mpv/vidix/drivers/sis_vid.c

1561 lines
41 KiB
C

/**
VIDIX driver for SiS 300 and 310/325 series chips.
Copyright 2003 Jake Page, Sugar Media.
Based on SiS Xv driver:
Copyright 2002-2003 by Thomas Winischhofer, Vienna, Austria.
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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
2003/10/08 integrated into mplayer/vidix architecture -- Alex Beregszaszi
**/
#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 "sis_regs.h"
#include "sis_defs.h"
/** Random defines **/
#define WATCHDOG_DELAY 500000 /* Watchdog counter for retrace waiting */
#define IMAGE_MIN_WIDTH 32 /* Min and max source image sizes */
#define IMAGE_MIN_HEIGHT 24
#define IMAGE_MAX_WIDTH 720
#define IMAGE_MAX_HEIGHT 576
#define IMAGE_MAX_WIDTH_M650 1920
#define IMAGE_MAX_HEIGHT_M650 1080
#define OVERLAY_MIN_WIDTH 32 /* Minimum overlay sizes */
#define OVERLAY_MIN_HEIGHT 24
#define DISPMODE_SINGLE1 0x1 /* TW: CRT1 only */
#define DISPMODE_SINGLE2 0x2 /* TW: CRT2 only */
#define DISPMODE_MIRROR 0x4 /* TW: CRT1 + CRT2 MIRROR */
#define VMODE_INTERLACED 0x1
#define VMODE_DOUBLESCAN 0x2
typedef struct {
short x1, y1, x2, y2;
} BoxRec;
typedef struct {
int pixelFormat;
uint16_t pitch;
uint16_t origPitch;
uint8_t keyOP;
uint16_t HUSF;
uint16_t VUSF;
uint8_t IntBit;
uint8_t wHPre;
uint16_t srcW;
uint16_t srcH;
BoxRec dstBox;
uint32_t PSY;
uint32_t PSV;
uint32_t PSU;
uint8_t bobEnable;
uint8_t contrastCtrl;
uint8_t contrastFactor;
uint8_t lineBufSize;
uint8_t(*VBlankActiveFunc) ();
uint16_t SCREENheight;
} SISOverlayRec, *SISOverlayPtr;
/** static variable definitions **/
static int sis_probed = 0;
static pciinfo_t pci_info;
unsigned int sis_verbose = 0;
static void *sis_mem_base;
/* static void *sis_reg_base; */
unsigned short sis_iobase;
unsigned int sis_vga_engine = UNKNOWN_VGA;
static unsigned int sis_displaymode = DISPMODE_SINGLE1;
static unsigned int sis_has_two_overlays = 0;
static unsigned int sis_bridge_is_slave = 0;
static unsigned int sis_shift_value = 1;
static unsigned int sis_vmode = 0;
unsigned int sis_vbflags = DISPTYPE_DISP1;
unsigned int sis_overlay_on_crt1 = 1;
unsigned int sis_crt1_off = -1;
unsigned int sis_detected_crt2_devices;
unsigned int sis_force_crt2_type = CRT2_DEFAULT;
unsigned int sis_device_id = -1;
static int sis_format;
static int sis_Yoff = 0;
static int sis_Voff = 0;
static int sis_Uoff = 0;
static int sis_screen_width = 640;
static int sis_screen_height = 480;
static int sis_frames[VID_PLAY_MAXFRAMES];
static vidix_grkey_t sis_grkey;
static vidix_capability_t sis_cap = {
"SiS 300/310/325 Video Driver",
"Jake Page",
TYPE_OUTPUT,
{0, 0, 0, 0},
2048,
2048,
4,
4,
-1,
FLAG_UPSCALER | FLAG_DOWNSCALER | FLAG_EQUALIZER,
VENDOR_SIS,
-1,
{0, 0, 0, 0}
};
vidix_video_eq_t sis_equal = {
VEQ_CAP_BRIGHTNESS | VEQ_CAP_CONTRAST,
200, 0, 0, 0, 0, 0, 0, 0
};
static unsigned short sis_card_ids[] = {
DEVICE_SIS_300,
DEVICE_SIS_315H,
DEVICE_SIS_315,
DEVICE_SIS_315PRO,
DEVICE_SIS_330,
DEVICE_SIS_540_VGA,
DEVICE_SIS_550_VGA,
DEVICE_SIS_630_VGA,
DEVICE_SIS_650_VGA
};
/** function declarations **/
extern void sis_init_video_bridge();
static void set_overlay(SISOverlayPtr pOverlay, int index);
static void close_overlay();
static void calc_scale_factor(SISOverlayPtr pOverlay,
int index, int iscrt2);
static void set_line_buf_size(SISOverlayPtr pOverlay);
static void merge_line_buf(int enable);
static void set_format(SISOverlayPtr pOverlay);
static void set_colorkey();
static void set_brightness(uint8_t brightness);
static void set_contrast(uint8_t contrast);
static void set_saturation(char saturation);
static void set_hue(uint8_t hue);
#if 0
static void set_alpha(uint8_t alpha);
#endif
/* IO Port access functions */
static uint8_t getvideoreg(uint8_t reg)
{
uint8_t ret;
inSISIDXREG(SISVID, reg, ret);
return (ret);
}
static void setvideoreg(uint8_t reg, uint8_t data)
{
outSISIDXREG(SISVID, reg, data);
}
static void setvideoregmask(uint8_t reg, uint8_t data, uint8_t mask)
{
uint8_t old;
inSISIDXREG(SISVID, reg, old);
data = (data & mask) | (old & (~mask));
outSISIDXREG(SISVID, reg, data);
}
static void setsrregmask(uint8_t reg, uint8_t data, uint8_t mask)
{
uint8_t old;
inSISIDXREG(SISSR, reg, old);
data = (data & mask) | (old & (~mask));
outSISIDXREG(SISSR, reg, data);
}
/* vblank checking*/
static uint8_t vblank_active_CRT1()
{
/* this may be too simplistic? */
return (inSISREG(SISINPSTAT) & 0x08);
}
static uint8_t vblank_active_CRT2()
{
uint8_t ret;
if (sis_vga_engine == SIS_315_VGA) {
inSISIDXREG(SISPART1, Index_310_CRT2_FC_VR, ret);
} else {
inSISIDXREG(SISPART1, Index_CRT2_FC_VR, ret);
}
return ((ret & 0x02) ^ 0x02);
}
unsigned int vixGetVersion(void)
{
return (VIDIX_VERSION);
}
static int find_chip(unsigned chip_id)
{
unsigned i;
for (i = 0; i < sizeof(sis_card_ids) / sizeof(unsigned short); i++) {
if (chip_id == sis_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;
sis_verbose = verbose;
force = force;
err = pci_scan(lst, &num_pci);
if (err) {
printf("[SiS] Error occured during pci scan: %s\n", strerror(err));
return err;
} else {
err = ENXIO;
for (i = 0; i < num_pci; i++) {
if (lst[i].vendor == VENDOR_SIS) {
int idx;
const char *dname;
idx = find_chip(lst[i].device);
if (idx == -1)
continue;
dname = pci_device_name(VENDOR_SIS, lst[i].device);
dname = dname ? dname : "Unknown chip";
if (sis_verbose > 0)
printf("[SiS] Found chip: %s (0x%X)\n",
dname, lst[i].device);
sis_device_id = sis_cap.device_id = lst[i].device;
err = 0;
memcpy(&pci_info, &lst[i], sizeof(pciinfo_t));
sis_has_two_overlays = 0;
switch (sis_cap.device_id) {
case DEVICE_SIS_300:
case DEVICE_SIS_630_VGA:
sis_has_two_overlays = 1;
case DEVICE_SIS_540_VGA:
sis_vga_engine = SIS_300_VGA;
break;
case DEVICE_SIS_330:
case DEVICE_SIS_550_VGA:
sis_has_two_overlays = 1;
case DEVICE_SIS_315H:
case DEVICE_SIS_315:
case DEVICE_SIS_315PRO:
case DEVICE_SIS_650_VGA:
/* M650 & 651 have 2 overlays */
/* JCP: I think this works, but not really tested yet */
{
unsigned char CR5F;
unsigned char tempreg1, tempreg2;
inSISIDXREG(SISCR, 0x5F, CR5F);
CR5F &= 0xf0;
andSISIDXREG(SISCR, 0x5c, 0x07);
inSISIDXREG(SISCR, 0x5c, tempreg1);
tempreg1 &= 0xf8;
setSISIDXREG(SISCR, 0x5c, 0x07, 0xf8);
inSISIDXREG(SISCR, 0x5c, tempreg2);
tempreg2 &= 0xf8;
if ((!tempreg1) || (tempreg2)) {
if (CR5F & 0x80) {
sis_has_two_overlays = 1;
}
} else {
sis_has_two_overlays = 1; /* ? */
}
if (sis_has_two_overlays) {
if (sis_verbose > 0)
printf
("[SiS] detected M650/651 with 2 overlays\n");
}
}
sis_vga_engine = SIS_315_VGA;
break;
default:
/* should never get here */
sis_vga_engine = UNKNOWN_VGA;
break;
}
}
}
}
if (err && sis_verbose) {
printf("[SiS] Can't find chip\n");
} else {
sis_probed = 1;
}
return err;
}
int vixInit(void)
{
uint8_t sr_data, cr_data, cr_data2;
char *env_overlay_crt;
if (!sis_probed) {
printf("[SiS] driver was not probed but is being initialized\n");
return (EINTR);
}
/* JCP: this is WRONG. Need to coordinate w/ sisfb to use correct mem */
/* map 16MB scary hack for now. */
sis_mem_base = map_phys_mem(pci_info.base0, 0x1000000);
/* sis_reg_base = map_phys_mem(pci_info.base1, 0x20000); */
sis_iobase = pci_info.base2 & 0xFFFC;
/* would like to use fb ioctl - or some other method - here to get
current resolution. */
inSISIDXREG(SISCR, 0x12, cr_data);
inSISIDXREG(SISCR, 0x07, cr_data2);
sis_screen_height =
((cr_data & 0xff) | ((uint16_t) (cr_data2 & 0x02) << 7) |
((uint16_t) (cr_data2 & 0x40) << 3) | ((uint16_t) (sr_data & 0x02)
<< 9)) + 1;
inSISIDXREG(SISSR, 0x0b, sr_data);
inSISIDXREG(SISCR, 0x01, cr_data);
sis_screen_width = (((cr_data & 0xff) |
((uint16_t) (sr_data & 0x0C) << 6)) + 1) * 8;
inSISIDXREG(SISSR, Index_SR_Graphic_Mode, sr_data);
if (sr_data & 0x20) /* interlaced mode */
sis_vmode |= VMODE_INTERLACED;
#if 0 /* getting back false data here... */
/* CR9 bit 7 set = double scan active */
inSISIDXREG(SISCR, 0x09, cr_data);
if (cr_data & 0x40) {
sis_vmode |= VMODE_DOUBLESCAN;
}
#endif
/* JCP: eventually I'd like to replace this with a call to sisfb
SISFB_GET_INFO ioctl to get video bridge info. Not for now,
since it requires a very new and not widely distributed version. */
sis_init_video_bridge();
env_overlay_crt = getenv("VIDIX_CRT");
if (env_overlay_crt) {
int crt = atoi(env_overlay_crt);
if (crt == 1 || crt == 2) {
sis_overlay_on_crt1 = (crt == 1);
if (sis_verbose > 0) {
printf
("[SiS] override: using overlay on CRT%d from VIDIX_CRT\n",
crt);
}
}
}
return 0;
}
void vixDestroy(void)
{
/* unmap_phys_mem(sis_reg_base, 0x20000); */
/* JCP: see above, hence also a hack. */
unmap_phys_mem(sis_mem_base, 0x1000000);
}
int vixGetCapability(vidix_capability_t * to)
{
memcpy(to, &sis_cap, sizeof(vidix_capability_t));
return 0;
}
static int is_supported_fourcc(uint32_t fourcc)
{
switch (fourcc) {
case IMGFMT_YV12:
case IMGFMT_I420:
case IMGFMT_UYVY:
case IMGFMT_YUY2:
case IMGFMT_RGB15:
case IMGFMT_RGB16:
return 1;
default:
return 0;
}
}
int vixQueryFourcc(vidix_fourcc_t * to)
{
if (is_supported_fourcc(to->fourcc)) {
to->depth = VID_DEPTH_8BPP | VID_DEPTH_16BPP | 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 bridge_in_slave_mode()
{
unsigned char usScratchP1_00;
if (!(sis_vbflags & VB_VIDEOBRIDGE))
return 0;
inSISIDXREG(SISPART1, 0x00, usScratchP1_00);
if (((sis_vga_engine == SIS_300_VGA)
&& (usScratchP1_00 & 0xa0) == 0x20)
|| ((sis_vga_engine == SIS_315_VGA)
&& (usScratchP1_00 & 0x50) == 0x10)) {
return 1;
} else {
return 0;
}
}
/* This does not handle X dual head mode, since 1) vidix doesn't support it
and 2) it doesn't make sense for other gfx drivers */
static void set_dispmode()
{
sis_bridge_is_slave = 0;
if (bridge_in_slave_mode())
sis_bridge_is_slave = 1;
if ((sis_vbflags & VB_DISPMODE_MIRROR) ||
(sis_bridge_is_slave && (sis_vbflags & DISPTYPE_DISP2))) {
if (sis_has_two_overlays)
sis_displaymode = DISPMODE_MIRROR; /* TW: CRT1+CRT2 (2 overlays) */
else if (!sis_overlay_on_crt1)
sis_displaymode = DISPMODE_SINGLE2;
else
sis_displaymode = DISPMODE_SINGLE1;
} else {
if (sis_vbflags & DISPTYPE_DISP1) {
sis_displaymode = DISPMODE_SINGLE1; /* TW: CRT1 only */
} else {
sis_displaymode = DISPMODE_SINGLE2; /* TW: CRT2 only */
}
}
}
static void set_disptype_regs()
{
switch (sis_displaymode) {
case DISPMODE_SINGLE1: /* TW: CRT1 only */
if (sis_verbose > 2) {
printf("[SiS] Setting up overlay on CRT1\n");
}
if (sis_has_two_overlays) {
setsrregmask(0x06, 0x00, 0xc0);
setsrregmask(0x32, 0x00, 0xc0);
} else {
setsrregmask(0x06, 0x00, 0xc0);
setsrregmask(0x32, 0x00, 0xc0);
}
break;
case DISPMODE_SINGLE2: /* TW: CRT2 only */
if (sis_verbose > 2) {
printf("[SiS] Setting up overlay on CRT2\n");
}
if (sis_has_two_overlays) {
setsrregmask(0x06, 0x80, 0xc0);
setsrregmask(0x32, 0x80, 0xc0);
} else {
setsrregmask(0x06, 0x40, 0xc0);
setsrregmask(0x32, 0x40, 0xc0);
}
break;
case DISPMODE_MIRROR: /* TW: CRT1 + CRT2 */
default:
if (sis_verbose > 2) {
printf("[SiS] Setting up overlay on CRT1 AND CRT2!\n");
}
setsrregmask(0x06, 0x80, 0xc0);
setsrregmask(0x32, 0x80, 0xc0);
break;
}
}
static void init_overlay()
{
/* Initialize first overlay (CRT1) */
/* Write-enable video registers */
setvideoregmask(Index_VI_Control_Misc2, 0x80, 0x81);
/* Disable overlay */
setvideoregmask(Index_VI_Control_Misc0, 0x00, 0x02);
/* Disable bobEnable */
setvideoregmask(Index_VI_Control_Misc1, 0x02, 0x02);
/* Reset scale control and contrast */
setvideoregmask(Index_VI_Scale_Control, 0x60, 0x60);
setvideoregmask(Index_VI_Contrast_Enh_Ctrl, 0x04, 0x1F);
setvideoreg(Index_VI_Disp_Y_Buf_Preset_Low, 0x00);
setvideoreg(Index_VI_Disp_Y_Buf_Preset_Middle, 0x00);
setvideoreg(Index_VI_UV_Buf_Preset_Low, 0x00);
setvideoreg(Index_VI_UV_Buf_Preset_Middle, 0x00);
setvideoreg(Index_VI_Disp_Y_UV_Buf_Preset_High, 0x00);
setvideoreg(Index_VI_Play_Threshold_Low, 0x00);
setvideoreg(Index_VI_Play_Threshold_High, 0x00);
/* may not want to init these here, could already be set to other
values by app? */
setvideoregmask(Index_VI_Control_Misc2, 0x00, 0x01);
setvideoregmask(Index_VI_Contrast_Enh_Ctrl, 0x04, 0x07);
setvideoreg(Index_VI_Brightness, 0x20);
if (sis_vga_engine == SIS_315_VGA) {
setvideoreg(Index_VI_Hue, 0x00);
setvideoreg(Index_VI_Saturation, 0x00);
}
/* Initialize second overlay (CRT2) */
if (sis_has_two_overlays) {
/* Write-enable video registers */
setvideoregmask(Index_VI_Control_Misc2, 0x81, 0x81);
/* Disable overlay */
setvideoregmask(Index_VI_Control_Misc0, 0x00, 0x02);
/* Disable bobEnable */
setvideoregmask(Index_VI_Control_Misc1, 0x02, 0x02);
/* Reset scale control and contrast */
setvideoregmask(Index_VI_Scale_Control, 0x60, 0x60);
setvideoregmask(Index_VI_Contrast_Enh_Ctrl, 0x04, 0x1F);
setvideoreg(Index_VI_Disp_Y_Buf_Preset_Low, 0x00);
setvideoreg(Index_VI_Disp_Y_Buf_Preset_Middle, 0x00);
setvideoreg(Index_VI_UV_Buf_Preset_Low, 0x00);
setvideoreg(Index_VI_UV_Buf_Preset_Middle, 0x00);
setvideoreg(Index_VI_Disp_Y_UV_Buf_Preset_High, 0x00);
setvideoreg(Index_VI_Play_Threshold_Low, 0x00);
setvideoreg(Index_VI_Play_Threshold_High, 0x00);
setvideoregmask(Index_VI_Control_Misc2, 0x01, 0x01);
setvideoregmask(Index_VI_Contrast_Enh_Ctrl, 0x04, 0x07);
setvideoreg(Index_VI_Brightness, 0x20);
if (sis_vga_engine == SIS_315_VGA) {
setvideoreg(Index_VI_Hue, 0x00);
setvideoreg(Index_VI_Saturation, 0x00);
}
}
}
int vixConfigPlayback(vidix_playback_t * info)
{
SISOverlayRec overlay;
int srcOffsetX = 0, srcOffsetY = 0;
int sx, sy;
int index = 0, iscrt2 = 0;
int total_size;
short src_w, drw_w;
short src_h, drw_h;
short src_x, drw_x;
short src_y, drw_y;
long dga_offset;
int pitch;
unsigned int i;
if (!is_supported_fourcc(info->fourcc))
return -1;
/* set chipset/engine.dependent config info */
/* which CRT to use, etc.? */
switch (sis_vga_engine) {
case SIS_315_VGA:
sis_shift_value = 1;
sis_equal.cap |= VEQ_CAP_SATURATION | VEQ_CAP_HUE;
break;
case SIS_300_VGA:
default:
sis_shift_value = 2;
break;
}
sis_displaymode = DISPMODE_SINGLE1; /* xV driver code in set_dispmode() */
set_dispmode();
set_disptype_regs();
init_overlay();
/* get basic dimension info */
src_x = info->src.x;
src_y = info->src.y;
src_w = info->src.w;
src_h = info->src.h;
drw_x = info->dest.x;
drw_y = info->dest.y;
drw_w = info->dest.w;
drw_h = info->dest.h;
switch (info->fourcc) {
case IMGFMT_YV12:
case IMGFMT_I420:
pitch = (src_w + 7) & ~7;
total_size = (pitch * src_h * 3) >> 1;
break;
case IMGFMT_YUY2:
case IMGFMT_UYVY:
case IMGFMT_RGB15:
case IMGFMT_RGB16:
pitch = ((src_w << 1) + 3) & ~3;
total_size = pitch * src_h;
break;
default:
return -1;
}
/* "allocate" memory for overlay! */
/* start at 8MB = sisfb's "dri reserved space" -
really shouldn't hardcode though */
/* XXX: JCP - this can use the sisfb FBIO_ALLOC ioctl to safely
allocate "video heap" memory... */
dga_offset = 0x800000;
/* use 7MB for now. need to calc/get real info from sisfb? */
/* this can result in a LOT of frames - probably not necessary */
info->num_frames = 0x700000 / (total_size * 2);
if (info->num_frames > VID_PLAY_MAXFRAMES)
info->num_frames = VID_PLAY_MAXFRAMES;
info->dga_addr = sis_mem_base + dga_offset;
info->dest.pitch.y = 16;
info->dest.pitch.u = 16;
info->dest.pitch.v = 16;
info->offset.y = 0;
info->offset.u = 0;
info->offset.v = 0;
info->frame_size = (total_size * 2); /* why times 2 ? */
for (i = 0; i < info->num_frames; i++) {
info->offsets[i] = info->frame_size * i;
/* save ptrs to mem buffers */
sis_frames[i] = (dga_offset + info->offsets[i]);
}
memset(&overlay, 0, sizeof(overlay));
overlay.pixelFormat = sis_format = info->fourcc;
overlay.pitch = overlay.origPitch = pitch;
overlay.keyOP = (sis_grkey.ckey.op == CKEY_TRUE ?
VI_ROP_DestKey : VI_ROP_Always);
overlay.bobEnable = 0x00;
overlay.SCREENheight = sis_screen_height;
/* probably will not support X virtual screen > phys very well? */
overlay.dstBox.x1 = drw_x; /* - pScrn->frameX0; */
overlay.dstBox.x2 = drw_x + drw_w; /* - pScrn->frameX0; ??? */
overlay.dstBox.y1 = drw_y; /* - pScrn->frameY0; */
overlay.dstBox.y2 = drw_y + drw_h; /* - pScrn->frameY0; ??? */
if ((overlay.dstBox.x1 > overlay.dstBox.x2) ||
(overlay.dstBox.y1 > overlay.dstBox.y2))
return -1;
if ((overlay.dstBox.x2 < 0) || (overlay.dstBox.y2 < 0))
return -1;
if (overlay.dstBox.x1 < 0) {
srcOffsetX = src_w * (-overlay.dstBox.x1) / drw_w;
overlay.dstBox.x1 = 0;
}
if (overlay.dstBox.y1 < 0) {
srcOffsetY = src_h * (-overlay.dstBox.y1) / drw_h;
overlay.dstBox.y1 = 0;
}
switch (info->fourcc) {
case IMGFMT_YV12:
info->dest.pitch.y = 16;
sx = (src_x + srcOffsetX) & ~7;
sy = (src_y + srcOffsetY) & ~1;
info->offset.y = sis_Yoff = sx + sy * pitch;
/* JCP: NOTE reversed u & v here! Not sure why this is needed.
maybe mplayer & sis define U & V differently?? */
info->offset.u = sis_Voff =
src_h * pitch + ((sx + sy * pitch / 2) >> 1);
info->offset.v = sis_Uoff =
src_h * pitch * 5 / 4 + ((sx + sy * pitch / 2) >> 1);
overlay.PSY = (sis_frames[0] + sis_Yoff) >> sis_shift_value;
overlay.PSV = (sis_frames[0] + sis_Voff) >> sis_shift_value;
overlay.PSU = (sis_frames[0] + sis_Uoff) >> sis_shift_value;
break;
case IMGFMT_I420:
sx = (src_x + srcOffsetX) & ~7;
sy = (src_y + srcOffsetY) & ~1;
info->offset.y = sis_Yoff = sx + sy * pitch;
/* JCP: see above... */
info->offset.u = sis_Voff =
src_h * pitch * 5 / 4 + ((sx + sy * pitch / 2) >> 1);
info->offset.v = sis_Uoff =
src_h * pitch + ((sx + sy * pitch / 2) >> 1);
overlay.PSY = (sis_frames[0] + sis_Yoff) >> sis_shift_value;
overlay.PSV = (sis_frames[0] + sis_Voff) >> sis_shift_value;
overlay.PSU = (sis_frames[0] + sis_Uoff) >> sis_shift_value;
break;
case IMGFMT_YUY2:
case IMGFMT_UYVY:
case IMGFMT_RGB16:
case IMGFMT_RGB15:
default:
sx = (src_x + srcOffsetX) & ~1;
sy = (src_y + srcOffsetY);
info->offset.y = sis_Yoff = sx * 2 + sy * pitch;
overlay.PSY = (sis_frames[0] + sis_Yoff) >> sis_shift_value;
break;
}
/* FIXME: is it possible that srcW < 0? */
overlay.srcW = src_w - (sx - src_x);
overlay.srcH = src_h - (sy - src_y);
/* JCP: what to do about this? */
#if 0
if ((pPriv->oldx1 != overlay.dstBox.x1) ||
(pPriv->oldx2 != overlay.dstBox.x2) ||
(pPriv->oldy1 != overlay.dstBox.y1) ||
(pPriv->oldy2 != overlay.dstBox.y2)) {
pPriv->mustwait = 1;
pPriv->oldx1 = overlay.dstBox.x1;
pPriv->oldx2 = overlay.dstBox.x2;
pPriv->oldy1 = overlay.dstBox.y1;
pPriv->oldy2 = overlay.dstBox.y2;
}
#endif
/* set merge line buffer */
merge_line_buf(overlay.srcW > 384);
/* calculate line buffer length */
set_line_buf_size(&overlay);
if (sis_displaymode == DISPMODE_SINGLE2) {
if (sis_has_two_overlays) {
/* TW: On chips with two overlays we use
* overlay 2 for CRT2 */
index = 1;
iscrt2 = 1;
} else {
/* TW: On chips with only one overlay we
* use that only overlay for CRT2 */
index = 0;
iscrt2 = 1;
}
overlay.VBlankActiveFunc = vblank_active_CRT2;
/* overlay.GetScanLineFunc = get_scanline_CRT2; */
} else {
index = 0;
iscrt2 = 0;
overlay.VBlankActiveFunc = vblank_active_CRT1;
/* overlay.GetScanLineFunc = get_scanline_CRT1; */
}
/* calc scale factor (to use below) */
calc_scale_factor(&overlay, index, iscrt2);
/* Select video1 (used for CRT1) or video2 (used for CRT2) */
setvideoregmask(Index_VI_Control_Misc2, index, 0x01);
set_format(&overlay);
set_colorkey();
vixPlaybackSetEq(&sis_equal);
/* set up video overlay registers */
set_overlay(&overlay, index);
/* prevent badness if bits are not at default setting */
setvideoregmask(Index_VI_Control_Misc1, 0x00, 0x01);
setvideoregmask(Index_VI_Control_Misc2, 0x00, 0x04);
/* JCP: Xv driver implementation loops back over above code to
setup mirror CRT2 */
return 0;
}
int vixPlaybackOn(void)
{
setvideoregmask(Index_VI_Control_Misc0, 0x02, 0x02);
return 0;
}
int vixPlaybackOff(void)
{
unsigned char sridx, cridx;
sridx = inSISREG(SISSR);
cridx = inSISREG(SISCR);
close_overlay();
outSISREG(SISSR, sridx);
outSISREG(SISCR, cridx);
return 0;
}
int vixPlaybackFrameSelect(unsigned int frame)
{
uint8_t data;
int index = 0;
uint32_t PSY;
if (sis_displaymode == DISPMODE_SINGLE2 && sis_has_two_overlays) {
index = 1;
}
PSY = (sis_frames[frame] + sis_Yoff) >> sis_shift_value;
/* Unlock address registers */
data = getvideoreg(Index_VI_Control_Misc1);
setvideoreg(Index_VI_Control_Misc1, data | 0x20);
/* TEST: Is this required? */
setvideoreg(Index_VI_Control_Misc1, data | 0x20);
/* TEST end */
/* TEST: Is this required? */
if (sis_vga_engine == SIS_315_VGA)
setvideoreg(Index_VI_Control_Misc3, 0x00);
/* TEST end */
/* set Y start address */
setvideoreg(Index_VI_Disp_Y_Buf_Start_Low, (uint8_t) (PSY));
setvideoreg(Index_VI_Disp_Y_Buf_Start_Middle, (uint8_t) ((PSY) >> 8));
setvideoreg(Index_VI_Disp_Y_Buf_Start_High, (uint8_t) ((PSY) >> 16));
/* set 310/325 series overflow bits for Y plane */
if (sis_vga_engine == SIS_315_VGA) {
setvideoreg(Index_VI_Y_Buf_Start_Over,
((uint8_t) ((PSY) >> 24) & 0x01));
}
/* Set U/V data if using plane formats */
if ((sis_format == IMGFMT_YV12) || (sis_format == IMGFMT_I420)) {
uint32_t PSU, PSV;
PSU = (sis_frames[frame] + sis_Uoff) >> sis_shift_value;
PSV = (sis_frames[frame] + sis_Voff) >> sis_shift_value;
/* set U/V start address */
setvideoreg(Index_VI_U_Buf_Start_Low, (uint8_t) PSU);
setvideoreg(Index_VI_U_Buf_Start_Middle, (uint8_t) (PSU >> 8));
setvideoreg(Index_VI_U_Buf_Start_High, (uint8_t) (PSU >> 16));
setvideoreg(Index_VI_V_Buf_Start_Low, (uint8_t) PSV);
setvideoreg(Index_VI_V_Buf_Start_Middle, (uint8_t) (PSV >> 8));
setvideoreg(Index_VI_V_Buf_Start_High, (uint8_t) (PSV >> 16));
/* 310/325 series overflow bits */
if (sis_vga_engine == SIS_315_VGA) {
setvideoreg(Index_VI_U_Buf_Start_Over,
((uint8_t) (PSU >> 24) & 0x01));
setvideoreg(Index_VI_V_Buf_Start_Over,
((uint8_t) (PSV >> 24) & 0x01));
}
}
if (sis_vga_engine == SIS_315_VGA) {
/* Trigger register copy for 310 series */
setvideoreg(Index_VI_Control_Misc3, 1 << index);
}
/* Lock the address registers */
setvideoregmask(Index_VI_Control_Misc1, 0x00, 0x20);
return 0;
}
int vixGetGrKeys(vidix_grkey_t * grkey)
{
memcpy(grkey, &sis_grkey, sizeof(vidix_grkey_t));
return 0;
}
int vixSetGrKeys(const vidix_grkey_t * grkey)
{
memcpy(&sis_grkey, grkey, sizeof(vidix_grkey_t));
set_colorkey();
return 0;
}
int vixPlaybackGetEq(vidix_video_eq_t * eq)
{
memcpy(eq, &sis_equal, sizeof(vidix_video_eq_t));
return 0;
}
int vixPlaybackSetEq(const vidix_video_eq_t * eq)
{
int br, sat, cr, hue;
if (eq->cap & VEQ_CAP_BRIGHTNESS)
sis_equal.brightness = eq->brightness;
if (eq->cap & VEQ_CAP_CONTRAST)
sis_equal.contrast = eq->contrast;
if (eq->cap & VEQ_CAP_SATURATION)
sis_equal.saturation = eq->saturation;
if (eq->cap & VEQ_CAP_HUE)
sis_equal.hue = eq->hue;
if (eq->cap & VEQ_CAP_RGB_INTENSITY) {
sis_equal.red_intensity = eq->red_intensity;
sis_equal.green_intensity = eq->green_intensity;
sis_equal.blue_intensity = eq->blue_intensity;
}
sis_equal.flags = eq->flags;
cr = (sis_equal.contrast + 1000) * 7 / 2000;
if (cr < 0)
cr = 0;
if (cr > 7)
cr = 7;
br = sis_equal.brightness * 127 / 1000;
if (br < -128)
br = -128;
if (br > 127)
br = 127;
sat = (sis_equal.saturation * 7) / 1000;
if (sat < -7)
sat = -7;
if (sat > 7)
sat = 7;
hue = sis_equal.hue * 7 / 1000;
if (hue < -8)
hue = -8;
if (hue > 7)
hue = 7;
set_brightness(br);
set_contrast(cr);
if (sis_vga_engine == SIS_315_VGA) {
set_saturation(sat);
set_hue(hue);
}
return 0;
}
static void set_overlay(SISOverlayPtr pOverlay, int index)
{
uint16_t pitch = 0;
uint8_t h_over = 0, v_over = 0;
uint16_t top, bottom, left, right;
uint16_t screenX = sis_screen_width;
uint16_t screenY = sis_screen_height;
uint8_t data;
uint32_t watchdog;
top = pOverlay->dstBox.y1;
bottom = pOverlay->dstBox.y2;
if (bottom > screenY) {
bottom = screenY;
}
left = pOverlay->dstBox.x1;
right = pOverlay->dstBox.x2;
if (right > screenX) {
right = screenX;
}
/* JCP: these aren't really tested... */
/* TW: DoubleScan modes require Y coordinates * 2 */
if (sis_vmode & VMODE_DOUBLESCAN) {
top <<= 1;
bottom <<= 1;
}
/* TW: Interlace modes require Y coordinates / 2 */
if (sis_vmode & VMODE_INTERLACED) {
top >>= 1;
bottom >>= 1;
}
h_over = (((left >> 8) & 0x0f) | ((right >> 4) & 0xf0));
v_over = (((top >> 8) & 0x0f) | ((bottom >> 4) & 0xf0));
pitch = pOverlay->pitch >> sis_shift_value;
/* set line buffer size */
setvideoreg(Index_VI_Line_Buffer_Size, pOverlay->lineBufSize);
/* set color key mode */
setvideoregmask(Index_VI_Key_Overlay_OP, pOverlay->keyOP, 0x0F);
/* TW: We don't have to wait for vertical retrace in all cases */
/* JCP: be safe for now. */
if (1 /*pPriv->mustwait */ ) {
watchdog = WATCHDOG_DELAY;
while (pOverlay->VBlankActiveFunc() && --watchdog);
watchdog = WATCHDOG_DELAY;
while ((!pOverlay->VBlankActiveFunc()) && --watchdog);
if (!watchdog && sis_verbose > 0) {
printf("[SiS]: timed out waiting for vertical retrace\n");
}
}
/* Unlock address registers */
data = getvideoreg(Index_VI_Control_Misc1);
setvideoreg(Index_VI_Control_Misc1, data | 0x20);
/* TEST: Is this required? */
setvideoreg(Index_VI_Control_Misc1, data | 0x20);
/* TEST end */
/* TEST: Is this required? */
if (sis_vga_engine == SIS_315_VGA)
setvideoreg(Index_VI_Control_Misc3, 0x00);
/* TEST end */
/* Set Y buf pitch */
setvideoreg(Index_VI_Disp_Y_Buf_Pitch_Low, (uint8_t) (pitch));
setvideoregmask(Index_VI_Disp_Y_UV_Buf_Pitch_Middle,
(uint8_t) (pitch >> 8), 0x0f);
/* Set Y start address */
setvideoreg(Index_VI_Disp_Y_Buf_Start_Low, (uint8_t) (pOverlay->PSY));
setvideoreg(Index_VI_Disp_Y_Buf_Start_Middle,
(uint8_t) ((pOverlay->PSY) >> 8));
setvideoreg(Index_VI_Disp_Y_Buf_Start_High,
(uint8_t) ((pOverlay->PSY) >> 16));
/* set 310/325 series overflow bits for Y plane */
if (sis_vga_engine == SIS_315_VGA) {
setvideoreg(Index_VI_Disp_Y_Buf_Pitch_High,
(uint8_t) (pitch >> 12));
setvideoreg(Index_VI_Y_Buf_Start_Over,
((uint8_t) ((pOverlay->PSY) >> 24) & 0x01));
}
/* Set U/V data if using plane formats */
if ((pOverlay->pixelFormat == IMGFMT_YV12) ||
(pOverlay->pixelFormat == IMGFMT_I420)) {
uint32_t PSU, PSV;
PSU = pOverlay->PSU;
PSV = pOverlay->PSV;
/* Set U/V pitch */
setvideoreg(Index_VI_Disp_UV_Buf_Pitch_Low,
(uint8_t) (pitch >> 1));
setvideoregmask(Index_VI_Disp_Y_UV_Buf_Pitch_Middle,
(uint8_t) (pitch >> 5), 0xf0);
/* set U/V start address */
setvideoreg(Index_VI_U_Buf_Start_Low, (uint8_t) PSU);
setvideoreg(Index_VI_U_Buf_Start_Middle, (uint8_t) (PSU >> 8));
setvideoreg(Index_VI_U_Buf_Start_High, (uint8_t) (PSU >> 16));
setvideoreg(Index_VI_V_Buf_Start_Low, (uint8_t) PSV);
setvideoreg(Index_VI_V_Buf_Start_Middle, (uint8_t) (PSV >> 8));
setvideoreg(Index_VI_V_Buf_Start_High, (uint8_t) (PSV >> 16));
/* 310/325 series overflow bits */
if (sis_vga_engine == SIS_315_VGA) {
setvideoreg(Index_VI_Disp_UV_Buf_Pitch_High,
(uint8_t) (pitch >> 13));
setvideoreg(Index_VI_U_Buf_Start_Over,
((uint8_t) (PSU >> 24) & 0x01));
setvideoreg(Index_VI_V_Buf_Start_Over,
((uint8_t) (PSV >> 24) & 0x01));
}
}
if (sis_vga_engine == SIS_315_VGA) {
/* Trigger register copy for 310 series */
setvideoreg(Index_VI_Control_Misc3, 1 << index);
}
/* set scale factor */
setvideoreg(Index_VI_Hor_Post_Up_Scale_Low,
(uint8_t) (pOverlay->HUSF));
setvideoreg(Index_VI_Hor_Post_Up_Scale_High,
(uint8_t) ((pOverlay->HUSF) >> 8));
setvideoreg(Index_VI_Ver_Up_Scale_Low, (uint8_t) (pOverlay->VUSF));
setvideoreg(Index_VI_Ver_Up_Scale_High,
(uint8_t) ((pOverlay->VUSF) >> 8));
setvideoregmask(Index_VI_Scale_Control, (pOverlay->IntBit << 3)
| (pOverlay->wHPre), 0x7f);
/* set destination window position */
setvideoreg(Index_VI_Win_Hor_Disp_Start_Low, (uint8_t) left);
setvideoreg(Index_VI_Win_Hor_Disp_End_Low, (uint8_t) right);
setvideoreg(Index_VI_Win_Hor_Over, (uint8_t) h_over);
setvideoreg(Index_VI_Win_Ver_Disp_Start_Low, (uint8_t) top);
setvideoreg(Index_VI_Win_Ver_Disp_End_Low, (uint8_t) bottom);
setvideoreg(Index_VI_Win_Ver_Over, (uint8_t) v_over);
setvideoregmask(Index_VI_Control_Misc1, pOverlay->bobEnable, 0x1a);
/* Lock the address registers */
setvideoregmask(Index_VI_Control_Misc1, 0x00, 0x20);
}
/* TW: Overlay MUST NOT be switched off while beam is over it */
static void close_overlay()
{
uint32_t watchdog;
if ((sis_displaymode == DISPMODE_SINGLE2) ||
(sis_displaymode == DISPMODE_MIRROR)) {
if (sis_has_two_overlays) {
setvideoregmask(Index_VI_Control_Misc2, 0x01, 0x01);
watchdog = WATCHDOG_DELAY;
while (vblank_active_CRT2() && --watchdog);
watchdog = WATCHDOG_DELAY;
while ((!vblank_active_CRT2()) && --watchdog);
setvideoregmask(Index_VI_Control_Misc0, 0x00, 0x02);
watchdog = WATCHDOG_DELAY;
while (vblank_active_CRT2() && --watchdog);
watchdog = WATCHDOG_DELAY;
while ((!vblank_active_CRT2()) && --watchdog);
} else if (sis_displaymode == DISPMODE_SINGLE2) {
setvideoregmask(Index_VI_Control_Misc2, 0x00, 0x01);
watchdog = WATCHDOG_DELAY;
while (vblank_active_CRT1() && --watchdog);
watchdog = WATCHDOG_DELAY;
while ((!vblank_active_CRT1()) && --watchdog);
setvideoregmask(Index_VI_Control_Misc0, 0x00, 0x02);
watchdog = WATCHDOG_DELAY;
while (vblank_active_CRT1() && --watchdog);
watchdog = WATCHDOG_DELAY;
while ((!vblank_active_CRT1()) && --watchdog);
}
}
if ((sis_displaymode == DISPMODE_SINGLE1) ||
(sis_displaymode == DISPMODE_MIRROR)) {
setvideoregmask(Index_VI_Control_Misc2, 0x00, 0x01);
watchdog = WATCHDOG_DELAY;
while (vblank_active_CRT1() && --watchdog);
watchdog = WATCHDOG_DELAY;
while ((!vblank_active_CRT1()) && --watchdog);
setvideoregmask(Index_VI_Control_Misc0, 0x00, 0x02);
watchdog = WATCHDOG_DELAY;
while (vblank_active_CRT1() && --watchdog);
watchdog = WATCHDOG_DELAY;
while ((!vblank_active_CRT1()) && --watchdog);
}
}
static void
calc_scale_factor(SISOverlayPtr pOverlay, int index, int iscrt2)
{
uint32_t i = 0, mult = 0;
int flag = 0;
int dstW = pOverlay->dstBox.x2 - pOverlay->dstBox.x1;
int dstH = pOverlay->dstBox.y2 - pOverlay->dstBox.y1;
int srcW = pOverlay->srcW;
int srcH = pOverlay->srcH;
/* uint16_t LCDheight = pSiS->LCDheight; */
int srcPitch = pOverlay->origPitch;
int origdstH = dstH;
/* get rid of warnings for now */
index = index;
iscrt2 = iscrt2;
#if 0 /* JCP: don't bother with this for now. */
/* TW: Stretch image due to idiotic LCD "auto"-scaling on LVDS (and 630+301B) */
if (pSiS->VBFlags & CRT2_LCD) {
if (sis_bridge_is_slave) {
if (pSiS->VBFlags & VB_LVDS) {
dstH = (dstH * LCDheight) / pOverlay->SCREENheight;
} else if ((sis_vga_engine == SIS_300_VGA) &&
(pSiS->
VBFlags & (VB_301B | VB_302B | VB_301LV |
VB_302LV))) {
dstH = (dstH * LCDheight) / pOverlay->SCREENheight;
}
} else if (iscrt2) {
if (pSiS->VBFlags & VB_LVDS) {
dstH = (dstH * LCDheight) / pOverlay->SCREENheight;
if (sis_displaymode == DISPMODE_MIRROR)
flag = 1;
} else if ((sis_vga_engine == SIS_300_VGA) &&
(pSiS->
VBFlags & (VB_301B | VB_302B | VB_301LV |
VB_302LV))) {
dstH = (dstH * LCDheight) / pOverlay->SCREENheight;
if (sis_displaymode == DISPMODE_MIRROR)
flag = 1;
}
}
}
#endif
/* TW: For double scan modes, we need to double the height
* (Perhaps we also need to scale LVDS, but I'm not sure.)
* On 310/325 series, we need to double the width as well.
* Interlace mode vice versa.
*/
if (sis_vmode & VMODE_DOUBLESCAN) {
dstH = origdstH << 1;
flag = 0;
if (sis_vga_engine == SIS_315_VGA) {
dstW <<= 1;
}
}
if (sis_vmode & VMODE_INTERLACED) {
dstH = origdstH >> 1;
flag = 0;
}
if (dstW < OVERLAY_MIN_WIDTH)
dstW = OVERLAY_MIN_WIDTH;
if (dstW == srcW) {
pOverlay->HUSF = 0x00;
pOverlay->IntBit = 0x05;
pOverlay->wHPre = 0;
} else if (dstW > srcW) {
dstW += 2;
pOverlay->HUSF = (srcW << 16) / dstW;
pOverlay->IntBit = 0x04;
pOverlay->wHPre = 0;
} else {
int tmpW = dstW;
/* TW: It seems, the hardware can't scale below factor .125 (=1/8) if the
pitch isn't a multiple of 256.
TODO: Test this on the 310/325 series!
*/
if ((srcPitch % 256) || (srcPitch < 256)) {
if (((dstW * 1000) / srcW) < 125)
dstW = tmpW = ((srcW * 125) / 1000) + 1;
}
i = 0;
pOverlay->IntBit = 0x01;
while (srcW >= tmpW) {
tmpW <<= 1;
i++;
}
pOverlay->wHPre = (uint8_t) (i - 1);
dstW <<= (i - 1);
if ((srcW % dstW))
pOverlay->HUSF = ((srcW - dstW) << 16) / dstW;
else
pOverlay->HUSF = 0x00;
}
if (dstH < OVERLAY_MIN_HEIGHT)
dstH = OVERLAY_MIN_HEIGHT;
if (dstH == srcH) {
pOverlay->VUSF = 0x00;
pOverlay->IntBit |= 0x0A;
} else if (dstH > srcH) {
dstH += 0x02;
pOverlay->VUSF = (srcH << 16) / dstH;
pOverlay->IntBit |= 0x08;
} else {
uint32_t realI;
i = realI = srcH / dstH;
pOverlay->IntBit |= 0x02;
if (i < 2) {
pOverlay->VUSF = ((srcH - dstH) << 16) / dstH;
/* TW: Needed for LCD-scaling modes */
if ((flag) && (mult = (srcH / origdstH)) >= 2)
pOverlay->pitch /= mult;
} else {
#if 0
if (((pOverlay->bobEnable & 0x08) == 0x00) &&
(((srcPitch * i) >> 2) > 0xFFF)) {
pOverlay->bobEnable |= 0x08;
srcPitch >>= 1;
}
#endif
if (((srcPitch * i) >> 2) > 0xFFF) {
i = (0xFFF * 2 / srcPitch);
pOverlay->VUSF = 0xFFFF;
} else {
dstH = i * dstH;
if (srcH % dstH)
pOverlay->VUSF = ((srcH - dstH) << 16) / dstH;
else
pOverlay->VUSF = 0x00;
}
/* set video frame buffer offset */
pOverlay->pitch = (uint16_t) (srcPitch * i);
}
}
}
static void set_line_buf_size(SISOverlayPtr pOverlay)
{
uint8_t preHIDF;
uint32_t i;
uint32_t line = pOverlay->srcW;
if ((pOverlay->pixelFormat == IMGFMT_YV12) ||
(pOverlay->pixelFormat == IMGFMT_I420)) {
preHIDF = pOverlay->wHPre & 0x07;
switch (preHIDF) {
case 3:
if ((line & 0xffffff00) == line)
i = (line >> 8);
else
i = (line >> 8) + 1;
pOverlay->lineBufSize = (uint8_t) (i * 32 - 1);
break;
case 4:
if ((line & 0xfffffe00) == line)
i = (line >> 9);
else
i = (line >> 9) + 1;
pOverlay->lineBufSize = (uint8_t) (i * 64 - 1);
break;
case 5:
if ((line & 0xfffffc00) == line)
i = (line >> 10);
else
i = (line >> 10) + 1;
pOverlay->lineBufSize = (uint8_t) (i * 128 - 1);
break;
case 6:
if ((line & 0xfffff800) == line)
i = (line >> 11);
else
i = (line >> 11) + 1;
pOverlay->lineBufSize = (uint8_t) (i * 256 - 1);
break;
default:
if ((line & 0xffffff80) == line)
i = (line >> 7);
else
i = (line >> 7) + 1;
pOverlay->lineBufSize = (uint8_t) (i * 16 - 1);
break;
}
} else { /* YUV2, UYVY */
if ((line & 0xffffff8) == line)
i = (line >> 3);
else
i = (line >> 3) + 1;
pOverlay->lineBufSize = (uint8_t) (i - 1);
}
}
static void merge_line_buf(int enable)
{
if (enable) {
switch (sis_displaymode) {
case DISPMODE_SINGLE1:
if (sis_has_two_overlays) {
/* dual line merge */
setvideoregmask(Index_VI_Control_Misc2, 0x10, 0x11);
setvideoregmask(Index_VI_Control_Misc1, 0x00, 0x04);
} else {
setvideoregmask(Index_VI_Control_Misc2, 0x10, 0x11);
setvideoregmask(Index_VI_Control_Misc1, 0x00, 0x04);
}
break;
case DISPMODE_SINGLE2:
if (sis_has_two_overlays) {
/* line merge */
setvideoregmask(Index_VI_Control_Misc2, 0x01, 0x11);
setvideoregmask(Index_VI_Control_Misc1, 0x04, 0x04);
} else {
setvideoregmask(Index_VI_Control_Misc2, 0x10, 0x11);
setvideoregmask(Index_VI_Control_Misc1, 0x00, 0x04);
}
break;
case DISPMODE_MIRROR:
default:
/* line merge */
setvideoregmask(Index_VI_Control_Misc2, 0x00, 0x11);
setvideoregmask(Index_VI_Control_Misc1, 0x04, 0x04);
if (sis_has_two_overlays) {
/* line merge */
setvideoregmask(Index_VI_Control_Misc2, 0x01, 0x11);
setvideoregmask(Index_VI_Control_Misc1, 0x04, 0x04);
}
break;
}
} else {
switch (sis_displaymode) {
case DISPMODE_SINGLE1:
setvideoregmask(Index_VI_Control_Misc2, 0x00, 0x11);
setvideoregmask(Index_VI_Control_Misc1, 0x00, 0x04);
break;
case DISPMODE_SINGLE2:
if (sis_has_two_overlays) {
setvideoregmask(Index_VI_Control_Misc2, 0x01, 0x11);
setvideoregmask(Index_VI_Control_Misc1, 0x00, 0x04);
} else {
setvideoregmask(Index_VI_Control_Misc2, 0x00, 0x11);
setvideoregmask(Index_VI_Control_Misc1, 0x00, 0x04);
}
break;
case DISPMODE_MIRROR:
default:
setvideoregmask(Index_VI_Control_Misc2, 0x00, 0x11);
setvideoregmask(Index_VI_Control_Misc1, 0x00, 0x04);
if (sis_has_two_overlays) {
setvideoregmask(Index_VI_Control_Misc2, 0x01, 0x11);
setvideoregmask(Index_VI_Control_Misc1, 0x00, 0x04);
}
break;
}
}
}
static void set_format(SISOverlayPtr pOverlay)
{
uint8_t fmt;
switch (pOverlay->pixelFormat) {
case IMGFMT_YV12:
case IMGFMT_I420:
fmt = 0x0c;
break;
case IMGFMT_YUY2:
fmt = 0x28;
break;
case IMGFMT_UYVY:
fmt = 0x08;
break;
case IMGFMT_RGB15: /* D[5:4] : 00 RGB555, 01 RGB 565 */
fmt = 0x00;
break;
case IMGFMT_RGB16:
fmt = 0x10;
break;
default:
fmt = 0x00;
break;
}
setvideoregmask(Index_VI_Control_Misc0, fmt, 0x7c);
}
static void set_colorkey()
{
uint8_t r, g, b;
b = (uint8_t) sis_grkey.ckey.blue;
g = (uint8_t) sis_grkey.ckey.green;
r = (uint8_t) sis_grkey.ckey.red;
/* set color key mode */
setvideoregmask(Index_VI_Key_Overlay_OP,
sis_grkey.ckey.op == CKEY_TRUE ?
VI_ROP_DestKey : VI_ROP_Always, 0x0F);
/* set colorkey values */
setvideoreg(Index_VI_Overlay_ColorKey_Blue_Min, (uint8_t) b);
setvideoreg(Index_VI_Overlay_ColorKey_Green_Min, (uint8_t) g);
setvideoreg(Index_VI_Overlay_ColorKey_Red_Min, (uint8_t) r);
setvideoreg(Index_VI_Overlay_ColorKey_Blue_Max, (uint8_t) b);
setvideoreg(Index_VI_Overlay_ColorKey_Green_Max, (uint8_t) g);
setvideoreg(Index_VI_Overlay_ColorKey_Red_Max, (uint8_t) r);
}
static void set_brightness(uint8_t brightness)
{
setvideoreg(Index_VI_Brightness, brightness);
}
static void set_contrast(uint8_t contrast)
{
setvideoregmask(Index_VI_Contrast_Enh_Ctrl, contrast, 0x07);
}
/* Next 3 functions are 310/325 series only */
static void set_saturation(char saturation)
{
uint8_t temp = 0;
if (saturation < 0) {
temp |= 0x88;
saturation = -saturation;
}
temp |= (saturation & 0x07);
temp |= ((saturation & 0x07) << 4);
setvideoreg(Index_VI_Saturation, temp);
}
static void set_hue(uint8_t hue)
{
setvideoreg(Index_VI_Hue, (hue & 0x08) ? (hue ^ 0x07) : hue);
}
#if 0
/* JCP: not used (I don't think it's correct anyway) */
static void set_alpha(uint8_t alpha)
{
uint8_t data;
data = getvideoreg(Index_VI_Key_Overlay_OP);
data &= 0x0F;
setvideoreg(Index_VI_Key_Overlay_OP, data | (alpha << 4));
}
#endif