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mpv/vidix/drivers/cyberblade_vid.c

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/*
Driver for CyberBlade/i1 - Version 0.1.4
Copyright (C) 2002 by Alastair M. Robinson.
Official homepage: http://www.blackfiveservices.co.uk/EPIAVidix.shtml
Based on Permedia 3 driver by M<EFBFBD>ns Rullg<EFBFBD>rd
Thanks to Gilles Frattini for bugfixes
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
Changes:
18/01/03
MMIO is no longer used, sidestepping cache issues on EPIA-800
TV-Out modes are now better supported - this should be the end
of the magenta stripes :)
Brightness/Contrast controls disabled for the time being - they were
seriously degrading picture quality, especially with TV-Out.
To Do:
Implement Hue/Saturation controls
Support / Test multiple frames
Test colour-key code more extensively
*/
#include <errno.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <inttypes.h>
#include <unistd.h>
#include "../vidix.h"
#include "../fourcc.h"
#include "../../libdha/libdha.h"
#include "../../libdha/pci_ids.h"
#include "../../libdha/pci_names.h"
#include "../../config.h"
#include "cyberblade_regs.h"
pciinfo_t pci_info;
char save_colourkey[6];
char *cyberblade_mem;
#ifdef DEBUG_LOGFILE
FILE *logfile=0;
#define LOGWRITE(x) {if(logfile) fprintf(logfile,x);}
#else
#define LOGWRITE(x)
#endif
/* Helper functions for reading registers. */
static int CRINW(int reg)
{
int result;
result=CRINB(reg);
result|=CRINB(reg+1)<<8;
return(result);
}
static void CROUTW(int reg,int val)
{
CROUTB(reg,val&255);
CROUTB(reg+1,(val>>8)&255);
}
static int SRINW(int reg)
{
int result;
result=SRINB(reg);
result|=SRINB(reg+1)<<8;
return(result);
}
static void SROUTW(int reg,int val)
{
SROUTB(reg,val&255);
SROUTB(reg+1,(val>>8)&255);
}
void DumpRegisters(void)
{
int reg,val;
#ifdef DEBUG_LOGFILE
if(logfile)
{
LOGWRITE("CRTC Register Dump:\n")
for(reg=0;reg<256;++reg)
{
val=CRINB(reg);
fprintf(logfile,"CR0x%2x: 0x%2x\n",reg,val);
}
LOGWRITE("SR Register Dump:\n")
for(reg=0;reg<256;++reg)
{
val=SRINB(reg);
fprintf(logfile,"SR0x%2x: 0x%2x\n",reg,val);
}
}
#endif
}
/* --- */
static vidix_capability_t cyberblade_cap =
{
"Trident CyberBlade i1 driver",
"Alastair M. Robinson <blackfive@fakenhamweb.co.uk>",
TYPE_OUTPUT,
{ 0, 0, 0, 0 },
1024,
1024,
4,
4,
-1,
FLAG_UPSCALER|FLAG_DOWNSCALER,
VENDOR_TRIDENT,
-1,
{ 0, 0, 0, 0 }
};
unsigned int vixGetVersion(void)
{
return(VIDIX_VERSION);
}
static unsigned short cyberblade_card_ids[] =
{
DEVICE_TRIDENT_CYBERBLADE_I7,
DEVICE_TRIDENT_CYBERBLADE_I7D,
DEVICE_TRIDENT_CYBERBLADE_I1,
DEVICE_TRIDENT_CYBERBLADE_I12,
DEVICE_TRIDENT_CYBERBLADE_I13,
DEVICE_TRIDENT_CYBERBLADE_XPAI1
};
static int find_chip(unsigned chip_id)
{
unsigned i;
for(i = 0;i < sizeof(cyberblade_card_ids)/sizeof(unsigned short);i++)
{
if(chip_id == cyberblade_card_ids[i]) return i;
}
return -1;
}
int vixProbe(int verbose, int force)
{
pciinfo_t lst[MAX_PCI_DEVICES];
unsigned i,num_pci;
int err;
err = pci_scan(lst,&num_pci);
if(err)
{
printf("[cyberblade] Error occurred during pci scan: %s\n",strerror(err));
return err;
}
else
{
err = ENXIO;
for(i=0; i < num_pci; i++)
{
if(lst[i].vendor == VENDOR_TRIDENT)
{
int idx;
const char *dname;
idx = find_chip(lst[i].device);
if(idx == -1)
continue;
dname = pci_device_name(VENDOR_TRIDENT, lst[i].device);
dname = dname ? dname : "Unknown chip";
printf("[cyberblade] Found chip: %s\n", dname);
if ((lst[i].command & PCI_COMMAND_IO) == 0)
{
printf("[cyberblade] Device is disabled, ignoring\n");
continue;
}
cyberblade_cap.device_id = lst[i].device;
err = 0;
memcpy(&pci_info, &lst[i], sizeof(pciinfo_t));
break;
}
}
}
if(err && verbose) printf("[cyberblade] Can't find chip\n");
return err;
}
int vixInit(void)
{
cyberblade_mem = map_phys_mem(pci_info.base0, 0x800000);
enable_app_io();
save_colourkey[0]=SRINB(0x50);
save_colourkey[1]=SRINB(0x51);
save_colourkey[2]=SRINB(0x52);
save_colourkey[3]=SRINB(0x54);
save_colourkey[4]=SRINB(0x55);
save_colourkey[5]=SRINB(0x56);
#ifdef DEBUG_LOGFILE
logfile=fopen("/tmp/cyberblade_vidix.log","w");
#endif
return 0;
}
void vixDestroy(void)
{
int protect;
#ifdef DEBUG_LOGFILE
if(logfile)
fclose(logfile);
#endif
protect=SRINB(0x11);
SROUTB(0x11, 0x92);
CROUTB(0x8E, 0xc4); /* Disable overlay */
SROUTB(0x50,save_colourkey[0]);
SROUTB(0x51,save_colourkey[1]);
SROUTB(0x52,save_colourkey[2]);
SROUTB(0x54,save_colourkey[3]);
SROUTB(0x55,save_colourkey[4]);
SROUTB(0x56,save_colourkey[5]);
SROUTB(0x11, protect);
disable_app_io();
unmap_phys_mem(cyberblade_mem, 0x800000);
}
int vixGetCapability(vidix_capability_t *to)
{
memcpy(to, &cyberblade_cap, sizeof(vidix_capability_t));
return 0;
}
static int is_supported_fourcc(uint32_t fourcc)
{
switch(fourcc)
{
case IMGFMT_YUY2:
case IMGFMT_YV12:
case IMGFMT_I420:
case IMGFMT_YVU9:
case IMGFMT_BGR16:
return 1;
default:
return 0;
}
}
int vixQueryFourcc(vidix_fourcc_t *to)
{
if(is_supported_fourcc(to->fourcc))
{
to->depth = VID_DEPTH_1BPP | VID_DEPTH_2BPP |
VID_DEPTH_4BPP | VID_DEPTH_8BPP |
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;
}
else
to->depth = to->flags = 0;
return ENOSYS;
}
static int frames[VID_PLAY_MAXFRAMES];
static vidix_grkey_t cyberblade_grkey;
int vixGetGrKeys(vidix_grkey_t *grkey)
{
memcpy(grkey, &cyberblade_grkey, sizeof(vidix_grkey_t));
return(0);
}
int vixSetGrKeys(const vidix_grkey_t *grkey)
{
int pixfmt=CRINB(0x38);
int protect;
memcpy(&cyberblade_grkey, grkey, sizeof(vidix_grkey_t));
protect=SRINB(0x11);
SROUTB(0x11, 0x92);
if(pixfmt&0x28) /* 32 or 24 bpp */
{
SROUTB(0x50, cyberblade_grkey.ckey.blue); /* Colour Key */
SROUTB(0x51, cyberblade_grkey.ckey.green); /* Colour Key */
SROUTB(0x52, cyberblade_grkey.ckey.red); /* Colour Key */
SROUTB(0x54, 0xff); /* Colour Key Mask */
SROUTB(0x55, 0xff); /* Colour Key Mask */
SROUTB(0x56, 0xff); /* Colour Key Mask */
}
else
{
int tmp=((cyberblade_grkey.ckey.blue & 0xF8)>>3)
| ((cyberblade_grkey.ckey.green & 0xfc)<<3)
| ((cyberblade_grkey.ckey.red & 0xf8)<<8);
SROUTB(0x50, tmp&0xff); /* Colour Key */
SROUTB(0x51, (tmp>>8)&0xff); /* Colour Key */
SROUTB(0x52, 0); /* Colour Key */
SROUTB(0x54, 0xff); /* Colour Key Mask */
SROUTB(0x55, 0xff); /* Colour Key Mask */
SROUTB(0x56, 0x00); /* Colour Key Mask */
}
SROUTB(0x11,protect);
return(0);
}
vidix_video_eq_t equal =
{
VEQ_CAP_BRIGHTNESS | VEQ_CAP_SATURATION | VEQ_CAP_HUE,
300, 100, 0, 0, 0, 0, 0, 0
};
int vixPlaybackGetEq( vidix_video_eq_t * eq)
{
memcpy(eq,&equal,sizeof(vidix_video_eq_t));
return 0;
}
int vixPlaybackSetEq( const vidix_video_eq_t * eq)
{
int br,sat,cr,protect;
if(eq->cap & VEQ_CAP_BRIGHTNESS) equal.brightness = eq->brightness;
if(eq->cap & VEQ_CAP_CONTRAST) equal.contrast = eq->contrast;
if(eq->cap & VEQ_CAP_SATURATION) equal.saturation = eq->saturation;
if(eq->cap & VEQ_CAP_HUE) equal.hue = eq->hue;
if(eq->cap & VEQ_CAP_RGB_INTENSITY)
{
equal.red_intensity = eq->red_intensity;
equal.green_intensity = eq->green_intensity;
equal.blue_intensity = eq->blue_intensity;
}
equal.flags = eq->flags;
cr = (equal.contrast) * 31 / 2000; cr+=16;
if (cr < 0) cr = 0; if(cr > 7) cr = 7;
cr=cr<<4 | cr;
br = (equal.brightness+1000) * 63 / 2000;
if (br < 0) br = 0; if(br > 63) br = 63;
if(br>32) br-=32; else br+=32;
sat = (equal.saturation + 1000) * 16 / 2000;
if (sat < 0) sat = 0; if(sat > 31) sat = 31;
protect=SRINB(0x11);
SROUTB(0x11, 0x92);
SROUTB(0xBC,cr);
SROUTW(0xB0,(br<<10)|4);
SROUTB(0x11, protect);
return 0;
}
static int YOffs,UOffs,VOffs;
int vixConfigPlayback(vidix_playback_t *info)
{
int shrink, zoom;
int src_w, drw_w;
int src_h, drw_h;
int hscale,vscale;
long base0;
int y_pitch, uv_pitch;
int protect=0;
int layout=0;
unsigned int i;
if(!is_supported_fourcc(info->fourcc))
return -1;
src_w = info->src.w;
src_h = info->src.h;
drw_w = info->dest.w;
drw_h = info->dest.h;
switch(info->fourcc)
{
case IMGFMT_YUY2:
case IMGFMT_BGR16:
y_pitch = (src_w*2 + 15) & ~15;
uv_pitch = 0;
YOffs=VOffs=UOffs=info->offset.y = info->offset.v = info->offset.u = 0;
info->frame_size = y_pitch*src_h;
layout=0x0; /* packed */
break;
case IMGFMT_YV12:
case IMGFMT_I420:
y_pitch = (src_w+15) & ~15;
uv_pitch = ((src_w/2)+7) & ~7;
YOffs=info->offset.y = 0;
VOffs=info->offset.v = y_pitch*src_h;
UOffs=info->offset.u = info->offset.v+(uv_pitch)*(src_h/2);
info->frame_size = y_pitch*src_h + 2*uv_pitch*(src_h/2);
layout=0x1; /* planar, 4:1:1 */
break;
case IMGFMT_YVU9:
y_pitch = (src_w+15) & ~15;
uv_pitch = ((src_w/4)+3) & ~3;
YOffs=info->offset.y = 0;
VOffs=info->offset.v = y_pitch*src_h;
UOffs=info->offset.u = info->offset.v+(uv_pitch)*(src_h/4);
info->frame_size = y_pitch*src_h + 2*uv_pitch*(src_h/4);
layout=0x51; /* planar, 16:1:1 */
break;
}
/* Assume we have 2 MB to play with */
info->num_frames = 0x200000 / info->frame_size;
if(info->num_frames > VID_PLAY_MAXFRAMES)
info->num_frames = VID_PLAY_MAXFRAMES;
/* Start at 6 MB. Let's hope it's not in use. */
base0 = 0x600000;
info->dga_addr = cyberblade_mem + base0;
info->dest.pitch.y = 16;
info->dest.pitch.u = 16;
info->dest.pitch.v = 16;
for(i = 0; i < info->num_frames; i++)
{
info->offsets[i] = info->frame_size * i;
frames[i] = base0+info->offsets[i];
}
OUTPORT8(0x3d4,0x39);
OUTPORT8(0x3d5,INPORT(0x3d5)|1);
SRINB(0x0b); /* Select new mode */
/* Unprotect hardware registers... */
protect=SRINB(0x11);
SROUTB(0x11, 0x92);
SROUTB(0x57, 0xc0); /* Playback key function */
SROUTB(0x21, 0x34); /* Signature control */
SROUTB(0x37, 0x30); /* Video key mode */
vixSetGrKeys(&cyberblade_grkey);
/* compute_scale_factor(&src_w, &drw_w, &shrink, &zoom); */
{
int HTotal,VTotal,HSync,VSync,Overflow,HDisp,VDisp;
int HWinStart,VWinStart;
int tx1,ty1,tx2,ty2;
HTotal=CRINB(0x00);
HSync=CRINB(0x04);
VTotal=CRINB(0x06);
VSync=CRINB(0x10);
Overflow=CRINB(0x07);
HTotal <<=3;
HSync <<=3;
VTotal |= (Overflow & 1) <<8;
VTotal |= (Overflow & 0x20) <<4;
VTotal +=4;
VSync |= (Overflow & 4) <<6;
VSync |= (Overflow & 0x80) <<2;
if(CRINB(0xd1)&0x80)
{
int hcorr,vcorr;
int TVHTotal,TVVTotal,TVHSyncStart,TVVSyncStart,TVOverflow;
LOGWRITE("[cyberblade] Using TV-CRTC\n");
HDisp=(1+CRINB(0x01))*8;
VDisp=1+CRINB(0x12);
Overflow=CRINB(0x07);
VDisp |= (Overflow & 2) <<7;
VDisp |= (Overflow & 0x40) << 3;
TVHTotal=CRINB(0xe0)*8;
TVVTotal=CRINB(0xe6);
TVOverflow=CRINB(0xe7);
if(TVOverflow&0x20) TVVTotal|=512;
if(TVOverflow&0x01) TVVTotal|=256;
TVHTotal+=40; TVVTotal+=2;
TVHSyncStart=CRINB(0xe4)*8;
TVVSyncStart=CRINB(0xf0);
if(TVOverflow&0x80) TVVSyncStart|=512;
if(TVOverflow&0x04) TVVSyncStart|=256;
HWinStart=(TVHTotal-HDisp)&15;
HWinStart|=(HTotal-HDisp)&15;
HWinStart+=(TVHTotal-TVHSyncStart)-49;
}
else
{
LOGWRITE("[cyberblade] Using Standard CRTC\n");
HWinStart=(HTotal-HSync)+15;
}
VWinStart=(VTotal-VSync)-8;
printf("[cyberblade] HTotal: 0x%x, HSStart: 0x%x\n",HTotal,HSync);
printf(" VTotal: 0x%x, VStart: 0x%x\n",VTotal,VSync);
tx1=HWinStart+info->dest.x;
ty1=VWinStart+info->dest.y;
tx2=tx1+info->dest.w;
ty2=ty1+info->dest.h;
CROUTW(0x86,tx1);
CROUTW(0x88,ty1);
CROUTW(0x8a,tx2);
CROUTW(0x8c,ty2+3);
}
if(src_w==drw_w)
hscale=0;
else if(src_w<drw_w)
{
hscale=((src_w<<10)/(drw_w-2)) & 0x1fff;
}
else
{
hscale=0x8000 | ((((src_w/drw_w)-1)&7)<<10) | (((drw_w<<10)/src_w) & 0x3ff);
}
vscale=(src_h<<10)/(drw_h);
if(drw_h<src_h)
vscale=0x8000|((drw_h<<10)/(src_h));
/* Write scale factors to hardware */
CROUTW(0x80,hscale); /* Horizontal Scale */
CROUTW(0x82,vscale); /* Vertical Scale */
/* Now set the start address and data layout */
{
int lb = (y_pitch+2) >> 2;
CROUTB(0x95, ((lb & 0x100)>>1) | 0x08 ); /* Linebuffer level bit 8 & threshold */
CROUTB(0x96, (lb & 0xFF)); /* Linebuffer level */
CROUTB(0x97, 0x00); /* VDE Flags */
CROUTB(0xBA, 0x00); /* Chroma key */
CROUTB(0xBB, 0x00); /* Chroma key */
CROUTB(0xBC, 0xFF); /* Chroma key */
CROUTB(0xBD, 0xFF); /* Chroma key */
CROUTB(0xBE, 0x04); /* Capture control */
if(src_w > 384)
layout|=4; /* 2x line buffers */
SROUTB(0x97, layout);
CROUTW(0x90,y_pitch); /* Y Bytes per row */
SROUTW(0x9A,uv_pitch); /* UV Bytes per row */
switch(info->fourcc)
{
case IMGFMT_BGR16:
CROUTB(0x8F, 0x24); /* VDE Flags - Edge Recovery & CSC Bypass */
CROUTB(0xBF, 0x02); /* Video format - RGB16 */
SROUTB(0xBE, 0x0); /* HSCB disabled */
break;
default:
CROUTB(0x8F, 0x20); /* VDE Flags - Edge Recovery */
CROUTB(0xBF, 0x00); /* Video format - YUV */
SROUTB(0xBE, 0x00); /* HSCB disable - was 0x03*/
break;
}
CROUTB(0x92, ((base0+info->offset.y) >> 3) &0xff); /* Lower 8 bits of start address */
CROUTB(0x93, ((base0+info->offset.y) >> 11) &0xff); /* Mid 8 bits of start address */
CROUTB(0x94, ((base0+info->offset.y) >> 19) &0xf); /* Upper 4 bits of start address */
SROUTB(0x80, ((base0+info->offset.v) >> 3) &0xff); /* Lower 8 bits of start address */
SROUTB(0x81, ((base0+info->offset.v) >> 11) &0xff); /* Mid 8 bits of start address */
SROUTB(0x82, ((base0+info->offset.v) >> 19) &0xf); /* Upper 4 bits of start address */
SROUTB(0x83, ((base0+info->offset.u) >> 3) &0xff); /* Lower 8 bits of start address */
SROUTB(0x84, ((base0+info->offset.u) >> 11) &0xff); /* Mid 8 bits of start address */
SROUTB(0x85, ((base0+info->offset.u) >> 19) &0xf); /* Upper 4 bits of start address */
}
vixPlaybackSetEq(&equal);
/* Protect hardware registers again */
SROUTB(0x11, protect);
return 0;
}
int vixPlaybackOn(void)
{
LOGWRITE("Enable overlay\n");
CROUTB(0x8E, 0xd4); /* VDE Flags*/
return 0;
}
int vixPlaybackOff(void)
{
LOGWRITE("Disable overlay\n");
CROUTB(0x8E, 0xc4); /* VDE Flags*/
return 0;
}
int vixPlaybackFrameSelect(unsigned int frame)
{
int protect;
LOGWRITE("Frame select\n");
protect=SRINB(0x11);
SROUTB(0x11, 0x92);
/* Set overlay address to that of selected frame */
CROUTB(0x92, ((frames[frame]+YOffs) >> 3) &0xff); /* Lower 8 bits of start address */
CROUTB(0x93, ((frames[frame]+YOffs) >> 11) &0xff); /* Mid 8 bits of start address */
CROUTB(0x94, ((frames[frame]+YOffs) >> 19) &0xf); /* Upper 4 bits of start address */
SROUTB(0x80, ((frames[frame]+VOffs) >> 3) &0xff); /* Lower 8 bits of start address */
SROUTB(0x81, ((frames[frame]+VOffs) >> 11) &0xff); /* Mid 8 bits of start address */
SROUTB(0x82, ((frames[frame]+VOffs) >> 19) &0xf); /* Upper 4 bits of start address */
SROUTB(0x83, ((frames[frame]+UOffs) >> 3) &0xff); /* Lower 8 bits of start address */
SROUTB(0x84, ((frames[frame]+UOffs) >> 11) &0xff); /* Mid 8 bits of start address */
SROUTB(0x85, ((frames[frame]+UOffs) >> 19) &0xf); /* Upper 4 bits of start address */
SROUTB(0x11, protect);
return 0;
}