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/*
* Copyright © 2007 Red Hat, Inc.
* Copyright 2007 Advanced Micro Devices, Inc.
*
* 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 (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 NONINFRINGEMENT. IN NO EVENT SHALL
* THE AUTHORS OR COPYRIGHT HOLDERS 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.
*
* Authors:
* Dave Airlie <airlied@redhat.com>
* Alex Deucher <alexander.deucher@amd.com>
*
*/
/*
* avivo crtc handling functions.
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
/* DPMS */
#define DPMS_SERVER
#include <X11/extensions/dpms.h>
#include "radeon.h"
#include "radeon_reg.h"
#include "radeon_macros.h"
#include "radeon_atombios.h"
#ifdef XF86DRI
#define _XF86DRI_SERVER_
#include "radeon_drm.h"
#include "sarea.h"
#endif
extern int
atombios_get_encoder_mode(xf86OutputPtr output);
AtomBiosResult
atombios_lock_crtc(atomBiosHandlePtr atomBIOS, int crtc, int lock)
{
ENABLE_CRTC_PS_ALLOCATION crtc_data;
AtomBiosArgRec data;
unsigned char *space;
crtc_data.ucCRTC = crtc;
crtc_data.ucEnable = lock;
data.exec.index = GetIndexIntoMasterTable(COMMAND, UpdateCRTC_DoubleBufferRegisters);
data.exec.dataSpace = (void *)&space;
data.exec.pspace = &crtc_data;
if (RHDAtomBiosFunc(atomBIOS->scrnIndex, atomBIOS, ATOMBIOS_EXEC, &data) == ATOM_SUCCESS) {
ErrorF("%s CRTC %d success\n", lock? "Lock":"Unlock", crtc);
return ATOM_SUCCESS ;
}
ErrorF("Lock CRTC failed\n");
return ATOM_NOT_IMPLEMENTED;
}
static AtomBiosResult
atombios_enable_crtc(atomBiosHandlePtr atomBIOS, int crtc, int state)
{
ENABLE_CRTC_PS_ALLOCATION crtc_data;
AtomBiosArgRec data;
unsigned char *space;
crtc_data.ucCRTC = crtc;
crtc_data.ucEnable = state;
data.exec.index = GetIndexIntoMasterTable(COMMAND, EnableCRTC);
data.exec.dataSpace = (void *)&space;
data.exec.pspace = &crtc_data;
if (RHDAtomBiosFunc(atomBIOS->scrnIndex, atomBIOS, ATOMBIOS_EXEC, &data) == ATOM_SUCCESS) {
ErrorF("%s CRTC %d success\n", state? "Enable":"Disable", crtc);
return ATOM_SUCCESS ;
}
ErrorF("Enable CRTC failed\n");
return ATOM_NOT_IMPLEMENTED;
}
static AtomBiosResult
atombios_enable_crtc_memreq(atomBiosHandlePtr atomBIOS, int crtc, int state)
{
ENABLE_CRTC_PS_ALLOCATION crtc_data;
AtomBiosArgRec data;
unsigned char *space;
crtc_data.ucCRTC = crtc;
crtc_data.ucEnable = state;
data.exec.index = GetIndexIntoMasterTable(COMMAND, EnableCRTCMemReq);
data.exec.dataSpace = (void *)&space;
data.exec.pspace = &crtc_data;
if (RHDAtomBiosFunc(atomBIOS->scrnIndex, atomBIOS, ATOMBIOS_EXEC, &data) == ATOM_SUCCESS) {
ErrorF("%s CRTC memreq %d success\n", state? "Enable":"Disable", crtc);
return ATOM_SUCCESS ;
}
ErrorF("Enable CRTC memreq failed\n");
return ATOM_NOT_IMPLEMENTED;
}
static AtomBiosResult
atombios_blank_crtc(atomBiosHandlePtr atomBIOS, int crtc, int state)
{
BLANK_CRTC_PS_ALLOCATION crtc_data;
unsigned char *space;
AtomBiosArgRec data;
memset(&crtc_data, 0, sizeof(crtc_data));
crtc_data.ucCRTC = crtc;
crtc_data.ucBlanking = state;
data.exec.index = GetIndexIntoMasterTable(COMMAND, BlankCRTC);
data.exec.dataSpace = (void *)&space;
data.exec.pspace = &crtc_data;
if (RHDAtomBiosFunc(atomBIOS->scrnIndex, atomBIOS, ATOMBIOS_EXEC, &data) == ATOM_SUCCESS) {
ErrorF("%s CRTC %d success\n", state? "Blank":"Unblank", crtc);
return ATOM_SUCCESS ;
}
ErrorF("Blank CRTC failed\n");
return ATOM_NOT_IMPLEMENTED;
}
void
atombios_crtc_dpms(xf86CrtcPtr crtc, int mode)
{
RADEONCrtcPrivatePtr radeon_crtc = crtc->driver_private;
RADEONInfoPtr info = RADEONPTR(crtc->scrn);
switch (mode) {
case DPMSModeOn:
case DPMSModeStandby:
case DPMSModeSuspend:
if (IS_DCE3_VARIANT)
atombios_enable_crtc_memreq(info->atomBIOS, radeon_crtc->crtc_id, 1);
atombios_enable_crtc(info->atomBIOS, radeon_crtc->crtc_id, 1);
atombios_blank_crtc(info->atomBIOS, radeon_crtc->crtc_id, 0);
break;
case DPMSModeOff:
atombios_blank_crtc(info->atomBIOS, radeon_crtc->crtc_id, 1);
atombios_enable_crtc(info->atomBIOS, radeon_crtc->crtc_id, 0);
if (IS_DCE3_VARIANT)
atombios_enable_crtc_memreq(info->atomBIOS, radeon_crtc->crtc_id, 0);
break;
}
}
static AtomBiosResult
atombios_set_crtc_timing(atomBiosHandlePtr atomBIOS, SET_CRTC_TIMING_PARAMETERS_PS_ALLOCATION *crtc_param)
{
AtomBiosArgRec data;
unsigned char *space;
SET_CRTC_TIMING_PARAMETERS_PS_ALLOCATION conv_param;
conv_param.usH_Total = cpu_to_le16(crtc_param->usH_Total);
conv_param.usH_Disp = cpu_to_le16(crtc_param->usH_Disp);
conv_param.usH_SyncStart = cpu_to_le16(crtc_param->usH_SyncStart);
conv_param.usH_SyncWidth = cpu_to_le16(crtc_param->usH_SyncWidth);
conv_param.usV_Total = cpu_to_le16(crtc_param->usV_Total);
conv_param.usV_Disp = cpu_to_le16(crtc_param->usV_Disp);
conv_param.usV_SyncStart = cpu_to_le16(crtc_param->usV_SyncStart);
conv_param.usV_SyncWidth = cpu_to_le16(crtc_param->usV_SyncWidth);
conv_param.susModeMiscInfo.usAccess = cpu_to_le16(crtc_param->susModeMiscInfo.usAccess);
conv_param.ucCRTC = crtc_param->ucCRTC;
conv_param.ucOverscanRight = crtc_param->ucOverscanRight;
conv_param.ucOverscanLeft = crtc_param->ucOverscanLeft;
conv_param.ucOverscanBottom = crtc_param->ucOverscanBottom;
conv_param.ucOverscanTop = crtc_param->ucOverscanTop;
conv_param.ucReserved = crtc_param->ucReserved;
data.exec.index = GetIndexIntoMasterTable(COMMAND, SetCRTC_Timing);
data.exec.dataSpace = (void *)&space;
data.exec.pspace = &conv_param;
if (RHDAtomBiosFunc(atomBIOS->scrnIndex, atomBIOS, ATOMBIOS_EXEC, &data) == ATOM_SUCCESS) {
ErrorF("Set CRTC Timing success\n");
return ATOM_SUCCESS ;
}
ErrorF("Set CRTC Timing failed\n");
return ATOM_NOT_IMPLEMENTED;
}
void
atombios_crtc_set_pll(xf86CrtcPtr crtc, DisplayModePtr mode, int pll_flags)
{
RADEONCrtcPrivatePtr radeon_crtc = crtc->driver_private;
RADEONInfoPtr info = RADEONPTR(crtc->scrn);
xf86CrtcConfigPtr xf86_config = XF86_CRTC_CONFIG_PTR(crtc->scrn);
unsigned char *RADEONMMIO = info->MMIO;
int index = GetIndexIntoMasterTable(COMMAND, SetPixelClock);
uint32_t sclock = mode->Clock;
uint32_t ref_div = 0, fb_div = 0, post_div = 0;
int major, minor, i;
SET_PIXEL_CLOCK_PS_ALLOCATION spc_param;
PIXEL_CLOCK_PARAMETERS_V2 *spc2_ptr;
PIXEL_CLOCK_PARAMETERS_V3 *spc3_ptr;
xf86OutputPtr output;
RADEONOutputPrivatePtr radeon_output = NULL;
radeon_encoder_ptr radeon_encoder = NULL;
void *ptr;
AtomBiosArgRec data;
unsigned char *space;
RADEONSavePtr save = info->ModeReg;
memset(&spc_param, 0, sizeof(spc_param));
if (IS_AVIVO_VARIANT) {
uint32_t temp;
if (IS_DCE3_VARIANT && mode->Clock > 200000) /* range limits??? */
pll_flags |= RADEON_PLL_PREFER_HIGH_FB_DIV;
else
pll_flags |= RADEON_PLL_PREFER_LOW_REF_DIV;
RADEONComputePLL(&info->pll, mode->Clock, &temp, &fb_div, &ref_div, &post_div, pll_flags);
sclock = temp;
/* disable spread spectrum clocking for now -- thanks Hedy Lamarr */
if (radeon_crtc->crtc_id == 0) {
temp = INREG(AVIVO_P1PLL_INT_SS_CNTL);
OUTREG(AVIVO_P1PLL_INT_SS_CNTL, temp & ~1);
} else {
temp = INREG(AVIVO_P2PLL_INT_SS_CNTL);
OUTREG(AVIVO_P2PLL_INT_SS_CNTL, temp & ~1);
}
} else {
sclock = save->dot_clock_freq;
fb_div = save->feedback_div;
post_div = save->post_div;
ref_div = save->ppll_ref_div;
}
xf86DrvMsg(crtc->scrn->scrnIndex, X_INFO,
"crtc(%d) Clock: mode %d, PLL %lu\n",
radeon_crtc->crtc_id, mode->Clock, (long unsigned int)sclock * 10);
xf86DrvMsg(crtc->scrn->scrnIndex, X_INFO,
"crtc(%d) PLL : refdiv %u, fbdiv 0x%X(%u), pdiv %u\n",
radeon_crtc->crtc_id, (unsigned int)ref_div, (unsigned int)fb_div, (unsigned int)fb_div, (unsigned int)post_div);
/* Can't really do cloning easily on DCE3 cards */
for (i = 0; i < xf86_config->num_output; i++) {
output = xf86_config->output[i];
if (output->crtc == crtc) {
radeon_output = output->driver_private;
radeon_encoder = radeon_get_encoder(output);
break;
}
}
if (radeon_output == NULL) {
xf86DrvMsg(crtc->scrn->scrnIndex, X_ERROR, "No output assigned to crtc!\n");
return;
}
if (radeon_encoder == NULL) {
xf86DrvMsg(crtc->scrn->scrnIndex, X_ERROR, "No encoder assigned to output!\n");
return;
}
atombios_get_command_table_version(info->atomBIOS, index, &major, &minor);
/*ErrorF("table is %d %d\n", major, minor);*/
switch(major) {
case 1:
switch(minor) {
case 1:
case 2:
spc2_ptr = (PIXEL_CLOCK_PARAMETERS_V2*)&spc_param.sPCLKInput;
spc2_ptr->usPixelClock = cpu_to_le16(sclock);
spc2_ptr->usRefDiv = cpu_to_le16(ref_div);
spc2_ptr->usFbDiv = cpu_to_le16(fb_div);
spc2_ptr->ucPostDiv = post_div;
spc2_ptr->ucPpll = radeon_crtc->crtc_id ? ATOM_PPLL2 : ATOM_PPLL1;
spc2_ptr->ucCRTC = radeon_crtc->crtc_id;
spc2_ptr->ucRefDivSrc = 1;
ptr = &spc_param;
break;
case 3:
spc3_ptr = (PIXEL_CLOCK_PARAMETERS_V3*)&spc_param.sPCLKInput;
spc3_ptr->usPixelClock = cpu_to_le16(sclock);
spc3_ptr->usRefDiv = cpu_to_le16(ref_div);
spc3_ptr->usFbDiv = cpu_to_le16(fb_div);
spc3_ptr->ucPostDiv = post_div;
spc3_ptr->ucPpll = radeon_crtc->crtc_id ? ATOM_PPLL2 : ATOM_PPLL1;
spc3_ptr->ucMiscInfo = (radeon_crtc->crtc_id << 2);
spc3_ptr->ucTransmitterId = radeon_encoder->encoder_id;
spc3_ptr->ucEncoderMode = atombios_get_encoder_mode(output);
ptr = &spc_param;
break;
default:
ErrorF("Unknown table version\n");
exit(-1);
}
break;
default:
ErrorF("Unknown table version\n");
exit(-1);
}
data.exec.index = GetIndexIntoMasterTable(COMMAND, SetPixelClock);
data.exec.dataSpace = (void *)&space;
data.exec.pspace = ptr;
if (RHDAtomBiosFunc(info->atomBIOS->scrnIndex, info->atomBIOS, ATOMBIOS_EXEC, &data) == ATOM_SUCCESS) {
ErrorF("Set CRTC %d PLL success\n", radeon_crtc->crtc_id);
return;
}
ErrorF("Set CRTC %d PLL failed\n", radeon_crtc->crtc_id);
return;
}
void
atombios_crtc_mode_set(xf86CrtcPtr crtc,
DisplayModePtr mode,
DisplayModePtr adjusted_mode,
int x, int y)
{
ScrnInfoPtr pScrn = crtc->scrn;
RADEONCrtcPrivatePtr radeon_crtc = crtc->driver_private;
RADEONInfoPtr info = RADEONPTR(pScrn);
xf86CrtcConfigPtr xf86_config = XF86_CRTC_CONFIG_PTR(pScrn);
unsigned char *RADEONMMIO = info->MMIO;
unsigned long fb_location = crtc->scrn->fbOffset + info->fbLocation;
int need_tv_timings = 0;
int i, ret;
SET_CRTC_TIMING_PARAMETERS_PS_ALLOCATION crtc_timing;
Bool tilingChanged = FALSE;
int pll_flags = 0;
memset(&crtc_timing, 0, sizeof(crtc_timing));
if (info->allowColorTiling) {
radeon_crtc->can_tile = (adjusted_mode->Flags & (V_DBLSCAN | V_INTERLACE)) ? FALSE : TRUE;
tilingChanged = RADEONSetTiling(pScrn);
}
for (i = 0; i < xf86_config->num_output; i++) {
xf86OutputPtr output = xf86_config->output[i];
RADEONOutputPrivatePtr radeon_output = output->driver_private;
radeon_tvout_ptr tvout = &radeon_output->tvout;
if (output->crtc == crtc) {
if (radeon_output->MonType == MT_STV || radeon_output->MonType == MT_CTV) {
if (tvout->tvStd == TV_STD_NTSC ||
tvout->tvStd == TV_STD_NTSC_J ||
tvout->tvStd == TV_STD_PAL_M)
need_tv_timings = 1;
else
need_tv_timings = 2;
}
if (radeon_output->MonType == MT_LCD)
pll_flags |= RADEON_PLL_USE_REF_DIV;
}
}
crtc_timing.ucCRTC = radeon_crtc->crtc_id;
if (need_tv_timings) {
ret = RADEONATOMGetTVTimings(pScrn, need_tv_timings - 1, &crtc_timing, &adjusted_mode->Clock);
if (ret == FALSE) {
need_tv_timings = 0;
} else {
adjusted_mode->CrtcHDisplay = crtc_timing.usH_Disp;
adjusted_mode->CrtcHTotal = crtc_timing.usH_Total;
adjusted_mode->CrtcVDisplay = crtc_timing.usV_Disp;
adjusted_mode->CrtcVTotal = crtc_timing.usV_Total;
}
}
if (!need_tv_timings) {
crtc_timing.usH_Total = adjusted_mode->CrtcHTotal;
crtc_timing.usH_Disp = adjusted_mode->CrtcHDisplay;
crtc_timing.usH_SyncStart = adjusted_mode->CrtcHSyncStart;
crtc_timing.usH_SyncWidth = adjusted_mode->CrtcHSyncEnd - adjusted_mode->CrtcHSyncStart;
crtc_timing.usV_Total = adjusted_mode->CrtcVTotal;
crtc_timing.usV_Disp = adjusted_mode->CrtcVDisplay;
crtc_timing.usV_SyncStart = adjusted_mode->CrtcVSyncStart;
crtc_timing.usV_SyncWidth = adjusted_mode->CrtcVSyncEnd - adjusted_mode->CrtcVSyncStart;
if (adjusted_mode->Flags & V_NVSYNC)
crtc_timing.susModeMiscInfo.usAccess |= ATOM_VSYNC_POLARITY;
if (adjusted_mode->Flags & V_NHSYNC)
crtc_timing.susModeMiscInfo.usAccess |= ATOM_HSYNC_POLARITY;
if (adjusted_mode->Flags & V_CSYNC)
crtc_timing.susModeMiscInfo.usAccess |= ATOM_COMPOSITESYNC;
if (adjusted_mode->Flags & V_INTERLACE)
crtc_timing.susModeMiscInfo.usAccess |= ATOM_INTERLACE;
if (adjusted_mode->Flags & V_DBLSCAN)
crtc_timing.susModeMiscInfo.usAccess |= ATOM_DOUBLE_CLOCK_MODE;
}
ErrorF("Mode %dx%d - %d %d %d\n", adjusted_mode->CrtcHDisplay, adjusted_mode->CrtcVDisplay,
adjusted_mode->CrtcHTotal, adjusted_mode->CrtcVTotal, adjusted_mode->Flags);
RADEONInitMemMapRegisters(pScrn, info->ModeReg, info);
RADEONRestoreMemMapRegisters(pScrn, info->ModeReg);
if (IS_AVIVO_VARIANT) {
uint32_t fb_format;
switch (crtc->scrn->bitsPerPixel) {
case 15:
fb_format = AVIVO_D1GRPH_CONTROL_DEPTH_16BPP | AVIVO_D1GRPH_CONTROL_16BPP_ARGB1555;
break;
case 16:
fb_format = AVIVO_D1GRPH_CONTROL_DEPTH_16BPP | AVIVO_D1GRPH_CONTROL_16BPP_RGB565;
break;
case 24:
case 32:
fb_format = AVIVO_D1GRPH_CONTROL_DEPTH_32BPP | AVIVO_D1GRPH_CONTROL_32BPP_ARGB8888;
break;
default:
FatalError("Unsupported screen depth: %d\n", xf86GetDepth());
}
if (info->tilingEnabled && (crtc->rotatedData == NULL)) {
fb_format |= AVIVO_D1GRPH_MACRO_ADDRESS_MODE;
}
if (radeon_crtc->crtc_id == 0)
OUTREG(AVIVO_D1VGA_CONTROL, 0);
else
OUTREG(AVIVO_D2VGA_CONTROL, 0);
/* setup fb format and location
*/
if (crtc->rotatedData != NULL) {
/* x/y offset is already included */
x = 0;
y = 0;
fb_location = fb_location + (char *)crtc->rotatedData - (char *)info->FB;
}
OUTREG(AVIVO_D1GRPH_PRIMARY_SURFACE_ADDRESS + radeon_crtc->crtc_offset, fb_location);
OUTREG(AVIVO_D1GRPH_SECONDARY_SURFACE_ADDRESS + radeon_crtc->crtc_offset, fb_location);
OUTREG(AVIVO_D1GRPH_CONTROL + radeon_crtc->crtc_offset, fb_format);
OUTREG(AVIVO_D1GRPH_SURFACE_OFFSET_X + radeon_crtc->crtc_offset, 0);
OUTREG(AVIVO_D1GRPH_SURFACE_OFFSET_Y + radeon_crtc->crtc_offset, 0);
OUTREG(AVIVO_D1GRPH_X_START + radeon_crtc->crtc_offset, 0);
OUTREG(AVIVO_D1GRPH_Y_START + radeon_crtc->crtc_offset, 0);
OUTREG(AVIVO_D1GRPH_X_END + radeon_crtc->crtc_offset, pScrn->virtualX);
OUTREG(AVIVO_D1GRPH_Y_END + radeon_crtc->crtc_offset, pScrn->virtualY);
OUTREG(AVIVO_D1GRPH_PITCH + radeon_crtc->crtc_offset,
crtc->scrn->displayWidth);
OUTREG(AVIVO_D1GRPH_ENABLE + radeon_crtc->crtc_offset, 1);
OUTREG(AVIVO_D1MODE_DESKTOP_HEIGHT + radeon_crtc->crtc_offset, mode->VDisplay);
OUTREG(AVIVO_D1MODE_VIEWPORT_START + radeon_crtc->crtc_offset, (x << 16) | y);
OUTREG(AVIVO_D1MODE_VIEWPORT_SIZE + radeon_crtc->crtc_offset,
(mode->HDisplay << 16) | mode->VDisplay);
if (adjusted_mode->Flags & V_INTERLACE)
OUTREG(AVIVO_D1MODE_DATA_FORMAT + radeon_crtc->crtc_offset,
AVIVO_D1MODE_INTERLEAVE_EN);
else
OUTREG(AVIVO_D1MODE_DATA_FORMAT + radeon_crtc->crtc_offset,
0);
}
atombios_crtc_set_pll(crtc, adjusted_mode, pll_flags);
atombios_set_crtc_timing(info->atomBIOS, &crtc_timing);
if (info->DispPriority)
RADEONInitDispBandwidth(pScrn);
if (tilingChanged) {
/* need to redraw front buffer, I guess this can be considered a hack ? */
/* if this is called during ScreenInit() we don't have pScrn->pScreen yet */
if (pScrn->pScreen)
xf86EnableDisableFBAccess(pScrn->scrnIndex, FALSE);
RADEONChangeSurfaces(pScrn);
if (pScrn->pScreen)
xf86EnableDisableFBAccess(pScrn->scrnIndex, TRUE);
/* xf86SetRootClip would do, but can't access that here */
}
}
/* Calculate display buffer watermark to prevent buffer underflow */
void
RADEONInitDispBandwidthAVIVO(ScrnInfoPtr pScrn,
DisplayModePtr mode1, int pixel_bytes1,
DisplayModePtr mode2, int pixel_bytes2)
{
RADEONInfoPtr info = RADEONPTR(pScrn);
RADEONEntPtr pRADEONEnt = RADEONEntPriv(pScrn);
unsigned char *RADEONMMIO = info->MMIO;
uint32_t dc_lb_memory_split;
float mem_bw, peak_disp_bw;
float min_mem_eff = 0.8; /* XXX: taken from legacy method */
float pix_clk, pix_clk2; /* in MHz */
/*
* Set display0/1 priority up in the memory controller for
* modes if the user specifies HIGH for displaypriority
* option.
*/
if (info->DispPriority == 2) {
uint32_t mc_init_misc_lat_timer = 0;
if (info->ChipFamily == CHIP_FAMILY_RV515)
mc_init_misc_lat_timer = INMC(pScrn, RV515_MC_INIT_MISC_LAT_TIMER);
else if (info->ChipFamily == CHIP_FAMILY_RS690)
mc_init_misc_lat_timer = INMC(pScrn, RS690_MC_INIT_MISC_LAT_TIMER);
mc_init_misc_lat_timer &= ~(R300_MC_DISP1R_INIT_LAT_MASK << R300_MC_DISP1R_INIT_LAT_SHIFT);
mc_init_misc_lat_timer &= ~(R300_MC_DISP0R_INIT_LAT_MASK << R300_MC_DISP0R_INIT_LAT_SHIFT);
if (pRADEONEnt->pCrtc[1]->enabled)
mc_init_misc_lat_timer |= (1 << R300_MC_DISP1R_INIT_LAT_SHIFT); /* display 1 */
if (pRADEONEnt->pCrtc[0]->enabled)
mc_init_misc_lat_timer |= (1 << R300_MC_DISP0R_INIT_LAT_SHIFT); /* display 0 */
if (info->ChipFamily == CHIP_FAMILY_RV515)
OUTMC(pScrn, RV515_MC_INIT_MISC_LAT_TIMER, mc_init_misc_lat_timer);
else if (info->ChipFamily == CHIP_FAMILY_RS690)
OUTMC(pScrn, RS690_MC_INIT_MISC_LAT_TIMER, mc_init_misc_lat_timer);
}
/* XXX: fix me for AVIVO
* Determine if there is enough bandwidth for current display mode
*/
mem_bw = info->mclk * (info->RamWidth / 8) * (info->IsDDR ? 2 : 1);
pix_clk = 0;
pix_clk2 = 0;
peak_disp_bw = 0;
if (mode1) {
pix_clk = mode1->Clock/1000.0;
peak_disp_bw += (pix_clk * pixel_bytes1);
}
if (mode2) {
pix_clk2 = mode2->Clock/1000.0;
peak_disp_bw += (pix_clk2 * pixel_bytes2);
}
if (peak_disp_bw >= mem_bw * min_mem_eff) {
xf86DrvMsg(pScrn->scrnIndex, X_WARNING,
"You may not have enough display bandwidth for current mode\n"
"If you have flickering problem, try to lower resolution, refresh rate, or color depth\n");
}
/*
* Line Buffer Setup
* There is a single line buffer shared by both display controllers.
* DC_LB_MEMORY_SPLIT controls how that line buffer is shared between the display
* controllers. The paritioning can either be done manually or via one of four
* preset allocations specified in bits 1:0:
* 0 - line buffer is divided in half and shared between each display controller
* 1 - D1 gets 3/4 of the line buffer, D2 gets 1/4
* 2 - D1 gets the whole buffer
* 3 - D1 gets 1/4 of the line buffer, D2 gets 3/4
* Setting bit 2 of DC_LB_MEMORY_SPLIT controls switches to manual allocation mode.
* In manual allocation mode, D1 always starts at 0, D1 end/2 is specified in bits
* 14:4; D2 allocation follows D1.
*/
/* is auto or manual better ? */
dc_lb_memory_split = INREG(AVIVO_DC_LB_MEMORY_SPLIT) & ~AVIVO_DC_LB_MEMORY_SPLIT_MASK;
dc_lb_memory_split &= ~AVIVO_DC_LB_MEMORY_SPLIT_SHIFT_MODE;
#if 1
/* auto */
if (mode1 && mode2) {
if (mode1->HDisplay > mode2->HDisplay) {
if (mode1->HDisplay > 2560)
dc_lb_memory_split |= AVIVO_DC_LB_MEMORY_SPLIT_D1_3Q_D2_1Q;
else
dc_lb_memory_split |= AVIVO_DC_LB_MEMORY_SPLIT_D1HALF_D2HALF;
} else if (mode2->HDisplay > mode1->HDisplay) {
if (mode2->HDisplay > 2560)
dc_lb_memory_split |= AVIVO_DC_LB_MEMORY_SPLIT_D1_1Q_D2_3Q;
else
dc_lb_memory_split |= AVIVO_DC_LB_MEMORY_SPLIT_D1HALF_D2HALF;
} else
dc_lb_memory_split |= AVIVO_DC_LB_MEMORY_SPLIT_D1HALF_D2HALF;
} else if (mode1) {
dc_lb_memory_split |= AVIVO_DC_LB_MEMORY_SPLIT_D1_ONLY;
} else if (mode2) {
dc_lb_memory_split |= AVIVO_DC_LB_MEMORY_SPLIT_D1_1Q_D2_3Q;
}
#else
/* manual */
dc_lb_memory_split |= AVIVO_DC_LB_MEMORY_SPLIT_SHIFT_MODE;
dc_lb_memory_split &= ~(AVIVO_DC_LB_DISP1_END_ADR_MASK << AVIVO_DC_LB_DISP1_END_ADR_SHIFT);
if (mode1) {
dc_lb_memory_split |= ((((mode1->HDisplay / 2) + 64 /*???*/) & AVIVO_DC_LB_DISP1_END_ADR_MASK)
<< AVIVO_DC_LB_DISP1_END_ADR_SHIFT);
} else if (mode2) {
dc_lb_memory_split |= (0 << AVIVO_DC_LB_DISP1_END_ADR_SHIFT);
}
OUTREG(AVIVO_DC_LB_MEMORY_SPLIT, dc_lb_memory_split);
#endif
/*
* Watermark setup
* TODO...
* Unforunately, I haven't been able to dig up the avivo watermark programming
* guide yet. -AGD
*/
}
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