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|
/*
Matrox MGA driver
ported to VIDIX by Alex Beregszaszi
YUY2 support (see config.format) added by A'rpi/ESP-team
double buffering added by A'rpi/ESP-team
Brightness/contrast support by Nick Kurshev/Dariush Pietrzak (eyck) and me
TODO:
* fix memory size detection (current reading pci userconfig isn't
working as requested - returns the max avail. ram on arch?)
* translate all non-english comments to english
*/
/*
* Original copyright:
*
* mga_vid.c
*
* Copyright (C) 1999 Aaron Holtzman
*
* Module skeleton based on gutted agpgart module by Jeff Hartmann
* <slicer@ionet.net>
*
* Matrox MGA G200/G400 YUV Video Interface module Version 0.1.0
*
* BES == Back End Scaler
*
* This software has been released under the terms of the GNU Public
* license. See http://www.gnu.org/copyleft/gpl.html for details.
*/
//#define CRTC2
// Set this value, if autodetection fails! (video ram size in megabytes)
//#define MGA_MEMORY_SIZE 16
/* No irq support in userspace implemented yet, do not enable this! */
/* disable irq */
#undef MGA_ALLOW_IRQ
#define MGA_VSYNC_POS 2
#undef MGA_PCICONFIG_MEMDETECT
#define MGA_DEFAULT_FRAMES 4
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <math.h>
#include <inttypes.h>
#include "../vidix.h"
#include "../fourcc.h"
#include "../../libdha/libdha.h"
#include "../../libdha/pci_ids.h"
#include "../../libdha/pci_names.h"
#if !defined(ENOTSUP) && defined(EOPNOTSUPP)
#define ENOTSUP EOPNOTSUPP
#endif
/* from radeon_vid */
#define GETREG(TYPE,PTR,OFFZ) (*((volatile TYPE*)((PTR)+(OFFZ))))
#define SETREG(TYPE,PTR,OFFZ,VAL) (*((volatile TYPE*)((PTR)+(OFFZ))))=VAL
#define readb(addr) GETREG(uint8_t,(uint32_t)(addr),0)
#define writeb(val,addr) SETREG(uint8_t,(uint32_t)(addr),0,val)
#define readl(addr) GETREG(uint32_t,(uint32_t)(addr),0)
#define writel(val,addr) SETREG(uint32_t,(uint32_t)(addr),0,val)
static int mga_verbose = 0;
/* for device detection */
static int probed = 0;
static pciinfo_t pci_info;
/* internal booleans */
static int mga_vid_in_use = 0;
static int is_g400 = 0;
static int vid_src_ready = 0;
static int vid_overlay_on = 0;
/* mapped physical addresses */
static uint8_t *mga_mmio_base = 0;
static uint8_t *mga_mem_base = 0;
static int mga_src_base = 0; /* YUV buffer position in video memory */
static uint32_t mga_ram_size = 0; /* how much megabytes videoram we have */
/* Graphic keys */
static vidix_grkey_t mga_grkey;
static int colkey_saved = 0;
static int colkey_on = 0;
static unsigned char colkey_color[4];
static unsigned char colkey_mask[4];
/* for IRQ */
static int mga_irq = -1;
static int mga_next_frame = 0;
static vidix_capability_t mga_cap =
{
"Matrox MGA G200/G4x0/G5x0 YUV Video",
"Aaron Holtzman, Arpad Gereoffy, Alex Beregszaszi, Nick Kurshev",
TYPE_OUTPUT,
{ 0, 0, 0, 0 },
2048,
2048,
4,
4,
-1,
FLAG_UPSCALER | FLAG_DOWNSCALER | FLAG_EQUALIZER,
VENDOR_MATROX,
-1, /* will be set in vixProbe */
{ 0, 0, 0, 0}
};
/* MATROX BES registers */
typedef struct bes_registers_s
{
//BES Control
uint32_t besctl;
//BES Global control
uint32_t besglobctl;
//Luma control (brightness and contrast)
uint32_t beslumactl;
//Line pitch
uint32_t bespitch;
//Buffer A-1 Chroma 3 plane org
uint32_t besa1c3org;
//Buffer A-1 Chroma org
uint32_t besa1corg;
//Buffer A-1 Luma org
uint32_t besa1org;
//Buffer A-2 Chroma 3 plane org
uint32_t besa2c3org;
//Buffer A-2 Chroma org
uint32_t besa2corg;
//Buffer A-2 Luma org
uint32_t besa2org;
//Buffer B-1 Chroma 3 plane org
uint32_t besb1c3org;
//Buffer B-1 Chroma org
uint32_t besb1corg;
//Buffer B-1 Luma org
uint32_t besb1org;
//Buffer B-2 Chroma 3 plane org
uint32_t besb2c3org;
//Buffer B-2 Chroma org
uint32_t besb2corg;
//Buffer B-2 Luma org
uint32_t besb2org;
//BES Horizontal coord
uint32_t beshcoord;
//BES Horizontal inverse scaling [5.14]
uint32_t beshiscal;
//BES Horizontal source start [10.14] (for scaling)
uint32_t beshsrcst;
//BES Horizontal source ending [10.14] (for scaling)
uint32_t beshsrcend;
//BES Horizontal source last
uint32_t beshsrclst;
//BES Vertical coord
uint32_t besvcoord;
//BES Vertical inverse scaling [5.14]
uint32_t besviscal;
//BES Field 1 vertical source last position
uint32_t besv1srclst;
//BES Field 1 weight start
uint32_t besv1wght;
//BES Field 2 vertical source last position
uint32_t besv2srclst;
//BES Field 2 weight start
uint32_t besv2wght;
} bes_registers_t;
static bes_registers_t regs;
#ifdef CRTC2
typedef struct crtc2_registers_s
{
uint32_t c2ctl;
uint32_t c2datactl;
uint32_t c2misc;
uint32_t c2hparam;
uint32_t c2hsync;
uint32_t c2offset;
uint32_t c2pl2startadd0;
uint32_t c2pl2startadd1;
uint32_t c2pl3startadd0;
uint32_t c2pl3startadd1;
uint32_t c2preload;
uint32_t c2spicstartadd0;
uint32_t c2spicstartadd1;
uint32_t c2startadd0;
uint32_t c2startadd1;
uint32_t c2subpiclut;
uint32_t c2vcount;
uint32_t c2vparam;
uint32_t c2vsync;
} crtc2_registers_t;
static crtc2_registers_t cregs;
#endif
//All register offsets are converted to word aligned offsets (32 bit)
//because we want all our register accesses to be 32 bits
#define VCOUNT 0x1e20
#define PALWTADD 0x3c00 // Index register for X_DATAREG port
#define X_DATAREG 0x3c0a
#define XMULCTRL 0x19
#define BPP_8 0x00
#define BPP_15 0x01
#define BPP_16 0x02
#define BPP_24 0x03
#define BPP_32_DIR 0x04
#define BPP_32_PAL 0x07
#define XCOLMSK 0x40
#define X_COLKEY 0x42
#define XKEYOPMODE 0x51
#define XCOLMSK0RED 0x52
#define XCOLMSK0GREEN 0x53
#define XCOLMSK0BLUE 0x54
#define XCOLKEY0RED 0x55
#define XCOLKEY0GREEN 0x56
#define XCOLKEY0BLUE 0x57
#ifdef CRTC2
/*CRTC2 registers*/
#define XMISCCTRL 0x1e
#define C2CTL 0x3c10
#define C2DATACTL 0x3c4c
#define C2MISC 0x3c44
#define C2HPARAM 0x3c14
#define C2HSYNC 0x3c18
#define C2OFFSET 0x3c40
#define C2PL2STARTADD0 0x3c30 // like BESA1CORG
#define C2PL2STARTADD1 0x3c34 // like BESA2CORG
#define C2PL3STARTADD0 0x3c38 // like BESA1C3ORG
#define C2PL3STARTADD1 0x3c3c // like BESA2C3ORG
#define C2PRELOAD 0x3c24
#define C2SPICSTARTADD0 0x3c54
#define C2SPICSTARTADD1 0x3c58
#define C2STARTADD0 0x3c28 // like BESA1ORG
#define C2STARTADD1 0x3c2c // like BESA2ORG
#define C2SUBPICLUT 0x3c50
#define C2VCOUNT 0x3c48
#define C2VPARAM 0x3c1c
#define C2VSYNC 0x3c20
#endif /* CRTC2 */
// Backend Scaler registers
#define BESCTL 0x3d20
#define BESGLOBCTL 0x3dc0
#define BESLUMACTL 0x3d40
#define BESPITCH 0x3d24
#define BESA1C3ORG 0x3d60
#define BESA1CORG 0x3d10
#define BESA1ORG 0x3d00
#define BESA2C3ORG 0x3d64
#define BESA2CORG 0x3d14
#define BESA2ORG 0x3d04
#define BESB1C3ORG 0x3d68
#define BESB1CORG 0x3d18
#define BESB1ORG 0x3d08
#define BESB2C3ORG 0x3d6C
#define BESB2CORG 0x3d1C
#define BESB2ORG 0x3d0C
#define BESHCOORD 0x3d28
#define BESHISCAL 0x3d30
#define BESHSRCEND 0x3d3C
#define BESHSRCLST 0x3d50
#define BESHSRCST 0x3d38
#define BESV1WGHT 0x3d48
#define BESV2WGHT 0x3d4c
#define BESV1SRCLST 0x3d54
#define BESV2SRCLST 0x3d58
#define BESVISCAL 0x3d34
#define BESVCOORD 0x3d2c
#define BESSTATUS 0x3dc4
#define CRTCX 0x1fd4
#define CRTCD 0x1fd5
#define IEN 0x1e1c
#define ICLEAR 0x1e18
#define STATUS 0x1e14
#ifdef CRTC2
static void crtc2_frame_sel(int frame)
{
switch(frame) {
case 0:
cregs.c2pl2startadd0=regs.besa1corg;
cregs.c2pl3startadd0=regs.besa1c3org;
cregs.c2startadd0=regs.besa1org;
break;
case 1:
cregs.c2pl2startadd0=regs.besa2corg;
cregs.c2pl3startadd0=regs.besa2c3org;
cregs.c2startadd0=regs.besa2org;
break;
case 2:
cregs.c2pl2startadd0=regs.besb1corg;
cregs.c2pl3startadd0=regs.besb1c3org;
cregs.c2startadd0=regs.besb1org;
break;
case 3:
cregs.c2pl2startadd0=regs.besb2corg;
cregs.c2pl3startadd0=regs.besb2c3org;
cregs.c2startadd0=regs.besb2org;
break;
}
writel(cregs.c2startadd0, mga_mmio_base + C2STARTADD0);
writel(cregs.c2pl2startadd0, mga_mmio_base + C2PL2STARTADD0);
writel(cregs.c2pl3startadd0, mga_mmio_base + C2PL3STARTADD0);
}
#endif
int vixPlaybackFrameSelect(unsigned int frame)
{
mga_next_frame = frame;
if (mga_verbose>1) printf("[mga] frameselect: %d\n", mga_next_frame);
#if MGA_ALLOW_IRQ
if (mga_irq == -1)
#endif
{
//we don't need the vcount protection as we're only hitting
//one register (and it doesn't seem to be double buffered)
regs.besctl = (regs.besctl & ~0x07000000) + (mga_next_frame << 25);
writel( regs.besctl, mga_mmio_base + BESCTL );
// writel( regs.besglobctl + ((readl(mga_mmio_base + VCOUNT)+2)<<16),
writel( regs.besglobctl + (MGA_VSYNC_POS<<16),
mga_mmio_base + BESGLOBCTL);
#ifdef CRTC2
crtc2_frame_sel(mga_next_frame);
#endif
}
return(0);
}
static void mga_vid_write_regs(int restore)
{
//Make sure internal registers don't get updated until we're done
writel( (readl(mga_mmio_base + VCOUNT)-1)<<16,
mga_mmio_base + BESGLOBCTL);
// color or coordinate keying
if(restore && colkey_saved){
// restore it
colkey_saved=0;
printf("[mga] Restoring colorkey (ON: %d %02X:%02X:%02X)\n",
colkey_on,colkey_color[0],colkey_color[1],colkey_color[2]);
// Set color key registers:
writeb( XKEYOPMODE, mga_mmio_base + PALWTADD);
writeb( colkey_on, mga_mmio_base + X_DATAREG);
writeb( XCOLKEY0RED, mga_mmio_base + PALWTADD);
writeb( colkey_color[0], mga_mmio_base + X_DATAREG);
writeb( XCOLKEY0GREEN, mga_mmio_base + PALWTADD);
writeb( colkey_color[1], mga_mmio_base + X_DATAREG);
writeb( XCOLKEY0BLUE, mga_mmio_base + PALWTADD);
writeb( colkey_color[2], mga_mmio_base + X_DATAREG);
writeb( X_COLKEY, mga_mmio_base + PALWTADD);
writeb( colkey_color[3], mga_mmio_base + X_DATAREG);
writeb( XCOLMSK0RED, mga_mmio_base + PALWTADD);
writeb( colkey_mask[0], mga_mmio_base + X_DATAREG);
writeb( XCOLMSK0GREEN, mga_mmio_base + PALWTADD);
writeb( colkey_mask[1], mga_mmio_base + X_DATAREG);
writeb( XCOLMSK0BLUE, mga_mmio_base + PALWTADD);
writeb( colkey_mask[2], mga_mmio_base + X_DATAREG);
writeb( XCOLMSK, mga_mmio_base + PALWTADD);
writeb( colkey_mask[3], mga_mmio_base + X_DATAREG);
} else if(!colkey_saved){
// save it
colkey_saved=1;
// Get color key registers:
writeb( XKEYOPMODE, mga_mmio_base + PALWTADD);
colkey_on=(unsigned char)readb(mga_mmio_base + X_DATAREG) & 1;
writeb( XCOLKEY0RED, mga_mmio_base + PALWTADD);
colkey_color[0]=(unsigned char)readb(mga_mmio_base + X_DATAREG);
writeb( XCOLKEY0GREEN, mga_mmio_base + PALWTADD);
colkey_color[1]=(unsigned char)readb(mga_mmio_base + X_DATAREG);
writeb( XCOLKEY0BLUE, mga_mmio_base + PALWTADD);
colkey_color[2]=(unsigned char)readb(mga_mmio_base + X_DATAREG);
writeb( X_COLKEY, mga_mmio_base + PALWTADD);
colkey_color[3]=(unsigned char)readb(mga_mmio_base + X_DATAREG);
writeb( XCOLMSK0RED, mga_mmio_base + PALWTADD);
colkey_mask[0]=(unsigned char)readb(mga_mmio_base + X_DATAREG);
writeb( XCOLMSK0GREEN, mga_mmio_base + PALWTADD);
colkey_mask[1]=(unsigned char)readb(mga_mmio_base + X_DATAREG);
writeb( XCOLMSK0BLUE, mga_mmio_base + PALWTADD);
colkey_mask[2]=(unsigned char)readb(mga_mmio_base + X_DATAREG);
writeb( XCOLMSK, mga_mmio_base + PALWTADD);
colkey_mask[3]=(unsigned char)readb(mga_mmio_base + X_DATAREG);
printf("[mga] Saved colorkey (ON: %d %02X:%02X:%02X)\n",
colkey_on,colkey_color[0],colkey_color[1],colkey_color[2]);
}
if(!restore){
writeb( XKEYOPMODE, mga_mmio_base + PALWTADD);
writeb( mga_grkey.ckey.op == CKEY_TRUE, mga_mmio_base + X_DATAREG);
if ( mga_grkey.ckey.op == CKEY_TRUE )
{
uint32_t r=0, g=0, b=0;
writeb( XMULCTRL, mga_mmio_base + PALWTADD);
switch (readb (mga_mmio_base + X_DATAREG))
{
case BPP_8:
/* Need to look up the color index, just using
color 0 for now. */
break;
case BPP_15:
r = mga_grkey.ckey.red >> 3;
g = mga_grkey.ckey.green >> 3;
b = mga_grkey.ckey.blue >> 3;
break;
case BPP_16:
r = mga_grkey.ckey.red >> 3;
g = mga_grkey.ckey.green >> 2;
b = mga_grkey.ckey.blue >> 3;
break;
case BPP_24:
case BPP_32_DIR:
case BPP_32_PAL:
r = mga_grkey.ckey.red;
g = mga_grkey.ckey.green;
b = mga_grkey.ckey.blue;
break;
}
// Disable color keying on alpha channel
writeb( XCOLMSK, mga_mmio_base + PALWTADD);
writeb( 0x00, mga_mmio_base + X_DATAREG);
writeb( X_COLKEY, mga_mmio_base + PALWTADD);
writeb( 0x00, mga_mmio_base + X_DATAREG);
// Set up color key registers
writeb( XCOLKEY0RED, mga_mmio_base + PALWTADD);
writeb( r, mga_mmio_base + X_DATAREG);
writeb( XCOLKEY0GREEN, mga_mmio_base + PALWTADD);
writeb( g, mga_mmio_base + X_DATAREG);
writeb( XCOLKEY0BLUE, mga_mmio_base + PALWTADD);
writeb( b, mga_mmio_base + X_DATAREG);
// Set up color key mask registers
writeb( XCOLMSK0RED, mga_mmio_base + PALWTADD);
writeb( 0xff, mga_mmio_base + X_DATAREG);
writeb( XCOLMSK0GREEN, mga_mmio_base + PALWTADD);
writeb( 0xff, mga_mmio_base + X_DATAREG);
writeb( XCOLMSK0BLUE, mga_mmio_base + PALWTADD);
writeb( 0xff, mga_mmio_base + X_DATAREG);
}
}
// Backend Scaler
writel( regs.besctl, mga_mmio_base + BESCTL);
if(is_g400)
writel( regs.beslumactl, mga_mmio_base + BESLUMACTL);
writel( regs.bespitch, mga_mmio_base + BESPITCH);
writel( regs.besa1org, mga_mmio_base + BESA1ORG);
writel( regs.besa1corg, mga_mmio_base + BESA1CORG);
writel( regs.besa2org, mga_mmio_base + BESA2ORG);
writel( regs.besa2corg, mga_mmio_base + BESA2CORG);
writel( regs.besb1org, mga_mmio_base + BESB1ORG);
writel( regs.besb1corg, mga_mmio_base + BESB1CORG);
writel( regs.besb2org, mga_mmio_base + BESB2ORG);
writel( regs.besb2corg, mga_mmio_base + BESB2CORG);
if(is_g400)
{
writel( regs.besa1c3org, mga_mmio_base + BESA1C3ORG);
writel( regs.besa2c3org, mga_mmio_base + BESA2C3ORG);
writel( regs.besb1c3org, mga_mmio_base + BESB1C3ORG);
writel( regs.besb2c3org, mga_mmio_base + BESB2C3ORG);
}
writel( regs.beshcoord, mga_mmio_base + BESHCOORD);
writel( regs.beshiscal, mga_mmio_base + BESHISCAL);
writel( regs.beshsrcst, mga_mmio_base + BESHSRCST);
writel( regs.beshsrcend, mga_mmio_base + BESHSRCEND);
writel( regs.beshsrclst, mga_mmio_base + BESHSRCLST);
writel( regs.besvcoord, mga_mmio_base + BESVCOORD);
writel( regs.besviscal, mga_mmio_base + BESVISCAL);
writel( regs.besv1srclst, mga_mmio_base + BESV1SRCLST);
writel( regs.besv1wght, mga_mmio_base + BESV1WGHT);
writel( regs.besv2srclst, mga_mmio_base + BESV2SRCLST);
writel( regs.besv2wght, mga_mmio_base + BESV2WGHT);
//update the registers somewhere between 1 and 2 frames from now.
writel( regs.besglobctl + ((readl(mga_mmio_base + VCOUNT)+2)<<16),
mga_mmio_base + BESGLOBCTL);
if (mga_verbose > 1)
{
printf("[mga] wrote BES registers\n");
printf("[mga] BESCTL = 0x%08x\n",
readl(mga_mmio_base + BESCTL));
printf("[mga] BESGLOBCTL = 0x%08x\n",
readl(mga_mmio_base + BESGLOBCTL));
printf("[mga] BESSTATUS= 0x%08x\n",
readl(mga_mmio_base + BESSTATUS));
}
#ifdef CRTC2
// printf("c2ctl:0x%08x c2datactl:0x%08x\n",readl(mga_mmio_base + C2CTL),readl(mga_mmio_base + C2DATACTL));
// printf("c2misc:0x%08x\n",readl(mga_mmio_base + C2MISC));
// printf("c2ctl:0x%08x c2datactl:0x%08x\n",cregs.c2ctl,cregs.c2datactl);
// writel(cregs.c2ctl, mga_mmio_base + C2CTL);
writel(((readl(mga_mmio_base + C2CTL) & ~0x03e00000) + (cregs.c2ctl & 0x03e00000)), mga_mmio_base + C2CTL);
writel(((readl(mga_mmio_base + C2DATACTL) & ~0x000000ff) + (cregs.c2datactl & 0x000000ff)), mga_mmio_base + C2DATACTL);
// ctrc2
// disable CRTC2 acording to specs
// writel(cregs.c2ctl & 0xfffffff0, mga_mmio_base + C2CTL);
// je to treba ???
// writeb((readb(mga_mmio_base + XMISCCTRL) & 0x19) | 0xa2, mga_mmio_base + XMISCCTRL); // MAFC - mfcsel & vdoutsel
// writeb((readb(mga_mmio_base + XMISCCTRL) & 0x19) | 0x92, mga_mmio_base + XMISCCTRL);
// writeb((readb(mga_mmio_base + XMISCCTRL) & ~0xe9) + 0xa2, mga_mmio_base + XMISCCTRL);
// writel(cregs.c2datactl, mga_mmio_base + C2DATACTL);
// writel(cregs.c2hparam, mga_mmio_base + C2HPARAM);
// writel(cregs.c2hsync, mga_mmio_base + C2HSYNC);
// writel(cregs.c2vparam, mga_mmio_base + C2VPARAM);
// writel(cregs.c2vsync, mga_mmio_base + C2VSYNC);
writel(cregs.c2misc, mga_mmio_base + C2MISC);
if (mga_verbose > 1) printf("[mga] c2offset = %d\n",cregs.c2offset);
writel(cregs.c2offset, mga_mmio_base + C2OFFSET);
writel(cregs.c2startadd0, mga_mmio_base + C2STARTADD0);
// writel(cregs.c2startadd1, mga_mmio_base + C2STARTADD1);
writel(cregs.c2pl2startadd0, mga_mmio_base + C2PL2STARTADD0);
// writel(cregs.c2pl2startadd1, mga_mmio_base + C2PL2STARTADD1);
writel(cregs.c2pl3startadd0, mga_mmio_base + C2PL3STARTADD0);
// writel(cregs.c2pl3startadd1, mga_mmio_base + C2PL3STARTADD1);
writel(cregs.c2spicstartadd0, mga_mmio_base + C2SPICSTARTADD0);
// writel(cregs.c2spicstartadd1, mga_mmio_base + C2SPICSTARTADD1);
// writel(cregs.c2subpiclut, mga_mmio_base + C2SUBPICLUT);
// writel(cregs.c2preload, mga_mmio_base + C2PRELOAD);
// finaly enable everything
// writel(cregs.c2ctl, mga_mmio_base + C2CTL);
// printf("c2ctl:0x%08x c2datactl:0x%08x\n",readl(mga_mmio_base + C2CTL),readl(mga_mmio_base + C2DATACTL));
// printf("c2misc:0x%08x\n", readl(mga_mmio_base + C2MISC));
#endif
}
#ifdef MGA_ALLOW_IRQ
static void enable_irq(){
long int cc;
cc = readl(mga_mmio_base + IEN);
// printf("*** !!! IRQREG = %d\n", (int)(cc&0xff));
writeb( 0x11, mga_mmio_base + CRTCX);
writeb(0x20, mga_mmio_base + CRTCD ); /* clear 0, enable off */
writeb(0x00, mga_mmio_base + CRTCD ); /* enable on */
writeb(0x10, mga_mmio_base + CRTCD ); /* clear = 1 */
writel( regs.besglobctl , mga_mmio_base + BESGLOBCTL);
return;
}
static void disable_irq()
{
writeb( 0x11, mga_mmio_base + CRTCX);
writeb(0x20, mga_mmio_base + CRTCD ); /* clear 0, enable off */
return;
}
void mga_handle_irq(int irq, void *dev_id/*, struct pt_regs *pregs*/) {
// static int frame=0;
// static int counter=0;
long int cc;
// if ( ! mga_enabled_flag ) return;
// printf("vcount = %d\n",readl(mga_mmio_base + VCOUNT));
//printf("mga_interrupt #%d\n", irq);
if ( irq != -1 ) {
cc = readl(mga_mmio_base + STATUS);
if ( ! (cc & 0x10) ) return; /* vsyncpen */
// debug_irqcnt++;
}
// if ( debug_irqignore ) {
// debug_irqignore = 0;
/*
if ( mga_conf_deinterlace ) {
if ( mga_first_field ) {
// printf("mga_interrupt first field\n");
if ( syncfb_interrupt() )
mga_first_field = 0;
} else {
// printf("mga_interrupt second field\n");
mga_select_buffer( mga_current_field | 2 );
mga_first_field = 1;
}
} else {
syncfb_interrupt();
}
*/
// frame=(frame+1)&1;
regs.besctl = (regs.besctl & ~0x07000000) + (mga_next_frame << 25);
writel( regs.besctl, mga_mmio_base + BESCTL );
#ifdef CRTC2
// sem pridat vyber obrazku !!!!
crtc2_frame_sel(mga_next_frame);
#endif
#if 0
++counter;
if(!(counter&63)){
printf("mga irq counter = %d\n",counter);
}
#endif
// } else {
// debug_irqignore = 1;
// }
if ( irq != -1 ) {
writeb( 0x11, mga_mmio_base + CRTCX);
writeb( 0, mga_mmio_base + CRTCD );
writeb( 0x10, mga_mmio_base + CRTCD );
}
// writel( regs.besglobctl, mga_mmio_base + BESGLOBCTL);
return;
}
#endif /* MGA_ALLOW_IRQ */
int vixConfigPlayback(vidix_playback_t *config)
{
unsigned int i;
int x, y, sw, sh, dw, dh;
int besleft, bestop, ifactor, ofsleft, ofstop, baseadrofs, weight, weights;
#ifdef CRTC2
#define right_margin 0
#define left_margin 18
#define hsync_len 46
#define lower_margin 10
#define vsync_len 4
#define upper_margin 39
unsigned int hdispend = (config->src.w + 31) & ~31;
unsigned int hsyncstart = hdispend + (right_margin & ~7);
unsigned int hsyncend = hsyncstart + (hsync_len & ~7);
unsigned int htotal = hsyncend + (left_margin & ~7);
unsigned int vdispend = config->src.h;
unsigned int vsyncstart = vdispend + lower_margin;
unsigned int vsyncend = vsyncstart + vsync_len;
unsigned int vtotal = vsyncend + upper_margin;
#endif
if ((config->num_frames < 1) || (config->num_frames > 4))
{
printf("[mga] illegal num_frames: %d, setting to %d\n",
config->num_frames, MGA_DEFAULT_FRAMES);
config->num_frames = MGA_DEFAULT_FRAMES;
}
x = config->dest.x;
y = config->dest.y;
sw = config->src.w;
sh = config->src.h;
dw = config->dest.w;
dh = config->dest.h;
config->dest.pitch.y=32;
config->dest.pitch.u=config->dest.pitch.v=16;
if (mga_verbose) printf("[mga] Setting up a %dx%d-%dx%d video window (src %dx%d) format %X\n",
dw, dh, x, y, sw, sh, config->fourcc);
if ((sw < 4) || (sh < 4) || (dw < 4) || (dh < 4))
{
printf("[mga] Invalid src/dest dimensions\n");
return(EINVAL);
}
//FIXME check that window is valid and inside desktop
// printf("[mga] vcount = %d\n", readl(mga_mmio_base + VCOUNT));
sw+=sw&1;
switch(config->fourcc)
{
case IMGFMT_I420:
case IMGFMT_IYUV:
case IMGFMT_YV12:
sh+=sh&1;
config->frame_size = ((sw + 31) & ~31) * sh + (((sw + 31) & ~31) * sh) / 2;
break;
case IMGFMT_YUY2:
case IMGFMT_UYVY:
config->frame_size = ((sw + 31) & ~31) * sh * 2;
break;
default:
printf("[mga] Unsupported pixel format: %x\n", config->fourcc);
return(ENOTSUP);
}
config->offsets[0] = 0;
// config->offsets[1] = config->frame_size;
// config->offsets[2] = 2*config->frame_size;
// config->offsets[3] = 3*config->frame_size;
for (i = 1; i < config->num_frames+1; i++)
config->offsets[i] = i*config->frame_size;
config->offset.y=0;
config->offset.v=((sw + 31) & ~31) * sh;
config->offset.u=config->offset.v+((sw + 31) & ~31) * sh /4;
//FIXME figure out a better way to allocate memory on card
//allocate 2 megs
//mga_src_base = mga_mem_base + (MGA_VIDMEM_SIZE-2) * 0x100000;
//mga_src_base = (MGA_VIDMEM_SIZE-3) * 0x100000;
mga_src_base = (mga_ram_size*0x100000-config->num_frames*config->frame_size);
if (mga_src_base < 0)
{
printf("[mga] not enough memory for frames!\n");
return(EFAULT);
}
mga_src_base &= (~0xFFFF); /* 64k boundary */
if (mga_verbose > 1) printf("[mga] YUV buffer base: %p\n", mga_src_base);
config->dga_addr = mga_mem_base + mga_src_base;
/* for G200 set Interleaved UV planes */
if (!is_g400)
config->flags = VID_PLAY_INTERLEAVED_UV | INTERLEAVING_UV;
//Setup the BES registers for a three plane 4:2:0 video source
regs.besglobctl = 0;
switch(config->fourcc)
{
case IMGFMT_YV12:
case IMGFMT_I420:
case IMGFMT_IYUV:
regs.besctl = 1 // BES enabled
+ (0<<6) // even start polarity
+ (1<<10) // x filtering enabled
+ (1<<11) // y filtering enabled
+ (1<<16) // chroma upsampling
+ (1<<17) // 4:2:0 mode
+ (1<<18); // dither enabled
#if 0
if(is_g400)
{
//zoom disabled, zoom filter disabled, 420 3 plane format, proc amp
//disabled, rgb mode disabled
regs.besglobctl = (1<<5);
}
else
{
//zoom disabled, zoom filter disabled, Cb samples in 0246, Cr
//in 1357, BES register update on besvcnt
regs.besglobctl = 0;
}
#endif
break;
case IMGFMT_YUY2:
regs.besctl = 1 // BES enabled
+ (0<<6) // even start polarity
+ (1<<10) // x filtering enabled
+ (1<<11) // y filtering enabled
+ (1<<16) // chroma upsampling
+ (0<<17) // 4:2:2 mode
+ (1<<18); // dither enabled
regs.besglobctl = 0; // YUY2 format selected
break;
case IMGFMT_UYVY:
regs.besctl = 1 // BES enabled
+ (0<<6) // even start polarity
+ (1<<10) // x filtering enabled
+ (1<<11) // y filtering enabled
+ (1<<16) // chroma upsampling
+ (0<<17) // 4:2:2 mode
+ (1<<18); // dither enabled
regs.besglobctl = 1<<6; // UYVY format selected
break;
}
//Disable contrast and brightness control
regs.besglobctl |= (1<<5) + (1<<7);
regs.beslumactl = (0x7f << 16) + (0x80<<0);
regs.beslumactl = 0x80<<0;
//Setup destination window boundaries
besleft = x > 0 ? x : 0;
bestop = y > 0 ? y : 0;
regs.beshcoord = (besleft<<16) + (x + dw-1);
regs.besvcoord = (bestop<<16) + (y + dh-1);
//Setup source dimensions
regs.beshsrclst = (sw - 1) << 16;
regs.bespitch = (sw + 31) & ~31 ;
//Setup horizontal scaling
ifactor = ((sw-1)<<14)/(dw-1);
ofsleft = besleft - x;
regs.beshiscal = ifactor<<2;
regs.beshsrcst = (ofsleft*ifactor)<<2;
regs.beshsrcend = regs.beshsrcst + (((dw - ofsleft - 1) * ifactor) << 2);
//Setup vertical scaling
ifactor = ((sh-1)<<14)/(dh-1);
ofstop = bestop - y;
regs.besviscal = ifactor<<2;
baseadrofs = ((ofstop*regs.besviscal)>>16)*regs.bespitch;
//frame_size = ((sw + 31) & ~31) * sh + (((sw + 31) & ~31) * sh) / 2;
regs.besa1org = (uint32_t) mga_src_base + baseadrofs;
regs.besa2org = (uint32_t) mga_src_base + baseadrofs + 1*config->frame_size;
regs.besb1org = (uint32_t) mga_src_base + baseadrofs + 2*config->frame_size;
regs.besb2org = (uint32_t) mga_src_base + baseadrofs + 3*config->frame_size;
if(config->fourcc==IMGFMT_YV12
||config->fourcc==IMGFMT_IYUV
||config->fourcc==IMGFMT_I420
){
// planar YUV frames:
if (is_g400)
baseadrofs = (((ofstop*regs.besviscal)/4)>>16)*regs.bespitch;
else
baseadrofs = (((ofstop*regs.besviscal)/2)>>16)*regs.bespitch;
if(config->fourcc==IMGFMT_YV12){
regs.besa1corg = (uint32_t) mga_src_base + baseadrofs + regs.bespitch * sh ;
regs.besa2corg = (uint32_t) mga_src_base + baseadrofs + 1*config->frame_size + regs.bespitch * sh;
regs.besb1corg = (uint32_t) mga_src_base + baseadrofs + 2*config->frame_size + regs.bespitch * sh;
regs.besb2corg = (uint32_t) mga_src_base + baseadrofs + 3*config->frame_size + regs.bespitch * sh;
regs.besa1c3org = regs.besa1corg + ((regs.bespitch * sh) / 4);
regs.besa2c3org = regs.besa2corg + ((regs.bespitch * sh) / 4);
regs.besb1c3org = regs.besb1corg + ((regs.bespitch * sh) / 4);
regs.besb2c3org = regs.besb2corg + ((regs.bespitch * sh) / 4);
} else {
regs.besa1c3org = (uint32_t) mga_src_base + baseadrofs + regs.bespitch * sh ;
regs.besa2c3org = (uint32_t) mga_src_base + baseadrofs + 1*config->frame_size + regs.bespitch * sh;
regs.besb1c3org = (uint32_t) mga_src_base + baseadrofs + 2*config->frame_size + regs.bespitch * sh;
regs.besb2c3org = (uint32_t) mga_src_base + baseadrofs + 3*config->frame_size + regs.bespitch * sh;
regs.besa1corg = regs.besa1c3org + ((regs.bespitch * sh) / 4);
regs.besa2corg = regs.besa2c3org + ((regs.bespitch * sh) / 4);
regs.besb1corg = regs.besb1c3org + ((regs.bespitch * sh) / 4);
regs.besb2corg = regs.besb2c3org + ((regs.bespitch * sh) / 4);
}
}
weight = ofstop * (regs.besviscal >> 2);
weights = weight < 0 ? 1 : 0;
regs.besv2wght = regs.besv1wght = (weights << 16) + ((weight & 0x3FFF) << 2);
regs.besv2srclst = regs.besv1srclst = sh - 1 - (((ofstop * regs.besviscal) >> 16) & 0x03FF);
#ifdef CRTC2
// pridat hlavni registry - tj. casovani ...
switch(config->fourcc){
case IMGFMT_YV12:
case IMGFMT_I420:
case IMGFMT_IYUV:
cregs.c2ctl = 1 // CRTC2 enabled
+ (1<<1) // external clock
+ (0<<2) // external clock
+ (1<<3) // pixel clock enable - not needed ???
+ (0<<4) // high prioryty req
+ (1<<5) // high prioryty req
+ (0<<6) // high prioryty req
+ (1<<8) // high prioryty req max
+ (0<<9) // high prioryty req max
+ (0<<10) // high prioryty req max
+ (0<<20) // CRTC1 to DAC
+ (1<<21) // 420 mode
+ (1<<22) // 420 mode
+ (1<<23) // 420 mode
+ (0<<24) // single chroma line for 420 mode - need to be corrected
+ (0<<25) /*/ interlace mode - need to be corrected*/
+ (0<<26) // field legth polariry
+ (0<<27) // field identification polariry
+ (1<<28) // VIDRST detection mode
+ (0<<29) // VIDRST detection mode
+ (1<<30) // Horizontal counter preload
+ (1<<31) // Vertical counter preload
;
cregs.c2datactl = 1 // disable dither - propably not needed, we are already in YUV mode
+ (1<<1) // Y filter enable
+ (1<<2) // CbCr filter enable
+ (0<<3) // subpicture enable (disabled)
+ (0<<4) // NTSC enable (disabled - PAL)
+ (0<<5) // C2 static subpicture enable (disabled)
+ (0<<6) // C2 subpicture offset division (disabled)
+ (0<<7) // 422 subformat selection !
/* + (0<<8) // 15 bpp high alpha
+ (0<<9) // 15 bpp high alpha
+ (0<<10) // 15 bpp high alpha
+ (0<<11) // 15 bpp high alpha
+ (0<<12) // 15 bpp high alpha
+ (0<<13) // 15 bpp high alpha
+ (0<<14) // 15 bpp high alpha
+ (0<<15) // 15 bpp high alpha
+ (0<<16) // 15 bpp low alpha
+ (0<<17) // 15 bpp low alpha
+ (0<<18) // 15 bpp low alpha
+ (0<<19) // 15 bpp low alpha
+ (0<<20) // 15 bpp low alpha
+ (0<<21) // 15 bpp low alpha
+ (0<<22) // 15 bpp low alpha
+ (0<<23) // 15 bpp low alpha
+ (0<<24) // static subpicture key
+ (0<<25) // static subpicture key
+ (0<<26) // static subpicture key
+ (0<<27) // static subpicture key
+ (0<<28) // static subpicture key
*/ ;
break;
case IMGFMT_YUY2:
cregs.c2ctl = 1 // CRTC2 enabled
+ (1<<1) // external clock
+ (0<<2) // external clock
+ (1<<3) // pixel clock enable - not needed ???
+ (0<<4) // high prioryty req - acc to spec
+ (1<<5) // high prioryty req
+ (0<<6) // high prioryty req
// 7 reserved
+ (1<<8) // high prioryty req max
+ (0<<9) // high prioryty req max
+ (0<<10) // high prioryty req max
// 11-19 reserved
+ (0<<20) // CRTC1 to DAC
+ (1<<21) // 422 mode
+ (0<<22) // 422 mode
+ (1<<23) // 422 mode
+ (0<<24) // single chroma line for 420 mode - need to be corrected
+ (0<<25) /*/ interlace mode - need to be corrected*/
+ (0<<26) // field legth polariry
+ (0<<27) // field identification polariry
+ (1<<28) // VIDRST detection mode
+ (0<<29) // VIDRST detection mode
+ (1<<30) // Horizontal counter preload
+ (1<<31) // Vertical counter preload
;
cregs.c2datactl = 1 // disable dither - propably not needed, we are already in YUV mode
+ (1<<1) // Y filter enable
+ (1<<2) // CbCr filter enable
+ (0<<3) // subpicture enable (disabled)
+ (0<<4) // NTSC enable (disabled - PAL)
+ (0<<5) // C2 static subpicture enable (disabled)
+ (0<<6) // C2 subpicture offset division (disabled)
+ (0<<7) // 422 subformat selection !
/* + (0<<8) // 15 bpp high alpha
+ (0<<9) // 15 bpp high alpha
+ (0<<10) // 15 bpp high alpha
+ (0<<11) // 15 bpp high alpha
+ (0<<12) // 15 bpp high alpha
+ (0<<13) // 15 bpp high alpha
+ (0<<14) // 15 bpp high alpha
+ (0<<15) // 15 bpp high alpha
+ (0<<16) // 15 bpp low alpha
+ (0<<17) // 15 bpp low alpha
+ (0<<18) // 15 bpp low alpha
+ (0<<19) // 15 bpp low alpha
+ (0<<20) // 15 bpp low alpha
+ (0<<21) // 15 bpp low alpha
+ (0<<22) // 15 bpp low alpha
+ (0<<23) // 15 bpp low alpha
+ (0<<24) // static subpicture key
+ (0<<25) // static subpicture key
+ (0<<26) // static subpicture key
+ (0<<27) // static subpicture key
+ (0<<28) // static subpicture key
*/ ;
break;
case IMGFMT_UYVY:
cregs.c2ctl = 1 // CRTC2 enabled
+ (1<<1) // external clock
+ (0<<2) // external clock
+ (1<<3) // pixel clock enable - not needed ???
+ (0<<4) // high prioryty req
+ (1<<5) // high prioryty req
+ (0<<6) // high prioryty req
+ (1<<8) // high prioryty req max
+ (0<<9) // high prioryty req max
+ (0<<10) // high prioryty req max
+ (0<<20) // CRTC1 to DAC
+ (1<<21) // 422 mode
+ (0<<22) // 422 mode
+ (1<<23) // 422 mode
+ (1<<24) // single chroma line for 420 mode - need to be corrected
+ (1<<25) /*/ interlace mode - need to be corrected*/
+ (0<<26) // field legth polariry
+ (0<<27) // field identification polariry
+ (1<<28) // VIDRST detection mode
+ (0<<29) // VIDRST detection mode
+ (1<<30) // Horizontal counter preload
+ (1<<31) // Vertical counter preload
;
cregs.c2datactl = 0 // enable dither - propably not needed, we are already in YUV mode
+ (1<<1) // Y filter enable
+ (1<<2) // CbCr filter enable
+ (0<<3) // subpicture enable (disabled)
+ (0<<4) // NTSC enable (disabled - PAL)
+ (0<<5) // C2 static subpicture enable (disabled)
+ (0<<6) // C2 subpicture offset division (disabled)
+ (1<<7) // 422 subformat selection !
/* + (0<<8) // 15 bpp high alpha
+ (0<<9) // 15 bpp high alpha
+ (0<<10) // 15 bpp high alpha
+ (0<<11) // 15 bpp high alpha
+ (0<<12) // 15 bpp high alpha
+ (0<<13) // 15 bpp high alpha
+ (0<<14) // 15 bpp high alpha
+ (0<<15) // 15 bpp high alpha
+ (0<<16) // 15 bpp low alpha
+ (0<<17) // 15 bpp low alpha
+ (0<<18) // 15 bpp low alpha
+ (0<<19) // 15 bpp low alpha
+ (0<<20) // 15 bpp low alpha
+ (0<<21) // 15 bpp low alpha
+ (0<<22) // 15 bpp low alpha
+ (0<<23) // 15 bpp low alpha
+ (0<<24) // static subpicture key
+ (0<<25) // static subpicture key
+ (0<<26) // static subpicture key
+ (0<<27) // static subpicture key
+ (0<<28) // static subpicture key
*/ ;
break;
}
cregs.c2hparam=((hdispend - 8) << 16) | (htotal - 8);
cregs.c2hsync=((hsyncend - 8) << 16) | (hsyncstart - 8);
cregs.c2misc=0 // CRTCV2 656 togg f0
+(0<<1) // CRTCV2 656 togg f0
+(0<<2) // CRTCV2 656 togg f0
+(0<<4) // CRTCV2 656 togg f1
+(0<<5) // CRTCV2 656 togg f1
+(0<<6) // CRTCV2 656 togg f1
+(0<<8) // Hsync active high
+(0<<9) // Vsync active high
// 16-27 c2vlinecomp - nevim co tam dat
;
cregs.c2offset=(regs.bespitch << 1);
cregs.c2pl2startadd0=regs.besa1corg;
// cregs.c2pl2startadd1=regs.besa2corg;
cregs.c2pl3startadd0=regs.besa1c3org;
// cregs.c2pl3startadd1=regs.besa2c3org;
cregs.c2preload=(vsyncstart << 16) | (hsyncstart); // from
cregs.c2spicstartadd0=0; // not used
// cregs.c2spicstartadd1=0; // not used
cregs.c2startadd0=regs.besa1org;
// cregs.c2startadd1=regs.besa2org;
cregs.c2subpiclut=0; //not used
cregs.c2vparam=((vdispend - 1) << 16) | (vtotal - 1);
cregs.c2vsync=((vsyncend - 1) << 16) | (vsyncstart - 1);
#endif /* CRTC2 */
mga_vid_write_regs(0);
return(0);
}
int vixPlaybackOn(void)
{
if (mga_verbose) printf("[mga] playback on\n");
vid_src_ready = 1;
if(vid_overlay_on)
{
regs.besctl |= 1;
mga_vid_write_regs(0);
}
#ifdef MGA_ALLOW_IRQ
if (mga_irq != -1)
enable_irq();
#endif
mga_next_frame=0;
return(0);
}
int vixPlaybackOff(void)
{
if (mga_verbose) printf("[mga] playback off\n");
vid_src_ready = 0;
#ifdef MGA_ALLOW_IRQ
if (mga_irq != -1)
disable_irq();
#endif
regs.besctl &= ~1;
regs.besglobctl &= ~(1<<6); /* UYVY format selected */
mga_vid_write_regs(0);
return(0);
}
int vixProbe(int verbose,int force)
{
pciinfo_t lst[MAX_PCI_DEVICES];
unsigned int i, num_pci;
int err;
if (verbose) printf("[mga] probe\n");
mga_verbose = verbose;
is_g400 = -1;
err = pci_scan(lst, &num_pci);
if (err)
{
printf("[mga] Error occured during pci scan: %s\n", strerror(err));
return(err);
}
if (mga_verbose)
printf("[mga] found %d pci devices\n", num_pci);
for (i = 0; i < num_pci; i++)
{
if (mga_verbose > 1)
printf("[mga] pci[%d] vendor: %d device: %d\n",
i, lst[i].vendor, lst[i].device);
if (lst[i].vendor == VENDOR_MATROX)
{
switch(lst[i].device)
{
case DEVICE_MATROX_MGA_G550_AGP:
printf("[mga] Found MGA G550\n");
is_g400 = 1;
goto card_found;
case DEVICE_MATROX_MGA_G400_AGP:
printf("[mga] Found MGA G400/G450\n");
is_g400 = 1;
goto card_found;
case DEVICE_MATROX_MGA_G200_AGP:
printf("[mga] Found MGA G200 AGP\n");
is_g400 = 0;
goto card_found;
case DEVICE_MATROX_MGA_G200:
printf("[mga] Found MGA G200 PCI\n");
is_g400 = 0;
goto card_found;
}
}
}
if (is_g400 == -1)
{
printf("[mga] No supported cards found\n");
return(ENXIO);
}
card_found:
probed = 1;
memcpy(&pci_info, &lst[i], sizeof(pciinfo_t));
mga_cap.device_id = pci_info.device; /* set device id in capabilites */
return(0);
}
int vixInit(void)
{
unsigned int card_option = 0;
int err;
if (mga_verbose) printf("[mga] init\n");
mga_vid_in_use = 0;
printf("Matrox MGA G200/G400/G450 YUV Video interface v2.01 (c) Aaron Holtzman & A'rpi\n");
#ifdef CRCT2
printf("Driver compiled with TV-out (second-head) support\n");
#endif
if (!probed)
{
printf("[mga] driver was not probed but is being initializing\n");
return(EINTR);
}
#ifdef MGA_PCICONFIG_MEMDETECT
pci_config_read(pci_info.bus, pci_info.card, pci_info.func,
0x40, 4, &card_option);
if (mga_verbose > 1) printf("[mga] OPTION word: 0x%08X mem: 0x%02X %s\n", card_option,
(card_option>>10)&0x17, ((card_option>>14)&1)?"SGRAM":"SDRAM");
#endif
if (mga_ram_size)
{
printf("[mga] RAMSIZE forced to %d MB\n", mga_ram_size);
}
else
{
#ifdef MGA_MEMORY_SIZE
mga_ram_size = MGA_MEMORY_SIZE;
printf("[mga] hard-coded RAMSIZE is %d MB\n", (unsigned int) mga_ram_size);
#else
if (is_g400)
{
switch((card_option>>10)&0x17)
{
// SDRAM:
case 0x00:
case 0x04: mga_ram_size = 16; break;
case 0x03: mga_ram_size = 32; break;
// SGRAM:
case 0x10:
case 0x14: mga_ram_size = 32; break;
case 0x11:
case 0x12: mga_ram_size = 16; break;
default:
mga_ram_size = 16;
printf("[mga] Couldn't detect RAMSIZE, assuming 16MB!\n");
}
}
else
{
switch((card_option>>10)&0x17)
{
// case 0x10:
// case 0x13: mga_ram_size = 8; break;
default: mga_ram_size = 8;
}
}
#if 0
// printf("List resources -----------\n");
for(temp=0;temp<DEVICE_COUNT_RESOURCE;temp++){
struct resource *res=&pci_dev->resource[temp];
if(res->flags){
int size=(1+res->end-res->start)>>20;
printf("res %d: start: 0x%X end: 0x%X (%d MB) flags=0x%X\n",temp,res->start,res->end,size,res->flags);
if(res->flags&(IORESOURCE_MEM|IORESOURCE_PREFETCH)){
if(size>mga_ram_size && size<=64) mga_ram_size=size;
}
}
}
#endif
printf("[mga] detected RAMSIZE is %d MB\n", (unsigned int) mga_ram_size);
#endif
}
if (mga_ram_size)
{
if ((mga_ram_size < 4) || (mga_ram_size > 64))
{
printf("[mga] invalid RAMSIZE: %d MB\n", mga_ram_size);
return(EINVAL);
}
}
if (mga_verbose > 1) printf("[mga] hardware addresses: mmio: %p, framebuffer: %p\n",
pci_info.base1, pci_info.base0);
mga_mmio_base = map_phys_mem(pci_info.base1,0x4000);
mga_mem_base = map_phys_mem(pci_info.base0,mga_ram_size*1024*1024);
if (mga_verbose > 1) printf("[mga] MMIO at %p, IRQ: %d, framebuffer: %p\n",
mga_mmio_base, mga_irq, mga_mem_base);
err = mtrr_set_type(pci_info.base0,mga_ram_size*1024*1024,MTRR_TYPE_WRCOMB);
if(!err) printf("[mga] Set write-combining type of video memory\n");
#ifdef MGA_ALLOW_IRQ
if (mga_irq != -1)
{
int tmp = request_irq(mga_irq, mga_handle_irq, SA_INTERRUPT | SA_SHIRQ, "Syncfb Time Base", &mga_irq);
if (tmp)
{
printf("syncfb (mga): cannot register irq %d (Err: %d)\n", mga_irq, tmp);
mga_irq=-1;
}
else
{
printf("syncfb (mga): registered irq %d\n", mga_irq);
}
}
else
{
printf("syncfb (mga): No valid irq was found\n");
mga_irq=-1;
}
#else
printf("syncfb (mga): IRQ disabled in mga_vid.c\n");
mga_irq=-1;
#endif
return(0);
}
void vixDestroy(void)
{
if (mga_verbose) printf("[mga] destroy\n");
/* FIXME turn off BES */
vid_src_ready = 0;
regs.besctl &= ~1;
regs.besglobctl &= ~(1<<6); // UYVY format selected
// mga_config.colkey_on=0; //!!!
mga_vid_write_regs(1);
mga_vid_in_use = 0;
#ifdef MGA_ALLOW_IRQ
if (mga_irq != -1)
free_irq(mga_irq, &mga_irq);
#endif
if (mga_mmio_base)
unmap_phys_mem(mga_mmio_base, 0x4000);
if (mga_mem_base)
unmap_phys_mem(mga_mem_base, mga_ram_size);
return;
}
int vixQueryFourcc(vidix_fourcc_t *to)
{
if (mga_verbose) printf("[mga] query fourcc (%x)\n", to->fourcc);
switch(to->fourcc)
{
case IMGFMT_YV12:
case IMGFMT_IYUV:
case IMGFMT_I420:
case IMGFMT_YUY2:
case IMGFMT_UYVY:
break;
default:
to->depth = to->flags = 0;
return(ENOTSUP);
}
to->depth = VID_DEPTH_12BPP |
VID_DEPTH_15BPP | VID_DEPTH_16BPP |
VID_DEPTH_24BPP | VID_DEPTH_32BPP;
to->flags = VID_CAP_EXPAND | VID_CAP_SHRINK | VID_CAP_COLORKEY;
return(0);
}
unsigned int vixGetVersion(void)
{
return(VIDIX_VERSION);
}
int vixGetCapability(vidix_capability_t *to)
{
memcpy(to, &mga_cap, sizeof(vidix_capability_t));
return(0);
}
int vixGetGrKeys(vidix_grkey_t *grkey)
{
memcpy(grkey, &mga_grkey, sizeof(vidix_grkey_t));
return(0);
}
int vixSetGrKeys(const vidix_grkey_t *grkey)
{
memcpy(&mga_grkey, grkey, sizeof(vidix_grkey_t));
return(0);
}
int vixPlaybackSetEq( const vidix_video_eq_t * eq)
{
/* contrast and brightness control isn't supported on G200 - alex */
if (!is_g400)
{
if (mga_verbose) printf("[mga] equalizer isn't supported with G200\n");
return(ENOTSUP);
}
// only brightness&contrast are supported:
if(!(eq->cap & (VEQ_CAP_BRIGHTNESS|VEQ_CAP_CONTRAST)))
return(ENOTSUP);
//regs.beslumactl = readl(mga_mmio_base + BESLUMACTL);
// printf("LUMA = %08X \n",regs.beslumactl);
if (eq->cap & VEQ_CAP_BRIGHTNESS) {
regs.beslumactl &= 0xFFFF;
regs.beslumactl |= (eq->brightness*255/2000)<<16;
}
if (eq->cap & VEQ_CAP_CONTRAST) {
regs.beslumactl &= 0xFFFF0000;
regs.beslumactl |= (128+eq->contrast*255/2000)&0xFFFF;
}
writel(regs.beslumactl,mga_mmio_base + BESLUMACTL);
return(0);
}
int vixPlaybackGetEq( vidix_video_eq_t * eq)
{
/* contrast and brightness control isn't supported on G200 - alex */
if (!is_g400)
{
if (mga_verbose) printf("[mga] equalizer isn't supported with G200\n");
return(ENOTSUP);
}
// regs.beslumactl = readl(mga_mmio_base + BESLUMACTL);
eq->brightness = (signed short int)(regs.beslumactl >> 16) * 1000 / 128;
eq->contrast = (signed short int)(regs.beslumactl & 0xFFFF) * 1000 / 128 - 1000;
eq->cap = VEQ_CAP_BRIGHTNESS | VEQ_CAP_CONTRAST;
printf("MGA GET_EQ: br=%d c=%d \n",eq->brightness,eq->contrast);
return(0);
}
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