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|
/* $XFree86: xc/programs/Xserver/hw/xfree86/drivers/ati/radeon_accel.c,v 1.36 2003/11/10 18:41:22 tsi Exp $ */
/*
* Copyright 2000 ATI Technologies Inc., Markham, Ontario, and
* VA Linux Systems Inc., Fremont, California.
*
* 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 on 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 (including the
* next paragraph) 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
* NON-INFRINGEMENT. IN NO EVENT SHALL ATI, VA LINUX SYSTEMS AND/OR
* THEIR SUPPLIERS 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.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
/*
* Authors:
* Kevin E. Martin <martin@xfree86.org>
* Rickard E. Faith <faith@valinux.com>
* Alan Hourihane <alanh@fairlite.demon.co.uk>
*
* Credits:
*
* Thanks to Ani Joshi <ajoshi@shell.unixbox.com> for providing source
* code to his Radeon driver. Portions of this file are based on the
* initialization code for that driver.
*
* References:
*
* !!!! FIXME !!!!
* RAGE 128 VR/ RAGE 128 GL Register Reference Manual (Technical
* Reference Manual P/N RRG-G04100-C Rev. 0.04), ATI Technologies: April
* 1999.
*
* RAGE 128 Software Development Manual (Technical Reference Manual P/N
* SDK-G04000 Rev. 0.01), ATI Technologies: June 1999.
*
* Notes on unimplemented XAA optimizations:
*
* SetClipping: This has been removed as XAA expects 16bit registers
* for full clipping.
* TwoPointLine: The Radeon supports this. Not Bresenham.
* DashedLine with non-power-of-two pattern length: Apparently, there is
* no way to set the length of the pattern -- it is always
* assumed to be 8 or 32 (or 1024?).
* ScreenToScreenColorExpandFill: See p. 4-17 of the Technical Reference
* Manual where it states that monochrome expansion of frame
* buffer data is not supported.
* CPUToScreenColorExpandFill, direct: The implementation here uses a hybrid
* direct/indirect method. If we had more data registers,
* then we could do better. If XAA supported a trigger write
* address, the code would be simpler.
* Color8x8PatternFill: Apparently, an 8x8 color brush cannot take an 8x8
* pattern from frame buffer memory.
* ImageWrites: Same as CPUToScreenColorExpandFill
*
*/
#include <errno.h>
#include <string.h>
/* Driver data structures */
#include "radeon.h"
#include "radeon_reg.h"
#include "radeon_macros.h"
#include "radeon_probe.h"
#include "radeon_version.h"
#ifdef XF86DRI
#define _XF86DRI_SERVER_
#include "radeon_dri.h"
#include "radeon_common.h"
#include "radeon_sarea.h"
#endif
/* Line support */
#include "miline.h"
/* X and server generic header files */
#include "xf86.h"
static struct {
int rop;
int pattern;
} RADEON_ROP[] = {
{ RADEON_ROP3_ZERO, RADEON_ROP3_ZERO }, /* GXclear */
{ RADEON_ROP3_DSa, RADEON_ROP3_DPa }, /* Gxand */
{ RADEON_ROP3_SDna, RADEON_ROP3_PDna }, /* GXandReverse */
{ RADEON_ROP3_S, RADEON_ROP3_P }, /* GXcopy */
{ RADEON_ROP3_DSna, RADEON_ROP3_DPna }, /* GXandInverted */
{ RADEON_ROP3_D, RADEON_ROP3_D }, /* GXnoop */
{ RADEON_ROP3_DSx, RADEON_ROP3_DPx }, /* GXxor */
{ RADEON_ROP3_DSo, RADEON_ROP3_DPo }, /* GXor */
{ RADEON_ROP3_DSon, RADEON_ROP3_DPon }, /* GXnor */
{ RADEON_ROP3_DSxn, RADEON_ROP3_PDxn }, /* GXequiv */
{ RADEON_ROP3_Dn, RADEON_ROP3_Dn }, /* GXinvert */
{ RADEON_ROP3_SDno, RADEON_ROP3_PDno }, /* GXorReverse */
{ RADEON_ROP3_Sn, RADEON_ROP3_Pn }, /* GXcopyInverted */
{ RADEON_ROP3_DSno, RADEON_ROP3_DPno }, /* GXorInverted */
{ RADEON_ROP3_DSan, RADEON_ROP3_DPan }, /* GXnand */
{ RADEON_ROP3_ONE, RADEON_ROP3_ONE } /* GXset */
};
/* The FIFO has 64 slots. This routines waits until at least `entries'
* of these slots are empty.
*/
void RADEONWaitForFifoFunction(ScrnInfoPtr pScrn, int entries)
{
RADEONInfoPtr info = RADEONPTR(pScrn);
unsigned char *RADEONMMIO = info->MMIO;
int i;
for (;;) {
for (i = 0; i < RADEON_TIMEOUT; i++) {
info->fifo_slots =
INREG(RADEON_RBBM_STATUS) & RADEON_RBBM_FIFOCNT_MASK;
if (info->fifo_slots >= entries) return;
}
RADEONTRACE(("FIFO timed out: %d entries, stat=0x%08x\n",
INREG(RADEON_RBBM_STATUS) & RADEON_RBBM_FIFOCNT_MASK,
INREG(RADEON_RBBM_STATUS)));
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"FIFO timed out, resetting engine...\n");
RADEONEngineReset(pScrn);
RADEONEngineRestore(pScrn);
#ifdef XF86DRI
if (info->directRenderingEnabled) {
RADEONCP_RESET(pScrn, info);
RADEONCP_START(pScrn, info);
}
#endif
}
}
/* Flush all dirty data in the Pixel Cache to memory */
void RADEONEngineFlush(ScrnInfoPtr pScrn)
{
RADEONInfoPtr info = RADEONPTR(pScrn);
unsigned char *RADEONMMIO = info->MMIO;
int i;
OUTREGP(RADEON_RB3D_DSTCACHE_CTLSTAT,
RADEON_RB3D_DC_FLUSH_ALL,
~RADEON_RB3D_DC_FLUSH_ALL);
for (i = 0; i < RADEON_TIMEOUT; i++) {
if (!(INREG(RADEON_RB3D_DSTCACHE_CTLSTAT) & RADEON_RB3D_DC_BUSY))
break;
}
if (i == RADEON_TIMEOUT) {
RADEONTRACE(("DC flush timeout: %x\n",
INREG(RADEON_RB3D_DSTCACHE_CTLSTAT)));
}
}
/* Reset graphics card to known state */
void RADEONEngineReset(ScrnInfoPtr pScrn)
{
RADEONInfoPtr info = RADEONPTR(pScrn);
unsigned char *RADEONMMIO = info->MMIO;
CARD32 clock_cntl_index;
CARD32 mclk_cntl;
CARD32 rbbm_soft_reset;
CARD32 host_path_cntl;
/* The following RBBM_SOFT_RESET sequence can help un-wedge
* an R300 after the command processor got stuck.
*/
rbbm_soft_reset = INREG(RADEON_RBBM_SOFT_RESET);
OUTREG(RADEON_RBBM_SOFT_RESET, (rbbm_soft_reset |
RADEON_SOFT_RESET_CP |
RADEON_SOFT_RESET_HI |
RADEON_SOFT_RESET_SE |
RADEON_SOFT_RESET_RE |
RADEON_SOFT_RESET_PP |
RADEON_SOFT_RESET_E2 |
RADEON_SOFT_RESET_RB));
INREG(RADEON_RBBM_SOFT_RESET);
OUTREG(RADEON_RBBM_SOFT_RESET, (rbbm_soft_reset & (CARD32)
~(RADEON_SOFT_RESET_CP |
RADEON_SOFT_RESET_HI |
RADEON_SOFT_RESET_SE |
RADEON_SOFT_RESET_RE |
RADEON_SOFT_RESET_PP |
RADEON_SOFT_RESET_E2 |
RADEON_SOFT_RESET_RB)));
INREG(RADEON_RBBM_SOFT_RESET);
OUTREG(RADEON_RBBM_SOFT_RESET, rbbm_soft_reset);
INREG(RADEON_RBBM_SOFT_RESET);
RADEONEngineFlush(pScrn);
clock_cntl_index = INREG(RADEON_CLOCK_CNTL_INDEX);
RADEONPllErrataAfterIndex(info);
#if 0 /* taken care of by new PM code */
/* Some ASICs have bugs with dynamic-on feature, which are
* ASIC-version dependent, so we force all blocks on for now
*/
if (info->HasCRTC2) {
CARD32 tmp;
tmp = INPLL(pScrn, RADEON_SCLK_CNTL);
OUTPLL(RADEON_SCLK_CNTL, ((tmp & ~RADEON_DYN_STOP_LAT_MASK) |
RADEON_CP_MAX_DYN_STOP_LAT |
RADEON_SCLK_FORCEON_MASK));
if (info->ChipFamily == CHIP_FAMILY_RV200) {
tmp = INPLL(pScrn, RADEON_SCLK_MORE_CNTL);
OUTPLL(RADEON_SCLK_MORE_CNTL, tmp | RADEON_SCLK_MORE_FORCEON);
}
}
#endif /* new PM code */
mclk_cntl = INPLL(pScrn, RADEON_MCLK_CNTL);
#if 0 /* handled by new PM code */
OUTPLL(RADEON_MCLK_CNTL, (mclk_cntl |
RADEON_FORCEON_MCLKA |
RADEON_FORCEON_MCLKB |
RADEON_FORCEON_YCLKA |
RADEON_FORCEON_YCLKB |
RADEON_FORCEON_MC |
RADEON_FORCEON_AIC));
#endif /* new PM code */
/* Soft resetting HDP thru RBBM_SOFT_RESET register can cause some
* unexpected behaviour on some machines. Here we use
* RADEON_HOST_PATH_CNTL to reset it.
*/
host_path_cntl = INREG(RADEON_HOST_PATH_CNTL);
rbbm_soft_reset = INREG(RADEON_RBBM_SOFT_RESET);
if (IS_R300_VARIANT) {
CARD32 tmp;
OUTREG(RADEON_RBBM_SOFT_RESET, (rbbm_soft_reset |
RADEON_SOFT_RESET_CP |
RADEON_SOFT_RESET_HI |
RADEON_SOFT_RESET_E2));
INREG(RADEON_RBBM_SOFT_RESET);
OUTREG(RADEON_RBBM_SOFT_RESET, 0);
tmp = INREG(RADEON_RB3D_DSTCACHE_MODE);
OUTREG(RADEON_RB3D_DSTCACHE_MODE, tmp | (1 << 17)); /* FIXME */
} else {
OUTREG(RADEON_RBBM_SOFT_RESET, (rbbm_soft_reset |
RADEON_SOFT_RESET_CP |
RADEON_SOFT_RESET_SE |
RADEON_SOFT_RESET_RE |
RADEON_SOFT_RESET_PP |
RADEON_SOFT_RESET_E2 |
RADEON_SOFT_RESET_RB));
INREG(RADEON_RBBM_SOFT_RESET);
OUTREG(RADEON_RBBM_SOFT_RESET, (rbbm_soft_reset & (CARD32)
~(RADEON_SOFT_RESET_CP |
RADEON_SOFT_RESET_SE |
RADEON_SOFT_RESET_RE |
RADEON_SOFT_RESET_PP |
RADEON_SOFT_RESET_E2 |
RADEON_SOFT_RESET_RB)));
INREG(RADEON_RBBM_SOFT_RESET);
}
OUTREG(RADEON_HOST_PATH_CNTL, host_path_cntl | RADEON_HDP_SOFT_RESET);
INREG(RADEON_HOST_PATH_CNTL);
OUTREG(RADEON_HOST_PATH_CNTL, host_path_cntl);
if (!IS_R300_VARIANT)
OUTREG(RADEON_RBBM_SOFT_RESET, rbbm_soft_reset);
OUTREG(RADEON_CLOCK_CNTL_INDEX, clock_cntl_index);
RADEONPllErrataAfterIndex(info);
OUTPLL(pScrn, RADEON_MCLK_CNTL, mclk_cntl);
}
/* Restore the acceleration hardware to its previous state */
void RADEONEngineRestore(ScrnInfoPtr pScrn)
{
RADEONInfoPtr info = RADEONPTR(pScrn);
unsigned char *RADEONMMIO = info->MMIO;
RADEONTRACE(("EngineRestore (%d/%d)\n",
info->CurrentLayout.pixel_code,
info->CurrentLayout.bitsPerPixel));
/* Setup engine location. This shouldn't be necessary since we
* set them appropriately before any accel ops, but let's avoid
* random bogus DMA in case we inadvertently trigger the engine
* in the wrong place (happened).
*/
RADEONWaitForFifo(pScrn, 2);
OUTREG(RADEON_DST_PITCH_OFFSET, info->dst_pitch_offset);
OUTREG(RADEON_SRC_PITCH_OFFSET, info->dst_pitch_offset);
RADEONWaitForFifo(pScrn, 1);
#if X_BYTE_ORDER == X_BIG_ENDIAN
OUTREGP(RADEON_DP_DATATYPE,
RADEON_HOST_BIG_ENDIAN_EN,
~RADEON_HOST_BIG_ENDIAN_EN);
#else
OUTREGP(RADEON_DP_DATATYPE, 0, ~RADEON_HOST_BIG_ENDIAN_EN);
#endif
/* Restore SURFACE_CNTL */
OUTREG(RADEON_SURFACE_CNTL, info->ModeReg.surface_cntl);
RADEONWaitForFifo(pScrn, 1);
OUTREG(RADEON_DEFAULT_SC_BOTTOM_RIGHT, (RADEON_DEFAULT_SC_RIGHT_MAX
| RADEON_DEFAULT_SC_BOTTOM_MAX));
RADEONWaitForFifo(pScrn, 1);
OUTREG(RADEON_DP_GUI_MASTER_CNTL, (info->dp_gui_master_cntl
| RADEON_GMC_BRUSH_SOLID_COLOR
| RADEON_GMC_SRC_DATATYPE_COLOR));
RADEONWaitForFifo(pScrn, 5);
OUTREG(RADEON_DP_BRUSH_FRGD_CLR, 0xffffffff);
OUTREG(RADEON_DP_BRUSH_BKGD_CLR, 0x00000000);
OUTREG(RADEON_DP_SRC_FRGD_CLR, 0xffffffff);
OUTREG(RADEON_DP_SRC_BKGD_CLR, 0x00000000);
OUTREG(RADEON_DP_WRITE_MASK, 0xffffffff);
RADEONWaitForIdleMMIO(pScrn);
info->XInited3D = FALSE;
}
/* Initialize the acceleration hardware */
void RADEONEngineInit(ScrnInfoPtr pScrn)
{
RADEONInfoPtr info = RADEONPTR(pScrn);
unsigned char *RADEONMMIO = info->MMIO;
RADEONTRACE(("EngineInit (%d/%d)\n",
info->CurrentLayout.pixel_code,
info->CurrentLayout.bitsPerPixel));
OUTREG(RADEON_RB3D_CNTL, 0);
RADEONEngineReset(pScrn);
switch (info->CurrentLayout.pixel_code) {
case 8: info->datatype = 2; break;
case 15: info->datatype = 3; break;
case 16: info->datatype = 4; break;
case 24: info->datatype = 5; break;
case 32: info->datatype = 6; break;
default:
RADEONTRACE(("Unknown depth/bpp = %d/%d (code = %d)\n",
info->CurrentLayout.depth,
info->CurrentLayout.bitsPerPixel,
info->CurrentLayout.pixel_code));
}
info->pitch = ((info->CurrentLayout.displayWidth / 8) *
(info->CurrentLayout.pixel_bytes == 3 ? 3 : 1));
RADEONTRACE(("Pitch for acceleration = %d\n", info->pitch));
info->dp_gui_master_cntl =
((info->datatype << RADEON_GMC_DST_DATATYPE_SHIFT)
| RADEON_GMC_CLR_CMP_CNTL_DIS
| RADEON_GMC_DST_PITCH_OFFSET_CNTL);
#ifdef XF86DRI
info->sc_left = 0x00000000;
info->sc_right = RADEON_DEFAULT_SC_RIGHT_MAX;
info->sc_top = 0x00000000;
info->sc_bottom = RADEON_DEFAULT_SC_BOTTOM_MAX;
info->re_top_left = 0x00000000;
info->re_width_height = ((0x7ff << RADEON_RE_WIDTH_SHIFT) |
(0x7ff << RADEON_RE_HEIGHT_SHIFT));
info->aux_sc_cntl = 0x00000000;
#endif
RADEONEngineRestore(pScrn);
}
#define ACCEL_MMIO
#define ACCEL_PREAMBLE() unsigned char *RADEONMMIO = info->MMIO
#define BEGIN_ACCEL(n) RADEONWaitForFifo(pScrn, (n))
#define OUT_ACCEL_REG(reg, val) OUTREG(reg, val)
#define FINISH_ACCEL()
#include "radeon_commonfuncs.c"
#if defined(RENDER) && defined(USE_XAA)
#include "radeon_render.c"
#endif
#include "radeon_accelfuncs.c"
#undef ACCEL_MMIO
#undef ACCEL_PREAMBLE
#undef BEGIN_ACCEL
#undef OUT_ACCEL_REG
#undef FINISH_ACCEL
#ifdef XF86DRI
#define ACCEL_CP
#define ACCEL_PREAMBLE() \
RING_LOCALS; \
RADEONCP_REFRESH(pScrn, info)
#define BEGIN_ACCEL(n) BEGIN_RING(2*(n))
#define OUT_ACCEL_REG(reg, val) OUT_RING_REG(reg, val)
#define FINISH_ACCEL() ADVANCE_RING()
#include "radeon_commonfuncs.c"
#if defined(RENDER) && defined(USE_XAA)
#include "radeon_render.c"
#endif
#include "radeon_accelfuncs.c"
#undef ACCEL_CP
#undef ACCEL_PREAMBLE
#undef BEGIN_ACCEL
#undef OUT_ACCEL_REG
#undef FINISH_ACCEL
/* Stop the CP */
int RADEONCPStop(ScrnInfoPtr pScrn, RADEONInfoPtr info)
{
drmRadeonCPStop stop;
int ret, i;
stop.flush = 1;
stop.idle = 1;
ret = drmCommandWrite(info->drmFD, DRM_RADEON_CP_STOP, &stop,
sizeof(drmRadeonCPStop));
if (ret == 0) {
return 0;
} else if (errno != EBUSY) {
return -errno;
}
stop.flush = 0;
i = 0;
do {
ret = drmCommandWrite(info->drmFD, DRM_RADEON_CP_STOP, &stop,
sizeof(drmRadeonCPStop));
} while (ret && errno == EBUSY && i++ < RADEON_IDLE_RETRY);
if (ret == 0) {
return 0;
} else if (errno != EBUSY) {
return -errno;
}
stop.idle = 0;
if (drmCommandWrite(info->drmFD, DRM_RADEON_CP_STOP,
&stop, sizeof(drmRadeonCPStop))) {
return -errno;
} else {
return 0;
}
}
/* Get an indirect buffer for the CP 2D acceleration commands */
drmBufPtr RADEONCPGetBuffer(ScrnInfoPtr pScrn)
{
RADEONInfoPtr info = RADEONPTR(pScrn);
drmDMAReq dma;
drmBufPtr buf = NULL;
int indx = 0;
int size = 0;
int i = 0;
int ret;
#if 0
/* FIXME: pScrn->pScreen has not been initialized when this is first
* called from RADEONSelectBuffer via RADEONDRICPInit. We could use
* the screen index from pScrn, which is initialized, and then get
* the screen from screenInfo.screens[index], but that is a hack.
*/
dma.context = DRIGetContext(pScrn->pScreen);
#else
/* This is the X server's context */
dma.context = 0x00000001;
#endif
dma.send_count = 0;
dma.send_list = NULL;
dma.send_sizes = NULL;
dma.flags = 0;
dma.request_count = 1;
dma.request_size = RADEON_BUFFER_SIZE;
dma.request_list = &indx;
dma.request_sizes = &size;
dma.granted_count = 0;
while (1) {
do {
ret = drmDMA(info->drmFD, &dma);
if (ret && ret != -EBUSY) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"%s: CP GetBuffer %d\n", __FUNCTION__, ret);
}
} while ((ret == -EBUSY) && (i++ < RADEON_TIMEOUT));
if (ret == 0) {
buf = &info->buffers->list[indx];
buf->used = 0;
if (RADEON_VERBOSE) {
xf86DrvMsg(pScrn->scrnIndex, X_INFO,
" GetBuffer returning %d %p\n",
buf->idx, buf->address);
}
return buf;
}
xf86DrvMsg(pScrn->scrnIndex, X_ERROR,
"GetBuffer timed out, resetting engine...\n");
RADEONEngineReset(pScrn);
RADEONEngineRestore(pScrn);
/* Always restart the engine when doing CP 2D acceleration */
RADEONCP_RESET(pScrn, info);
RADEONCP_START(pScrn, info);
}
}
/* Flush the indirect buffer to the kernel for submission to the card */
void RADEONCPFlushIndirect(ScrnInfoPtr pScrn, int discard)
{
RADEONInfoPtr info = RADEONPTR(pScrn);
drmBufPtr buffer = info->indirectBuffer;
int start = info->indirectStart;
drmRadeonIndirect indirect;
if (!buffer) return;
if (start == buffer->used && !discard) return;
if (RADEON_VERBOSE) {
xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Flushing buffer %d\n",
buffer->idx);
}
indirect.idx = buffer->idx;
indirect.start = start;
indirect.end = buffer->used;
indirect.discard = discard;
drmCommandWriteRead(info->drmFD, DRM_RADEON_INDIRECT,
&indirect, sizeof(drmRadeonIndirect));
if (discard) {
info->indirectBuffer = RADEONCPGetBuffer(pScrn);
info->indirectStart = 0;
} else {
/* Start on a double word boundary */
info->indirectStart = buffer->used = (buffer->used + 7) & ~7;
if (RADEON_VERBOSE) {
xf86DrvMsg(pScrn->scrnIndex, X_INFO, " Starting at %d\n",
info->indirectStart);
}
}
}
/* Flush and release the indirect buffer */
void RADEONCPReleaseIndirect(ScrnInfoPtr pScrn)
{
RADEONInfoPtr info = RADEONPTR(pScrn);
drmBufPtr buffer = info->indirectBuffer;
int start = info->indirectStart;
drmRadeonIndirect indirect;
info->indirectBuffer = NULL;
info->indirectStart = 0;
if (!buffer) return;
if (RADEON_VERBOSE) {
xf86DrvMsg(pScrn->scrnIndex, X_INFO, "Releasing buffer %d\n",
buffer->idx);
}
indirect.idx = buffer->idx;
indirect.start = start;
indirect.end = buffer->used;
indirect.discard = 1;
drmCommandWriteRead(info->drmFD, DRM_RADEON_INDIRECT,
&indirect, sizeof(drmRadeonIndirect));
}
/* Set up a hostdata blit to transfer data from system memory to the
* framebuffer. Returns the address where the data can be written to and sets
* the dstPitch and hpass variables as required.
*/
CARD8*
RADEONHostDataBlit(
ScrnInfoPtr pScrn,
unsigned int bpp,
unsigned int w,
CARD32 dstPitch,
CARD32 *bufPitch,
CARD8* *dst,
unsigned int *h,
unsigned int *hpass
){
RADEONInfoPtr info = RADEONPTR( pScrn );
CARD32 format, dst_offs, dwords, x, y;
CARD8 *ret;
RING_LOCALS;
if ( *h == 0 )
{
return NULL;
}
switch ( bpp )
{
case 4:
format = RADEON_GMC_DST_32BPP;
*bufPitch = 4 * w;
break;
case 2:
format = RADEON_GMC_DST_16BPP;
w = (w + 1) & ~1;
*bufPitch = 2 * w;
break;
case 1:
format = RADEON_GMC_DST_8BPP_CI;
w = (w + 3) & ~3;
*bufPitch = w;
break;
default:
xf86DrvMsg( pScrn->scrnIndex, X_ERROR,
"%s: Unsupported bpp %d!\n", __func__, bpp );
return NULL;
}
#if X_BYTE_ORDER == X_BIG_ENDIAN
/* Swap doesn't work on R300 and later, it's handled during the
* copy to ind. buffer pass
*/
if (info->ChipFamily < CHIP_FAMILY_R300) {
BEGIN_RING(2);
if (bpp == 2)
OUT_RING_REG(RADEON_RBBM_GUICNTL,
RADEON_HOST_DATA_SWAP_HDW);
else if (bpp == 1)
OUT_RING_REG(RADEON_RBBM_GUICNTL,
RADEON_HOST_DATA_SWAP_32BIT);
else
OUT_RING_REG(RADEON_RBBM_GUICNTL,
RADEON_HOST_DATA_SWAP_NONE);
ADVANCE_RING();
}
#endif
/*RADEON_PURGE_CACHE();
RADEON_WAIT_UNTIL_IDLE();*/
dst_offs = *dst - info->FB + info->fbLocation;
*hpass = min( *h, ( ( RADEON_BUFFER_SIZE - 8 * 4 ) / *bufPitch ) );
dwords = *hpass * *bufPitch / 4;
y = ( dst_offs & 1023 ) / dstPitch;
x = ( ( dst_offs & 1023 ) - ( y * dstPitch ) ) / bpp;
BEGIN_RING( dwords + 8 );
OUT_RING( CP_PACKET3( RADEON_CP_PACKET3_CNTL_HOSTDATA_BLT, dwords + 8 - 2 ) );
OUT_RING( RADEON_GMC_DST_PITCH_OFFSET_CNTL
| RADEON_GMC_BRUSH_NONE
| format
| RADEON_GMC_SRC_DATATYPE_COLOR
| RADEON_ROP3_S
| RADEON_DP_SRC_SOURCE_HOST_DATA
| RADEON_GMC_CLR_CMP_CNTL_DIS
| RADEON_GMC_WR_MSK_DIS );
OUT_RING( dstPitch << 16 | dst_offs >> 10 );
OUT_RING( 0xffffffff );
OUT_RING( 0xffffffff );
OUT_RING( y << 16 | x );
OUT_RING( *hpass << 16 | w );
OUT_RING( dwords );
ret = ( CARD8* )&__head[__count];
__count += dwords;
ADVANCE_RING();
*dst += *hpass * dstPitch;
*h -= *hpass;
return ret;
}
void RADEONCopySwap(CARD8 *dst, CARD8 *src, unsigned int size, int swap)
{
switch(swap) {
case RADEON_HOST_DATA_SWAP_HDW:
{
unsigned int *d = (unsigned int *)dst;
unsigned int *s = (unsigned int *)src;
unsigned int nwords = size >> 2;
for (; nwords > 0; --nwords, ++d, ++s)
*d = ((*s & 0xffff) << 16) | ((*s >> 16) & 0xffff);
return;
}
case RADEON_HOST_DATA_SWAP_32BIT:
{
unsigned int *d = (unsigned int *)dst;
unsigned int *s = (unsigned int *)src;
unsigned int nwords = size >> 2;
for (; nwords > 0; --nwords, ++d, ++s)
#ifdef __powerpc__
asm volatile("stwbrx %0,0,%1" : : "r" (*s), "r" (d));
#else
*d = ((*s >> 24) & 0xff) | ((*s >> 8) & 0xff00)
| ((*s & 0xff00) << 8) | ((*s & 0xff) << 24);
#endif
return;
}
case RADEON_HOST_DATA_SWAP_16BIT:
{
unsigned short *d = (unsigned short *)dst;
unsigned short *s = (unsigned short *)src;
unsigned int nwords = size >> 1;
for (; nwords > 0; --nwords, ++d, ++s)
#ifdef __powerpc__
asm volatile("stwbrx %0,0,%1" : : "r" (*s), "r" (d));
#else
*d = ((*s >> 24) & 0xff) | ((*s >> 8) & 0xff00)
| ((*s & 0xff00) << 8) | ((*s & 0xff) << 24);
#endif
return;
}
}
if (src != dst)
memmove(dst, src, size);
}
/* Copies a single pass worth of data for a hostdata blit set up by
* RADEONHostDataBlit().
*/
void
RADEONHostDataBlitCopyPass(
ScrnInfoPtr pScrn,
unsigned int bpp,
CARD8 *dst,
CARD8 *src,
unsigned int hpass,
unsigned int dstPitch,
unsigned int srcPitch
){
RADEONInfoPtr info = RADEONPTR( pScrn );
/* RADEONHostDataBlitCopy can return NULL ! */
if( (dst==NULL) || (src==NULL)) return;
if ( dstPitch == srcPitch )
{
#if X_BYTE_ORDER == X_BIG_ENDIAN
if (info->ChipFamily >= CHIP_FAMILY_R300) {
switch(bpp) {
case 1:
RADEONCopySwap(dst, src, hpass * dstPitch,
RADEON_HOST_DATA_SWAP_32BIT);
return;
case 2:
RADEONCopySwap(dst, src, hpass * dstPitch,
RADEON_HOST_DATA_SWAP_HDW);
return;
}
}
#endif
memcpy( dst, src, hpass * dstPitch );
}
else
{
unsigned int minPitch = min( dstPitch, srcPitch );
while ( hpass-- )
{
#if X_BYTE_ORDER == X_BIG_ENDIAN
if (info->ChipFamily >= CHIP_FAMILY_R300) {
switch(bpp) {
case 1:
RADEONCopySwap(dst, src, minPitch,
RADEON_HOST_DATA_SWAP_32BIT);
goto next;
case 2:
RADEONCopySwap(dst, src, minPitch,
RADEON_HOST_DATA_SWAP_HDW);
goto next;
}
}
#endif
memcpy( dst, src, minPitch );
next:
src += srcPitch;
dst += dstPitch;
}
}
}
#endif
Bool RADEONAccelInit(ScreenPtr pScreen)
{
ScrnInfoPtr pScrn = xf86Screens[pScreen->myNum];
RADEONInfoPtr info = RADEONPTR(pScrn);
#ifdef USE_EXA
if (info->useEXA) {
# ifdef XF86DRI
if (info->directRenderingEnabled) {
if (!RADEONDrawInitCP(pScreen))
return FALSE;
} else
# endif /* XF86DRI */
{
if (!RADEONDrawInitMMIO(pScreen))
return FALSE;
}
}
#endif /* USE_EXA */
#ifdef USE_XAA
if (!info->useEXA) {
XAAInfoRecPtr a;
if (!(a = info->accel = XAACreateInfoRec())) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "XAACreateInfoRec Error\n");
return FALSE;
}
#ifdef XF86DRI
if (info->directRenderingEnabled)
RADEONAccelInitCP(pScreen, a);
else
#endif /* XF86DRI */
RADEONAccelInitMMIO(pScreen, a);
RADEONEngineInit(pScrn);
if (!XAAInit(pScreen, a)) {
xf86DrvMsg(pScrn->scrnIndex, X_ERROR, "XAAInit Error\n");
return FALSE;
}
}
#endif /* USE_XAA */
return TRUE;
}
void RADEONInit3DEngine(ScrnInfoPtr pScrn)
{
RADEONInfoPtr info = RADEONPTR (pScrn);
#ifdef XF86DRI
if (info->directRenderingEnabled) {
RADEONSAREAPrivPtr pSAREAPriv;
pSAREAPriv = DRIGetSAREAPrivate(pScrn->pScreen);
pSAREAPriv->ctxOwner = DRIGetContext(pScrn->pScreen);
RADEONInit3DEngineCP(pScrn);
} else
#endif
RADEONInit3DEngineMMIO(pScrn);
info->XInited3D = TRUE;
}
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