_LG
};
void aty_st_lcd(int index, u32 val, const struct atyfb_par *par)
{
if (M64_HAS(LT_LCD_REGS)) {
aty_st_le32(lt_lcd_regs[index], val, par);
} else {
unsigned long temp;
/* write addr byte */
temp = aty_ld_le32(LCD_INDEX, par);
aty_st_le32(LCD_INDEX, (temp & ~LCD_INDEX_MASK) | index, par);
/* write the register value */
aty_st_le32(LCD_DATA, val, par);
}
}
u32 aty_ld_lcd(int index, const struct atyfb_par *par)
{
if (M64_HAS(LT_LCD_REGS)) {
return aty_ld_le32(lt_lcd_regs[index], par);
} else {
unsigned long temp;
/* write addr byte */
temp = aty_ld_le32(LCD_INDEX, par);
aty_st_le32(LCD_INDEX, (temp & ~LCD_INDEX_MASK) | index, par);
/* read the register value */
return aty_ld_le32(LCD_DATA, par);
}
}
#endif /* defined(CONFIG_PM) || defined(CONFIG_PMAC_BACKLIGHT) || defined (CONFIG_FB_ATY_GENERIC_LCD) */
#ifdef CONFIG_FB_ATY_GENERIC_LCD
/*
* ATIReduceRatio --
*
* Reduce a fraction by factoring out the largest common divider of the
* fraction's numerator and denominator.
*/
static void ATIReduceRatio(int *Numerator, int *Denominator)
{
int Multiplier, Divider, Remainder;
Multiplier = *Numerator;
Divider = *Denominator;
while ((Remainder = Multiplier % Divider))
{
Multiplier = Divider;
Divider = Remainder;
}
*Numerator /= Divider;
*Denominator /= Divider;
}
#endif
/*
* The Hardware parameters for each card
*/
struct pci_mmap_map {
unsigned long voff;
unsigned long poff;
unsigned long size;
unsigned long prot_flag;
unsigned long prot_mask;
};
static struct fb_fix_screeninfo atyfb_fix __devinitdata = {
.id = "ATY Mach64",
.type = FB_TYPE_PACKED_PIXELS,
.visual = FB_VISUAL_PSEUDOCOLOR,
.xpanstep = 8,
.ypanstep = 1,
};
/*
* Frame buffer device API
*/
static int atyfb_open(struct fb_info *info, int user);
static int atyfb_release(struct fb_info *info, int user);
static int atyfb_check_var(struct fb_var_screeninfo *var, struct fb_info *info);
static int atyfb_set_par(struct fb_info *info);
static int atyfb_setcolreg(u_int regno, u_int red, u_int green, u_int blue,
u_int transp, struct fb_info *info);
static int atyfb_pan_display(struct fb_var_screeninfo *var, struct fb_info *info);
static int atyfb_blank(int blank, struct fb_info *info);
static int atyfb_ioctl(struct fb_info *info, u_int cmd, u_long arg);
#ifdef __sparc__
static int atyfb_mmap(struct fb_info *info, struct vm_area_struct *vma);
#endif
static int atyfb_sync(struct fb_info *info);
/*
* Internal routines
*/
static int aty_init(struct fb_info *info);
static void aty_resume_chip(struct fb_info *info);
#ifdef CONFIG_ATARI
static int store_video_par(char *videopar, unsigned char m64_num);
#endif
static struct crtc saved_crtc;
static union aty_pll saved_pll;
static void aty_get_crtc(const struct atyfb_par *par, struct crtc *crtc);
static void aty_set_crtc(const struct atyfb_par *par, const struct crtc *crtc);
static int aty_var_to_crtc(const struct fb_info *info, const struct fb_var_screeninfo *var, struct crtc *crtc);
static int aty_crtc_to_var(const struct crtc *crtc, struct fb_var_screeninfo *var);
static void set_off_pitch(struct atyfb_par *par, const struct fb_info *info);
#ifdef CONFIG_PPC
static int read_aty_sense(const struct atyfb_par *par);
#endif
/*
* Interface used by the world
*/
static struct fb_var_screeninfo default_var = {
/* 640x480, 60 Hz, Non-Interlaced (25.175 MHz dotclock) */
640, 480, 640, 480, 0, 0, 8, 0,
{0, 8, 0}, {0, 8, 0}, {0, 8, 0}, {0, 0, 0},
0, 0, -1, -1, 0, 39722, 48, 16, 33, 10, 96, 2,
0, FB_VMODE_NONINTERLACED
};
static struct fb_videomode defmode = {
/* 640x480 @ 60 Hz, 31.5 kHz hsync */
NULL, 60, 640, 480, 39721, 40, 24, 32, 11, 96, 2,
0, FB_VMODE_NONINTERLACED
};
static struct fb_ops atyfb_ops = {
.owner = THIS_MODULE,
.fb_open = atyfb_open,
.fb_release = atyfb_release,
.fb_check_var = atyfb_check_var,
.fb_set_par = atyfb_set_par,
.fb_setcolreg = atyfb_setcolreg,
.fb_pan_display = atyfb_pan_display,
.fb_blank = atyfb_blank,
.fb_ioctl = atyfb_ioctl,
.fb_fillrect = atyfb_fillrect,
.fb_copyarea = atyfb_copyarea,
.fb_imageblit = atyfb_imageblit,
#ifdef __sparc__
.fb_mmap = atyfb_mmap,
#endif
.fb_sync = atyfb_sync,
};
static int noaccel;
#ifdef CONFIG_MTRR
static int nomtrr;
#endif
static int vram;
static int pll;
static int mclk;
static int xclk;
static int comp_sync __devinitdata = -1;
static char *mode;
#ifdef CONFIG_PPC
static int default_vmode __devinitdata = VMODE_CHOOSE;
static int default_cmode __devinitdata = CMODE_CHOOSE;
module_param_named(vmode, default_vmode, int, 0);
MODULE_PARM_DESC(vmode, "int: video mode for mac");
module_param_named(cmode, default_cmode, int, 0);
MODULE_PARM_DESC(cmode, "int: color mode for mac");
#endif
#ifdef CONFIG_ATARI
static unsigned int mach64_count __devinitdata = 0;
static unsigned long phys_vmembase[FB_MAX] __devinitdata = { 0, };
static unsigned long phys_size[FB_MAX] __devinitdata = { 0, };
static unsigned long phys_guiregbase[FB_MAX] __devinitdata = { 0, };
#endif
/* top -> down is an evolution of mach64 chipset, any corrections? */
#define ATI_CHIP_88800GX (M64F_GX)
#define ATI_CHIP_88800CX (M64F_GX)
#define ATI_CHIP_264CT (M64F_CT | M64F_INTEGRATED | M64F_CT_BUS | M64F_MAGIC_FIFO)
#define ATI_CHIP_264ET (M64F_CT | M64F_INTEGRATED | M64F_CT_BUS | M64F_MAGIC_FIFO)
#define ATI_CHIP_264VT (M64F_VT | M64F_INTEGRATED | M64F_VT_BUS | M64F_MAGIC_FIFO)
#define ATI_CHIP_264GT (M64F_GT | M64F_INTEGRATED | M64F_MAGIC_FIFO | M64F_EXTRA_BRIGHT)
#define ATI_CHIP_264VTB (M64F_VT | M64F_INTEGRATED | M64F_VT_BUS | M64F_GTB_DSP)
#define ATI_CHIP_264VT3 (M64F_VT | M64F_INTEGRATED | M64F_VT_BUS | M64F_GTB_DSP | M64F_SDRAM_MAGIC_PLL)
#define ATI_CHIP_264VT4 (M64F_VT | M64F_INTEGRATED | M64F_GTB_DSP)
/* FIXME what is this chip? */
#define ATI_CHIP_264LT (M64F_GT | M64F_INTEGRATED | M64F_GTB_DSP)
/* make sets shorter */
#define ATI_MODERN_SET (M64F_GT | M64F_INTEGRATED | M64F_GTB_DSP | M64F_EXTRA_BRIGHT)
#define ATI_CHIP_264GTB (ATI_MODERN_SET | M64F_SDRAM_MAGIC_PLL)
/*#define ATI_CHIP_264GTDVD ?*/
#define ATI_CHIP_264LTG (ATI_MODERN_SET | M64F_SDRAM_MAGIC_PLL)
#define ATI_CHIP_264GT2C (ATI_MODERN_SET | M64F_SDRAM_MAGIC_PLL | M64F_HW_TRIPLE)
#define ATI_CHIP_264GTPRO (ATI_MODERN_SET | M64F_SDRAM_MAGIC_PLL | M64F_HW_TRIPLE | M64F_FIFO_32 | M64F_RESET_3D)
#define ATI_CHIP_264LTPRO (ATI_MODERN_SET | M64F_HW_TRIPLE | M64F_FIFO_32 | M64F_RESET_3D)
#define ATI_CHIP_264XL (ATI_MODERN_SET | M64F_HW_TRIPLE | M64F_FIFO_32 | M64F_RESET_3D | M64F_XL_DLL | M64F_MFB_FORCE_4)
#define ATI_CHIP_MOBILITY (ATI_MODERN_SET | M64F_HW_TRIPLE | M64F_FIFO_32 | M64F_RESET_3D | M64F_XL_DLL | M64F_MFB_FORCE_4 | M64F_MOBIL_BUS)
static struct {
u16 pci_id;
const char *name;
int pll, mclk, xclk, ecp_max;
u32 features;
} aty_chips[] __devinitdata = {
#ifdef CONFIG_FB_ATY_GX
/* Mach64 GX */
{ PCI_CHIP_MACH64GX, "ATI888GX00 (Mach64 GX)", 135, 50, 50, 0, ATI_CHIP_88800GX },
{ PCI_CHIP_MACH64CX, "ATI888CX00 (Mach64 CX)", 135, 50, 50, 0, ATI_CHIP_88800CX },
#endif /* CONFIG_FB_ATY_GX */
#ifdef CONFIG_FB_ATY_CT
{ PCI_CHIP_MACH64CT, "ATI264CT (Mach64 CT)", 135, 60, 60, 0, ATI_CHIP_264CT },
{ PCI_CHIP_MACH64ET, "ATI264ET (Mach64 ET)", 135, 60, 60, 0, ATI_CHIP_264ET },
/* FIXME what is this chip? */
{ PCI_CHIP_MACH64LT, "ATI264LT (Mach64 LT)", 135, 63, 63, 0, ATI_CHIP_264LT },
{ PCI_CHIP_MACH64VT, "ATI264VT (Mach64 VT)", 170, 67, 67, 80, ATI_CHIP_264VT },
{ PCI_CHIP_MACH64GT, "3D RAGE (Mach64 GT)", 135, 63, 63, 80, ATI_CHIP_264GT },
{ PCI_CHIP_MACH64VU, "ATI264VT3 (Mach64 VU)", 200, 67, 67, 80, ATI_CHIP_264VT3 },
{ PCI_CHIP_MACH64GU, "3D RAGE II+ (Mach64 GU)", 200, 67, 67, 100, ATI_CHIP_264GTB },
{ PCI_CHIP_MACH64LG, "3D RAGE LT (Mach64 LG)", 230, 63, 63, 100, ATI_CHIP_264LTG | M64F_LT_LCD_REGS | M64F_G3_PB_1024x768 },
{ PCI_CHIP_MACH64VV, "ATI264VT4 (Mach64 VV)", 230, 83, 83, 100, ATI_CHIP_264VT4 },
{ PCI_CHIP_MACH64GV, "3D RAGE IIC (Mach64 GV, PCI)", 230, 83, 83, 100, ATI_CHIP_264GT2C },
{ PCI_CHIP_MACH64GW, "3D RAGE IIC (Mach64 GW, AGP)", 230, 83, 83, 100, ATI_CHIP_264GT2C },
{ PCI_CHIP_MACH64GY, "3D RAGE IIC (Mach64 GY, PCI)", 230, 83, 83, 100, ATI_CHIP_264GT2C },
{ PCI_CHIP_MACH64GZ, "3D RAGE IIC (Mach64 GZ, AGP)", 230, 83, 83, 100, ATI_CHIP_264GT2C },
{ PCI_CHIP_MACH64GB, "3D RAGE PRO (Mach64 GB, BGA, AGP)", 230, 100, 100, 125, ATI_CHIP_264GTPRO },
{ PCI_CHIP_MACH64GD, "3D RAGE PRO (Mach64 GD, BGA, AGP 1x)", 230, 100, 100, 125, ATI_CHIP_264GTPRO },
{ PCI_CHIP_MACH64GI, "3D RAGE PRO (Mach64 GI, BGA, PCI)", 230, 100, 100, 125, ATI_CHIP_264GTPRO | M64F_MAGIC_VRAM_SIZE },
{ PCI_CHIP_MACH64GP, "3D RAGE PRO (Mach64 GP, PQFP, PCI)", 230, 100, 100, 125, ATI_CHIP_264GTPRO },
{ PCI_CHIP_MACH64GQ, "3D RAGE PRO (Mach64 GQ, PQFP, PCI, limited 3D)", 230, 100, 100, 125, ATI_CHIP_264GTPRO },
{ PCI_CHIP_MACH64LB, "3D RAGE LT PRO (Mach64 LB, AGP)", 236, 75, 100, 135, ATI_CHIP_264LTPRO },
{ PCI_CHIP_MACH64LD, "3D RAGE LT PRO (Mach64 LD, AGP)", 230, 100, 100, 135, ATI_CHIP_264LTPRO },
{ PCI_CHIP_MACH64LI, "3D RAGE LT PRO (Mach64 LI, PCI)", 230, 100, 100, 135, ATI_CHIP_264LTPRO | M64F_G3_PB_1_1 | M64F_G3_PB_1024x768 },
{ PCI_CHIP_MACH64LP, "3D RAGE LT PRO (Mach64 LP, PCI)", 230, 100, 100, 135, ATI_CHIP_264LTPRO | M64F_G3_PB_1024x768 },
{ PCI_CHIP_MACH64LQ, "3D RAGE LT PRO (Mach64 LQ, PCI)", 230, 100, 100, 135, ATI_CHIP_264LTPRO },
{ PCI_CHIP_MACH64GM, "3D RAGE XL (Mach64 GM, AGP 2x)", 230, 83, 63, 135, ATI_CHIP_264XL },
{ PCI_CHIP_MACH64GN, "3D RAGE XC (Mach64 GN, AGP 2x)", 230, 83, 63, 135, ATI_CHIP_264XL },
{ PCI_CHIP_MACH64GO, "3D RAGE XL (Mach64 GO, PCI-66)", 230, 83, 63, 135, ATI_CHIP_264XL },
{ PCI_CHIP_MACH64GL, "3D RAGE XC (Mach64 GL, PCI-66)", 230, 83, 63, 135, ATI_CHIP_264XL },
{ PCI_CHIP_MACH64GR, "3D RAGE XL (Mach64 GR, PCI-33)", 230, 83, 63, 135, ATI_CHIP_264XL | M64F_SDRAM_MAGIC_PLL },
{ PCI_CHIP_MACH64GS, "3D RAGE XC (Mach64 GS, PCI-33)", 230, 83, 63, 135, ATI_CHIP_264XL },
{ PCI_CHIP_MACH64LM, "3D RAGE Mobility P/M (Mach64 LM, AGP 2x)", 230, 83, 125, 135, ATI_CHIP_MOBILITY },
{ PCI_CHIP_MACH64LN, "3D RAGE Mobility L (Mach64 LN, AGP 2x)", 230, 83, 125, 135, ATI_CHIP_MOBILITY },
{ PCI_CHIP_MACH64LR, "3D RAGE Mobility P/M (Mach64 LR, PCI)", 230, 83, 125, 135, ATI_CHIP_MOBILITY },
{ PCI_CHIP_MACH64LS, "3D RAGE Mobility L (Mach64 LS, PCI)", 230, 83, 125, 135, ATI_CHIP_MOBILITY },
#endif /* CONFIG_FB_ATY_CT */
};
/* can not fail */
static int __devinit correct_chipset(struct atyfb_par *par)
{
u8 rev;
u16 type;
u32 chip_id;
const char *name;
int i;
for (i = ARRAY_SIZE(aty_chips) - 1; i >= 0; i--)
if (par->pci_id == aty_chips[i].pci_id)
break;
name = aty_chips[i].name;
par->pll_limits.pll_max = aty_chips[i].pll;
par->pll_limits.mclk = aty_chips[i].mclk;
par->pll_limits.xclk = aty_chips[i].xclk;
par->pll_limits.ecp_max = aty_chips[i].ecp_max;
par->features = aty_chips[i].features;
chip_id = aty_ld_le32(CONFIG_CHIP_ID, par);
type = chip_id & CFG_CHIP_TYPE;
rev = (chip_id & CFG_CHIP_REV) >> 24;
switch(par->pci_id) {
#ifdef CONFIG_FB_ATY_GX
case PCI_CHIP_MACH64GX:
if(type != 0x00d7)
return -ENODEV;
break;
case PCI_CHIP_MACH64CX:
if(type != 0x0057)
return -ENODEV;
break;
#endif
#ifdef CONFIG_FB_ATY_CT
case PCI_CHIP_MACH64VT:
switch (rev & 0x07) {
case 0x00:
switch (rev & 0xc0) {
case 0x00:
name = "ATI264VT (A3) (Mach64 VT)";
par->pll_limits.pll_max = 170;
par->pll_limits.mclk = 67;
par->pll_limits.xclk = 67;
par->pll_limits.ecp_max = 80;
par->features = ATI_CHIP_264VT;
break;
case 0x40:
name = "ATI264VT2 (A4) (Mach64 VT)";
par->pll_limits.pll_max = 200;
par->pll_limits.mclk = 67;
par->pll_limits.xclk = 67;
par->pll_limits.ecp_max = 80;
par->features = ATI_CHIP_264VT | M64F_MAGIC_POSTDIV;
break;
}
break;
case 0x01:
name = "ATI264VT3 (B1) (Mach64 VT)";
par->pll_limits.pll_max = 200;
par->pll_limits.mclk = 67;
par->pll_limits.xclk = 67;
par->pll_limits.ecp_max = 80;
par->features = ATI_CHIP_264VTB;
break;
case 0x02:
name = "ATI264VT3 (B2) (Mach64 VT)";
par->pll_limits.pll_max = 200;
par->pll_limits.mclk = 67;
par->pll_limits.xclk = 67;
par->pll_limits.ecp_max = 80;
par->features = ATI_CHIP_264VT3;
break;
}
break;
case PCI_CHIP_MACH64GT:
switch (rev & 0x07) {
case 0x01:
name = "3D RAGE II (Mach64 GT)";
par->pll_limits.pll_max = 170;
par->pll_limits.mclk = 67;
par->pll_limits.xclk = 67;
par->pll_limits.ecp_max = 80;
par->features = ATI_CHIP_264GTB;
break;
case 0x02:
name = "3D RAGE II+ (Mach64 GT)";
par->pll_limits.pll_max = 200;
par->pll_limits.mclk = 67;
par->pll_limits.xclk = 67;
par->pll_limits.ecp_max = 100;
par->features = ATI_CHIP_264GTB;
break;
}
break;
#endif
}
PRINTKI("%s [0x%04x rev 0x%02x]\n", name, type, rev);
return 0;
}
static char ram_dram[] __devinitdata = "DRAM";
static char ram_resv[] __devinitdata = "RESV";
#ifdef CONFIG_FB_ATY_GX
static char ram_vram[] __devinitdata = "VRAM";
#endif /* CONFIG_FB_ATY_GX */
#ifdef CONFIG_FB_ATY_CT
static char ram_edo[] __devinitdata = "EDO";
static char ram_sdram[] __devinitdata = "SDRAM (1:1)";
static char ram_sgram[] __devinitdata = "SGRAM (1:1)";
static char ram_sdram32[] __devinitdata = "SDRAM (2:1) (32-bit)";
static char ram_off[] __devinitdata = "OFF";
#endif /* CONFIG_FB_ATY_CT */
static u32 pseudo_palette[17];
#ifdef CONFIG_FB_ATY_GX
static char *aty_gx_ram[8] __devinitdata = {
ram_dram, ram_vram, ram_vram, ram_dram,
ram_dram, ram_vram, ram_vram, ram_resv
};
#endif /* CONFIG_FB_ATY_GX */
#ifdef CONFIG_FB_ATY_CT
static char *aty_ct_ram[8] __devinitdata = {
ram_off, ram_dram, ram_edo, ram_edo,
ram_sdram, ram_sgram, ram_sdram32, ram_resv
};
#endif /* CONFIG_FB_ATY_CT */
static u32 atyfb_get_pixclock(struct fb_var_screeninfo *var, struct atyfb_par *par)
{
u32 pixclock = var->pixclock;
#ifdef CONFIG_FB_ATY_GENERIC_LCD
u32 lcd_on_off;
par->pll.ct.xres = 0;
if (par->lcd_table != 0) {
lcd_on_off = aty_ld_lcd(LCD_GEN_CNTL, par);
if(lcd_on_off & LCD_ON) {
par->pll.ct.xres = var->xres;
pixclock = par->lcd_pixclock;
}
}
#endif
return pixclock;
}
#if defined(CONFIG_PPC)
/*
* Apple monitor sense
*/
static int __devinit read_aty_sense(const struct atyfb_par *par)
{
int sense, i;
aty_st_le32(GP_IO, 0x31003100, par); /* drive outputs high */
__delay(200);
aty_st_le32(GP_IO, 0, par); /* turn off outputs */
__delay(2000);
i = aty_ld_le32(GP_IO, par); /* get primary sense value */
sense = ((i & 0x3000) >> 3) | (i & 0x100);
/* drive each sense line low in turn and collect the other 2 */
aty_st_le32(GP_IO, 0x20000000, par); /* drive A low */
__delay(2000);
i = aty_ld_le32(GP_IO, par);
sense |= ((i & 0x1000) >> 7) | ((i & 0x100) >> 4);
aty_st_le32(GP_IO, 0x20002000, par); /* drive A high again */
__delay(200);
aty_st_le32(GP_IO, 0x10000000, par); /* drive B low */
__delay(2000);
i = aty_ld_le32(GP_IO, par);
sense |= ((i & 0x2000) >> 10) | ((i & 0x100) >> 6);
aty_st_le32(GP_IO, 0x10001000, par); /* drive B high again */
__delay(200);
aty_st_le32(GP_IO, 0x01000000, par); /* drive C low */
__delay(2000);
sense |= (aty_ld_le32(GP_IO, par) & 0x3000) >> 12;
aty_st_le32(GP_IO, 0, par); /* turn off outputs */
return sense;
}
#endif /* defined(CONFIG_PPC) */
/* ------------------------------------------------------------------------- */
/*
* CRTC programming
*/
static void aty_get_crtc(const struct atyfb_par *par, struct crtc *crtc)
{
#ifdef CONFIG_FB_ATY_GENERIC_LCD
if (par->lcd_table != 0) {
if(!M64_HAS(LT_LCD_REGS)) {
crtc->lcd_index = aty_ld_le32(LCD_INDEX, par);
aty_st_le32(LCD_INDEX, crtc->lcd_index, par);
}
crtc->lcd_config_panel = aty_ld_lcd(CONFIG_PANEL, par);
crtc->lcd_gen_cntl = aty_ld_lcd(LCD_GEN_CNTL, par);
/* switch to non shadow registers */
aty_st_lcd(LCD_GEN_CNTL, crtc->lcd_gen_cntl &
~(CRTC_RW_SELECT | SHADOW_EN | SHADOW_RW_EN), par);
/* save stretching */
crtc->horz_stretching = aty_ld_lcd(HORZ_STRETCHING, par);
crtc->vert_stretching = aty_ld_lcd(VERT_STRETCHING, par);
if (!M64_HAS(LT_LCD_REGS))
crtc->ext_vert_stretch = aty_ld_lcd(EXT_VERT_STRETCH, par);
}
#endif
crtc->h_tot_disp = aty_ld_le32(CRTC_H_TOTAL_DISP, par);
crtc->h_sync_strt_wid = aty_ld_le32(CRTC_H_SYNC_STRT_WID, par);
crtc->v_tot_disp = aty_ld_le32(CRTC_V_TOTAL_DISP, par);
crtc->v_sync_strt_wid = aty_ld_le32(CRTC_V_SYNC_STRT_WID, par);
crtc->vline_crnt_vline = aty_ld_le32(CRTC_VLINE_CRNT_VLINE, par);
crtc->off_pitch = aty_ld_le32(CRTC_OFF_PITCH, par);
crtc->gen_cntl = aty_ld_le32(CRTC_GEN_CNTL, par);
#ifdef CONFIG_FB_ATY_GENERIC_LCD
if (par->lcd_table != 0) {
/* switch to shadow registers */
aty_st_lcd(LCD_GEN_CNTL, (crtc->lcd_gen_cntl & ~CRTC_RW_SELECT) |
SHADOW_EN | SHADOW_RW_EN, par);
crtc->shadow_h_tot_disp = aty_ld_le32(CRTC_H_TOTAL_DISP, par);
crtc->shadow_h_sync_strt_wid = aty_ld_le32(CRTC_H_SYNC_STRT_WID, par);
crtc->shadow_v_tot_disp = aty_ld_le32(CRTC_V_TOTAL_DISP, par);
crtc->shadow_v_sync_strt_wid = aty_ld_le32(CRTC_V_SYNC_STRT_WID, par);
aty_st_le32(LCD_GEN_CNTL, crtc->lcd_gen_cntl, par);
}
#endif /* CONFIG_FB_ATY_GENERIC_LCD */
}
static void aty_set_crtc(const struct atyfb_par *par, const struct crtc *crtc)
{
#ifdef CONFIG_FB_ATY_GENERIC_LCD
if (par->lcd_table != 0) {
/* stop CRTC */
aty_st_le32(CRTC_GEN_CNTL, crtc->gen_cntl & ~(CRTC_EXT_DISP_EN | CRTC_EN), par);
/* update non-shadow registers first */
aty_st_lcd(CONFIG_PANEL, crtc->lcd_config_panel, par);
aty_st_lcd(LCD_GEN_CNTL, crtc->lcd_gen_cntl &
~(CRTC_RW_SELECT | SHADOW_EN | SHADOW_RW_EN), par);
/* temporarily disable stretching */
aty_st_lcd(HORZ_STRETCHING,
crtc->horz_stretching &
~(HORZ_STRETCH_MODE | HORZ_STRETCH_EN), par);
aty_st_lcd(VERT_STRETCHING,
crtc->vert_stretching &
~(VERT_STRETCH_RATIO1 | VERT_STRETCH_RATIO2 |
VERT_STRETCH_USE0 | VERT_STRETCH_EN), par);
}
#endif
/* turn off CRT */
aty_st_le32(CRTC_GEN_CNTL, crtc->gen_cntl & ~CRTC_EN, par);
DPRINTK("setting up CRTC\n");
DPRINTK("set primary CRT to %ix%i %c%c composite %c\n",
((((crtc->h_tot_disp>>16) & 0xff) + 1)<<3), (((crtc->v_tot_disp>>16) & 0x7ff) + 1),
(crtc->h_sync_strt_wid & 0x200000)?'N':'P', (crtc->v_sync_strt_wid & 0x200000)?'N':'P',
(crtc->gen_cntl & CRTC_CSYNC_EN)?'P':'N');
DPRINTK("CRTC_H_TOTAL_DISP: %x\n",crtc->h_tot_disp);
DPRINTK("CRTC_H_SYNC_STRT_WID: %x\n",crtc->h_sync_strt_wid);
DPRINTK("CRTC_V_TOTAL_DISP: %x\n",crtc->v_tot_disp);
DPRINTK("CRTC_V_SYNC_STRT_WID: %x\n",crtc->v_sync_strt_wid);
DPRINTK("CRTC_OFF_PITCH: %x\n", crtc->off_pitch);
DPRINTK("CRTC_VLINE_CRNT_VLINE: %x\n", crtc->vline_crnt_vline);
DPRINTK("CRTC_GEN_CNTL: %x\n",crtc->gen_cntl);
aty_st_le32(CRTC_H_TOTAL_DISP, crtc->h_tot_disp, par);
aty_st_le32(CRTC_H_SYNC_STRT_WID, crtc->h_sync_strt_wid, par);
aty_st_le32(CRTC_V_TOTAL_DISP, crtc->v_tot_disp, par);
aty_st_le32(CRTC_V_SYNC_STRT_WID, crtc->v_sync_strt_wid, par);
aty_st_le32(CRTC_OFF_PITCH, crtc->off_pitch, par);
aty_st_le32(CRTC_VLINE_CRNT_VLINE, crtc->vline_crnt_vline, par);
aty_st_le32(CRTC_GEN_CNTL, crtc->gen_cntl, par);
#if 0
FIXME
if (par->accel_flags & FB_ACCELF_TEXT)
aty_init_engine(par, info);
#endif
#ifdef CONFIG_FB_ATY_GENERIC_LCD
/* after setting the CRTC registers we should set the LCD registers. */
if (par->lcd_table != 0) {
/* switch to shadow registers */
aty_st_lcd(LCD_GEN_CNTL, (crtc->lcd_gen_cntl & ~CRTC_RW_SELECT) |
(SHADOW_EN | SHADOW_RW_EN), par);
DPRINTK("set shadow CRT to %ix%i %c%c\n",
((((crtc->shadow_h_tot_disp>>16) & 0xff) + 1)<<3), (((crtc->shadow_v_tot_disp>>16) & 0x7ff) + 1),
(crtc->shadow_h_sync_strt_wid & 0x200000)?'N':'P', (crtc->shadow_v_sync_strt_wid & 0x200000)?'N':'P');
DPRINTK("SHADOW CRTC_H_TOTAL_DISP: %x\n", crtc->shadow_h_tot_disp);
DPRINTK("SHADOW CRTC_H_SYNC_STRT_WID: %x\n", crtc->shadow_h_sync_strt_wid);
DPRINTK("SHADOW CRTC_V_TOTAL_DISP: %x\n", crtc->shadow_v_tot_disp);
DPRINTK("SHADOW CRTC_V_SYNC_STRT_WID: %x\n", crtc->shadow_v_sync_strt_wid);
aty_st_le32(CRTC_H_TOTAL_DISP, crtc->shadow_h_tot_disp, par);
aty_st_le32(CRTC_H_SYNC_STRT_WID, crtc->shadow_h_sync_strt_wid, par);
aty_st_le32(CRTC_V_TOTAL_DISP, crtc->shadow_v_tot_disp, par);
aty_st_le32(CRTC_V_SYNC_STRT_WID, crtc->shadow_v_sync_strt_wid, par);
/* restore CRTC selection & shadow state and enable stretching */
DPRINTK("LCD_GEN_CNTL: %x\n", crtc->lcd_gen_cntl);
DPRINTK("HORZ_STRETCHING: %x\n", crtc->horz_stretching);
DPRINTK("VERT_STRETCHING: %x\n", crtc->vert_stretching);
if(!M64_HAS(LT_LCD_REGS))
DPRINTK("EXT_VERT_STRETCH: %x\n", crtc->ext_vert_stretch);
aty_st_lcd(LCD_GEN_CNTL, crtc->lcd_gen_cntl, par);
aty_st_lcd(HORZ_STRETCHING, crtc->horz_stretching, par);
aty_st_lcd(VERT_STRETCHING, crtc->vert_stretching, par);
if(!M64_HAS(LT_LCD_REGS)) {
aty_st_lcd(EXT_VERT_STRETCH, crtc->ext_vert_stretch, par);
aty_ld_le32(LCD_INDEX, par);
aty_st_le32(LCD_INDEX, crtc->lcd_index, par);
}
}
#endif /* CONFIG_FB_ATY_GENERIC_LCD */
}
static int aty_var_to_crtc(const struct fb_info *info,
const struct fb_var_screeninfo *var, struct crtc *crtc)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
u32 xres, yres, vxres, vyres, xoffset, yoffset, bpp;
u32 sync, vmode, vdisplay;
u32 h_total, h_disp, h_sync_strt, h_sync_end, h_sync_dly, h_sync_wid, h_sync_pol;
u32 v_total, v_disp, v_sync_strt, v_sync_end, v_sync_wid, v_sync_pol, c_sync;
u32 pix_width, dp_pix_width, dp_chain_mask;
/* input */
xres = var->xres;
yres = var->yres;
vxres = var->xres_virtual;
vyres = var->yres_virtual;
xoffset = var->xoffset;
yoffset = var->yoffset;
bpp = var->bits_per_pixel;
if (bpp == 16)
bpp = (var->green.length == 5) ? 15 : 16;
sync = var->sync;
vmode = var->vmode;
/* convert (and round up) and validate */
if (vxres < xres + xoffset)
vxres = xres + xoffset;
h_disp = xres;
if (vyres < yres + yoffset)
vyres = yres + yoffset;
v_disp = yres;
if (bpp <= 8) {
bpp = 8;
pix_width = CRTC_PIX_WIDTH_8BPP;
dp_pix_width =
HOST_8BPP | SRC_8BPP | DST_8BPP |
BYTE_ORDER_LSB_TO_MSB;
dp_chain_mask = DP_CHAIN_8BPP;
} else if (bpp <= 15) {
bpp = 16;
pix_width = CRTC_PIX_WIDTH_15BPP;
dp_pix_width = HOST_15BPP | SRC_15BPP | DST_15BPP |
BYTE_ORDER_LSB_TO_MSB;
dp_chain_mask = DP_CHAIN_15BPP;
} else if (bpp <= 16) {
bpp = 16;
pix_width = CRTC_PIX_WIDTH_16BPP;
dp_pix_width = HOST_16BPP | SRC_16BPP | DST_16BPP |
BYTE_ORDER_LSB_TO_MSB;
dp_chain_mask = DP_CHAIN_16BPP;
} else if (bpp <= 24 && M64_HAS(INTEGRATED)) {
bpp = 24;
pix_width = CRTC_PIX_WIDTH_24BPP;
dp_pix_width =
HOST_8BPP | SRC_8BPP | DST_8BPP |
BYTE_ORDER_LSB_TO_MSB;
dp_chain_mask = DP_CHAIN_24BPP;
} else if (bpp <= 32) {
bpp = 32;
pix_width = CRTC_PIX_WIDTH_32BPP;
dp_pix_width = HOST_32BPP | SRC_32BPP | DST_32BPP |
BYTE_ORDER_LSB_TO_MSB;
dp_chain_mask = DP_CHAIN_32BPP;
} else
FAIL("invalid bpp");
if (vxres * vyres * bpp / 8 > info->fix.smem_len)
FAIL("not enough video RAM");
h_sync_pol = sync & FB_SYNC_HOR_HIGH_ACT ? 0 : 1;
v_sync_pol = sync & FB_SYNC_VERT_HIGH_ACT ? 0 : 1;
if((xres > 1600) || (yres > 1200)) {
FAIL("MACH64 chips are designed for max 1600x1200\n"
"select anoter resolution.");
}
h_sync_strt = h_disp + var->right_margin;
h_sync_end = h_sync_strt + var->hsync_len;
h_sync_dly = var->right_margin & 7;
h_total = h_sync_end + h_sync_dly + var->left_margin;
v_sync_strt = v_disp + var->lower_margin;
v_sync_end = v_sync_strt + var->vsync_len;
v_total = v_sync_end + var->upper_margin;
#ifdef CONFIG_FB_ATY_GENERIC_LCD
if (par->lcd_table != 0) {
if(!M64_HAS(LT_LCD_REGS)) {
u32 lcd_index = aty_ld_le32(LCD_INDEX, par);
crtc->lcd_index = lcd_index &
~(LCD_INDEX_MASK | LCD_DISPLAY_DIS | LCD_SRC_SEL | CRTC2_DISPLAY_DIS);
aty_st_le32(LCD_INDEX, lcd_index, par);
}
if (!M64_HAS(MOBIL_BUS))
crtc->lcd_index |= CRTC2_DISPLAY_DIS;
crtc->lcd_config_panel = aty_ld_lcd(CONFIG_PANEL, par) | 0x4000;
crtc->lcd_gen_cntl = aty_ld_lcd(LCD_GEN_CNTL, par) & ~CRTC_RW_SELECT;
crtc->lcd_gen_cntl &=
~(HORZ_DIVBY2_EN | DIS_HOR_CRT_DIVBY2 | TVCLK_PM_EN |
/*VCLK_DAC_PM_EN | USE_SHADOWED_VEND |*/
USE_SHADOWED_ROWCUR | SHADOW_EN | SHADOW_RW_EN);
crtc->lcd_gen_cntl |= DONT_SHADOW_VPAR | LOCK_8DOT;
if((crtc->lcd_gen_cntl & LCD_ON) &&
((xres > par->lcd_width) || (yres > par->lcd_height))) {
/* We cannot display the mode on the LCD. If the CRT is enabled
we can turn off the LCD.
If the CRT is off, it isn't a good idea to switch it on; we don't
know if one is connected. So it's better to fail then.
*/
if (crtc->lcd_gen_cntl & CRT_ON) {
if (!(var->activate & FB_ACTIVATE_TEST))
PRINTKI("Disable LCD panel, because video mode does not fit.\n");
crtc->lcd_gen_cntl &= ~LCD_ON;
/*aty_st_lcd(LCD_GEN_CNTL, crtc->lcd_gen_cntl, par);*/
} else {
if (!(var->activate & FB_ACTIVATE_TEST))
PRINTKE("Video mode exceeds size of LCD panel.\nConnect this computer to a conventional monitor if you really need this mode.\n");
return -EINVAL;
}
}
}
if ((par->lcd_table != 0) && (crtc->lcd_gen_cntl & LCD_ON)) {
int VScan = 1;
/* bpp -> bytespp, 1,4 -> 0; 8 -> 2; 15,16 -> 1; 24 -> 6; 32 -> 5
const u8 DFP_h_sync_dly_LT[] = { 0, 2, 1, 6, 5 };
const u8 ADD_to_strt_wid_and_dly_LT_DAC[] = { 0, 5, 6, 9, 9, 12, 12 }; */
vmode &= ~(FB_VMODE_DOUBLE | FB_VMODE_INTERLACED);
/* This is horror! When we simulate, say 640x480 on an 800x600
LCD monitor, the CRTC should be programmed 800x600 values for
the non visible part, but 640x480 for the visible part.
This code has been tested on a laptop with it's 1400x1050 LCD
monitor and a conventional monitor both switched on.
Tested modes: 1280x1024, 1152x864, 1024x768, 800x600,
works with little glitches also with DOUBLESCAN modes
*/
if (yres < par->lcd_height) {
VScan = par->lcd_height / yres;
if(VScan > 1) {
VScan = 2;
vmode |= FB_VMODE_DOUBLE;
}
}
h_sync_strt = h_disp + par->lcd_right_margin;
h_sync_end = h_sync_strt + par->lcd_hsync_len;
h_sync_dly = /*DFP_h_sync_dly[ ( bpp + 1 ) / 3 ]; */par->lcd_hsync_dly;
h_total = h_disp + par->lcd_hblank_len;
v_sync_strt = v_disp + par->lcd_lower_margin / VScan;
v_sync_end = v_sync_strt + par->lcd_vsync_len / VScan;
v_total = v_disp + par->lcd_vblank_len / VScan;
}
#endif /* CONFIG_FB_ATY_GENERIC_LCD */
h_disp = (h_disp >> 3) - 1;
h_sync_strt = (h_sync_strt >> 3) - 1;
h_sync_end = (h_sync_end >> 3) - 1;
h_total = (h_total >> 3) - 1;
h_sync_wid = h_sync_end - h_sync_strt;
FAIL_MAX("h_disp too large", h_disp, 0xff);
FAIL_MAX("h_sync_strt too large", h_sync_strt, 0x1ff);
/*FAIL_MAX("h_sync_wid too large", h_sync_wid, 0x1f);*/
if(h_sync_wid > 0x1f)
h_sync_wid = 0x1f;
FAIL_MAX("h_total too large", h_total, 0x1ff);
if (vmode & FB_VMODE_DOUBLE) {
v_disp <<= 1;
v_sync_strt <<= 1;
v_sync_end <<= 1;
v_total <<= 1;
}
vdisplay = yres;
#ifdef CONFIG_FB_ATY_GENERIC_LCD
if ((par->lcd_table != 0) && (crtc->lcd_gen_cntl & LCD_ON))
vdisplay = par->lcd_height;
#endif
v_disp--;
v_sync_strt--;
v_sync_end--;
v_total--;
v_sync_wid = v_sync_end - v_sync_strt;
FAIL_MAX("v_disp too large", v_disp, 0x7ff);
FAIL_MAX("v_sync_stsrt too large", v_sync_strt, 0x7ff);
/*FAIL_MAX("v_sync_wid too large", v_sync_wid, 0x1f);*/
if(v_sync_wid > 0x1f)
v_sync_wid = 0x1f;
FAIL_MAX("v_total too large", v_total, 0x7ff);
c_sync = sync & FB_SYNC_COMP_HIGH_ACT ? CRTC_CSYNC_EN : 0;
/* output */
crtc->vxres = vxres;
crtc->vyres = vyres;
crtc->xoffset = xoffset;
crtc->yoffset = yoffset;
crtc->bpp = bpp;
crtc->off_pitch = ((yoffset*vxres+xoffset)*bpp/64) | (vxres<<19);
crtc->vline_crnt_vline = 0;
crtc->h_tot_disp = h_total | (h_disp<<16);
crtc->h_sync_strt_wid = (h_sync_strt & 0xff) | (h_sync_dly<<8) |
((h_sync_strt & 0x100)<<4) | (h_sync_wid<<16) | (h_sync_pol<<21);
crtc->v_tot_disp = v_total | (v_disp<<16);
crtc->v_sync_strt_wid = v_sync_strt | (v_sync_wid<<16) | (v_sync_pol<<21);
/* crtc->gen_cntl = aty_ld_le32(CRTC_GEN_CNTL, par) & CRTC_PRESERVED_MASK; */
crtc->gen_cntl = CRTC_EXT_DISP_EN | CRTC_EN | pix_width | c_sync;
crtc->gen_cntl |= CRTC_VGA_LINEAR;
/* Enable doublescan mode if requested */
if (vmode & FB_VMODE_DOUBLE)
crtc->gen_cntl |= CRTC_DBL_SCAN_EN;
/* Enable interlaced mode if requested */
if (vmode & FB_VMODE_INTERLACED)
crtc->gen_cntl |= CRTC_INTERLACE_EN;
#ifdef CONFIG_FB_ATY_GENERIC_LCD
if (par->lcd_table != 0) {
vdisplay = yres;
if(vmode & FB_VMODE_DOUBLE)
vdisplay <<= 1;
crtc->gen_cntl &= ~(CRTC2_EN | CRTC2_PIX_WIDTH);
crtc->lcd_gen_cntl &= ~(HORZ_DIVBY2_EN | DIS_HOR_CRT_DIVBY2 |
/*TVCLK_PM_EN | VCLK_DAC_PM_EN |*/
USE_SHADOWED_VEND | USE_SHADOWED_ROWCUR | SHADOW_EN | SHADOW_RW_EN);
crtc->lcd_gen_cntl |= (DONT_SHADOW_VPAR/* | LOCK_8DOT*/);
/* MOBILITY M1 tested, FIXME: LT */
crtc->horz_stretching = aty_ld_lcd(HORZ_STRETCHING, par);
if (!M64_HAS(LT_LCD_REGS))
crtc->ext_vert_stretch = aty_ld_lcd(EXT_VERT_STRETCH, par) &
~(AUTO_VERT_RATIO | VERT_STRETCH_MODE | VERT_STRETCH_RATIO3);
crtc->horz_stretching &=
~(HORZ_STRETCH_RATIO | HORZ_STRETCH_LOOP | AUTO_HORZ_RATIO |
HORZ_STRETCH_MODE | HORZ_STRETCH_EN);
if (xres < par->lcd_width && crtc->lcd_gen_cntl & LCD_ON) {
do {
/*
* The horizontal blender misbehaves when HDisplay is less than a
* a certain threshold (440 for a 1024-wide panel). It doesn't
* stretch such modes enough. Use pixel replication instead of
* blending to stretch modes that can be made to exactly fit the
* panel width. The undocumented "NoLCDBlend" option allows the
* pixel-replicated mode to be slightly wider or narrower than the
* panel width. It also causes a mode that is exactly half as wide
* as the panel to be pixel-replicated, rather than blended.
*/
int HDisplay = xres & ~7;
int nStretch = par->lcd_width / HDisplay;
int Remainder = par->lcd_width % HDisplay;
if ((!Remainder && ((nStretch > 2))) ||
(((HDisplay * 16) / par->lcd_width) < 7)) {
static const char StretchLoops[] = {10, 12, 13, 15, 16};
int horz_stretch_loop = -1, BestRemainder;
int Numerator = HDisplay, Denominator = par->lcd_width;
int Index = 5;
ATIReduceRatio(&Numerator, &Denominator);
BestRemainder = (Numerator * 16) / Denominator;
while (--Index >= 0) {
Remainder = ((Denominator - Numerator) * StretchLoops[Index]) %
Denominator;
if (Remainder < BestRemainder) {
horz_stretch_loop = Index;
if (!(BestRemainder = Remainder))
break;
}
}
if ((horz_stretch_loop >= 0) && !BestRemainder) {
int horz_stretch_ratio = 0, Accumulator = 0;
int reuse_previous = 1;
Index = StretchLoops[horz_stretch_loop];
while (--Index >= 0) {
if (Accumulator > 0)
horz_stretch_ratio |= reuse_previous;
else
Accumulator += Denominator;
Accumulator -= Numerator;
reuse_previous <<= 1;
}
crtc->horz_stretching |= (HORZ_STRETCH_EN |
((horz_stretch_loop & HORZ_STRETCH_LOOP) << 16) |
(horz_stretch_ratio & HORZ_STRETCH_RATIO));
break; /* Out of the do { ... } while (0) */
}
}
crtc->horz_stretching |= (HORZ_STRETCH_MODE | HORZ_STRETCH_EN |
(((HDisplay * (HORZ_STRETCH_BLEND + 1)) / par->lcd_width) & HORZ_STRETCH_BLEND));
} while (0);
}
if (vdisplay < par->lcd_height && crtc->lcd_gen_cntl & LCD_ON) {
crtc->vert_stretching = (VERT_STRETCH_USE0 | VERT_STRETCH_EN |
(((vdisplay * (VERT_STRETCH_RATIO0 + 1)) / par->lcd_height) & VERT_STRETCH_RATIO0));
if (!M64_HAS(LT_LCD_REGS) &&
xres <= (M64_HAS(MOBIL_BUS)?1024:800))
crtc->ext_vert_stretch |= VERT_STRETCH_MODE;
} else {
/*
* Don't use vertical blending if the mode is too wide or not
* vertically stretched.
*/
crtc->vert_stretching = 0;
}
/* copy to shadow crtc */
crtc->shadow_h_tot_disp = crtc->h_tot_disp;
crtc->shadow_h_sync_strt_wid = crtc->h_sync_strt_wid;
crtc->shadow_v_tot_disp = crtc->v_tot_disp;
crtc->shadow_v_sync_strt_wid = crtc->v_sync_strt_wid;
}
#endif /* CONFIG_FB_ATY_GENERIC_LCD */
if (M64_HAS(MAGIC_FIFO)) {
/* FIXME: display FIFO low watermark values */
crtc->gen_cntl |= (aty_ld_le32(CRTC_GEN_CNTL, par) & CRTC_FIFO_LWM);
}
crtc->dp_pix_width = dp_pix_width;
crtc->dp_chain_mask = dp_chain_mask;
return 0;
}
static int aty_crtc_to_var(const struct crtc *crtc, struct fb_var_screeninfo *var)
{
u32 xres, yres, bpp, left, right, upper, lower, hslen, vslen, sync;
u32 h_total, h_disp, h_sync_strt, h_sync_dly, h_sync_wid,
h_sync_pol;
u32 v_total, v_disp, v_sync_strt, v_sync_wid, v_sync_pol, c_sync;
u32 pix_width;
u32 double_scan, interlace;
/* input */
h_total = crtc->h_tot_disp & 0x1ff;
h_disp = (crtc->h_tot_disp >> 16) & 0xff;
h_sync_strt = (crtc->h_sync_strt_wid & 0xff) | ((crtc->h_sync_strt_wid >> 4) & 0x100);
h_sync_dly = (crtc->h_sync_strt_wid >> 8) & 0x7;
h_sync_wid = (crtc->h_sync_strt_wid >> 16) & 0x1f;
h_sync_pol = (crtc->h_sync_strt_wid >> 21) & 0x1;
v_total = crtc->v_tot_disp & 0x7ff;
v_disp = (crtc->v_tot_disp >> 16) & 0x7ff;
v_sync_strt = crtc->v_sync_strt_wid & 0x7ff;
v_sync_wid = (crtc->v_sync_strt_wid >> 16) & 0x1f;
v_sync_pol = (crtc->v_sync_strt_wid >> 21) & 0x1;
c_sync = crtc->gen_cntl & CRTC_CSYNC_EN ? 1 : 0;
pix_width = crtc->gen_cntl & CRTC_PIX_WIDTH_MASK;
double_scan = crtc->gen_cntl & CRTC_DBL_SCAN_EN;
interlace = crtc->gen_cntl & CRTC_INTERLACE_EN;
/* convert */
xres = (h_disp + 1) * 8;
yres = v_disp + 1;
left = (h_total - h_sync_strt - h_sync_wid) * 8 - h_sync_dly;
right = (h_sync_strt - h_disp) * 8 + h_sync_dly;
hslen = h_sync_wid * 8;
upper = v_total - v_sync_strt - v_sync_wid;
lower = v_sync_strt - v_disp;
vslen = v_sync_wid;
sync = (h_sync_pol ? 0 : FB_SYNC_HOR_HIGH_ACT) |
(v_sync_pol ? 0 : FB_SYNC_VERT_HIGH_ACT) |
(c_sync ? FB_SYNC_COMP_HIGH_ACT : 0);
switch (pix_width) {
#if 0
case CRTC_PIX_WIDTH_4BPP:
bpp = 4;
var->red.offset = 0;
var->red.length = 8;
var->green.offset = 0;
var->green.length = 8;
var->blue.offset = 0;
var->blue.length = 8;
var->transp.offset = 0;
var->transp.length = 0;
break;
#endif
case CRTC_PIX_WIDTH_8BPP:
bpp = 8;
var->red.offset = 0;
var->red.length = 8;
var->green.offset = 0;
var->green.length = 8;
var->blue.offset = 0;
var->blue.length = 8;
var->transp.offset = 0;
var->transp.length = 0;
break;
case CRTC_PIX_WIDTH_15BPP: /* RGB 555 */
bpp = 16;
var->red.offset = 10;
var->red.length = 5;
var->green.offset = 5;
var->green.length = 5;
var->blue.offset = 0;
var->blue.length = 5;
var->transp.offset = 0;
var->transp.length = 0;
break;
case CRTC_PIX_WIDTH_16BPP: /* RGB 565 */
bpp = 16;
var->red.offset = 11;
var->red.length = 5;
var->green.offset = 5;
var->green.length = 6;
var->blue.offset = 0;
var->blue.length = 5;
var->transp.offset = 0;
var->transp.length = 0;
break;
case CRTC_PIX_WIDTH_24BPP: /* RGB 888 */
bpp = 24;
var->red.offset = 16;
var->red.length = 8;
var->green.offset = 8;
var->green.length = 8;
var->blue.offset = 0;
var->blue.length = 8;
var->transp.offset = 0;
var->transp.length = 0;
break;
case CRTC_PIX_WIDTH_32BPP: /* ARGB 8888 */
bpp = 32;
var->red.offset = 16;
var->red.length = 8;
var->green.offset = 8;
var->green.length = 8;
var->blue.offset = 0;
var->blue.length = 8;
var->transp.offset = 24;
var->transp.length = 8;
break;
default:
PRINTKE("Invalid pixel width\n");
return -EINVAL;
}
/* output */
var->xres = xres;
var->yres = yres;
var->xres_virtual = crtc->vxres;
var->yres_virtual = crtc->vyres;
var->bits_per_pixel = bpp;
var->left_margin = left;
var->right_margin = right;
var->upper_margin = upper;
var->lower_margin = lower;
var->hsync_len = hslen;
var->vsync_len = vslen;
var->sync = sync;
var->vmode = FB_VMODE_NONINTERLACED;
/* In double scan mode, the vertical parameters are doubled, so we need to
half them to get the right values.
In interlaced mode the values are already correct, so no correction is
necessary.
*/
if (interlace)
var->vmode = FB_VMODE_INTERLACED;
if (double_scan) {
var->vmode = FB_VMODE_DOUBLE;
var->yres>>=1;
var->upper_margin>>=1;
var->lower_margin>>=1;
var->vsync_len>>=1;
}
return 0;
}
/* ------------------------------------------------------------------------- */
static int atyfb_set_par(struct fb_info *info)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
struct fb_var_screeninfo *var = &info->var;
u32 tmp, pixclock;
int err;
#ifdef DEBUG
struct fb_var_screeninfo debug;
u32 pixclock_in_ps;
#endif
if (par->asleep)
return 0;
if ((err = aty_var_to_crtc(info, var, &par->crtc)))
return err;
pixclock = atyfb_get_pixclock(var, par);
if (pixclock == 0) {
PRINTKE("Invalid pixclock\n");
return -EINVAL;
} else {
if((err = par->pll_ops->var_to_pll(info, pixclock, var->bits_per_pixel, &par->pll)))
return err;
}
par->accel_flags = var->accel_flags; /* hack */
if (var->accel_flags) {
info->fbops->fb_sync = atyfb_sync;
info->flags &= ~FBINFO_HWACCEL_DISABLED;
} else {
info->fbops->fb_sync = NULL;
info->flags |= FBINFO_HWACCEL_DISABLED;
}
if (par->blitter_may_be_busy)
wait_for_idle(par);
aty_set_crtc(par, &par->crtc);
par->dac_ops->set_dac(info, &par->pll, var->bits_per_pixel, par->accel_flags);
par->pll_ops->set_pll(info, &par->pll);
#ifdef DEBUG
if(par->pll_ops && par->pll_ops->pll_to_var)
pixclock_in_ps = par->pll_ops->pll_to_var(info, &(par->pll));
else
pixclock_in_ps = 0;
if(0 == pixclock_in_ps) {
PRINTKE("ALERT ops->pll_to_var get 0\n");
pixclock_in_ps = pixclock;
}
memset(&debug, 0, sizeof(debug));
if(!aty_crtc_to_var(&(par->crtc), &debug)) {
u32 hSync, vRefresh;
u32 h_disp, h_sync_strt, h_sync_end, h_total;
u32 v_disp, v_sync_strt, v_sync_end, v_total;
h_disp = debug.xres;
h_sync_strt = h_disp + debug.right_margin;
h_sync_end = h_sync_strt + debug.hsync_len;
h_total = h_sync_end + debug.left_margin;
v_disp = debug.yres;
v_sync_strt = v_disp + debug.lower_margin;
v_sync_end = v_sync_strt + debug.vsync_len;
v_total = v_sync_end + debug.upper_margin;
hSync = 1000000000 / (pixclock_in_ps * h_total);
vRefresh = (hSync * 1000) / v_total;
if (par->crtc.gen_cntl & CRTC_INTERLACE_EN)
vRefresh *= 2;
if (par->crtc.gen_cntl & CRTC_DBL_SCAN_EN)
vRefresh /= 2;
DPRINTK("atyfb_set_par\n");
DPRINTK(" Set Visible Mode to %ix%i-%i\n", var->xres, var->yres, var->bits_per_pixel);
DPRINTK(" Virtual resolution %ix%i, pixclock_in_ps %i (calculated %i)\n",
var->xres_virtual, var->yres_virtual, pixclock, pixclock_in_ps);
DPRINTK(" Dot clock: %i MHz\n", 1000000 / pixclock_in_ps);
DPRINTK(" Horizontal sync: %i kHz\n", hSync);
DPRINTK(" Vertical refresh: %i Hz\n", vRefresh);
DPRINTK(" x style: %i.%03i %i %i %i %i %i %i %i %i\n",
1000000 / pixclock_in_ps, 1000000 % pixclock_in_ps,
h_disp, h_sync_strt, h_sync_end, h_total,
v_disp, v_sync_strt, v_sync_end, v_total);
DPRINTK(" fb style: %i %i %i %i %i %i %i %i %i\n",
pixclock_in_ps,
debug.left_margin, h_disp, debug.right_margin, debug.hsync_len,
debug.upper_margin, v_disp, debug.lower_margin, debug.vsync_len);
}
#endif /* DEBUG */
if (!M64_HAS(INTEGRATED)) {
/* Don't forget MEM_CNTL */
tmp = aty_ld_le32(MEM_CNTL, par) & 0xf0ffffff;
switch (var->bits_per_pixel) {
case 8:
tmp |= 0x02000000;
break;
case 16:
tmp |= 0x03000000;
break;
case 32:
tmp |= 0x06000000;
break;
}
aty_st_le32(MEM_CNTL, tmp, par);
} else {
tmp = aty_ld_le32(MEM_CNTL, par) & 0xf00fffff;
if (!M64_HAS(MAGIC_POSTDIV))
tmp |= par->mem_refresh_rate << 20;
switch (var->bits_per_pixel) {
case 8:
case 24:
tmp |= 0x00000000;
break;
case 16:
tmp |= 0x04000000;
break;
case 32:
tmp |= 0x08000000;
break;
}
if (M64_HAS(CT_BUS)) {
aty_st_le32(DAC_CNTL, 0x87010184, par);
aty_st_le32(BUS_CNTL, 0x680000f9, par);
} else if (M64_HAS(VT_BUS)) {
aty_st_le32(DAC_CNTL, 0x87010184, par);
aty_st_le32(BUS_CNTL, 0x680000f9, par);
} else if (M64_HAS(MOBIL_BUS)) {
aty_st_le32(DAC_CNTL, 0x80010102, par);
aty_st_le32(BUS_CNTL, 0x7b33a040 | (par->aux_start ? BUS_APER_REG_DIS : 0), par);
} else {
/* GT */
aty_st_le32(DAC_CNTL, 0x86010102, par);
aty_st_le32(BUS_CNTL, 0x7b23a040 | (par->aux_start ? BUS_APER_REG_DIS : 0), par);
aty_st_le32(EXT_MEM_CNTL, aty_ld_le32(EXT_MEM_CNTL, par) | 0x5000001, par);
}
aty_st_le32(MEM_CNTL, tmp, par);
}
aty_st_8(DAC_MASK, 0xff, par);
info->fix.line_length = var->xres_virtual * var->bits_per_pixel/8;
info->fix.visual = var->bits_per_pixel <= 8 ?
FB_VISUAL_PSEUDOCOLOR : FB_VISUAL_DIRECTCOLOR;
/* Initialize the graphics engine */
if (par->accel_flags & FB_ACCELF_TEXT)
aty_init_engine(par, info);
#ifdef CONFIG_BOOTX_TEXT
btext_update_display(info->fix.smem_start,
(((par->crtc.h_tot_disp >> 16) & 0xff) + 1) * 8,
((par->crtc.v_tot_disp >> 16) & 0x7ff) + 1,
var->bits_per_pixel,
par->crtc.vxres * var->bits_per_pixel / 8);
#endif /* CONFIG_BOOTX_TEXT */
#if 0
/* switch to accelerator mode */
if (!(par->crtc.gen_cntl & CRTC_EXT_DISP_EN))
aty_st_le32(CRTC_GEN_CNTL, par->crtc.gen_cntl | CRTC_EXT_DISP_EN, par);
#endif
#ifdef DEBUG
{
/* dump non shadow CRTC, pll, LCD registers */
int i; u32 base;
/* CRTC registers */
base = 0x2000;
printk("debug atyfb: Mach64 non-shadow register values:");
for (i = 0; i < 256; i = i+4) {
if(i%16 == 0) printk("\ndebug atyfb: 0x%04X: ", base + i);
printk(" %08X", aty_ld_le32(i, par));
}
printk("\n\n");
#ifdef CONFIG_FB_ATY_CT
/* PLL registers */
base = 0x00;
printk("debug atyfb: Mach64 PLL register values:");
for (i = 0; i < 64; i++) {
if(i%16 == 0) printk("\ndebug atyfb: 0x%02X: ", base + i);
if(i%4 == 0) printk(" ");
printk("%02X", aty_ld_pll_ct(i, par));
}
printk("\n\n");
#endif /* CONFIG_FB_ATY_CT */
#ifdef CONFIG_FB_ATY_GENERIC_LCD
if (par->lcd_table != 0) {
/* LCD registers */
base = 0x00;
printk("debug atyfb: LCD register values:");
if(M64_HAS(LT_LCD_REGS)) {
for(i = 0; i <= POWER_MANAGEMENT; i++) {
if(i == EXT_VERT_STRETCH)
continue;
printk("\ndebug atyfb: 0x%04X: ", lt_lcd_regs[i]);
printk(" %08X", aty_ld_lcd(i, par));
}
} else {
for (i = 0; i < 64; i++) {
if(i%4 == 0) printk("\ndebug atyfb: 0x%02X: ", base + i);
printk(" %08X", aty_ld_lcd(i, par));
}
}
printk("\n\n");
}
#endif /* CONFIG_FB_ATY_GENERIC_LCD */
}
#endif /* DEBUG */
return 0;
}
static int atyfb_check_var(struct fb_var_screeninfo *var, struct fb_info *info)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
int err;
struct crtc crtc;
union aty_pll pll;
u32 pixclock;
memcpy(&pll, &(par->pll), sizeof(pll));
if((err = aty_var_to_crtc(info, var, &crtc)))
return err;
pixclock = atyfb_get_pixclock(var, par);
if (pixclock == 0) {
if (!(var->activate & FB_ACTIVATE_TEST))
PRINTKE("Invalid pixclock\n");
return -EINVAL;
} else {
if((err = par->pll_ops->var_to_pll(info, pixclock, var->bits_per_pixel, &pll)))
return err;
}
if (var->accel_flags & FB_ACCELF_TEXT)
info->var.accel_flags = FB_ACCELF_TEXT;
else
info->var.accel_flags = 0;
aty_crtc_to_var(&crtc, var);
var->pixclock = par->pll_ops->pll_to_var(info, &pll);
return 0;
}
static void set_off_pitch(struct atyfb_par *par, const struct fb_info *info)
{
u32 xoffset = info->var.xoffset;
u32 yoffset = info->var.yoffset;
u32 vxres = par->crtc.vxres;
u32 bpp = info->var.bits_per_pixel;
par->crtc.off_pitch = ((yoffset * vxres + xoffset) * bpp / 64) | (vxres << 19);
}
/*
* Open/Release the frame buffer device
*/
static int atyfb_open(struct fb_info *info, int user)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
if (user) {
par->open++;
#ifdef __sparc__
par->mmaped = 0;
#endif
}
return (0);
}
static irqreturn_t aty_irq(int irq, void *dev_id)
{
struct atyfb_par *par = dev_id;
int handled = 0;
u32 int_cntl;
spin_lock(&par->int_lock);
int_cntl = aty_ld_le32(CRTC_INT_CNTL, par);
if (int_cntl & CRTC_VBLANK_INT) {
/* clear interrupt */
aty_st_le32(CRTC_INT_CNTL, (int_cntl & CRTC_INT_EN_MASK) | CRTC_VBLANK_INT_AK, par);
par->vblank.count++;
if (par->vblank.pan_display) {
par->vblank.pan_display = 0;
aty_st_le32(CRTC_OFF_PITCH, par->crtc.off_pitch, par);
}
wake_up_interruptible(&par->vblank.wait);
handled = 1;
}
spin_unlock(&par->int_lock);
return IRQ_RETVAL(handled);
}
static int aty_enable_irq(struct atyfb_par *par, int reenable)
{
u32 int_cntl;
if (!test_and_set_bit(0, &par->irq_flags)) {
if (request_irq(par->irq, aty_irq, IRQF_SHARED, "atyfb", par)) {
clear_bit(0, &par->irq_flags);
return -EINVAL;
}
spin_lock_irq(&par->int_lock);
int_cntl = aty_ld_le32(CRTC_INT_CNTL, par) & CRTC_INT_EN_MASK;
/* clear interrupt */
aty_st_le32(CRTC_INT_CNTL, int_cntl | CRTC_VBLANK_INT_AK, par);
/* enable interrupt */
aty_st_le32(CRTC_INT_CNTL, int_cntl | CRTC_VBLANK_INT_EN, par);
spin_unlock_irq(&par->int_lock);
} else if (reenable) {
spin_lock_irq(&par->int_lock);
int_cntl = aty_ld_le32(CRTC_INT_CNTL, par) & CRTC_INT_EN_MASK;
if (!(int_cntl & CRTC_VBLANK_INT_EN)) {
printk("atyfb: someone disabled IRQ [%08x]\n", int_cntl);
/* re-enable interrupt */
aty_st_le32(CRTC_INT_CNTL, int_cntl | CRTC_VBLANK_INT_EN, par );
}
spin_unlock_irq(&par->int_lock);
}
return 0;
}
static int aty_disable_irq(struct atyfb_par *par)
{
u32 int_cntl;
if (test_and_clear_bit(0, &par->irq_flags)) {
if (par->vblank.pan_display) {
par->vblank.pan_display = 0;
aty_st_le32(CRTC_OFF_PITCH, par->crtc.off_pitch, par);
}
spin_lock_irq(&par->int_lock);
int_cntl = aty_ld_le32(CRTC_INT_CNTL, par) & CRTC_INT_EN_MASK;
/* disable interrupt */
aty_st_le32(CRTC_INT_CNTL, int_cntl & ~CRTC_VBLANK_INT_EN, par );
spin_unlock_irq(&par->int_lock);
free_irq(par->irq, par);
}
return 0;
}
static int atyfb_release(struct fb_info *info, int user)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
if (user) {
par->open--;
mdelay(1);
wait_for_idle(par);
if (!par->open) {
#ifdef __sparc__
int was_mmaped = par->mmaped;
par->mmaped = 0;
if (was_mmaped) {
struct fb_var_screeninfo var;
/* Now reset the default display config, we have no
* idea what the program(s) which mmap'd the chip did
* to the configuration, nor whether it restored it
* correctly.
*/
var = default_var;
if (noaccel)
var.accel_flags &= ~FB_ACCELF_TEXT;
else
var.accel_flags |= FB_ACCELF_TEXT;
if (var.yres == var.yres_virtual) {
u32 videoram = (info->fix.smem_len - (PAGE_SIZE << 2));
var.yres_virtual = ((videoram * 8) / var.bits_per_pixel) / var.xres_virtual;
if (var.yres_virtual < var.yres)
var.yres_virtual = var.yres;
}
}
#endif
aty_disable_irq(par);
}
}
return (0);
}
/*
* Pan or Wrap the Display
*
* This call looks only at xoffset, yoffset and the FB_VMODE_YWRAP flag
*/
static int atyfb_pan_display(struct fb_var_screeninfo *var, struct fb_info *info)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
u32 xres, yres, xoffset, yoffset;
xres = (((par->crtc.h_tot_disp >> 16) & 0xff) + 1) * 8;
yres = ((par->crtc.v_tot_disp >> 16) & 0x7ff) + 1;
if (par->crtc.gen_cntl & CRTC_DBL_SCAN_EN)
yres >>= 1;
xoffset = (var->xoffset + 7) & ~7;
yoffset = var->yoffset;
if (xoffset + xres > par->crtc.vxres || yoffset + yres > par->crtc.vyres)
return -EINVAL;
info->var.xoffset = xoffset;
info->var.yoffset = yoffset;
if (par->asleep)
return 0;
set_off_pitch(par, info);
if ((var->activate & FB_ACTIVATE_VBL) && !aty_enable_irq(par, 0)) {
par->vblank.pan_display = 1;
} else {
par->vblank.pan_display = 0;
aty_st_le32(CRTC_OFF_PITCH, par->crtc.off_pitch, par);
}
return 0;
}
static int aty_waitforvblank(struct atyfb_par *par, u32 crtc)
{
struct aty_interrupt *vbl;
unsigned int count;
int ret;
switch (crtc) {
case 0:
vbl = &par->vblank;
break;
default:
return -ENODEV;
}
ret = aty_enable_irq(par, 0);
if (ret)
return ret;
count = vbl->count;
ret = wait_event_interruptible_timeout(vbl->wait, count != vbl->count, HZ/10);
if (ret < 0) {
return ret;
}
if (ret == 0) {
aty_enable_irq(par, 1);
return -ETIMEDOUT;
}
return 0;
}
#ifdef DEBUG
#define ATYIO_CLKR 0x41545900 /* ATY\00 */
#define ATYIO_CLKW 0x41545901 /* ATY\01 */
struct atyclk {
u32 ref_clk_per;
u8 pll_ref_div;
u8 mclk_fb_div;
u8 mclk_post_div; /* 1,2,3,4,8 */
u8 mclk_fb_mult; /* 2 or 4 */
u8 xclk_post_div; /* 1,2,3,4,8 */
u8 vclk_fb_div;
u8 vclk_post_div; /* 1,2,3,4,6,8,12 */
u32 dsp_xclks_per_row; /* 0-16383 */
u32 dsp_loop_latency; /* 0-15 */
u32 dsp_precision; /* 0-7 */
u32 dsp_on; /* 0-2047 */
u32 dsp_off; /* 0-2047 */
};
#define ATYIO_FEATR 0x41545902 /* ATY\02 */
#define ATYIO_FEATW 0x41545903 /* ATY\03 */
#endif
#ifndef FBIO_WAITFORVSYNC
#define FBIO_WAITFORVSYNC _IOW('F', 0x20, __u32)
#endif
static int atyfb_ioctl(struct fb_info *info, u_int cmd, u_long arg)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
#ifdef __sparc__
struct fbtype fbtyp;
#endif
switch (cmd) {
#ifdef __sparc__
case FBIOGTYPE:
fbtyp.fb_type = FBTYPE_PCI_GENERIC;
fbtyp.fb_width = par->crtc.vxres;
fbtyp.fb_height = par->crtc.vyres;
fbtyp.fb_depth = info->var.bits_per_pixel;
fbtyp.fb_cmsize = info->cmap.len;
fbtyp.fb_size = info->fix.smem_len;
if (copy_to_user((struct fbtype __user *) arg, &fbtyp, sizeof(fbtyp)))
return -EFAULT;
break;
#endif /* __sparc__ */
case FBIO_WAITFORVSYNC:
{
u32 crtc;
if (get_user(crtc, (__u32 __user *) arg))
return -EFAULT;
return aty_waitforvblank(par, crtc);
}
break;
#if defined(DEBUG) && defined(CONFIG_FB_ATY_CT)
case ATYIO_CLKR:
if (M64_HAS(INTEGRATED)) {
struct atyclk clk;
union aty_pll *pll = &(par->pll);
u32 dsp_config = pll->ct.dsp_config;
u32 dsp_on_off = pll->ct.dsp_on_off;
clk.ref_clk_per = par->ref_clk_per;
clk.pll_ref_div = pll->ct.pll_ref_div;
clk.mclk_fb_div = pll->ct.mclk_fb_div;
clk.mclk_post_div = pll->ct.mclk_post_div_real;
clk.mclk_fb_mult = pll->ct.mclk_fb_mult;
clk.xclk_post_div = pll->ct.xclk_post_div_real;
clk.vclk_fb_div = pll->ct.vclk_fb_div;
clk.vclk_post_div = pll->ct.vclk_post_div_real;
clk.dsp_xclks_per_row = dsp_config & 0x3fff;
clk.dsp_loop_latency = (dsp_config >> 16) & 0xf;
clk.dsp_precision = (dsp_config >> 20) & 7;
clk.dsp_off = dsp_on_off & 0x7ff;
clk.dsp_on = (dsp_on_off >> 16) & 0x7ff;
if (copy_to_user((struct atyclk __user *) arg, &clk,
sizeof(clk)))
return -EFAULT;
} else
return -EINVAL;
break;
case ATYIO_CLKW:
if (M64_HAS(INTEGRATED)) {
struct atyclk clk;
union aty_pll *pll = &(par->pll);
if (copy_from_user(&clk, (struct atyclk __user *) arg, sizeof(clk)))
return -EFAULT;
par->ref_clk_per = clk.ref_clk_per;
pll->ct.pll_ref_div = clk.pll_ref_div;
pll->ct.mclk_fb_div = clk.mclk_fb_div;
pll->ct.mclk_post_div_real = clk.mclk_post_div;
pll->ct.mclk_fb_mult = clk.mclk_fb_mult;
pll->ct.xclk_post_div_real = clk.xclk_post_div;
pll->ct.vclk_fb_div = clk.vclk_fb_div;
pll->ct.vclk_post_div_real = clk.vclk_post_div;
pll->ct.dsp_config = (clk.dsp_xclks_per_row & 0x3fff) |
((clk.dsp_loop_latency & 0xf)<<16)| ((clk.dsp_precision & 7)<<20);
pll->ct.dsp_on_off = (clk.dsp_off & 0x7ff) | ((clk.dsp_on & 0x7ff)<<16);
/*aty_calc_pll_ct(info, &pll->ct);*/
aty_set_pll_ct(info, pll);
} else
return -EINVAL;
break;
case ATYIO_FEATR:
if (get_user(par->features, (u32 __user *) arg))
return -EFAULT;
break;
case ATYIO_FEATW:
if (put_user(par->features, (u32 __user *) arg))
return -EFAULT;
break;
#endif /* DEBUG && CONFIG_FB_ATY_CT */
default:
return -EINVAL;
}
return 0;
}
static int atyfb_sync(struct fb_info *info)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
if (par->blitter_may_be_busy)
wait_for_idle(par);
return 0;
}
#ifdef __sparc__
static int atyfb_mmap(struct fb_info *info, struct vm_area_struct *vma)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
unsigned int size, page, map_size = 0;
unsigned long map_offset = 0;
unsigned long off;
int i;
if (!par->mmap_map)
return -ENXIO;
if (vma->vm_pgoff > (~0UL >> PAGE_SHIFT))
return -EINVAL;
off = vma->vm_pgoff << PAGE_SHIFT;
size = vma->vm_end - vma->vm_start;
/* To stop the swapper from even considering these pages. */
vma->vm_flags |= (VM_IO | VM_RESERVED);
if (((vma->vm_pgoff == 0) && (size == info->fix.smem_len)) ||
((off == info->fix.smem_len) && (size == PAGE_SIZE)))
off += 0x8000000000000000UL;
vma->vm_pgoff = off >> PAGE_SHIFT; /* propagate off changes */
/* Each page, see which map applies */
for (page = 0; page < size;) {
map_size = 0;
for (i = 0; par->mmap_map[i].size; i++) {
unsigned long start = par->mmap_map[i].voff;
unsigned long end = start + par->mmap_map[i].size;
unsigned long offset = off + page;
if (start > offset)
continue;
if (offset >= end)
continue;
map_size = par->mmap_map[i].size - (offset - start);
map_offset =
par->mmap_map[i].poff + (offset - start);
break;
}
if (!map_size) {
page += PAGE_SIZE;
continue;
}
if (page + map_size > size)
map_size = size - page;
pgprot_val(vma->vm_page_prot) &=
~(par->mmap_map[i].prot_mask);
pgprot_val(vma->vm_page_prot) |= par->mmap_map[i].prot_flag;
if (remap_pfn_range(vma, vma->vm_start + page,
map_offset >> PAGE_SHIFT, map_size, vma->vm_page_prot))
return -EAGAIN;
page += map_size;
}
if (!map_size)
return -EINVAL;
if (!par->mmaped)
par->mmaped = 1;
return 0;
}
static struct {
u32 yoffset;
u8 r[2][256];
u8 g[2][256];
u8 b[2][256];
} atyfb_save;
static void atyfb_save_palette(struct atyfb_par *par, int enter)
{
int i, tmp;
for (i = 0; i < 256; i++) {
tmp = aty_ld_8(DAC_CNTL, par) & 0xfc;
if (M64_HAS(EXTRA_BRIGHT))
tmp |= 0x2;
aty_st_8(DAC_CNTL, tmp, par);
aty_st_8(DAC_MASK, 0xff, par);
aty_st_8(DAC_R_INDEX, i, par);
atyfb_save.r[enter][i] = aty_ld_8(DAC_DATA, par);
atyfb_save.g[enter][i] = aty_ld_8(DAC_DATA, par);
atyfb_save.b[enter][i] = aty_ld_8(DAC_DATA, par);
aty_st_8(DAC_W_INDEX, i, par);
aty_st_8(DAC_DATA, atyfb_save.r[1 - enter][i], par);
aty_st_8(DAC_DATA, atyfb_save.g[1 - enter][i], par);
aty_st_8(DAC_DATA, atyfb_save.b[1 - enter][i], par);
}
}
static void atyfb_palette(int enter)
{
struct atyfb_par *par;
struct fb_info *info;
int i;
for (i = 0; i < FB_MAX; i++) {
info = registered_fb[i];
if (info && info->fbops == &atyfb_ops) {
par = (struct atyfb_par *) info->par;
atyfb_save_palette(par, enter);
if (enter) {
atyfb_save.yoffset = info->var.yoffset;
info->var.yoffset = 0;
set_off_pitch(par, info);
} else {
info->var.yoffset = atyfb_save.yoffset;
set_off_pitch(par, info);
}
aty_st_le32(CRTC_OFF_PITCH, par->crtc.off_pitch, par);
break;
}
}
}
#endif /* __sparc__ */
#if defined(CONFIG_PM) && defined(CONFIG_PCI)
#ifdef CONFIG_PPC_PMAC
/* Power management routines. Those are used for PowerBook sleep.
*/
static int aty_power_mgmt(int sleep, struct atyfb_par *par)
{
u32 pm;
int timeout;
pm = aty_ld_lcd(POWER_MANAGEMENT, par);
pm = (pm & ~PWR_MGT_MODE_MASK) | PWR_MGT_MODE_REG;
aty_st_lcd(POWER_MANAGEMENT, pm, par);
pm = aty_ld_lcd(POWER_MANAGEMENT, par);
timeout = 2000;
if (sleep) {
/* Sleep */
pm &= ~PWR_MGT_ON;
aty_st_lcd(POWER_MANAGEMENT, pm, par);
pm = aty_ld_lcd(POWER_MANAGEMENT, par);
udelay(10);
pm &= ~(PWR_BLON | AUTO_PWR_UP);
pm |= SUSPEND_NOW;
aty_st_lcd(POWER_MANAGEMENT, pm, par);
pm = aty_ld_lcd(POWER_MANAGEMENT, par);
udelay(10);
pm |= PWR_MGT_ON;
aty_st_lcd(POWER_MANAGEMENT, pm, par);
do {
pm = aty_ld_lcd(POWER_MANAGEMENT, par);
mdelay(1);
if ((--timeout) == 0)
break;
} while ((pm & PWR_MGT_STATUS_MASK) != PWR_MGT_STATUS_SUSPEND);
} else {
/* Wakeup */
pm &= ~PWR_MGT_ON;
aty_st_lcd(POWER_MANAGEMENT, pm, par);
pm = aty_ld_lcd(POWER_MANAGEMENT, par);
udelay(10);
pm &= ~SUSPEND_NOW;
pm |= (PWR_BLON | AUTO_PWR_UP);
aty_st_lcd(POWER_MANAGEMENT, pm, par);
pm = aty_ld_lcd(POWER_MANAGEMENT, par);
udelay(10);
pm |= PWR_MGT_ON;
aty_st_lcd(POWER_MANAGEMENT, pm, par);
do {
pm = aty_ld_lcd(POWER_MANAGEMENT, par);
mdelay(1);
if ((--timeout) == 0)
break;
} while ((pm & PWR_MGT_STATUS_MASK) != 0);
}
mdelay(500);
return timeout ? 0 : -EIO;
}
#endif
static int atyfb_pci_suspend(struct pci_dev *pdev, pm_message_t state)
{
struct fb_info *info = pci_get_drvdata(pdev);
struct atyfb_par *par = (struct atyfb_par *) info->par;
if (state.event == pdev->dev.power.power_state.event)
return 0;
acquire_console_sem();
fb_set_suspend(info, 1);
/* Idle & reset engine */
wait_for_idle(par);
aty_reset_engine(par);
/* Blank display and LCD */
atyfb_blank(FB_BLANK_POWERDOWN, info);
par->asleep = 1;
par->lock_blank = 1;
#ifdef CONFIG_PPC_PMAC
/* Set chip to "suspend" mode */
if (aty_power_mgmt(1, par)) {
par->asleep = 0;
par->lock_blank = 0;
atyfb_blank(FB_BLANK_UNBLANK, info);
fb_set_suspend(info, 0);
release_console_sem();
return -EIO;
}
#else
pci_set_power_state(pdev, pci_choose_state(pdev, state));
#endif
release_console_sem();
pdev->dev.power.power_state = state;
return 0;
}
static int atyfb_pci_resume(struct pci_dev *pdev)
{
struct fb_info *info = pci_get_drvdata(pdev);
struct atyfb_par *par = (struct atyfb_par *) info->par;
if (pdev->dev.power.power_state.event == PM_EVENT_ON)
return 0;
acquire_console_sem();
#ifdef CONFIG_PPC_PMAC
if (pdev->dev.power.power_state.event == 2)
aty_power_mgmt(0, par);
#else
pci_set_power_state(pdev, PCI_D0);
#endif
aty_resume_chip(info);
par->asleep = 0;
/* Restore display */
atyfb_set_par(info);
/* Refresh */
fb_set_suspend(info, 0);
/* Unblank */
par->lock_blank = 0;
atyfb_blank(FB_BLANK_UNBLANK, info);
release_console_sem();
pdev->dev.power.power_state = PMSG_ON;
return 0;
}
#endif /* defined(CONFIG_PM) && defined(CONFIG_PCI) */
/* Backlight */
#ifdef CONFIG_FB_ATY_BACKLIGHT
#define MAX_LEVEL 0xFF
static int aty_bl_get_level_brightness(struct atyfb_par *par, int level)
{
struct fb_info *info = pci_get_drvdata(par->pdev);
int atylevel;
/* Get and convert the value */
/* No locking of bl_curve since we read a single value */
atylevel = info->bl_curve[level] * FB_BACKLIGHT_MAX / MAX_LEVEL;
if (atylevel < 0)
atylevel = 0;
else if (atylevel > MAX_LEVEL)
atylevel = MAX_LEVEL;
return atylevel;
}
static int aty_bl_update_status(struct backlight_device *bd)
{
struct atyfb_par *par = class_get_devdata(&bd->class_dev);
unsigned int reg = aty_ld_lcd(LCD_MISC_CNTL, par);
int level;
if (bd->props.power != FB_BLANK_UNBLANK ||
bd->props.fb_blank != FB_BLANK_UNBLANK)
level = 0;
else
level = bd->props.brightness;
reg |= (BLMOD_EN | BIASMOD_EN);
if (level > 0) {
reg &= ~BIAS_MOD_LEVEL_MASK;
reg |= (aty_bl_get_level_brightness(par, level) << BIAS_MOD_LEVEL_SHIFT);
} else {
reg &= ~BIAS_MOD_LEVEL_MASK;
reg |= (aty_bl_get_level_brightness(par, 0) << BIAS_MOD_LEVEL_SHIFT);
}
aty_st_lcd(LCD_MISC_CNTL, reg, par);
return 0;
}
static int aty_bl_get_brightness(struct backlight_device *bd)
{
return bd->props.brightness;
}
static struct backlight_ops aty_bl_data = {
.get_brightness = aty_bl_get_brightness,
.update_status = aty_bl_update_status,
};
static void aty_bl_init(struct atyfb_par *par)
{
struct fb_info *info = pci_get_drvdata(par->pdev);
struct backlight_device *bd;
char name[12];
#ifdef CONFIG_PMAC_BACKLIGHT
if (!pmac_has_backlight_type("ati"))
return;
#endif
snprintf(name, sizeof(name), "atybl%d", info->node);
bd = backlight_device_register(name, info->dev, par, &aty_bl_data);
if (IS_ERR(bd)) {
info->bl_dev = NULL;
printk(KERN_WARNING "aty: Backlight registration failed\n");
goto error;
}
info->bl_dev = bd;
fb_bl_default_curve(info, 0,
0x3F * FB_BACKLIGHT_MAX / MAX_LEVEL,
0xFF * FB_BACKLIGHT_MAX / MAX_LEVEL);
bd->props.max_brightness = FB_BACKLIGHT_LEVELS - 1;
bd->props.brightness = bd->props.max_brightness;
bd->props.power = FB_BLANK_UNBLANK;
backlight_update_status(bd);
printk("aty: Backlight initialized (%s)\n", name);
return;
error:
return;
}
static void aty_bl_exit(struct backlight_device *bd)
{
backlight_device_unregister(bd);
printk("aty: Backlight unloaded\n");
}
#endif /* CONFIG_FB_ATY_BACKLIGHT */
static void __devinit aty_calc_mem_refresh(struct atyfb_par *par, int xclk)
{
const int ragepro_tbl[] = {
44, 50, 55, 66, 75, 80, 100
};
const int ragexl_tbl[] = {
50, 66, 75, 83, 90, 95, 100, 105,
110, 115, 120, 125, 133, 143, 166
};
const int *refresh_tbl;
int i, size;
if (IS_XL(par->pci_id) || IS_MOBILITY(par->pci_id)) {
refresh_tbl = ragexl_tbl;
size = ARRAY_SIZE(ragexl_tbl);
} else {
refresh_tbl = ragepro_tbl;
size = ARRAY_SIZE(ragepro_tbl);
}
for (i=0; i < size; i++) {
if (xclk < refresh_tbl[i])
break;
}
par->mem_refresh_rate = i;
}
/*
* Initialisation
*/
static struct fb_info *fb_list = NULL;
#if defined(__i386__) && defined(CONFIG_FB_ATY_GENERIC_LCD)
static int __devinit atyfb_get_timings_from_lcd(struct atyfb_par *par,
struct fb_var_screeninfo *var)
{
int ret = -EINVAL;
if (par->lcd_table != 0 && (aty_ld_lcd(LCD_GEN_CNTL, par) & LCD_ON)) {
*var = default_var;
var->xres = var->xres_virtual = par->lcd_hdisp;
var->right_margin = par->lcd_right_margin;
var->left_margin = par->lcd_hblank_len -
(par->lcd_right_margin + par->lcd_hsync_dly +
par->lcd_hsync_len);
var->hsync_len = par->lcd_hsync_len + par->lcd_hsync_dly;
var->yres = var->yres_virtual = par->lcd_vdisp;
var->lower_margin = par->lcd_lower_margin;
var->upper_margin = par->lcd_vblank_len -
(par->lcd_lower_margin + par->lcd_vsync_len);
var->vsync_len = par->lcd_vsync_len;
var->pixclock = par->lcd_pixclock;
ret = 0;
}
return ret;
}
#endif /* defined(__i386__) && defined(CONFIG_FB_ATY_GENERIC_LCD) */
static int __devinit aty_init(struct fb_info *info)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
const char *ramname = NULL, *xtal;
int gtb_memsize, has_var = 0;
struct fb_var_screeninfo var;
init_waitqueue_head(&par->vblank.wait);
spin_lock_init(&par->int_lock);
#ifdef CONFIG_PPC_PMAC
/* The Apple iBook1 uses non-standard memory frequencies. We detect it
* and set the frequency manually. */
if (machine_is_compatible("PowerBook2,1")) {
par->pll_limits.mclk = 70;
par->pll_limits.xclk = 53;
}
#endif
if (pll)
par->pll_limits.pll_max = pll;
if (mclk)
par->pll_limits.mclk = mclk;
if (xclk)
par->pll_limits.xclk = xclk;
aty_calc_mem_refresh(par, par->pll_limits.xclk);
par->pll_per = 1000000/par->pll_limits.pll_max;
par->mclk_per = 1000000/par->pll_limits.mclk;
par->xclk_per = 1000000/par->pll_limits.xclk;
par->ref_clk_per = 1000000000000ULL / 14318180;
xtal = "14.31818";
#ifdef CONFIG_FB_ATY_GX
if (!M64_HAS(INTEGRATED)) {
u32 stat0;
u8 dac_type, dac_subtype, clk_type;
stat0 = aty_ld_le32(CONFIG_STAT0, par);
par->bus_type = (stat0 >> 0) & 0x07;
par->ram_type = (stat0 >> 3) & 0x07;
ramname = aty_gx_ram[par->ram_type];
/* FIXME: clockchip/RAMDAC probing? */
dac_type = (aty_ld_le32(DAC_CNTL, par) >> 16) & 0x07;
#ifdef CONFIG_ATARI
clk_type = CLK_ATI18818_1;
dac_type = (stat0 >> 9) & 0x07;
if (dac_type == 0x07)
dac_subtype = DAC_ATT20C408;
else
dac_subtype = (aty_ld_8(SCRATCH_REG1 + 1, par) & 0xF0) | dac_type;
#else
dac_type = DAC_IBMRGB514;
dac_subtype = DAC_IBMRGB514;
clk_type = CLK_IBMRGB514;
#endif
switch (dac_subtype) {
case DAC_IBMRGB514:
par->dac_ops = &aty_dac_ibm514;
break;
case DAC_ATI68860_B:
case DAC_ATI68860_C:
par->dac_ops = &aty_dac_ati68860b;
break;
case DAC_ATT20C408:
case DAC_ATT21C498:
par->dac_ops = &aty_dac_att21c498;
break;
default:
PRINTKI("aty_init: DAC type not implemented yet!\n");
par->dac_ops = &aty_dac_unsupported;
break;
}
switch (clk_type) {
#ifdef CONFIG_ATARI
case CLK_ATI18818_1:
par->pll_ops = &aty_pll_ati18818_1;
break;
#else
case CLK_IBMRGB514:
par->pll_ops = &aty_pll_ibm514;
break;
#endif
#if 0 /* dead code */
case CLK_STG1703:
par->pll_ops = &aty_pll_stg1703;
break;
case CLK_CH8398:
par->pll_ops = &aty_pll_ch8398;
break;
case CLK_ATT20C408:
par->pll_ops = &aty_pll_att20c408;
break;
#endif
default:
PRINTKI("aty_init: CLK type not implemented yet!");
par->pll_ops = &aty_pll_unsupported;
break;
}
}
#endif /* CONFIG_FB_ATY_GX */
#ifdef CONFIG_FB_ATY_CT
if (M64_HAS(INTEGRATED)) {
par->dac_ops = &aty_dac_ct;
par->pll_ops = &aty_pll_ct;
par->bus_type = PCI;
par->ram_type = (aty_ld_le32(CONFIG_STAT0, par) & 0x07);
ramname = aty_ct_ram[par->ram_type];
/* for many chips, the mclk is 67 MHz for SDRAM, 63 MHz otherwise */
if (par->pll_limits.mclk == 67 && par->ram_type < SDRAM)
par->pll_limits.mclk = 63;
}
if (M64_HAS(GTB_DSP)) {
u8 pll_ref_div = aty_ld_pll_ct(PLL_REF_DIV, par);
if (pll_ref_div) {
int diff1, diff2;
diff1 = 510 * 14 / pll_ref_div - par->pll_limits.pll_max;
diff2 = 510 * 29 / pll_ref_div - par->pll_limits.pll_max;
if (diff1 < 0)
diff1 = -diff1;
if (diff2 < 0)
diff2 = -diff2;
if (diff2 < diff1) {
par->ref_clk_per = 1000000000000ULL / 29498928;
xtal = "29.498928";
}
}
}
#endif /* CONFIG_FB_ATY_CT */
/* save previous video mode */
aty_get_crtc(par, &saved_crtc);
if(par->pll_ops->get_pll)
par->pll_ops->get_pll(info, &saved_pll);
par->mem_cntl = aty_ld_le32(MEM_CNTL, par);
gtb_memsize = M64_HAS(GTB_DSP);
if (gtb_memsize)
switch (par->mem_cntl & 0xF) { /* 0xF used instead of MEM_SIZE_ALIAS */
case MEM_SIZE_512K:
info->fix.smem_len = 0x80000;
break;
case MEM_SIZE_1M:
info->fix.smem_len = 0x100000;
break;
case MEM_SIZE_2M_GTB:
info->fix.smem_len = 0x200000;
break;
case MEM_SIZE_4M_GTB:
info->fix.smem_len = 0x400000;
break;
case MEM_SIZE_6M_GTB:
info->fix.smem_len = 0x600000;
break;
case MEM_SIZE_8M_GTB:
info->fix.smem_len = 0x800000;
break;
default:
info->fix.smem_len = 0x80000;
} else
switch (par->mem_cntl & MEM_SIZE_ALIAS) {
case MEM_SIZE_512K:
info->fix.smem_len = 0x80000;
break;
case MEM_SIZE_1M:
info->fix.smem_len = 0x100000;
break;
case MEM_SIZE_2M:
info->fix.smem_len = 0x200000;
break;
case MEM_SIZE_4M:
info->fix.smem_len = 0x400000;
break;
case MEM_SIZE_6M:
info->fix.smem_len = 0x600000;
break;
case MEM_SIZE_8M:
info->fix.smem_len = 0x800000;
break;
default:
info->fix.smem_len = 0x80000;
}
if (M64_HAS(MAGIC_VRAM_SIZE)) {
if (aty_ld_le32(CONFIG_STAT1, par) & 0x40000000)
info->fix.smem_len += 0x400000;
}
if (vram) {
info->fix.smem_len = vram * 1024;
par->mem_cntl &= ~(gtb_memsize ? 0xF : MEM_SIZE_ALIAS);
if (info->fix.smem_len <= 0x80000)
par->mem_cntl |= MEM_SIZE_512K;
else if (info->fix.smem_len <= 0x100000)
par->mem_cntl |= MEM_SIZE_1M;
else if (info->fix.smem_len <= 0x200000)
par->mem_cntl |= gtb_memsize ? MEM_SIZE_2M_GTB : MEM_SIZE_2M;
else if (info->fix.smem_len <= 0x400000)
par->mem_cntl |= gtb_memsize ? MEM_SIZE_4M_GTB : MEM_SIZE_4M;
else if (info->fix.smem_len <= 0x600000)
par->mem_cntl |= gtb_memsize ? MEM_SIZE_6M_GTB : MEM_SIZE_6M;
else
par->mem_cntl |= gtb_memsize ? MEM_SIZE_8M_GTB : MEM_SIZE_8M;
aty_st_le32(MEM_CNTL, par->mem_cntl, par);
}
/*
* Reg Block 0 (CT-compatible block) is at mmio_start
* Reg Block 1 (multimedia extensions) is at mmio_start - 0x400
*/
if (M64_HAS(GX)) {
info->fix.mmio_len = 0x400;
info->fix.accel = FB_ACCEL_ATI_MACH64GX;
} else if (M64_HAS(CT)) {
info->fix.mmio_len = 0x400;
info->fix.accel = FB_ACCEL_ATI_MACH64CT;
} else if (M64_HAS(VT)) {
info->fix.mmio_start -= 0x400;
info->fix.mmio_len = 0x800;
info->fix.accel = FB_ACCEL_ATI_MACH64VT;
} else {/* GT */
info->fix.mmio_start -= 0x400;
info->fix.mmio_len = 0x800;
info->fix.accel = FB_ACCEL_ATI_MACH64GT;
}
PRINTKI("%d%c %s, %s MHz XTAL, %d MHz PLL, %d Mhz MCLK, %d MHz XCLK\n",
info->fix.smem_len == 0x80000 ? 512 : (info->fix.smem_len >> 20),
info->fix.smem_len == 0x80000 ? 'K' : 'M', ramname, xtal, par->pll_limits.pll_max,
par->pll_limits.mclk, par->pll_limits.xclk);
#if defined(DEBUG) && defined(CONFIG_FB_ATY_CT)
if (M64_HAS(INTEGRATED)) {
int i;
printk("debug atyfb: BUS_CNTL DAC_CNTL MEM_CNTL EXT_MEM_CNTL CRTC_GEN_CNTL "
"DSP_CONFIG DSP_ON_OFF CLOCK_CNTL\n"
"debug atyfb: %08x %08x %08x %08x %08x %08x %08x %08x\n"
"debug atyfb: PLL",
aty_ld_le32(BUS_CNTL, par), aty_ld_le32(DAC_CNTL, par),
aty_ld_le32(MEM_CNTL, par), aty_ld_le32(EXT_MEM_CNTL, par),
aty_ld_le32(CRTC_GEN_CNTL, par), aty_ld_le32(DSP_CONFIG, par),
aty_ld_le32(DSP_ON_OFF, par), aty_ld_le32(CLOCK_CNTL, par));
for (i = 0; i < 40; i++)
printk(" %02x", aty_ld_pll_ct(i, par));
printk("\n");
}
#endif
if(par->pll_ops->init_pll)
par->pll_ops->init_pll(info, &par->pll);
if (par->pll_ops->resume_pll)
par->pll_ops->resume_pll(info, &par->pll);
/*
* Last page of 8 MB (4 MB on ISA) aperture is MMIO,
* unless the auxiliary register aperture is used.
*/
if (!par->aux_start &&
(info->fix.smem_len == 0x800000 || (par->bus_type == ISA && info->fix.smem_len == 0x400000)))
info->fix.smem_len -= GUI_RESERVE;
/*
* Disable register access through the linear aperture
* if the auxiliary aperture is used so we can access
* the full 8 MB of video RAM on 8 MB boards.
*/
if (par->aux_start)
aty_st_le32(BUS_CNTL, aty_ld_le32(BUS_CNTL, par) | BUS_APER_REG_DIS, par);
#ifdef CONFIG_MTRR
par->mtrr_aper = -1;
par->mtrr_reg = -1;
if (!nomtrr) {
/* Cover the whole resource. */
par->mtrr_aper = mtrr_add(par->res_start, par->res_size, MTRR_TYPE_WRCOMB, 1);
if (par->mtrr_aper >= 0 && !par->aux_start) {
/* Make a hole for mmio. */
par->mtrr_reg = mtrr_add(par->res_start + 0x800000 - GUI_RESERVE,
GUI_RESERVE, MTRR_TYPE_UNCACHABLE, 1);
if (par->mtrr_reg < 0) {
mtrr_del(par->mtrr_aper, 0, 0);
par->mtrr_aper = -1;
}
}
}
#endif
info->fbops = &atyfb_ops;
info->pseudo_palette = pseudo_palette;
info->flags = FBINFO_DEFAULT |
FBINFO_HWACCEL_IMAGEBLIT |
FBINFO_HWACCEL_FILLRECT |
FBINFO_HWACCEL_COPYAREA |
FBINFO_HWACCEL_YPAN;
#ifdef CONFIG_PMAC_BACKLIGHT
if (M64_HAS(G3_PB_1_1) && machine_is_compatible("PowerBook1,1")) {
/* these bits let the 101 powerbook wake up from sleep -- paulus */
aty_st_lcd(POWER_MANAGEMENT, aty_ld_lcd(POWER_MANAGEMENT, par)
| (USE_F32KHZ | TRISTATE_MEM_EN), par);
} else
#endif
if (M64_HAS(MOBIL_BUS)) {
#ifdef CONFIG_FB_ATY_BACKLIGHT
aty_bl_init (par);
#endif
}
memset(&var, 0, sizeof(var));
#ifdef CONFIG_PPC
if (machine_is(powermac)) {
/*
* FIXME: The NVRAM stuff should be put in a Mac-specific file, as it
* applies to all Mac video cards
*/
if (mode) {
if (mac_find_mode(&var, info, mode, 8))
has_var = 1;
} else {
if (default_vmode == VMODE_CHOOSE) {
int sense;
if (M64_HAS(G3_PB_1024x768))
/* G3 PowerBook with 1024x768 LCD */
default_vmode = VMODE_1024_768_60;
else if (machine_is_compatible("iMac"))
default_vmode = VMODE_1024_768_75;
else if (machine_is_compatible
("PowerBook2,1"))
/* iBook with 800x600 LCD */
default_vmode = VMODE_800_600_60;
else
default_vmode = VMODE_640_480_67;
sense = read_aty_sense(par);
PRINTKI("monitor sense=%x, mode %d\n",
sense, mac_map_monitor_sense(sense));
}
if (default_vmode <= 0 || default_vmode > VMODE_MAX)
default_vmode = VMODE_640_480_60;
if (default_cmode < CMODE_8 || default_cmode > CMODE_32)
default_cmode = CMODE_8;
if (!mac_vmode_to_var(default_vmode, default_cmode,
&var))
has_var = 1;
}
}
#endif /* !CONFIG_PPC */
#if defined(__i386__) && defined(CONFIG_FB_ATY_GENERIC_LCD)
if (!atyfb_get_timings_from_lcd(par, &var))
has_var = 1;
#endif
if (mode && fb_find_mode(&var, info, mode, NULL, 0, &defmode, 8))
has_var = 1;
if (!has_var)
var = default_var;
if (noaccel)
var.accel_flags &= ~FB_ACCELF_TEXT;
else
var.accel_flags |= FB_ACCELF_TEXT;
if (comp_sync != -1) {
if (!comp_sync)
var.sync &= ~FB_SYNC_COMP_HIGH_ACT;
else
var.sync |= FB_SYNC_COMP_HIGH_ACT;
}
if (var.yres == var.yres_virtual) {
u32 videoram = (info->fix.smem_len - (PAGE_SIZE << 2));
var.yres_virtual = ((videoram * 8) / var.bits_per_pixel) / var.xres_virtual;
if (var.yres_virtual < var.yres)
var.yres_virtual = var.yres;
}
if (atyfb_check_var(&var, info)) {
PRINTKE("can't set default video mode\n");
goto aty_init_exit;
}
#ifdef __sparc__
atyfb_save_palette(par, 0);
#endif
#ifdef CONFIG_FB_ATY_CT
if (!noaccel && M64_HAS(INTEGRATED))
aty_init_cursor(info);
#endif /* CONFIG_FB_ATY_CT */
info->var = var;
fb_alloc_cmap(&info->cmap, 256, 0);
if (register_framebuffer(info) < 0)
goto aty_init_exit;
fb_list = info;
PRINTKI("fb%d: %s frame buffer device on %s\n",
info->node, info->fix.id, par->bus_type == ISA ? "ISA" : "PCI");
return 0;
aty_init_exit:
/* restore video mode */
aty_set_crtc(par, &saved_crtc);
par->pll_ops->set_pll(info, &saved_pll);
#ifdef CONFIG_MTRR
if (par->mtrr_reg >= 0) {
mtrr_del(par->mtrr_reg, 0, 0);
par->mtrr_reg = -1;
}
if (par->mtrr_aper >= 0) {
mtrr_del(par->mtrr_aper, 0, 0);
par->mtrr_aper = -1;
}
#endif
return -1;
}
static void aty_resume_chip(struct fb_info *info)
{
struct atyfb_par *par = info->par;
aty_st_le32(MEM_CNTL, par->mem_cntl, par);
if (par->pll_ops->resume_pll)
par->pll_ops->resume_pll(info, &par->pll);
if (par->aux_start)
aty_st_le32(BUS_CNTL, aty_ld_le32(BUS_CNTL, par) | BUS_APER_REG_DIS, par);
}
#ifdef CONFIG_ATARI
static int __devinit store_video_par(char *video_str, unsigned char m64_num)
{
char *p;
unsigned long vmembase, size, guiregbase;
PRINTKI("store_video_par() '%s' \n", video_str);
if (!(p = strsep(&video_str, ";")) || !*p)
goto mach64_invalid;
vmembase = simple_strtoul(p, NULL, 0);
if (!(p = strsep(&video_str, ";")) || !*p)
goto mach64_invalid;
size = simple_strtoul(p, NULL, 0);
if (!(p = strsep(&video_str, ";")) || !*p)
goto mach64_invalid;
guiregbase = simple_strtoul(p, NULL, 0);
phys_vmembase[m64_num] = vmembase;
phys_size[m64_num] = size;
phys_guiregbase[m64_num] = guiregbase;
PRINTKI("stored them all: $%08lX $%08lX $%08lX \n", vmembase, size,
guiregbase);
return 0;
mach64_invalid:
phys_vmembase[m64_num] = 0;
return -1;
}
#endif /* CONFIG_ATARI */
/*
* Blank the display.
*/
static int atyfb_blank(int blank, struct fb_info *info)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
u32 gen_cntl;
if (par->lock_blank || par->asleep)
return 0;
#ifdef CONFIG_FB_ATY_BACKLIGHT
#elif defined(CONFIG_FB_ATY_GENERIC_LCD)
if (par->lcd_table && blank > FB_BLANK_NORMAL &&
(aty_ld_lcd(LCD_GEN_CNTL, par) & LCD_ON)) {
u32 pm = aty_ld_lcd(POWER_MANAGEMENT, par);
pm &= ~PWR_BLON;
aty_st_lcd(POWER_MANAGEMENT, pm, par);
}
#endif
gen_cntl = aty_ld_le32(CRTC_GEN_CNTL, par);
gen_cntl &= ~0x400004c;
switch (blank) {
case FB_BLANK_UNBLANK:
break;
case FB_BLANK_NORMAL:
gen_cntl |= 0x4000040;
break;
case FB_BLANK_VSYNC_SUSPEND:
gen_cntl |= 0x4000048;
break;
case FB_BLANK_HSYNC_SUSPEND:
gen_cntl |= 0x4000044;
break;
case FB_BLANK_POWERDOWN:
gen_cntl |= 0x400004c;
break;
}
aty_st_le32(CRTC_GEN_CNTL, gen_cntl, par);
#ifdef CONFIG_FB_ATY_BACKLIGHT
#elif defined(CONFIG_FB_ATY_GENERIC_LCD)
if (par->lcd_table && blank <= FB_BLANK_NORMAL &&
(aty_ld_lcd(LCD_GEN_CNTL, par) & LCD_ON)) {
u32 pm = aty_ld_lcd(POWER_MANAGEMENT, par);
pm |= PWR_BLON;
aty_st_lcd(POWER_MANAGEMENT, pm, par);
}
#endif
return 0;
}
static void aty_st_pal(u_int regno, u_int red, u_int green, u_int blue,
const struct atyfb_par *par)
{
aty_st_8(DAC_W_INDEX, regno, par);
aty_st_8(DAC_DATA, red, par);
aty_st_8(DAC_DATA, green, par);
aty_st_8(DAC_DATA, blue, par);
}
/*
* Set a single color register. The values supplied are already
* rounded down to the hardware's capabilities (according to the
* entries in the var structure). Return != 0 for invalid regno.
* !! 4 & 8 = PSEUDO, > 8 = DIRECTCOLOR
*/
static int atyfb_setcolreg(u_int regno, u_int red, u_int green, u_int blue,
u_int transp, struct fb_info *info)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
int i, depth;
u32 *pal = info->pseudo_palette;
depth = info->var.bits_per_pixel;
if (depth == 16)
depth = (info->var.green.length == 5) ? 15 : 16;
if (par->asleep)
return 0;
if (regno > 255 ||
(depth == 16 && regno > 63) ||
(depth == 15 && regno > 31))
return 1;
red >>= 8;
green >>= 8;
blue >>= 8;
par->palette[regno].red = red;
par->palette[regno].green = green;
par->palette[regno].blue = blue;
if (regno < 16) {
switch (depth) {
case 15:
pal[regno] = (regno << 10) | (regno << 5) | regno;
break;
case 16:
pal[regno] = (regno << 11) | (regno << 5) | regno;
break;
case 24:
pal[regno] = (regno << 16) | (regno << 8) | regno;
break;
case 32:
i = (regno << 8) | regno;
pal[regno] = (i << 16) | i;
break;
}
}
i = aty_ld_8(DAC_CNTL, par) & 0xfc;
if (M64_HAS(EXTRA_BRIGHT))
i |= 0x2; /* DAC_CNTL | 0x2 turns off the extra brightness for gt */
aty_st_8(DAC_CNTL, i, par);
aty_st_8(DAC_MASK, 0xff, par);
if (M64_HAS(INTEGRATED)) {
if (depth == 16) {
if (regno < 32)
aty_st_pal(regno << 3, red,
par->palette[regno<<1].green,
blue, par);
red = par->palette[regno>>1].red;
blue = par->palette[regno>>1].blue;
regno <<= 2;
} else if (depth == 15) {
regno <<= 3;
for(i = 0; i < 8; i++) {
aty_st_pal(regno + i, red, green, blue, par);
}
}
}
aty_st_pal(regno, red, green, blue, par);
return 0;
}
#ifdef CONFIG_PCI
#ifdef __sparc__
extern void (*prom_palette) (int);
static int __devinit atyfb_setup_sparc(struct pci_dev *pdev,
struct fb_info *info, unsigned long addr)
{
struct atyfb_par *par = info->par;
struct pcidev_cookie *pcp;
char prop[128];
int node, len, i, j, ret;
u32 mem, chip_id;
/* Do not attach when we have a serial console. */
if (!con_is_present())
return -ENXIO;
/*
* Map memory-mapped registers.
*/
par->ati_regbase = (void *)addr + 0x7ffc00UL;
info->fix.mmio_start = addr + 0x7ffc00UL;
/*
* Map in big-endian aperture.
*/
info->screen_base = (char *) (addr + 0x800000UL);
info->fix.smem_start = addr + 0x800000UL;
/*
* Figure mmap addresses from PCI config space.
* Split Framebuffer in big- and little-endian halfs.
*/
for (i = 0; i < 6 && pdev->resource[i].start; i++)
/* nothing */ ;
j = i + 4;
par->mmap_map = kmalloc(j * sizeof(*par->mmap_map), GFP_ATOMIC);
if (!par->mmap_map) {
PRINTKE("atyfb_setup_sparc() can't alloc mmap_map\n");
return -ENOMEM;
}
memset(par->mmap_map, 0, j * sizeof(*par->mmap_map));
for (i = 0, j = 2; i < 6 && pdev->resource[i].start; i++) {
struct resource *rp = &pdev->resource[i];
int io, breg = PCI_BASE_ADDRESS_0 + (i << 2);
unsigned long base;
u32 size, pbase;
base = rp->start;
io = (rp->flags & IORESOURCE_IO);
size = rp->end - base + 1;
pci_read_config_dword(pdev, breg, &pbase);
if (io)
size &= ~1;
/*
* Map the framebuffer a second time, this time without
* the braindead _PAGE_IE setting. This is used by the
* fixed Xserver, but we need to maintain the old mapping
* to stay compatible with older ones...
*/
if (base == addr) {
par->mmap_map[j].voff = (pbase + 0x10000000) & PAGE_MASK;
par->mmap_map[j].poff = base & PAGE_MASK;
par->mmap_map[j].size = (size + ~PAGE_MASK) & PAGE_MASK;
par->mmap_map[j].prot_mask = _PAGE_CACHE;
par->mmap_map[j].prot_flag = _PAGE_E;
j++;
}
/*
* Here comes the old framebuffer mapping with _PAGE_IE
* set for the big endian half of the framebuffer...
*/
if (base == addr) {
par->mmap_map[j].voff = (pbase + 0x800000) & PAGE_MASK;
par->mmap_map[j].poff = (base + 0x800000) & PAGE_MASK;
par->mmap_map[j].size = 0x800000;
par->mmap_map[j].prot_mask = _PAGE_CACHE;
par->mmap_map[j].prot_flag = _PAGE_E | _PAGE_IE;
size -= 0x800000;
j++;
}
par->mmap_map[j].voff = pbase & PAGE_MASK;
par->mmap_map[j].poff = base & PAGE_MASK;
par->mmap_map[j].size = (size + ~PAGE_MASK) & PAGE_MASK;
par->mmap_map[j].prot_mask = _PAGE_CACHE;
par->mmap_map[j].prot_flag = _PAGE_E;
j++;
}
if((ret = correct_chipset(par)))
return ret;
if (IS_XL(pdev->device)) {
/*
* Fix PROMs idea of MEM_CNTL settings...
*/
mem = aty_ld_le32(MEM_CNTL, par);
chip_id = aty_ld_le32(CONFIG_CHIP_ID, par);
if (((chip_id & CFG_CHIP_TYPE) == VT_CHIP_ID) && !((chip_id >> 24) & 1)) {
switch (mem & 0x0f) {
case 3:
mem = (mem & ~(0x0f)) | 2;
break;
case 7:
mem = (mem & ~(0x0f)) | 3;
break;
case 9:
mem = (mem & ~(0x0f)) | 4;
break;
case 11:
mem = (mem & ~(0x0f)) | 5;
break;
default:
break;
}
if ((aty_ld_le32(CONFIG_STAT0, par) & 7) >= SDRAM)
mem &= ~(0x00700000);
}
mem &= ~(0xcf80e000); /* Turn off all undocumented bits. */
aty_st_le32(MEM_CNTL, mem, par);
}
/*
* If this is the console device, we will set default video
* settings to what the PROM left us with.
*/
node = prom_getchild(prom_root_node);
node = prom_searchsiblings(node, "aliases");
if (node) {
len = prom_getproperty(node, "screen", prop, sizeof(prop));
if (len > 0) {
prop[len] = '\0';
node = prom_finddevice(prop);
} else
node = 0;
}
pcp = pdev->sysdata;
if (node == pcp->prom_node->node) {
struct fb_var_screeninfo *var = &default_var;
unsigned int N, P, Q, M, T, R;
u32 v_total, h_total;
struct crtc crtc;
u8 pll_regs[16];
u8 clock_cntl;
crtc.vxres = prom_getintdefault(node, "width", 1024);
crtc.vyres = prom_getintdefault(node, "height", 768);
var->bits_per_pixel = prom_getintdefault(node, "depth", 8);
var->xoffset = var->yoffset = 0;
crtc.h_tot_disp = aty_ld_le32(CRTC_H_TOTAL_DISP, par);
crtc.h_sync_strt_wid = aty_ld_le32(CRTC_H_SYNC_STRT_WID, par);
crtc.v_tot_disp = aty_ld_le32(CRTC_V_TOTAL_DISP, par);
crtc.v_sync_strt_wid = aty_ld_le32(CRTC_V_SYNC_STRT_WID, par);
crtc.gen_cntl = aty_ld_le32(CRTC_GEN_CNTL, par);
aty_crtc_to_var(&crtc, var);
h_total = var->xres + var->right_margin + var->hsync_len + var->left_margin;
v_total = var->yres + var->lower_margin + var->vsync_len + var->upper_margin;
/*
* Read the PLL to figure actual Refresh Rate.
*/
clock_cntl = aty_ld_8(CLOCK_CNTL, par);
/* DPRINTK("CLOCK_CNTL %02x\n", clock_cntl); */
for (i = 0; i < 16; i++)
pll_regs[i] = aty_ld_pll_ct(i, par);
/*
* PLL Reference Divider M:
*/
M = pll_regs[2];
/*
* PLL Feedback Divider N (Dependant on CLOCK_CNTL):
*/
N = pll_regs[7 + (clock_cntl & 3)];
/*
* PLL Post Divider P (Dependant on CLOCK_CNTL):
*/
P = 1 << (pll_regs[6] >> ((clock_cntl & 3) << 1));
/*
* PLL Divider Q:
*/
Q = N / P;
/*
* Target Frequency:
*
* T * M
* Q = -------
* 2 * R
*
* where R is XTALIN (= 14318 or 29498 kHz).
*/
if (IS_XL(pdev->device))
R = 29498;
else
R = 14318;
T = 2 * Q * R / M;
default_var.pixclock = 1000000000 / T;
}
return 0;
}
#else /* __sparc__ */
#ifdef __i386__
#ifdef CONFIG_FB_ATY_GENERIC_LCD
static void __devinit aty_init_lcd(struct atyfb_par *par, u32 bios_base)
{
u32 driv_inf_tab, sig;
u16 lcd_ofs;
/* To support an LCD panel, we should know it's dimensions and
* it's desired pixel clock.
* There are two ways to do it:
* - Check the startup video mode and calculate the panel
* size from it. This is unreliable.
* - Read it from the driver information table in the video BIOS.
*/
/* Address of driver information table is at offset 0x78. */
driv_inf_tab = bios_base + *((u16 *)(bios_base+0x78));
/* Check for the driver information table signature. */
sig = (*(u32 *)driv_inf_tab);
if ((sig == 0x54504c24) || /* Rage LT pro */
(sig == 0x544d5224) || /* Rage mobility */
(sig == 0x54435824) || /* Rage XC */
(sig == 0x544c5824)) { /* Rage XL */
PRINTKI("BIOS contains driver information table.\n");
lcd_ofs = (*(u16 *)(driv_inf_tab + 10));
par->lcd_table = 0;
if (lcd_ofs != 0) {
par->lcd_table = bios_base + lcd_ofs;
}
}
if (par->lcd_table != 0) {
char model[24];
char strbuf[16];
char refresh_rates_buf[100];
int id, tech, f, i, m, default_refresh_rate;
char *txtcolour;
char *txtmonitor;
char *txtdual;
char *txtformat;
u16 width, height, panel_type, refresh_rates;
u16 *lcdmodeptr;
u32 format;
u8 lcd_refresh_rates[16] = {50,56,60,67,70,72,75,76,85,90,100,120,140,150,160,200};
/* The most important information is the panel size at
* offset 25 and 27, but there's some other nice information
* which we print to the screen.
*/
id = *(u8 *)par->lcd_table;
strncpy(model,(char *)par->lcd_table+1,24);
model[23]=0;
width = par->lcd_width = *(u16 *)(par->lcd_table+25);
height = par->lcd_height = *(u16 *)(par->lcd_table+27);
panel_type = *(u16 *)(par->lcd_table+29);
if (panel_type & 1)
txtcolour = "colour";
else
txtcolour = "monochrome";
if (panel_type & 2)
txtdual = "dual (split) ";
else
txtdual = "";
tech = (panel_type>>2) & 63;
switch (tech) {
case 0:
txtmonitor = "passive matrix";
break;
case 1:
txtmonitor = "active matrix";
break;
case 2:
txtmonitor = "active addressed STN";
break;
case 3:
txtmonitor = "EL";
break;
case 4:
txtmonitor = "plasma";
break;
default:
txtmonitor = "unknown";
}
format = *(u32 *)(par->lcd_table+57);
if (tech == 0 || tech == 2) {
switch (format & 7) {
case 0:
txtformat = "12 bit interface";
break;
case 1:
txtformat = "16 bit interface";
break;
case 2:
txtformat = "24 bit interface";
break;
default:
txtformat = "unkown format";
}
} else {
switch (format & 7) {
case 0:
txtformat = "8 colours";
break;
case 1:
txtformat = "512 colours";
break;
case 2:
txtformat = "4096 colours";
break;
case 4:
txtformat = "262144 colours (LT mode)";
break;
case 5:
txtformat = "16777216 colours";
break;
case 6:
txtformat = "262144 colours (FDPI-2 mode)";
break;
default:
txtformat = "unkown format";
}
}
PRINTKI("%s%s %s monitor detected: %s\n",
txtdual ,txtcolour, txtmonitor, model);
PRINTKI(" id=%d, %dx%d pixels, %s\n",
id, width, height, txtformat);
refresh_rates_buf[0] = 0;
refresh_rates = *(u16 *)(par->lcd_table+62);
m = 1;
f = 0;
for (i=0;i<16;i++) {
if (refresh_rates & m) {
if (f == 0) {
sprintf(strbuf, "%d", lcd_refresh_rates[i]);
f++;
} else {
sprintf(strbuf, ",%d", lcd_refresh_rates[i]);
}
strcat(refresh_rates_buf,strbuf);
}
m = m << 1;
}
default_refresh_rate = (*(u8 *)(par->lcd_table+61) & 0xf0) >> 4;
PRINTKI(" supports refresh rates [%s], default %d Hz\n",
refresh_rates_buf, lcd_refresh_rates[default_refresh_rate]);
par->lcd_refreshrate = lcd_refresh_rates[default_refresh_rate];
/* We now need to determine the crtc parameters for the
* LCD monitor. This is tricky, because they are not stored
* individually in the BIOS. Instead, the BIOS contains a
* table of display modes that work for this monitor.
*
* The idea is that we search for a mode of the same dimensions
* as the dimensions of the LCD monitor. Say our LCD monitor
* is 800x600 pixels, we search for a 800x600 monitor.
* The CRTC parameters we find here are the ones that we need
* to use to simulate other resolutions on the LCD screen.
*/
lcdmodeptr = (u16 *)(par->lcd_table + 64);
while (*lcdmodeptr != 0) {
u32 modeptr;
u16 mwidth, mheight, lcd_hsync_start, lcd_vsync_start;
modeptr = bios_base + *lcdmodeptr;
mwidth = *((u16 *)(modeptr+0));
mheight = *((u16 *)(modeptr+2));
if (mwidth == width && mheight == height) {
par->lcd_pixclock = 100000000 / *((u16 *)(modeptr+9));
par->lcd_htotal = *((u16 *)(modeptr+17)) & 511;
par->lcd_hdisp = *((u16 *)(modeptr+19)) & 511;
lcd_hsync_start = *((u16 *)(modeptr+21)) & 511;
par->lcd_hsync_dly = (*((u16 *)(modeptr+21)) >> 9) & 7;
par->lcd_hsync_len = *((u8 *)(modeptr+23)) & 63;
par->lcd_vtotal = *((u16 *)(modeptr+24)) & 2047;
par->lcd_vdisp = *((u16 *)(modeptr+26)) & 2047;
lcd_vsync_start = *((u16 *)(modeptr+28)) & 2047;
par->lcd_vsync_len = (*((u16 *)(modeptr+28)) >> 11) & 31;
par->lcd_htotal = (par->lcd_htotal + 1) * 8;
par->lcd_hdisp = (par->lcd_hdisp + 1) * 8;
lcd_hsync_start = (lcd_hsync_start + 1) * 8;
par->lcd_hsync_len = par->lcd_hsync_len * 8;
par->lcd_vtotal++;
par->lcd_vdisp++;
lcd_vsync_start++;
par->lcd_right_margin = lcd_hsync_start - par->lcd_hdisp;
par->lcd_lower_margin = lcd_vsync_start - par->lcd_vdisp;
par->lcd_hblank_len = par->lcd_htotal - par->lcd_hdisp;
par->lcd_vblank_len = par->lcd_vtotal - par->lcd_vdisp;
break;
}
lcdmodeptr++;
}
if (*lcdmodeptr == 0) {
PRINTKE("LCD monitor CRTC parameters not found!!!\n");
/* To do: Switch to CRT if possible. */
} else {
PRINTKI(" LCD CRTC parameters: %d.%d %d %d %d %d %d %d %d %d\n",
1000000 / par->lcd_pixclock, 1000000 % par->lcd_pixclock,
par->lcd_hdisp,
par->lcd_hdisp + par->lcd_right_margin,
par->lcd_hdisp + par->lcd_right_margin
+ par->lcd_hsync_dly + par->lcd_hsync_len,
par->lcd_htotal,
par->lcd_vdisp,
par->lcd_vdisp + par->lcd_lower_margin,
par->lcd_vdisp + par->lcd_lower_margin + par->lcd_vsync_len,
par->lcd_vtotal);
PRINTKI(" : %d %d %d %d %d %d %d %d %d\n",
par->lcd_pixclock,
par->lcd_hblank_len - (par->lcd_right_margin +
par->lcd_hsync_dly + par->lcd_hsync_len),
par->lcd_hdisp,
par->lcd_right_margin,
par->lcd_hsync_len,
par->lcd_vblank_len - (par->lcd_lower_margin + par->lcd_vsync_len),
par->lcd_vdisp,
par->lcd_lower_margin,
par->lcd_vsync_len);
}
}
}
#endif /* CONFIG_FB_ATY_GENERIC_LCD */
static int __devinit init_from_bios(struct atyfb_par *par)
{
u32 bios_base, rom_addr;
int ret;
rom_addr = 0xc0000 + ((aty_ld_le32(SCRATCH_REG1, par) & 0x7f) << 11);
bios_base = (unsigned long)ioremap(rom_addr, 0x10000);
/* The BIOS starts with 0xaa55. */
if (*((u16 *)bios_base) == 0xaa55) {
u8 *bios_ptr;
u16 rom_table_offset, freq_table_offset;
PLL_BLOCK_MACH64 pll_block;
PRINTKI("Mach64 BIOS is located at %x, mapped at %x.\n", rom_addr, bios_base);
/* check for frequncy table */
bios_ptr = (u8*)bios_base;
rom_table_offset = (u16)(bios_ptr[0x48] | (bios_ptr[0x49] << 8));
freq_table_offset = bios_ptr[rom_table_offset + 16] | (bios_ptr[rom_table_offset + 17] << 8);
memcpy(&pll_block, bios_ptr + freq_table_offset, sizeof(PLL_BLOCK_MACH64));
PRINTKI("BIOS frequency table:\n");
PRINTKI("PCLK_min_freq %d, PCLK_max_freq %d, ref_freq %d, ref_divider %d\n",
pll_block.PCLK_min_freq, pll_block.PCLK_max_freq,
pll_block.ref_freq, pll_block.ref_divider);
PRINTKI("MCLK_pwd %d, MCLK_max_freq %d, XCLK_max_freq %d, SCLK_freq %d\n",
pll_block.MCLK_pwd, pll_block.MCLK_max_freq,
pll_block.XCLK_max_freq, pll_block.SCLK_freq);
par->pll_limits.pll_min = pll_block.PCLK_min_freq/100;
par->pll_limits.pll_max = pll_block.PCLK_max_freq/100;
par->pll_limits.ref_clk = pll_block.ref_freq/100;
par->pll_limits.ref_div = pll_block.ref_divider;
par->pll_limits.sclk = pll_block.SCLK_freq/100;
par->pll_limits.mclk = pll_block.MCLK_max_freq/100;
par->pll_limits.mclk_pm = pll_block.MCLK_pwd/100;
par->pll_limits.xclk = pll_block.XCLK_max_freq/100;
#ifdef CONFIG_FB_ATY_GENERIC_LCD
aty_init_lcd(par, bios_base);
#endif
ret = 0;
} else {
PRINTKE("no BIOS frequency table found, use parameters\n");
ret = -ENXIO;
}
iounmap((void* __iomem )bios_base);
return ret;
}
#endif /* __i386__ */
static int __devinit atyfb_setup_generic(struct pci_dev *pdev, struct fb_info *info, unsigned long addr)
{
struct atyfb_par *par = info->par;
u16 tmp;
unsigned long raddr;
struct resource *rrp;
int ret = 0;
raddr = addr + 0x7ff000UL;
rrp = &pdev->resource[2];
if ((rrp->flags & IORESOURCE_MEM) && request_mem_region(rrp->start, rrp->end - rrp->start + 1, "atyfb")) {
par->aux_start = rrp->start;
par->aux_size = rrp->end - rrp->start + 1;
raddr = rrp->start;
PRINTKI("using auxiliary register aperture\n");
}
info->fix.mmio_start = raddr;
par->ati_regbase = ioremap(info->fix.mmio_start, 0x1000);
if (par->ati_regbase == 0)
return -ENOMEM;
info->fix.mmio_start += par->aux_start ? 0x400 : 0xc00;
par->ati_regbase += par->aux_start ? 0x400 : 0xc00;
/*
* Enable memory-space accesses using config-space
* command register.
*/
pci_read_config_word(pdev, PCI_COMMAND, &tmp);
if (!(tmp & PCI_COMMAND_MEMORY)) {
tmp |= PCI_COMMAND_MEMORY;
pci_write_config_word(pdev, PCI_COMMAND, tmp);
}
#ifdef __BIG_ENDIAN
/* Use the big-endian aperture */
addr += 0x800000;
#endif
/* Map in frame buffer */
info->fix.smem_start = addr;
info->screen_base = ioremap(addr, 0x800000);
if (info->screen_base == NULL) {
ret = -ENOMEM;
goto atyfb_setup_generic_fail;
}
if((ret = correct_chipset(par)))
goto atyfb_setup_generic_fail;
#ifdef __i386__
if((ret = init_from_bios(par)))
goto atyfb_setup_generic_fail;
#endif
if (!(aty_ld_le32(CRTC_GEN_CNTL, par) & CRTC_EXT_DISP_EN))
par->clk_wr_offset = (inb(R_GENMO) & 0x0CU) >> 2;
else
par->clk_wr_offset = aty_ld_8(CLOCK_CNTL, par) & 0x03U;
/* according to ATI, we should use clock 3 for acelerated mode */
par->clk_wr_offset = 3;
return 0;
atyfb_setup_generic_fail:
iounmap(par->ati_regbase);
par->ati_regbase = NULL;
if (info->screen_base) {
iounmap(info->screen_base);
info->screen_base = NULL;
}
return ret;
}
#endif /* !__sparc__ */
static int __devinit atyfb_pci_probe(struct pci_dev *pdev, const struct pci_device_id *ent)
{
unsigned long addr, res_start, res_size;
struct fb_info *info;
struct resource *rp;
struct atyfb_par *par;
int i, rc = -ENOMEM;
for (i = ARRAY_SIZE(aty_chips) - 1; i >= 0; i--)
if (pdev->device == aty_chips[i].pci_id)
break;
if (i < 0)
return -ENODEV;
/* Enable device in PCI config */
if (pci_enable_device(pdev)) {
PRINTKE("Cannot enable PCI device\n");
return -ENXIO;
}
/* Find which resource to use */
rp = &pdev->resource[0];
if (rp->flags & IORESOURCE_IO)
rp = &pdev->resource[1];
addr = rp->start;
if (!addr)
return -ENXIO;
/* Reserve space */
res_start = rp->start;
res_size = rp->end - rp->start + 1;
if (!request_mem_region (res_start, res_size, "atyfb"))
return -EBUSY;
/* Allocate framebuffer */
info = framebuffer_alloc(sizeof(struct atyfb_par), &pdev->dev);
if (!info) {
PRINTKE("atyfb_pci_probe() can't alloc fb_info\n");
return -ENOMEM;
}
par = info->par;
info->fix = atyfb_fix;
info->device = &pdev->dev;
par->pci_id = aty_chips[i].pci_id;
par->res_start = res_start;
par->res_size = res_size;
par->irq = pdev->irq;
par->pdev = pdev;
/* Setup "info" structure */
#ifdef __sparc__
rc = atyfb_setup_sparc(pdev, info, addr);
#else
rc = atyfb_setup_generic(pdev, info, addr);
#endif
if (rc)
goto err_release_mem;
pci_set_drvdata(pdev, info);
/* Init chip & register framebuffer */
if (aty_init(info))
goto err_release_io;
#ifdef __sparc__
if (!prom_palette)
prom_palette = atyfb_palette;
/*
* Add /dev/fb mmap values.
*/
par->mmap_map[0].voff = 0x8000000000000000UL;
par->mmap_map[0].poff = (unsigned long) info->screen_base & PAGE_MASK;
par->mmap_map[0].size = info->fix.smem_len;
par->mmap_map[0].prot_mask = _PAGE_CACHE;
par->mmap_map[0].prot_flag = _PAGE_E;
par->mmap_map[1].voff = par->mmap_map[0].voff + info->fix.smem_len;
par->mmap_map[1].poff = (long)par->ati_regbase & PAGE_MASK;
par->mmap_map[1].size = PAGE_SIZE;
par->mmap_map[1].prot_mask = _PAGE_CACHE;
par->mmap_map[1].prot_flag = _PAGE_E;
#endif /* __sparc__ */
return 0;
err_release_io:
#ifdef __sparc__
kfree(par->mmap_map);
#else
if (par->ati_regbase)
iounmap(par->ati_regbase);
if (info->screen_base)
iounmap(info->screen_base);
#endif
err_release_mem:
if (par->aux_start)
release_mem_region(par->aux_start, par->aux_size);
release_mem_region(par->res_start, par->res_size);
framebuffer_release(info);
return rc;
}
#endif /* CONFIG_PCI */
#ifdef CONFIG_ATARI
static int __init atyfb_atari_probe(void)
{
struct atyfb_par *par;
struct fb_info *info;
int m64_num;
u32 clock_r;
int num_found = 0;
for (m64_num = 0; m64_num < mach64_count; m64_num++) {
if (!phys_vmembase[m64_num] || !phys_size[m64_num] ||
!phys_guiregbase[m64_num]) {
PRINTKI("phys_*[%d] parameters not set => returning early. \n", m64_num);
continue;
}
info = framebuffer_alloc(sizeof(struct atyfb_par), NULL);
if (!info) {
PRINTKE("atyfb_atari_probe() can't alloc fb_info\n");
return -ENOMEM;
}
par = info->par;
info->fix = atyfb_fix;
par->irq = (unsigned int) -1; /* something invalid */
/*
* Map the video memory (physical address given) to somewhere in the
* kernel address space.
*/
info->screen_base = ioremap(phys_vmembase[m64_num], phys_size[m64_num]);
info->fix.smem_start = (unsigned long)info->screen_base; /* Fake! */
par->ati_regbase = ioremap(phys_guiregbase[m64_num], 0x10000) +
0xFC00ul;
info->fix.mmio_start = (unsigned long)par->ati_regbase; /* Fake! */
aty_st_le32(CLOCK_CNTL, 0x12345678, par);
clock_r = aty_ld_le32(CLOCK_CNTL, par);
switch (clock_r & 0x003F) {
case 0x12:
par->clk_wr_offset = 3; /* */
break;
case 0x34:
par->clk_wr_offset = 2; /* Medusa ST-IO ISA Adapter etc. */
break;
case 0x16:
par->clk_wr_offset = 1; /* */
break;
case 0x38:
par->clk_wr_offset = 0; /* Panther 1 ISA Adapter (Gerald) */
break;
}
/* Fake pci_id for correct_chipset() */
switch (aty_ld_le32(CONFIG_CHIP_ID, par) & CFG_CHIP_TYPE) {
case 0x00d7:
par->pci_id = PCI_CHIP_MACH64GX;
break;
case 0x0057:
par->pci_id = PCI_CHIP_MACH64CX;
break;
default:
break;
}
if (correct_chipset(par) || aty_init(info)) {
iounmap(info->screen_base);
iounmap(par->ati_regbase);
framebuffer_release(info);
} else {
num_found++;
}
}
return num_found ? 0 : -ENXIO;
}
#endif /* CONFIG_ATARI */
#ifdef CONFIG_PCI
static void __devexit atyfb_remove(struct fb_info *info)
{
struct atyfb_par *par = (struct atyfb_par *) info->par;
/* restore video mode */
aty_set_crtc(par, &saved_crtc);
par->pll_ops->set_pll(info, &saved_pll);
unregister_framebuffer(info);
#ifdef CONFIG_FB_ATY_BACKLIGHT
if (M64_HAS(MOBIL_BUS))
aty_bl_exit(info->bl_dev);
#endif
#ifdef CONFIG_MTRR
if (par->mtrr_reg >= 0) {
mtrr_del(par->mtrr_reg, 0, 0);
par->mtrr_reg = -1;
}
if (par->mtrr_aper >= 0) {
mtrr_del(par->mtrr_aper, 0, 0);
par->mtrr_aper = -1;
}
#endif
#ifndef __sparc__
if (par->ati_regbase)
iounmap(par->ati_regbase);
if (info->screen_base)
iounmap(info->screen_base);
#ifdef __BIG_ENDIAN
if (info->sprite.addr)
iounmap(info->sprite.addr);
#endif
#endif
#ifdef __sparc__
kfree(par->mmap_map);
#endif
if (par->aux_start)
release_mem_region(par->aux_start, par->aux_size);
if (par->res_start)
release_mem_region(par->res_start, par->res_size);
framebuffer_release(info);
}
static void __devexit atyfb_pci_remove(struct pci_dev *pdev)
{
struct fb_info *info = pci_get_drvdata(pdev);
atyfb_remove(info);
}
/*
* This driver uses its own matching table. That will be more difficult
* to fix, so for now, we just match against any ATI ID and let the
* probe() function find out what's up. That also mean we don't have
* a module ID table though.
*/
static struct pci_device_id atyfb_pci_tbl[] = {
{ PCI_VENDOR_ID_ATI, PCI_ANY_ID, PCI_ANY_ID, PCI_ANY_ID,
PCI_BASE_CLASS_DISPLAY << 16, 0xff0000, 0 },
{ 0, }
};
static struct pci_driver atyfb_driver = {
.name = "atyfb",
.id_table = atyfb_pci_tbl,
.probe = atyfb_pci_probe,
.remove = __devexit_p(atyfb_pci_remove),
#ifdef CONFIG_PM
.suspend = atyfb_pci_suspend,
.resume = atyfb_pci_resume,
#endif /* CONFIG_PM */
};
#endif /* CONFIG_PCI */
#ifndef MODULE
static int __init atyfb_setup(char *options)
{
char *this_opt;
if (!options || !*options)
return 0;
while ((this_opt = strsep(&options, ",")) != NULL) {
if (!strncmp(this_opt, "noaccel", 7)) {
noaccel = 1;
#ifdef CONFIG_MTRR
} else if (!strncmp(this_opt, "nomtrr", 6)) {
nomtrr = 1;
#endif
} else if (!strncmp(this_opt, "vram:", 5))
vram = simple_strtoul(this_opt + 5, NULL, 0);
else if (!strncmp(this_opt, "pll:", 4))
pll = simple_strtoul(this_opt + 4, NULL, 0);
else if (!strncmp(this_opt, "mclk:", 5))
mclk = simple_strtoul(this_opt + 5, NULL, 0);
else if (!strncmp(this_opt, "xclk:", 5))
xclk = simple_strtoul(this_opt+5, NULL, 0);
else if (!strncmp(this_opt, "comp_sync:", 10))
comp_sync = simple_strtoul(this_opt+10, NULL, 0);
#ifdef CONFIG_PPC
else if (!strncmp(this_opt, "vmode:", 6)) {
unsigned int vmode =
simple_strtoul(this_opt + 6, NULL, 0);
if (vmode > 0 && vmode <= VMODE_MAX)
default_vmode = vmode;
} else if (!strncmp(this_opt, "cmode:", 6)) {
unsigned int cmode =
simple_strtoul(this_opt + 6, NULL, 0);
switch (cmode) {
case 0:
case 8:
default_cmode = CMODE_8;
break;
case 15:
case 16:
default_cmode = CMODE_16;
break;
case 24:
case 32:
default_cmode = CMODE_32;
break;
}
}
#endif
#ifdef CONFIG_ATARI
/*
* Why do we need this silly Mach64 argument?
* We are already here because of mach64= so its redundant.
*/
else if (MACH_IS_ATARI
&& (!strncmp(this_opt, "Mach64:", 7))) {
static unsigned char m64_num;
static char mach64_str[80];
strlcpy(mach64_str, this_opt + 7, sizeof(mach64_str));
if (!store_video_par(mach64_str, m64_num)) {
m64_num++;
mach64_count = m64_num;
}
}
#endif
else
mode = this_opt;
}
return 0;
}
#endif /* MODULE */
static int __init atyfb_init(void)
{
int err1 = 1, err2 = 1;
#ifndef MODULE
char *option = NULL;
if (fb_get_options("atyfb", &option))
return -ENODEV;
atyfb_setup(option);
#endif
#ifdef CONFIG_PCI
err1 = pci_register_driver(&atyfb_driver);
#endif
#ifdef CONFIG_ATARI
err2 = atyfb_atari_probe();
#endif
return (err1 && err2) ? -ENODEV : 0;
}
static void __exit atyfb_exit(void)
{
#ifdef CONFIG_PCI
pci_unregister_driver(&atyfb_driver);
#endif
}
module_init(atyfb_init);
module_exit(atyfb_exit);
MODULE_DESCRIPTION("FBDev driver for ATI Mach64 cards");
MODULE_LICENSE("GPL");
module_param(noaccel, bool, 0);
MODULE_PARM_DESC(noaccel, "bool: disable acceleration");
module_param(vram, int, 0);
MODULE_PARM_DESC(vram, "int: override size of video ram");
module_param(pll, int, 0);
MODULE_PARM_DESC(pll, "int: override video clock");
module_param(mclk, int, 0);
MODULE_PARM_DESC(mclk, "int: override memory clock");
module_param(xclk, int, 0);
MODULE_PARM_DESC(xclk, "int: override accelerated engine clock");
module_param(comp_sync, int, 0);
MODULE_PARM_DESC(comp_sync,
"Set composite sync signal to low (0) or high (1)");
module_param(mode, charp, 0);
MODULE_PARM_DESC(mode, "Specify resolution as \"<xres>x<yres>[-<bpp>][@<refresh>]\" ");
#ifdef CONFIG_MTRR
module_param(nomtrr, bool, 0);
MODULE_PARM_DESC(nomtrr, "bool: disable use of MTRR registers");
#endif
|