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|
/*****************************************************************************
* VIA Unichrome XvMC extension client lib.
*
* Copyright (c) 2004 Thomas Hellström. All rights reserved.
* Copyright (c) 2003 Andreas Robinson. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHOR(S) OR COPYRIGHT HOLDER(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
* DEALINGS IN THE SOFTWARE.
*/
/*
* Low-level functions that deal directly with the hardware. In the future,
* these functions might be implemented in a kernel module. Also, some of them
* would benefit from DMA.
*
* Authors: Andreas Robinson 2003. Thomas Hellström 2004.
*/
#include "viaXvMCPriv.h"
#include "viaLowLevel.h"
#include <time.h>
#include <sys/time.h>
#include <stdio.h>
typedef struct
{
CARD32 agp_buffer[LL_AGP_CMDBUF_SIZE];
CARD32 pci_buffer[LL_PCI_CMDBUF_SIZE];
unsigned agp_pos;
unsigned pci_pos;
unsigned flip_pos;
int use_agp;
int agp_mode;
int agp_header_start;
int agp_index;
int fd;
drm_context_t *drmcontext;
drmLockPtr hwLock;
drmAddress mmioAddress;
drmAddress fbAddress;
unsigned fbStride;
unsigned fbDepth;
unsigned width;
unsigned height;
unsigned curWaitFlags;
int performLocking;
unsigned errors;
drm_via_mem_t tsMem;
CARD32 tsOffset;
volatile CARD32 *tsP;
CARD32 curTimeStamp;
CARD32 lastReadTimeStamp;
int agpSync;
CARD32 agpSyncTimeStamp;
unsigned chipId;
} XvMCLowLevel;
/*
* For Other architectures than i386 these might have to be modified for
* bigendian etc.
*/
#define MPEGIN(xl,reg) \
*((volatile CARD32 *)(((CARD8 *)(xl)->mmioAddress) + 0xc00 + (reg)))
#define VIDIN(ctx,reg) \
*((volatile CARD32 *)(((CARD8 *)(ctx)->mmioAddress) + 0x200 + (reg)))
#define REGIN(ctx,reg) \
*((volatile CARD32 *)(((CARD8 *)(ctx)->mmioAddress) + 0x0000 + (reg)))
#define HQV_CONTROL 0x1D0
#define HQV_SRC_STARTADDR_Y 0x1D4
#define HQV_SRC_STARTADDR_U 0x1D8
#define HQV_SRC_STARTADDR_V 0x1DC
#define HQV_MINIFY_DEBLOCK 0x1E8
#define HQV_SW_FLIP 0x00000010
#define HQV_FLIP_STATUS 0x00000001
#define HQV_SUBPIC_FLIP 0x00008000
#define HQV_FLIP_ODD 0x00000020
#define HQV_DEINTERLACE 0x00010000
#define HQV_FIELD_2_FRAME 0x00020000
#define HQV_FRAME_2_FIELD 0x00040000
#define HQV_FIELD_UV 0x00100000
#define HQV_DEBLOCK_HOR 0x00008000
#define HQV_DEBLOCK_VER 0x80000000
#define V_COMPOSE_MODE 0x98
#define V1_COMMAND_FIRE 0x80000000
#define V3_COMMAND_FIRE 0x40000000
/* SUBPICTURE Registers */
#define SUBP_CONTROL_STRIDE 0x1C0
#define SUBP_STARTADDR 0x1C4
#define RAM_TABLE_CONTROL 0x1C8
#define RAM_TABLE_READ 0x1CC
/* SUBP_CONTROL_STRIDE 0x3c0 */
#define SUBP_HQV_ENABLE 0x00010000
#define SUBP_IA44 0x00020000
#define SUBP_AI44 0x00000000
#define SUBP_STRIDE_MASK 0x00001fff
#define SUBP_CONTROL_MASK 0x00070000
/* RAM_TABLE_CONTROL 0x3c8 */
#define RAM_TABLE_RGB_ENABLE 0x00000007
#define VIA_REG_STATUS 0x400
#define VIA_REG_GEMODE 0x004
#define VIA_REG_SRCBASE 0x030
#define VIA_REG_DSTBASE 0x034
#define VIA_REG_PITCH 0x038
#define VIA_REG_SRCCOLORKEY 0x01C
#define VIA_REG_KEYCONTROL 0x02C
#define VIA_REG_SRCPOS 0x008
#define VIA_REG_DSTPOS 0x00C
#define VIA_REG_GECMD 0x000
#define VIA_REG_DIMENSION 0x010 /* width and height */
#define VIA_REG_FGCOLOR 0x018
#define VIA_VR_QUEUE_BUSY 0x00020000 /* Virtual Queue is busy */
#define VIA_CMD_RGTR_BUSY 0x00000080 /* Command Regulator is busy */
#define VIA_2D_ENG_BUSY 0x00000002 /* 2D Engine is busy */
#define VIA_3D_ENG_BUSY 0x00000001 /* 3D Engine is busy */
#define VIA_GEM_8bpp 0x00000000
#define VIA_GEM_16bpp 0x00000100
#define VIA_GEM_32bpp 0x00000300
#define VIA_GEC_BLT 0x00000001
#define VIA_PITCH_ENABLE 0x80000000
#define VIA_GEC_INCX 0x00000000
#define VIA_GEC_DECY 0x00004000
#define VIA_GEC_INCY 0x00000000
#define VIA_GEC_DECX 0x00008000
#define VIA_GEC_FIXCOLOR_PAT 0x00002000
#define VIA_BLIT_CLEAR 0x00
#define VIA_BLIT_COPY 0xCC
#define VIA_BLIT_FILL 0xF0
#define VIA_BLIT_SET 0xFF
#define VIA_SYNCWAITTIMEOUT 50000 /* Might be a bit conservative */
#define VIA_DMAWAITTIMEOUT 150000
#define VIA_VIDWAITTIMEOUT 50000
#define VIA_XVMC_DECODERTIMEOUT 50000 /*(microseconds) */
#define H1_ADDR(val) (((val) >> 2) | 0xF0000000)
#define WAITFLAGS(xl, flags) \
(xl)->curWaitFlags |= (flags)
#define BEGIN_RING_AGP(xl,size) \
do { \
if ((xl)->agp_pos > (LL_AGP_CMDBUF_SIZE-(size))) { \
agpFlush(xl); \
} \
} while(0)
#define OUT_RING_AGP(xl, val) \
(xl)->agp_buffer[(xl)->agp_pos++] = (val)
#define OUT_RING_QW_AGP(xl, val1, val2) \
do { \
(xl)->agp_buffer[(xl)->agp_pos++] = (val1); \
(xl)->agp_buffer[(xl)->agp_pos++] = (val2); \
} while (0)
#define LL_HW_LOCK(xl) \
do { \
DRM_LOCK((xl)->fd,(xl)->hwLock,*(xl)->drmcontext,0); \
} while(0);
#define LL_HW_UNLOCK(xl) \
do { \
DRM_UNLOCK((xl)->fd,(xl)->hwLock,*(xl)->drmcontext); \
} while(0);
/*
* We want to have two concurrent types of thread taking the hardware
* lock simulataneously. One is the video out thread that needs immediate
* access to flip an image. The other is everything else which may have
* the lock for quite some time. This is only so the video out thread can
* sneak in and display an image while other resources are busy.
*/
void
hwlLock(void *xlp, int videoLock)
{
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
LL_HW_LOCK(xl);
}
void
hwlUnlock(void *xlp, int videoLock)
{
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
LL_HW_UNLOCK(xl);
}
static unsigned
timeDiff(struct timeval *now, struct timeval *then)
{
return (now->tv_usec >= then->tv_usec) ?
now->tv_usec - then->tv_usec :
1000000 - (then->tv_usec - now->tv_usec);
}
void
setAGPSyncLowLevel(void *xlp, int val, CARD32 timeStamp)
{
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
xl->agpSync = val;
xl->agpSyncTimeStamp = timeStamp;
}
CARD32
viaDMATimeStampLowLevel(void *xlp)
{
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
if (xl->use_agp) {
viaBlit(xl, 32, xl->tsOffset, 1, xl->tsOffset, 1, 1, 1, 0, 0,
VIABLIT_FILL, xl->curTimeStamp);
return xl->curTimeStamp++;
}
return 0;
}
static void
viaDMAWaitTimeStamp(XvMCLowLevel * xl, CARD32 timeStamp, int doSleep)
{
struct timeval now, then;
struct timezone here;
struct timespec sleep, rem;
if (xl->use_agp && (timeStamp > xl->lastReadTimeStamp)) {
sleep.tv_nsec = 1;
sleep.tv_sec = 0;
here.tz_minuteswest = 0;
here.tz_dsttime = 0;
gettimeofday(&then, &here);
while (timeStamp > (xl->lastReadTimeStamp = *xl->tsP)) {
gettimeofday(&now, &here);
if (timeDiff(&now, &then) > VIA_DMAWAITTIMEOUT) {
if ((timeStamp > (xl->lastReadTimeStamp = *xl->tsP))) {
xl->errors |= LL_DMA_TIMEDOUT;
break;
}
}
if (doSleep)
nanosleep(&sleep, &rem);
}
}
}
static int
viaDMAInitTimeStamp(XvMCLowLevel * xl)
{
int ret = 0;
if (xl->use_agp) {
xl->tsMem.context = *(xl->drmcontext);
xl->tsMem.size = 64;
xl->tsMem.type = VIA_MEM_VIDEO;
if (drmCommandWriteRead(xl->fd, DRM_VIA_ALLOCMEM, &xl->tsMem,
sizeof(xl->tsMem)) < 0)
return ret;
if (xl->tsMem.size != 64)
return -1;
xl->tsOffset = (xl->tsMem.offset + 31) & ~31;
xl->tsP = (CARD32 *) xl->fbAddress + (xl->tsOffset >> 2);
xl->curTimeStamp = 1;
*xl->tsP = 0;
}
return 0;
}
static int
viaDMACleanupTimeStamp(XvMCLowLevel * xl)
{
if (!(xl->tsMem.size) || !xl->use_agp)
return 0;
return drmCommandWrite(xl->fd, DRM_VIA_FREEMEM, &xl->tsMem,
sizeof(xl->tsMem));
}
static CARD32
viaMpegGetStatus(XvMCLowLevel * xl)
{
return MPEGIN(xl, 0x54);
}
static int
viaMpegIsBusy(XvMCLowLevel * xl, CARD32 mask, CARD32 idle)
{
CARD32 tmp = viaMpegGetStatus(xl);
/*
* Error detected.
* FIXME: Are errors really shown when error concealment is on?
*/
if (tmp & 0x70)
return 0;
return (tmp & mask) != idle;
}
static void
syncDMA(XvMCLowLevel * xl, unsigned int doSleep)
{
/*
* Ideally, we'd like to have an interrupt wait here, but, according to second hand
* information, the hardware does not support this, although earlier S3 chips do that.
* It is therefore not implemented into the DRM, and we'll do a user space wait here.
*/
struct timeval now, then;
struct timezone here;
struct timespec sleep, rem;
sleep.tv_nsec = 1;
sleep.tv_sec = 0;
here.tz_minuteswest = 0;
here.tz_dsttime = 0;
gettimeofday(&then, &here);
while (!(REGIN(xl, VIA_REG_STATUS) & VIA_VR_QUEUE_BUSY)) {
gettimeofday(&now, &here);
if (timeDiff(&now, &then) > VIA_DMAWAITTIMEOUT) {
if (!(REGIN(xl, VIA_REG_STATUS) & VIA_VR_QUEUE_BUSY)) {
xl->errors |= LL_DMA_TIMEDOUT;
break;
}
}
if (doSleep)
nanosleep(&sleep, &rem);
}
while (REGIN(xl, VIA_REG_STATUS) & VIA_CMD_RGTR_BUSY) {
gettimeofday(&now, &here);
if (timeDiff(&now, &then) > VIA_DMAWAITTIMEOUT) {
if (REGIN(xl, VIA_REG_STATUS) & VIA_CMD_RGTR_BUSY) {
xl->errors |= LL_DMA_TIMEDOUT;
break;
}
}
if (doSleep)
nanosleep(&sleep, &rem);
}
}
static void
syncVideo(XvMCLowLevel * xl, unsigned int doSleep)
{
/*
* Wait for HQV completion. Nothing strange here. We assume that the HQV
* Handles syncing to the V1 / V3 engines by itself. It should be safe to
* always wait for SUBPIC_FLIP completion although subpictures are not always
* used.
*/
struct timeval now, then;
struct timezone here;
struct timespec sleep, rem;
sleep.tv_nsec = 1;
sleep.tv_sec = 0;
here.tz_minuteswest = 0;
here.tz_dsttime = 0;
gettimeofday(&then, &here);
while (VIDIN(xl, HQV_CONTROL) & (HQV_SW_FLIP | HQV_SUBPIC_FLIP)) {
gettimeofday(&now, &here);
if (timeDiff(&now, &then) > VIA_SYNCWAITTIMEOUT) {
if (VIDIN(xl, HQV_CONTROL) & (HQV_SW_FLIP | HQV_SUBPIC_FLIP)) {
xl->errors |= LL_VIDEO_TIMEDOUT;
break;
}
}
if (doSleep)
nanosleep(&sleep, &rem);
}
}
static void
syncAccel(XvMCLowLevel * xl, unsigned int mode, unsigned int doSleep)
{
struct timeval now, then;
struct timezone here;
struct timespec sleep, rem;
CARD32 mask = ((mode & LL_MODE_2D) ? VIA_2D_ENG_BUSY : 0) |
((mode & LL_MODE_3D) ? VIA_3D_ENG_BUSY : 0);
sleep.tv_nsec = 1;
sleep.tv_sec = 0;
here.tz_minuteswest = 0;
here.tz_dsttime = 0;
gettimeofday(&then, &here);
while (REGIN(xl, VIA_REG_STATUS) & mask) {
gettimeofday(&now, &here);
if (timeDiff(&now, &then) > VIA_SYNCWAITTIMEOUT) {
if (REGIN(xl, VIA_REG_STATUS) & mask) {
xl->errors |= LL_ACCEL_TIMEDOUT;
break;
}
}
if (doSleep)
nanosleep(&sleep, &rem);
}
}
static void
syncMpeg(XvMCLowLevel * xl, unsigned int mode, unsigned int doSleep)
{
/*
* Ideally, we'd like to have an interrupt wait here, but from information from VIA
* at least the MPEG completion interrupt is broken on the CLE266, which was
* discovered during validation of the chip.
*/
struct timeval now, then;
struct timezone here;
struct timespec sleep, rem;
CARD32 busyMask = 0;
CARD32 idleVal = 0;
CARD32 ret;
sleep.tv_nsec = 1;
sleep.tv_sec = 0;
here.tz_minuteswest = 0;
here.tz_dsttime = 0;
gettimeofday(&then, &here);
if (mode & LL_MODE_DECODER_SLICE) {
busyMask = VIA_SLICEBUSYMASK;
idleVal = VIA_SLICEIDLEVAL;
}
if (mode & LL_MODE_DECODER_IDLE) {
busyMask |= VIA_BUSYMASK;
idleVal = VIA_IDLEVAL;
}
while (viaMpegIsBusy(xl, busyMask, idleVal)) {
gettimeofday(&now, &here);
if (timeDiff(&now, &then) > VIA_XVMC_DECODERTIMEOUT) {
if (viaMpegIsBusy(xl, busyMask, idleVal)) {
xl->errors |= LL_DECODER_TIMEDOUT;
}
break;
}
if (doSleep)
nanosleep(&sleep, &rem);
}
ret = viaMpegGetStatus(xl);
if (ret & 0x70) {
xl->errors |= ((ret & 0x70) >> 3);
}
return;
}
static void
pciFlush(XvMCLowLevel * xl)
{
int ret;
drm_via_cmdbuffer_t b;
unsigned mode = xl->curWaitFlags;
b.buf = (char *)xl->pci_buffer;
b.size = xl->pci_pos * sizeof(CARD32);
if (xl->performLocking)
hwlLock(xl, 0);
if ((mode != LL_MODE_VIDEO) && (mode != 0))
syncDMA(xl, 0);
if ((mode & LL_MODE_2D) || (mode & LL_MODE_3D))
syncAccel(xl, mode, 0);
if (mode & LL_MODE_VIDEO)
syncVideo(xl, 0);
if (mode & (LL_MODE_DECODER_SLICE | LL_MODE_DECODER_IDLE))
syncMpeg(xl, mode, 0);
ret = drmCommandWrite(xl->fd, DRM_VIA_PCICMD, &b, sizeof(b));
if (xl->performLocking)
hwlUnlock(xl, 0);
if (ret) {
xl->errors |= LL_PCI_COMMAND_ERR;
}
xl->pci_pos = 0;
xl->curWaitFlags = 0;
}
static void
agpFlush(XvMCLowLevel * xl)
{
drm_via_cmdbuffer_t b;
int ret;
if (xl->use_agp) {
b.buf = (char *)xl->agp_buffer;
b.size = xl->agp_pos * sizeof(CARD32);
if (xl->agpSync) {
syncXvMCLowLevel(xl, LL_MODE_DECODER_IDLE, 1,
xl->agpSyncTimeStamp);
xl->agpSync = 0;
}
if (xl->performLocking)
hwlLock(xl, 0);
do {
ret = drmCommandWrite(xl->fd, DRM_VIA_CMDBUFFER, &b, sizeof(b));
} while (-EAGAIN == ret);
if (xl->performLocking)
hwlUnlock(xl, 0);
if (ret) {
xl->errors |= LL_AGP_COMMAND_ERR;
} else {
xl->agp_pos = 0;
}
xl->curWaitFlags &= LL_MODE_VIDEO;
} else {
unsigned mode = xl->curWaitFlags;
b.buf = (char *)xl->agp_buffer;
b.size = xl->agp_pos * sizeof(CARD32);
if (xl->performLocking)
hwlLock(xl, 0);
if ((mode != LL_MODE_VIDEO) && (mode != 0))
syncDMA(xl, 0);
if ((mode & LL_MODE_2D) || (mode & LL_MODE_3D))
syncAccel(xl, mode, 0);
if (mode & LL_MODE_VIDEO)
syncVideo(xl, 0);
if (mode & (LL_MODE_DECODER_SLICE | LL_MODE_DECODER_IDLE))
syncMpeg(xl, mode, 0);
ret = drmCommandWrite(xl->fd, DRM_VIA_PCICMD, &b, sizeof(b));
if (xl->performLocking)
hwlUnlock(xl, 0);
if (ret) {
xl->errors |= LL_PCI_COMMAND_ERR;
}
xl->agp_pos = 0;
xl->curWaitFlags = 0;
}
}
unsigned
flushXvMCLowLevel(void *xlp)
{
unsigned errors;
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
if (xl->pci_pos)
pciFlush(xl);
if (xl->agp_pos)
agpFlush(xl);
errors = xl->errors;
xl->errors = 0;
return errors;
}
void
flushPCIXvMCLowLevel(void *xlp)
{
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
if (xl->pci_pos)
pciFlush(xl);
if (!xl->use_agp && xl->agp_pos)
agpFlush(xl);
}
__inline static void
pciCommand(XvMCLowLevel * xl, unsigned offset, unsigned value, unsigned flags)
{
if (xl->pci_pos > (LL_PCI_CMDBUF_SIZE - 2))
pciFlush(xl);
if (flags)
xl->curWaitFlags |= flags;
xl->pci_buffer[xl->pci_pos++] = (offset >> 2) | 0xF0000000;
xl->pci_buffer[xl->pci_pos++] = value;
}
void
viaMpegSetSurfaceStride(void *xlp, ViaXvMCContext * ctx)
{
CARD32 y_stride = ctx->yStride;
CARD32 uv_stride = y_stride >> 1;
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
BEGIN_RING_AGP(xl, 2);
OUT_RING_QW_AGP(xl, H1_ADDR(0xc50),
(y_stride >> 3) | ((uv_stride >> 3) << 16));
WAITFLAGS(xl, LL_MODE_DECODER_IDLE);
}
void
viaVideoSetSWFLipLocked(void *xlp, unsigned yOffs, unsigned uOffs,
unsigned vOffs, unsigned yStride, unsigned uvStride)
{
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
pciCommand(xl, HQV_SRC_STARTADDR_Y | 0x200, yOffs, LL_MODE_VIDEO);
pciCommand(xl, HQV_SRC_STARTADDR_U | 0x200, uOffs, 0);
pciCommand(xl, HQV_SRC_STARTADDR_V | 0x200, vOffs, 0);
}
void
viaVideoSWFlipLocked(void *xlp, unsigned flags, int progressiveSequence)
{
CARD32 andWd, orWd;
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
andWd = 0;
orWd = 0;
if ((flags & XVMC_FRAME_PICTURE) == XVMC_BOTTOM_FIELD) {
andWd = 0xFFFFFFFFU;
orWd = HQV_FIELD_UV |
HQV_DEINTERLACE |
HQV_FIELD_2_FRAME |
HQV_FRAME_2_FIELD |
HQV_SW_FLIP | HQV_FLIP_ODD | HQV_FLIP_STATUS | HQV_SUBPIC_FLIP;
} else if ((flags & XVMC_FRAME_PICTURE) == XVMC_TOP_FIELD) {
andWd = ~HQV_FLIP_ODD;
orWd = HQV_FIELD_UV |
HQV_DEINTERLACE |
HQV_FIELD_2_FRAME |
HQV_FRAME_2_FIELD |
HQV_SW_FLIP | HQV_FLIP_STATUS | HQV_SUBPIC_FLIP;
} else if ((flags & XVMC_FRAME_PICTURE) == XVMC_FRAME_PICTURE) {
andWd = ~(HQV_DEINTERLACE |
HQV_FRAME_2_FIELD | HQV_FIELD_2_FRAME | HQV_FIELD_UV);
orWd = HQV_SW_FLIP | HQV_FLIP_STATUS | HQV_SUBPIC_FLIP;
}
if (progressiveSequence) {
andWd &= ~HQV_FIELD_UV;
orWd &= ~HQV_FIELD_UV;
}
pciCommand(xl, HQV_CONTROL | 0x200, (VIDIN(xl,
HQV_CONTROL) & andWd) | orWd, 0);
}
void
viaMpegSetFB(void *xlp, unsigned i,
unsigned yOffs, unsigned uOffs, unsigned vOffs)
{
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
i *= 12;
BEGIN_RING_AGP(xl, 6);
OUT_RING_QW_AGP(xl, H1_ADDR(0xc20 + i), yOffs >> 3);
OUT_RING_QW_AGP(xl, H1_ADDR(0xc24 + i), uOffs >> 3);
OUT_RING_QW_AGP(xl, H1_ADDR(0xc28 + i), vOffs >> 3);
WAITFLAGS(xl, LL_MODE_DECODER_IDLE);
}
void
viaMpegBeginPicture(void *xlp, ViaXvMCContext * ctx,
unsigned width, unsigned height, const XvMCMpegControl * control)
{
unsigned j, mb_width, mb_height;
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
mb_width = (width + 15) >> 4;
mb_height =
((control->mpeg_coding == XVMC_MPEG_2) &&
(control->flags & XVMC_PROGRESSIVE_SEQUENCE)) ?
2 * ((height + 31) >> 5) : (((height + 15) >> 4));
BEGIN_RING_AGP(xl, 144);
WAITFLAGS(xl, LL_MODE_DECODER_IDLE);
OUT_RING_QW_AGP(xl, H1_ADDR(0xc00),
((control->picture_structure & XVMC_FRAME_PICTURE) << 2) |
((control->picture_coding_type & 3) << 4) |
((control->flags & XVMC_ALTERNATE_SCAN) ? (1 << 6) : 0));
if (!(ctx->intraLoaded)) {
OUT_RING_QW_AGP(xl, H1_ADDR(0xc5c), 0);
for (j = 0; j < 64; j += 4) {
OUT_RING_QW_AGP(xl, H1_ADDR(0xc60),
ctx->intra_quantiser_matrix[j] |
(ctx->intra_quantiser_matrix[j + 1] << 8) |
(ctx->intra_quantiser_matrix[j + 2] << 16) |
(ctx->intra_quantiser_matrix[j + 3] << 24));
}
ctx->intraLoaded = 1;
}
if (!(ctx->nonIntraLoaded)) {
OUT_RING_QW_AGP(xl, H1_ADDR(0xc5c), 1);
for (j = 0; j < 64; j += 4) {
OUT_RING_QW_AGP(xl, H1_ADDR(0xc60),
ctx->non_intra_quantiser_matrix[j] |
(ctx->non_intra_quantiser_matrix[j + 1] << 8) |
(ctx->non_intra_quantiser_matrix[j + 2] << 16) |
(ctx->non_intra_quantiser_matrix[j + 3] << 24));
}
ctx->nonIntraLoaded = 1;
}
if (!(ctx->chromaIntraLoaded)) {
OUT_RING_QW_AGP(xl, H1_ADDR(0xc5c), 2);
for (j = 0; j < 64; j += 4) {
OUT_RING_QW_AGP(xl, H1_ADDR(0xc60),
ctx->chroma_intra_quantiser_matrix[j] |
(ctx->chroma_intra_quantiser_matrix[j + 1] << 8) |
(ctx->chroma_intra_quantiser_matrix[j + 2] << 16) |
(ctx->chroma_intra_quantiser_matrix[j + 3] << 24));
}
ctx->chromaIntraLoaded = 1;
}
if (!(ctx->chromaNonIntraLoaded)) {
OUT_RING_QW_AGP(xl, H1_ADDR(0xc5c), 3);
for (j = 0; j < 64; j += 4) {
OUT_RING_QW_AGP(xl, H1_ADDR(0xc60),
ctx->chroma_non_intra_quantiser_matrix[j] |
(ctx->chroma_non_intra_quantiser_matrix[j + 1] << 8) |
(ctx->chroma_non_intra_quantiser_matrix[j + 2] << 16) |
(ctx->chroma_non_intra_quantiser_matrix[j + 3] << 24));
}
ctx->chromaNonIntraLoaded = 1;
}
OUT_RING_QW_AGP(xl, H1_ADDR(0xc90),
((mb_width * mb_height) & 0x3fff) |
((control->flags & XVMC_PRED_DCT_FRAME) ? (1 << 14) : 0) |
((control->flags & XVMC_TOP_FIELD_FIRST) ? (1 << 15) : 0) |
((control->mpeg_coding == XVMC_MPEG_2) ? (1 << 16) : 0) |
((mb_width & 0xff) << 18));
OUT_RING_QW_AGP(xl, H1_ADDR(0xc94),
((control->flags & XVMC_CONCEALMENT_MOTION_VECTORS) ? 1 : 0) |
((control->flags & XVMC_Q_SCALE_TYPE) ? 2 : 0) |
((control->intra_dc_precision & 3) << 2) |
(((1 + 0x100000 / mb_width) & 0xfffff) << 4) |
((control->flags & XVMC_INTRA_VLC_FORMAT) ? (1 << 24) : 0));
OUT_RING_QW_AGP(xl, H1_ADDR(0xc98),
(((control->FHMV_range) & 0xf) << 0) |
(((control->FVMV_range) & 0xf) << 4) |
(((control->BHMV_range) & 0xf) << 8) |
(((control->BVMV_range) & 0xf) << 12) |
((control->flags & XVMC_SECOND_FIELD) ? (1 << 20) : 0) |
(0x0a6 << 16));
}
void
viaMpegReset(void *xlp)
{
int i, j;
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
BEGIN_RING_AGP(xl, 100);
WAITFLAGS(xl, LL_MODE_DECODER_IDLE);
for (i = 0; i < 14; i++)
OUT_RING_QW_AGP(xl, H1_ADDR(0xc08), 0);
OUT_RING_QW_AGP(xl, H1_ADDR(0xc98), 0x400000);
for (i = 0; i < 6; i++) {
OUT_RING_QW_AGP(xl, H1_ADDR(0xc0c), 0x43 | 0x20);
for (j = 0xc10; j < 0xc20; j += 4)
OUT_RING_QW_AGP(xl, H1_ADDR(j), 0);
}
OUT_RING_QW_AGP(xl, H1_ADDR(0xc0c), 0xc3 | 0x20);
for (j = 0xc10; j < 0xc20; j += 4)
OUT_RING_QW_AGP(xl, H1_ADDR(j), 0);
}
void
viaMpegWriteSlice(void *xlp, CARD8 * slice, int nBytes, CARD32 sCode)
{
int i, n, r;
CARD32 *buf;
int count;
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
if (xl->errors & (LL_DECODER_TIMEDOUT |
LL_IDCT_FIFO_ERROR | LL_SLICE_FIFO_ERROR | LL_SLICE_FAULT))
return;
n = nBytes >> 2;
if (sCode)
nBytes += 4;
r = nBytes & 3;
buf = (CARD32 *) slice;
if (r)
nBytes += 4 - r;
nBytes += 8;
BEGIN_RING_AGP(xl, 4);
WAITFLAGS(xl, LL_MODE_DECODER_IDLE);
OUT_RING_QW_AGP(xl, H1_ADDR(0xc9c), nBytes);
if (sCode)
OUT_RING_QW_AGP(xl, H1_ADDR(0xca0), sCode);
i = 0;
count = 0;
do {
count += (LL_AGP_CMDBUF_SIZE - 20) >> 1;
count = (count > n) ? n : count;
BEGIN_RING_AGP(xl, (count - i) << 1);
for (; i < count; i++) {
OUT_RING_QW_AGP(xl, H1_ADDR(0xca0), *buf++);
}
} while (i < n);
BEGIN_RING_AGP(xl, 6);
if (r) {
OUT_RING_QW_AGP(xl, H1_ADDR(0xca0), *buf & ((1 << (r << 3)) - 1));
}
OUT_RING_QW_AGP(xl, H1_ADDR(0xca0), 0);
OUT_RING_QW_AGP(xl, H1_ADDR(0xca0), 0);
}
void
viaVideoSubPictureOffLocked(void *xlp)
{
CARD32 stride;
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
stride = VIDIN(xl, SUBP_CONTROL_STRIDE);
pciCommand(xl, SUBP_CONTROL_STRIDE | 0x200, stride & ~SUBP_HQV_ENABLE,
LL_MODE_VIDEO);
}
void
viaVideoSubPictureLocked(void *xlp, ViaXvMCSubPicture * pViaSubPic)
{
unsigned i;
CARD32 cWord;
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
for (i = 0; i < VIA_SUBPIC_PALETTE_SIZE; ++i) {
pciCommand(xl, RAM_TABLE_CONTROL | 0x200, pViaSubPic->palette[i],
LL_MODE_VIDEO);
}
pciCommand(xl, SUBP_STARTADDR | 0x200, pViaSubPic->offset, 0);
cWord = (pViaSubPic->stride & SUBP_STRIDE_MASK) | SUBP_HQV_ENABLE;
cWord |= (pViaSubPic->ia44) ? SUBP_IA44 : SUBP_AI44;
pciCommand(xl, SUBP_CONTROL_STRIDE | 0x200, cWord, 0);
}
void
viaBlit(void *xlp, unsigned bpp, unsigned srcBase,
unsigned srcPitch, unsigned dstBase, unsigned dstPitch,
unsigned w, unsigned h, int xdir, int ydir, unsigned blitMode,
unsigned color)
{
CARD32 dwGEMode = 0, srcY = 0, srcX, dstY = 0, dstX;
CARD32 cmd;
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
if (!w || !h)
return;
switch (bpp) {
case 16:
dwGEMode |= VIA_GEM_16bpp;
break;
case 32:
dwGEMode |= VIA_GEM_32bpp;
break;
default:
dwGEMode |= VIA_GEM_8bpp;
break;
}
srcX = srcBase & 31;
dstX = dstBase & 31;
switch (bpp) {
case 16:
dwGEMode |= VIA_GEM_16bpp;
srcX >>= 2;
dstX >>= 2;
break;
case 32:
dwGEMode |= VIA_GEM_32bpp;
srcX >>= 4;
dstX >>= 4;
break;
default:
dwGEMode |= VIA_GEM_8bpp;
break;
}
BEGIN_RING_AGP(xl, 20);
WAITFLAGS(xl, LL_MODE_2D);
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_GEMODE), dwGEMode);
cmd = 0;
if (xdir < 0) {
cmd |= VIA_GEC_DECX;
srcX += (w - 1);
dstX += (w - 1);
}
if (ydir < 0) {
cmd |= VIA_GEC_DECY;
srcY += (h - 1);
dstY += (h - 1);
}
switch (blitMode) {
case VIABLIT_TRANSCOPY:
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_SRCCOLORKEY), color);
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_KEYCONTROL), 0x4000);
cmd |= VIA_GEC_BLT | (VIA_BLIT_COPY << 24);
break;
case VIABLIT_FILL:
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_FGCOLOR), color);
cmd |= VIA_GEC_BLT | VIA_GEC_FIXCOLOR_PAT | (VIA_BLIT_FILL << 24);
break;
default:
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_KEYCONTROL), 0x0);
cmd |= VIA_GEC_BLT | (VIA_BLIT_COPY << 24);
}
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_SRCBASE), (srcBase & ~31) >> 3);
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_DSTBASE), (dstBase & ~31) >> 3);
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_PITCH), VIA_PITCH_ENABLE |
(srcPitch >> 3) | (((dstPitch) >> 3) << 16));
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_SRCPOS), ((srcY << 16) | srcX));
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_DSTPOS), ((dstY << 16) | dstX));
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_DIMENSION),
(((h - 1) << 16) | (w - 1)));
OUT_RING_QW_AGP(xl, H1_ADDR(VIA_REG_GECMD), cmd);
}
unsigned
syncXvMCLowLevel(void *xlp, unsigned int mode, unsigned int doSleep,
CARD32 timeStamp)
{
unsigned errors;
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
if (mode == 0) {
errors = xl->errors;
xl->errors = 0;
return errors;
}
if ((mode & (LL_MODE_VIDEO | LL_MODE_3D)) || !xl->use_agp) {
if (xl->performLocking)
hwlLock(xl, 0);
if ((mode != LL_MODE_VIDEO))
syncDMA(xl, doSleep);
if (mode & LL_MODE_3D)
syncAccel(xl, mode, doSleep);
if (mode & LL_MODE_VIDEO)
syncVideo(xl, doSleep);
if (xl->performLocking)
hwlUnlock(xl, 0);
} else {
viaDMAWaitTimeStamp(xl, timeStamp, doSleep);
}
if (mode & (LL_MODE_DECODER_SLICE | LL_MODE_DECODER_IDLE))
syncMpeg(xl, mode, doSleep);
errors = xl->errors;
xl->errors = 0;
return errors;
}
extern void *
initXvMCLowLevel(int fd, drm_context_t * ctx,
drmLockPtr hwLock, drmAddress mmioAddress,
drmAddress fbAddress, unsigned fbStride, unsigned fbDepth,
unsigned width, unsigned height, int useAgp, unsigned chipId)
{
int ret;
XvMCLowLevel *xl;
if (chipId == PCI_CHIP_VT3259 || chipId == PCI_CHIP_VT3364) {
fprintf(stderr, "You are using an XvMC driver for the wrong chip.\n");
fprintf(stderr, "Chipid is 0x%04x.\n", chipId);
return NULL;
}
xl = (XvMCLowLevel *) malloc(sizeof(XvMCLowLevel));
if (!xl)
return NULL;
xl->agp_pos = 0;
xl->pci_pos = 0;
xl->use_agp = useAgp;
xl->fd = fd;
xl->drmcontext = ctx;
xl->hwLock = hwLock;
xl->mmioAddress = mmioAddress;
xl->fbAddress = fbAddress;
xl->curWaitFlags = 0;
xl->performLocking = 1;
xl->errors = 0;
xl->agpSync = 0;
ret = viaDMAInitTimeStamp(xl);
if (ret) {
free(xl);
return NULL;
}
return xl;
}
void
setLowLevelLocking(void *xlp, int performLocking)
{
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
xl->performLocking = performLocking;
}
void
closeXvMCLowLevel(void *xlp)
{
XvMCLowLevel *xl = (XvMCLowLevel *) xlp;
viaDMACleanupTimeStamp(xl);
free(xl);
}
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