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|
/* $XFree86: xc/programs/Xserver/hw/xfree86/drivers/ati/r128_video.c,v 1.31 2003/11/10 18:41:21 tsi Exp $ */
#include "r128.h"
#include "r128_reg.h"
#ifdef XF86DRI
#include "r128_common.h"
#include "r128_sarea.h"
#endif
#include "xf86.h"
#include "dixstruct.h"
#include "Xv.h"
#include "fourcc.h"
#define OFF_DELAY 250 /* milliseconds */
#define FREE_DELAY 15000
#define OFF_TIMER 0x01
#define FREE_TIMER 0x02
#define CLIENT_VIDEO_ON 0x04
#define TIMER_MASK (OFF_TIMER | FREE_TIMER)
static XF86VideoAdaptorPtr R128SetupImageVideo(ScreenPtr);
static int R128SetPortAttribute(ScrnInfoPtr, Atom, INT32, pointer);
static int R128GetPortAttribute(ScrnInfoPtr, Atom ,INT32 *, pointer);
static void R128StopVideo(ScrnInfoPtr, pointer, Bool);
static void R128QueryBestSize(ScrnInfoPtr, Bool, short, short, short, short,
unsigned int *, unsigned int *, pointer);
static int R128PutImage(ScrnInfoPtr, short, short, short, short, short,
short, short, short, int, unsigned char*, short,
short, Bool, RegionPtr, pointer);
static int R128QueryImageAttributes(ScrnInfoPtr, int, unsigned short *,
unsigned short *, int *, int *);
static void R128ResetVideo(ScrnInfoPtr);
static void R128VideoTimerCallback(ScrnInfoPtr pScrn, Time now);
#define MAKE_ATOM(a) MakeAtom(a, sizeof(a) - 1, TRUE)
static Atom xvBrightness, xvColorKey, xvSaturation, xvDoubleBuffer;
typedef struct {
int brightness;
int saturation;
Bool doubleBuffer;
unsigned char currentBuffer;
FBLinearPtr linear;
RegionRec clip;
CARD32 colorKey;
CARD32 videoStatus;
Time offTime;
Time freeTime;
int ecp_div;
} R128PortPrivRec, *R128PortPrivPtr;
static void R128ECP(ScrnInfoPtr pScrn, R128PortPrivPtr pPriv)
{
R128InfoPtr info = R128PTR(pScrn);
unsigned char *R128MMIO = info->MMIO;
int dot_clock = info->ModeReg.dot_clock_freq;
if (dot_clock < 12500) pPriv->ecp_div = 0;
else if (dot_clock < 25000) pPriv->ecp_div = 1;
else pPriv->ecp_div = 2;
OUTPLLP(pScrn, R128_VCLK_ECP_CNTL, pPriv->ecp_div<<8, ~R128_ECP_DIV_MASK);
}
void R128InitVideo(ScreenPtr pScreen)
{
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
XF86VideoAdaptorPtr *adaptors, *newAdaptors = NULL;
XF86VideoAdaptorPtr newAdaptor = NULL;
int num_adaptors;
newAdaptor = R128SetupImageVideo(pScreen);
num_adaptors = xf86XVListGenericAdaptors(pScrn, &adaptors);
if(newAdaptor) {
if(!num_adaptors) {
num_adaptors = 1;
adaptors = &newAdaptor;
} else {
newAdaptors = /* need to free this someplace */
xalloc((num_adaptors + 1) * sizeof(XF86VideoAdaptorPtr*));
if(newAdaptors) {
memcpy(newAdaptors, adaptors, num_adaptors *
sizeof(XF86VideoAdaptorPtr));
newAdaptors[num_adaptors] = newAdaptor;
adaptors = newAdaptors;
num_adaptors++;
}
}
}
if(num_adaptors)
xf86XVScreenInit(pScreen, adaptors, num_adaptors);
if(newAdaptors)
xfree(newAdaptors);
}
#define MAXWIDTH 2048
#define MAXHEIGHT 2048
/* client libraries expect an encoding */
static XF86VideoEncodingRec DummyEncoding =
{
0,
"XV_IMAGE",
MAXWIDTH, MAXHEIGHT,
{1, 1}
};
#define NUM_FORMATS 12
static XF86VideoFormatRec Formats[NUM_FORMATS] =
{
{8, TrueColor}, {8, DirectColor}, {8, PseudoColor},
{8, GrayScale}, {8, StaticGray}, {8, StaticColor},
{15, TrueColor}, {16, TrueColor}, {24, TrueColor},
{15, DirectColor}, {16, DirectColor}, {24, DirectColor}
};
#define NUM_ATTRIBUTES 4
static XF86AttributeRec Attributes[NUM_ATTRIBUTES] =
{
{XvSettable | XvGettable, 0, (1 << 24) - 1, "XV_COLORKEY"},
{XvSettable | XvGettable, -64, 63, "XV_BRIGHTNESS"},
{XvSettable | XvGettable, 0, 31, "XV_SATURATION"},
{XvSettable | XvGettable, 0, 1, "XV_DOUBLE_BUFFER"}
};
#define NUM_IMAGES 4
static XF86ImageRec Images[NUM_IMAGES] =
{
XVIMAGE_YUY2,
XVIMAGE_UYVY,
XVIMAGE_YV12,
XVIMAGE_I420
};
static void
R128ResetVideo(ScrnInfoPtr pScrn)
{
R128InfoPtr info = R128PTR(pScrn);
unsigned char *R128MMIO = info->MMIO;
R128PortPrivPtr pPriv = info->adaptor->pPortPrivates[0].ptr;
OUTREG(R128_OV0_SCALE_CNTL, 0x80000000);
OUTREG(R128_OV0_EXCLUSIVE_HORZ, 0);
OUTREG(R128_OV0_AUTO_FLIP_CNTL, 0); /* maybe */
OUTREG(R128_OV0_FILTER_CNTL, 0x0000000f);
OUTREG(R128_OV0_COLOUR_CNTL, (pPriv->brightness & 0x7f) |
(pPriv->saturation << 8) |
(pPriv->saturation << 16));
OUTREG(R128_OV0_GRAPHICS_KEY_MSK, (1 << pScrn->depth) - 1);
OUTREG(R128_OV0_GRAPHICS_KEY_CLR, pPriv->colorKey);
OUTREG(R128_OV0_KEY_CNTL, R128_GRAPHIC_KEY_FN_NE);
OUTREG(R128_OV0_TEST, 0);
}
static XF86VideoAdaptorPtr
R128AllocAdaptor(ScrnInfoPtr pScrn)
{
XF86VideoAdaptorPtr adapt;
R128InfoPtr info = R128PTR(pScrn);
R128PortPrivPtr pPriv;
if(!(adapt = xf86XVAllocateVideoAdaptorRec(pScrn)))
return NULL;
if(!(pPriv = xcalloc(1, sizeof(R128PortPrivRec) + sizeof(DevUnion))))
{
xfree(adapt);
return NULL;
}
adapt->pPortPrivates = (DevUnion*)(&pPriv[1]);
adapt->pPortPrivates[0].ptr = (pointer)pPriv;
xvBrightness = MAKE_ATOM("XV_BRIGHTNESS");
xvSaturation = MAKE_ATOM("XV_SATURATION");
xvColorKey = MAKE_ATOM("XV_COLORKEY");
xvDoubleBuffer = MAKE_ATOM("XV_DOUBLE_BUFFER");
pPriv->colorKey = info->videoKey;
pPriv->doubleBuffer = TRUE;
pPriv->videoStatus = 0;
pPriv->brightness = 0;
pPriv->saturation = 16;
pPriv->currentBuffer = 0;
R128ECP(pScrn, pPriv);
return adapt;
}
static XF86VideoAdaptorPtr
R128SetupImageVideo(ScreenPtr pScreen)
{
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
R128InfoPtr info = R128PTR(pScrn);
R128PortPrivPtr pPriv;
XF86VideoAdaptorPtr adapt;
if(!(adapt = R128AllocAdaptor(pScrn)))
return NULL;
adapt->type = XvWindowMask | XvInputMask | XvImageMask;
adapt->flags = VIDEO_OVERLAID_IMAGES | VIDEO_CLIP_TO_VIEWPORT;
adapt->name = "ATI Rage128 Video Overlay";
adapt->nEncodings = 1;
adapt->pEncodings = &DummyEncoding;
adapt->nFormats = NUM_FORMATS;
adapt->pFormats = Formats;
adapt->nPorts = 1;
adapt->nAttributes = NUM_ATTRIBUTES;
adapt->pAttributes = Attributes;
adapt->nImages = NUM_IMAGES;
adapt->pImages = Images;
adapt->PutVideo = NULL;
adapt->PutStill = NULL;
adapt->GetVideo = NULL;
adapt->GetStill = NULL;
adapt->StopVideo = R128StopVideo;
adapt->SetPortAttribute = R128SetPortAttribute;
adapt->GetPortAttribute = R128GetPortAttribute;
adapt->QueryBestSize = R128QueryBestSize;
adapt->PutImage = R128PutImage;
adapt->QueryImageAttributes = R128QueryImageAttributes;
info->adaptor = adapt;
pPriv = (R128PortPrivPtr)(adapt->pPortPrivates[0].ptr);
REGION_NULL(pScreen, &(pPriv->clip));
R128ResetVideo(pScrn);
return adapt;
}
static void
R128StopVideo(ScrnInfoPtr pScrn, pointer data, Bool cleanup)
{
R128InfoPtr info = R128PTR(pScrn);
unsigned char *R128MMIO = info->MMIO;
R128PortPrivPtr pPriv = (R128PortPrivPtr)data;
REGION_EMPTY(pScrn->pScreen, &pPriv->clip);
if(cleanup) {
if(pPriv->videoStatus & CLIENT_VIDEO_ON) {
OUTREG(R128_OV0_SCALE_CNTL, 0);
}
if(pPriv->linear) {
xf86FreeOffscreenLinear(pPriv->linear);
pPriv->linear = NULL;
}
pPriv->videoStatus = 0;
} else {
if(pPriv->videoStatus & CLIENT_VIDEO_ON) {
pPriv->videoStatus |= OFF_TIMER;
pPriv->offTime = currentTime.milliseconds + OFF_DELAY;
}
}
}
static int
R128SetPortAttribute(
ScrnInfoPtr pScrn,
Atom attribute,
INT32 value,
pointer data
){
R128InfoPtr info = R128PTR(pScrn);
unsigned char *R128MMIO = info->MMIO;
R128PortPrivPtr pPriv = (R128PortPrivPtr)data;
if(attribute == xvBrightness) {
if((value < -64) || (value > 63))
return BadValue;
pPriv->brightness = value;
OUTREG(R128_OV0_COLOUR_CNTL, (pPriv->brightness & 0x7f) |
(pPriv->saturation << 8) |
(pPriv->saturation << 16));
} else
if(attribute == xvSaturation) {
if((value < 0) || (value > 31))
return BadValue;
pPriv->saturation = value;
OUTREG(R128_OV0_COLOUR_CNTL, (pPriv->brightness & 0x7f) |
(pPriv->saturation << 8) |
(pPriv->saturation << 16));
} else
if(attribute == xvDoubleBuffer) {
if((value < 0) || (value > 1))
return BadValue;
pPriv->doubleBuffer = value;
} else
if(attribute == xvColorKey) {
pPriv->colorKey = value;
OUTREG(R128_OV0_GRAPHICS_KEY_CLR, pPriv->colorKey);
REGION_EMPTY(pScrn->pScreen, &pPriv->clip);
} else return BadMatch;
return Success;
}
static int
R128GetPortAttribute(
ScrnInfoPtr pScrn,
Atom attribute,
INT32 *value,
pointer data
){
R128PortPrivPtr pPriv = (R128PortPrivPtr)data;
if(attribute == xvBrightness) {
*value = pPriv->brightness;
} else
if(attribute == xvSaturation) {
*value = pPriv->saturation;
} else
if(attribute == xvDoubleBuffer) {
*value = pPriv->doubleBuffer ? 1 : 0;
} else
if(attribute == xvColorKey) {
*value = pPriv->colorKey;
} else return BadMatch;
return Success;
}
static void
R128QueryBestSize(
ScrnInfoPtr pScrn,
Bool motion,
short vid_w, short vid_h,
short drw_w, short drw_h,
unsigned int *p_w, unsigned int *p_h,
pointer data
){
if(vid_w > (drw_w << 4))
drw_w = vid_w >> 4;
if(vid_h > (drw_h << 4))
drw_h = vid_h >> 4;
*p_w = drw_w;
*p_h = drw_h;
}
/*
*
* R128DMA - abuse the texture blit ioctl to transfer rectangular blocks
*
* The block is split into 'passes' pieces of 'hpass' lines which fit entirely
* into an indirect buffer
*
*/
static Bool
R128DMA(
R128InfoPtr info,
unsigned char *src,
unsigned char *dst,
int srcPitch,
int dstPitch,
int h,
int w
){
#ifdef XF86DRI
#define BUFSIZE (R128_BUFFER_SIZE - R128_HOSTDATA_BLIT_OFFSET)
#define MAXPASSES (MAXHEIGHT/(BUFSIZE/(MAXWIDTH*2))+1)
unsigned char *buf;
int err=-1, i, idx, offset, hpass, passes, srcpassbytes, dstpassbytes;
int sizes[MAXPASSES], list[MAXPASSES];
drmDMAReq req;
drmR128Blit blit;
/* Verify conditions and bail out as early as possible */
if (!info->directRenderingEnabled || !info->DMAForXv)
return FALSE;
if ((hpass = min(h,(BUFSIZE/w))) == 0)
return FALSE;
if ((passes = (h+hpass-1)/hpass) > MAXPASSES)
return FALSE;
/* Request indirect buffers */
srcpassbytes = w*hpass;
req.context = info->drmCtx;
req.send_count = 0;
req.send_list = NULL;
req.send_sizes = NULL;
req.flags = DRM_DMA_LARGER_OK;
req.request_count = passes;
req.request_size = srcpassbytes + R128_HOSTDATA_BLIT_OFFSET;
req.request_list = &list[0];
req.request_sizes = &sizes[0];
req.granted_count = 0;
if (drmDMA(info->drmFD, &req))
return FALSE;
if (req.granted_count < passes) {
drmFreeBufs(info->drmFD, req.granted_count, req.request_list);
return FALSE;
}
/* Copy parts of the block into buffers and fire them */
dstpassbytes = hpass*dstPitch;
dstPitch /= 8;
for (i=0, offset=dst-info->FB; i<passes; i++, offset+=dstpassbytes) {
if (i == (passes-1) && (h % hpass) != 0) {
hpass = h % hpass;
srcpassbytes = w*hpass;
}
idx = req.request_list[i];
buf = (unsigned char *) info->buffers->list[idx].address + R128_HOSTDATA_BLIT_OFFSET;
if (srcPitch == w) {
memcpy(buf, src, srcpassbytes);
src += srcpassbytes;
} else {
int count = hpass;
while(count--) {
memcpy(buf, src, w);
src += srcPitch;
buf += w;
}
}
blit.idx = idx;
blit.offset = offset;
blit.pitch = dstPitch;
blit.format = (R128_DATATYPE_CI8 >> 16);
blit.x = (offset % 32);
blit.y = 0;
blit.width = w;
blit.height = hpass;
if ((err = drmCommandWrite(info->drmFD, DRM_R128_BLIT,
&blit, sizeof(drmR128Blit))) < 0)
break;
}
drmFreeBufs(info->drmFD, req.granted_count, req.request_list);
return (err==0) ? TRUE : FALSE;
#else
/* This is to avoid cluttering the rest of the code with '#ifdef XF86DRI' */
return FALSE;
#endif /* XF86DRI */
}
static void
R128CopyData422(
R128InfoPtr info,
unsigned char *src,
unsigned char *dst,
int srcPitch,
int dstPitch,
int h,
int w
){
w <<= 1;
/* Attempt data transfer with DMA and fall back to memcpy */
if (!R128DMA(info, src, dst, srcPitch, dstPitch, h, w)) {
while(h--) {
memcpy(dst, src, w);
src += srcPitch;
dst += dstPitch;
}
}
}
static void
R128CopyData420(
R128InfoPtr info,
unsigned char *src1,
unsigned char *src2,
unsigned char *src3,
unsigned char *dst1,
unsigned char *dst2,
unsigned char *dst3,
int srcPitch,
int srcPitch2,
int dstPitch,
int h,
int w
){
int count;
/* Attempt data transfer with DMA and fall back to memcpy */
if (!R128DMA(info, src1, dst1, srcPitch, dstPitch, h, w)) {
count = h;
while(count--) {
memcpy(dst1, src1, w);
src1 += srcPitch;
dst1 += dstPitch;
}
}
w >>= 1;
h >>= 1;
dstPitch >>= 1;
if (!R128DMA(info, src2, dst2, srcPitch2, dstPitch, h, w)) {
count = h;
while(count--) {
memcpy(dst2, src2, w);
src2 += srcPitch2;
dst2 += dstPitch;
}
}
if (!R128DMA(info, src3, dst3, srcPitch2, dstPitch, h, w)) {
count = h;
while(count--) {
memcpy(dst3, src3, w);
src3 += srcPitch2;
dst3 += dstPitch;
}
}
}
static FBLinearPtr
R128AllocateMemory(
ScrnInfoPtr pScrn,
FBLinearPtr linear,
int size
){
ScreenPtr pScreen;
FBLinearPtr new_linear;
if(linear) {
if(linear->size >= size)
return linear;
if(xf86ResizeOffscreenLinear(linear, size))
return linear;
xf86FreeOffscreenLinear(linear);
}
pScreen = screenInfo.screens[pScrn->scrnIndex];
new_linear = xf86AllocateOffscreenLinear(pScreen, size, 16,
NULL, NULL, NULL);
if(!new_linear) {
int max_size;
xf86QueryLargestOffscreenLinear(pScreen, &max_size, 16,
PRIORITY_EXTREME);
if(max_size < size)
return NULL;
xf86PurgeUnlockedOffscreenAreas(pScreen);
new_linear = xf86AllocateOffscreenLinear(pScreen, size, 16,
NULL, NULL, NULL);
}
return new_linear;
}
static void
R128DisplayVideo422(
ScrnInfoPtr pScrn,
int id,
int offset,
short width, short height,
int pitch,
int left, int right, int top,
BoxPtr dstBox,
short src_w, short src_h,
short drw_w, short drw_h
){
R128InfoPtr info = R128PTR(pScrn);
unsigned char *R128MMIO = info->MMIO;
R128PortPrivPtr pPriv = info->adaptor->pPortPrivates[0].ptr;
int v_inc, h_inc, step_by, tmp;
int p1_h_accum_init, p23_h_accum_init;
int p1_v_accum_init;
R128ECP(pScrn, pPriv);
v_inc = (src_h << 20) / drw_h;
h_inc = (src_w << (12 + pPriv->ecp_div)) / drw_w;
step_by = 1;
while(h_inc >= (2 << 12)) {
step_by++;
h_inc >>= 1;
}
/* keep everything in 16.16 */
offset += ((left >> 16) & ~7) << 1;
tmp = (left & 0x0003ffff) + 0x00028000 + (h_inc << 3);
p1_h_accum_init = ((tmp << 4) & 0x000f8000) |
((tmp << 12) & 0xf0000000);
tmp = ((left >> 1) & 0x0001ffff) + 0x00028000 + (h_inc << 2);
p23_h_accum_init = ((tmp << 4) & 0x000f8000) |
((tmp << 12) & 0x70000000);
tmp = (top & 0x0000ffff) + 0x00018000;
p1_v_accum_init = ((tmp << 4) & 0x03ff8000) | 0x00000001;
left = (left >> 16) & 7;
OUTREG(R128_OV0_REG_LOAD_CNTL, 1);
while(!(INREG(R128_OV0_REG_LOAD_CNTL) & (1 << 3)));
OUTREG(R128_OV0_H_INC, h_inc | ((h_inc >> 1) << 16));
OUTREG(R128_OV0_STEP_BY, step_by | (step_by << 8));
OUTREG(R128_OV0_Y_X_START, dstBox->x1 | (dstBox->y1 << 16));
OUTREG(R128_OV0_Y_X_END, dstBox->x2 | (dstBox->y2 << 16));
OUTREG(R128_OV0_V_INC, v_inc);
OUTREG(R128_OV0_P1_BLANK_LINES_AT_TOP, 0x00000fff | ((src_h - 1) << 16));
OUTREG(R128_OV0_VID_BUF_PITCH0_VALUE, pitch);
OUTREG(R128_OV0_P1_X_START_END, (width - 1) | (left << 16));
left >>= 1; width >>= 1;
OUTREG(R128_OV0_P2_X_START_END, (width - 1) | (left << 16));
OUTREG(R128_OV0_P3_X_START_END, (width - 1) | (left << 16));
OUTREG(R128_OV0_VID_BUF0_BASE_ADRS, offset & 0xfffffff0);
OUTREG(R128_OV0_P1_V_ACCUM_INIT, p1_v_accum_init);
OUTREG(R128_OV0_P23_V_ACCUM_INIT, 0);
OUTREG(R128_OV0_P1_H_ACCUM_INIT, p1_h_accum_init);
OUTREG(R128_OV0_P23_H_ACCUM_INIT, p23_h_accum_init);
if(id == FOURCC_UYVY)
OUTREG(R128_OV0_SCALE_CNTL, 0x41FF8C03);
else
OUTREG(R128_OV0_SCALE_CNTL, 0x41FF8B03);
OUTREG(R128_OV0_REG_LOAD_CNTL, 0);
}
static void
R128DisplayVideo420(
ScrnInfoPtr pScrn,
short width, short height,
int pitch,
int offset1, int offset2, int offset3,
int left, int right, int top,
BoxPtr dstBox,
short src_w, short src_h,
short drw_w, short drw_h
){
R128InfoPtr info = R128PTR(pScrn);
unsigned char *R128MMIO = info->MMIO;
R128PortPrivPtr pPriv = info->adaptor->pPortPrivates[0].ptr;
int v_inc, h_inc, step_by, tmp, leftUV;
int p1_h_accum_init, p23_h_accum_init;
int p1_v_accum_init, p23_v_accum_init;
v_inc = (src_h << 20) / drw_h;
h_inc = (src_w << (12 + pPriv->ecp_div)) / drw_w;
step_by = 1;
while(h_inc >= (2 << 12)) {
step_by++;
h_inc >>= 1;
}
/* keep everything in 16.16 */
offset1 += (left >> 16) & ~15;
offset2 += (left >> 17) & ~15;
offset3 += (left >> 17) & ~15;
tmp = (left & 0x0003ffff) + 0x00028000 + (h_inc << 3);
p1_h_accum_init = ((tmp << 4) & 0x000f8000) |
((tmp << 12) & 0xf0000000);
tmp = ((left >> 1) & 0x0001ffff) + 0x00028000 + (h_inc << 2);
p23_h_accum_init = ((tmp << 4) & 0x000f8000) |
((tmp << 12) & 0x70000000);
tmp = (top & 0x0000ffff) + 0x00018000;
p1_v_accum_init = ((tmp << 4) & 0x03ff8000) | 0x00000001;
tmp = ((top >> 1) & 0x0000ffff) + 0x00018000;
p23_v_accum_init = ((tmp << 4) & 0x01ff8000) | 0x00000001;
leftUV = (left >> 17) & 15;
left = (left >> 16) & 15;
OUTREG(R128_OV0_REG_LOAD_CNTL, 1);
while(!(INREG(R128_OV0_REG_LOAD_CNTL) & (1 << 3)));
OUTREG(R128_OV0_H_INC, h_inc | ((h_inc >> 1) << 16));
OUTREG(R128_OV0_STEP_BY, step_by | (step_by << 8));
OUTREG(R128_OV0_Y_X_START, dstBox->x1 | (dstBox->y1 << 16));
OUTREG(R128_OV0_Y_X_END, dstBox->x2 | (dstBox->y2 << 16));
OUTREG(R128_OV0_V_INC, v_inc);
OUTREG(R128_OV0_P1_BLANK_LINES_AT_TOP, 0x00000fff | ((src_h - 1) << 16));
src_h = (src_h + 1) >> 1;
OUTREG(R128_OV0_P23_BLANK_LINES_AT_TOP, 0x000007ff | ((src_h - 1) << 16));
OUTREG(R128_OV0_VID_BUF_PITCH0_VALUE, pitch);
OUTREG(R128_OV0_VID_BUF_PITCH1_VALUE, pitch >> 1);
OUTREG(R128_OV0_P1_X_START_END, (width - 1) | (left << 16));
width >>= 1;
OUTREG(R128_OV0_P2_X_START_END, (width - 1) | (leftUV << 16));
OUTREG(R128_OV0_P3_X_START_END, (width - 1) | (leftUV << 16));
OUTREG(R128_OV0_VID_BUF0_BASE_ADRS, offset1 & 0xfffffff0);
OUTREG(R128_OV0_VID_BUF1_BASE_ADRS, (offset2 & 0xfffffff0) | 0x00000001);
OUTREG(R128_OV0_VID_BUF2_BASE_ADRS, (offset3 & 0xfffffff0) | 0x00000001);
OUTREG(R128_OV0_P1_V_ACCUM_INIT, p1_v_accum_init);
OUTREG(R128_OV0_P23_V_ACCUM_INIT, p23_v_accum_init);
OUTREG(R128_OV0_P1_H_ACCUM_INIT, p1_h_accum_init);
OUTREG(R128_OV0_P23_H_ACCUM_INIT, p23_h_accum_init);
OUTREG(R128_OV0_SCALE_CNTL, 0x41FF8A03);
OUTREG(R128_OV0_REG_LOAD_CNTL, 0);
}
static int
R128PutImage(
ScrnInfoPtr pScrn,
short src_x, short src_y,
short drw_x, short drw_y,
short src_w, short src_h,
short drw_w, short drw_h,
int id, unsigned char* buf,
short width, short height,
Bool Sync,
RegionPtr clipBoxes, pointer data
){
R128InfoPtr info = R128PTR(pScrn);
R128PortPrivPtr pPriv = (R128PortPrivPtr)data;
INT32 xa, xb, ya, yb;
int new_size, offset, s1offset, s2offset, s3offset;
int srcPitch, srcPitch2, dstPitch;
int d1line, d2line, d3line, d1offset, d2offset, d3offset;
int top, left, npixels, nlines, bpp;
BoxRec dstBox;
CARD32 tmp;
#if X_BYTE_ORDER == X_BIG_ENDIAN
unsigned char *R128MMIO = info->MMIO;
CARD32 config_cntl = INREG(R128_CONFIG_CNTL);
/* We need to disable byte swapping, or the data gets mangled */
OUTREG(R128_CONFIG_CNTL, config_cntl &
~(APER_0_BIG_ENDIAN_16BPP_SWAP | APER_0_BIG_ENDIAN_32BPP_SWAP));
#endif
/*
* s1offset, s2offset, s3offset - byte offsets to the Y, U and V planes
* of the source.
*
* d1offset, d2offset, d3offset - byte offsets to the Y, U and V planes
* of the destination.
*
* offset - byte offset within the framebuffer to where the destination
* is stored.
*
* d1line, d2line, d3line - byte offsets within the destination to the
* first displayed scanline in each plane.
*
*/
if(src_w > (drw_w << 4))
drw_w = src_w >> 4;
if(src_h > (drw_h << 4))
drw_h = src_h >> 4;
/* Clip */
xa = src_x;
xb = src_x + src_w;
ya = src_y;
yb = src_y + src_h;
dstBox.x1 = drw_x;
dstBox.x2 = drw_x + drw_w;
dstBox.y1 = drw_y;
dstBox.y2 = drw_y + drw_h;
if(!xf86XVClipVideoHelper(&dstBox, &xa, &xb, &ya, &yb,
clipBoxes, width, height))
return Success;
dstBox.x1 -= pScrn->frameX0;
dstBox.x2 -= pScrn->frameX0;
dstBox.y1 -= pScrn->frameY0;
dstBox.y2 -= pScrn->frameY0;
bpp = pScrn->bitsPerPixel >> 3;
switch(id) {
case FOURCC_YV12:
case FOURCC_I420:
srcPitch = (width + 3) & ~3;
srcPitch2 = ((width >> 1) + 3) & ~3;
dstPitch = (width + 31) & ~31; /* of luma */
new_size = ((dstPitch * (height + (height >> 1))) + bpp - 1) / bpp;
s1offset = 0;
s2offset = srcPitch * height;
s3offset = (srcPitch2 * (height >> 1)) + s2offset;
break;
case FOURCC_UYVY:
case FOURCC_YUY2:
default:
srcPitch = width << 1;
srcPitch2 = 0;
dstPitch = ((width << 1) + 15) & ~15;
new_size = ((dstPitch * height) + bpp - 1) / bpp;
s1offset = 0;
s2offset = 0;
s3offset = 0;
break;
}
if(!(pPriv->linear = R128AllocateMemory(pScrn, pPriv->linear,
pPriv->doubleBuffer ? (new_size << 1) : new_size)))
{
return BadAlloc;
}
pPriv->currentBuffer ^= 1;
/* copy data */
top = ya >> 16;
left = (xa >> 16) & ~1;
npixels = ((((xb + 0xffff) >> 16) + 1) & ~1) - left;
offset = pPriv->linear->offset * bpp;
if(pPriv->doubleBuffer)
offset += pPriv->currentBuffer * new_size * bpp;
switch(id) {
case FOURCC_YV12:
case FOURCC_I420:
d1line = top * dstPitch;
d2line = (height * dstPitch) + ((top >> 1) * (dstPitch >> 1));
d3line = d2line + ((height >> 1) * (dstPitch >> 1));
top &= ~1;
d1offset = (top * dstPitch) + left + offset;
d2offset = d2line + (left >> 1) + offset;
d3offset = d3line + (left >> 1) + offset;
s1offset += (top * srcPitch) + left;
tmp = ((top >> 1) * srcPitch2) + (left >> 1);
s2offset += tmp;
s3offset += tmp;
if(id == FOURCC_YV12) {
tmp = s2offset;
s2offset = s3offset;
s3offset = tmp;
}
nlines = ((((yb + 0xffff) >> 16) + 1) & ~1) - top;
R128CopyData420(info, buf + s1offset, buf + s2offset, buf + s3offset,
info->FB+d1offset, info->FB+d2offset, info->FB+d3offset,
srcPitch, srcPitch2, dstPitch, nlines, npixels);
break;
case FOURCC_UYVY:
case FOURCC_YUY2:
default:
left <<= 1;
d1line = top * dstPitch;
d2line = 0;
d3line = 0;
d1offset = d1line + left + offset;
d2offset = 0;
d3offset = 0;
s1offset += (top * srcPitch) + left;
nlines = ((yb + 0xffff) >> 16) - top;
R128CopyData422(info, buf + s1offset, info->FB + d1offset,
srcPitch, dstPitch, nlines, npixels);
break;
}
#if X_BYTE_ORDER == X_BIG_ENDIAN
/* restore byte swapping */
OUTREG(R128_CONFIG_CNTL, config_cntl);
#endif
/* update cliplist */
if(!REGION_EQUAL(pScrn->pScreen, &pPriv->clip, clipBoxes)) {
REGION_COPY(pScrn->pScreen, &pPriv->clip, clipBoxes);
/* draw these */
xf86XVFillKeyHelper(pScrn->pScreen, pPriv->colorKey, clipBoxes);
}
switch(id) {
case FOURCC_YV12:
case FOURCC_I420:
R128DisplayVideo420(pScrn, width, height, dstPitch,
offset + d1line, offset + d2line, offset + d3line,
xa, xb, ya, &dstBox, src_w, src_h, drw_w, drw_h);
break;
case FOURCC_UYVY:
case FOURCC_YUY2:
default:
R128DisplayVideo422(pScrn, id, offset + d1line, width, height, dstPitch,
xa, xb, ya, &dstBox, src_w, src_h, drw_w, drw_h);
break;
}
pPriv->videoStatus = CLIENT_VIDEO_ON;
info->VideoTimerCallback = R128VideoTimerCallback;
return Success;
}
static int
R128QueryImageAttributes(
ScrnInfoPtr pScrn,
int id,
unsigned short *w, unsigned short *h,
int *pitches, int *offsets
){
int size, tmp;
if(*w > MAXWIDTH) *w = MAXWIDTH;
if(*h > MAXHEIGHT) *h = MAXHEIGHT;
*w = (*w + 1) & ~1;
if(offsets) offsets[0] = 0;
switch(id) {
case FOURCC_YV12:
case FOURCC_I420:
*h = (*h + 1) & ~1;
size = (*w + 3) & ~3;
if(pitches) pitches[0] = size;
size *= *h;
if(offsets) offsets[1] = size;
tmp = ((*w >> 1) + 3) & ~3;
if(pitches) pitches[1] = pitches[2] = tmp;
tmp *= (*h >> 1);
size += tmp;
if(offsets) offsets[2] = size;
size += tmp;
break;
case FOURCC_UYVY:
case FOURCC_YUY2:
default:
size = *w << 1;
if(pitches) pitches[0] = size;
size *= *h;
break;
}
return size;
}
static void
R128VideoTimerCallback(ScrnInfoPtr pScrn, Time now)
{
R128InfoPtr info = R128PTR(pScrn);
R128PortPrivPtr pPriv = info->adaptor->pPortPrivates[0].ptr;
if(pPriv->videoStatus & TIMER_MASK) {
if(pPriv->videoStatus & OFF_TIMER) {
if(pPriv->offTime < now) {
unsigned char *R128MMIO = info->MMIO;
OUTREG(R128_OV0_SCALE_CNTL, 0);
pPriv->videoStatus = FREE_TIMER;
pPriv->freeTime = now + FREE_DELAY;
}
} else { /* FREE_TIMER */
if(pPriv->freeTime < now) {
if(pPriv->linear) {
xf86FreeOffscreenLinear(pPriv->linear);
pPriv->linear = NULL;
}
pPriv->videoStatus = 0;
info->VideoTimerCallback = NULL;
}
}
} else /* shouldn't get here */
info->VideoTimerCallback = NULL;
}
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