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/*
* Acceleration for the Creator and Creator3D framebuffer - WID pool management.
*
* Copyright (C) 2000 David S. Miller (davem@redhat.com)
*
* 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
* DAVID MILLER 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
#include "ffb.h"
static void
determine_numwids(FFBPtr pFfb)
{
ffb_dac_info_t *p = &pFfb->dac_info;
if (p->flags & FFB_DAC_PAC1)
p->wid_table.num_wids = 32;
else
p->wid_table.num_wids = 64;
}
static void
make_wlut_regval(ffb_dac_info_t *p, ffb_wid_info_t *wid)
{
wid->wlut_regval = 0;
if (p->flags & FFB_DAC_PAC1) {
unsigned int color_model_bits;
/* Pacifica1 format */
if (wid->buffer != 0)
wid->wlut_regval |= FFBDAC_PAC1_WLUT_DB;
if (wid->depth == 8) {
if (wid->greyscale) {
if (wid->linear)
color_model_bits = FFBDAC_PAC1_WLUT_C_8LG;
else
color_model_bits = FFBDAC_PAC1_WLUT_C_8NG;
} else {
color_model_bits = FFBDAC_PAC1_WLUT_C_8P;
}
} else {
if (wid->direct) {
color_model_bits = FFBDAC_PAC1_WLUT_C_24D;
} else {
if (wid->linear)
color_model_bits = FFBDAC_PAC1_WLUT_C_24LT;
else
color_model_bits = FFBDAC_PAC1_WLUT_C_24NT;
}
}
wid->wlut_regval |= color_model_bits;
switch (wid->channel) {
default:
case 0:
wid->wlut_regval |= FFBDAC_PAC1_WLUT_P_XO;
break;
case 1:
wid->wlut_regval |= FFBDAC_PAC1_WLUT_P_R;
break;
case 2:
wid->wlut_regval |= FFBDAC_PAC1_WLUT_P_G;
break;
case 3:
wid->wlut_regval |= FFBDAC_PAC1_WLUT_P_B;
break;
};
} else {
/* Pacifica2 format */
if (wid->buffer != 0)
wid->wlut_regval |= FFBDAC_PAC2_WLUT_DB;
if (wid->depth == 24)
wid->wlut_regval |= FFBDAC_PAC2_WLUT_DEPTH;
switch (wid->channel) {
default:
case 0:
wid->wlut_regval |= FFBDAC_PAC2_WLUT_P_XO;
break;
case 1:
wid->wlut_regval |= FFBDAC_PAC2_WLUT_P_R;
break;
case 2:
wid->wlut_regval |= FFBDAC_PAC2_WLUT_P_G;
break;
case 3:
wid->wlut_regval |= FFBDAC_PAC2_WLUT_P_B;
break;
};
if ((wid->depth == 8 && wid->greyscale == 0) ||
(wid->depth == 24 && wid->direct != 0))
wid->wlut_regval |= FFBDAC_PAC2_WLUT_LKUP;
if (wid->palette != -1)
wid->wlut_regval |=
((wid->palette << 4) & FFBDAC_PAC2_WLUT_PTBL);
}
}
static void
init_wid_table(FFBPtr pFfb)
{
ffb_dac_info_t *p = &pFfb->dac_info;
ffb_wid_pool_t *table = &p->wid_table;
int i;
for (i = 0; i < table->num_wids; i++) {
table->wid_pool[i].InUse = FALSE;
table->wid_pool[i].buffer = 0;
table->wid_pool[i].depth = 24;
table->wid_pool[i].greyscale = 0;
table->wid_pool[i].linear = 0;
table->wid_pool[i].direct = 0;
table->wid_pool[i].channel = 0;
table->wid_pool[i].palette = -1;
make_wlut_regval(p, &table->wid_pool[i]);
}
table->wid_pool[table->num_wids - 1].InUse = TRUE;
table->wid_pool[table->num_wids - 1].canshare = FALSE;
}
static void
init_hw_wids(FFBPtr pFfb)
{
ffb_dac_info_t *p = &pFfb->dac_info;
ffb_dacPtr dac = pFfb->dac;
ffb_wid_pool_t *table = &p->wid_table;
int i;
if (p->flags & FFB_DAC_PAC1)
dac->cfg = FFBDAC_PAC1_APWLUT_BASE;
else
dac->cfg = FFBDAC_PAC2_APWLUT_BASE;
for (i = 0; i < table->num_wids; i++)
dac->cfgdata = table->wid_pool[i].wlut_regval;
if (p->flags & FFB_DAC_PAC1)
dac->cfg = FFBDAC_PAC1_SPWLUT_BASE;
else
dac->cfg = FFBDAC_PAC2_SPWLUT_BASE;
for (i = 0; i < table->num_wids; i++)
dac->cfgdata = table->wid_pool[i].wlut_regval;
}
static void
init_hw_widmode(FFBPtr pFfb)
{
ffb_dacPtr dac = pFfb->dac;
ffb_dac_info_t *p = &pFfb->dac_info;
unsigned int uctrl;
/* For now we use the Combined WID mode until I figure
* out exactly how Seperate4 and Seperate8 work. We
* also disable overlays for the time being.
*/
p->wid_table.wid_shift = 0;
dac->cfg = FFBDAC_CFG_UCTRL;
uctrl = dac->cfgdata;
uctrl &= ~FFBDAC_UCTRL_WMODE;
uctrl |= FFBDAC_UCTRL_WM_COMB;
uctrl &= ~FFBDAC_UCTRL_OVENAB;
dac->cfg = FFBDAC_CFG_UCTRL;
dac->cfgdata = uctrl;
}
void
FFBWidPoolInit(FFBPtr pFfb)
{
determine_numwids(pFfb);
init_wid_table(pFfb);
init_hw_wids(pFfb);
init_hw_widmode(pFfb);
}
static void
update_wids(FFBPtr pFfb, int index)
{
ffb_dac_info_t *p = &pFfb->dac_info;
ffb_dacPtr dac = pFfb->dac;
unsigned int base;
int limit;
if (pFfb->vtSema)
return;
if (p->flags & FFB_DAC_PAC1)
base = FFBDAC_PAC1_SPWLUT(index);
else
base = FFBDAC_PAC2_SPWLUT(index);
DACCFG_WRITE(dac, base, p->wid_table.wid_pool[index].wlut_regval);
/* Schedule the window transfer. */
DACCFG_WRITE(dac, FFBDAC_CFG_WTCTRL,
(FFBDAC_CFG_WTCTRL_TCMD | FFBDAC_CFG_WTCTRL_TE));
limit = 1000000;
while (limit--) {
unsigned int wtctrl = DACCFG_READ(dac, FFBDAC_CFG_WTCTRL);
if ((wtctrl & FFBDAC_CFG_WTCTRL_DS) == 0)
break;
}
}
unsigned int
FFBWidAlloc(FFBPtr pFfb, int visclass, int cmap, Bool canshare)
{
ffb_dac_info_t *p = &pFfb->dac_info;
ffb_wid_pool_t *table = &p->wid_table;
int i, depth, direct, static_greyscale, palette, channel;
direct = 0;
static_greyscale = 0;
switch (visclass) {
case StaticGray:
static_greyscale = 1;
/* Fallthrough... */
case StaticColor:
case GrayScale:
case PseudoColor:
depth = 8;
channel = 1;
break;
case DirectColor:
direct = 1;
/* Fallthrough... */
case TrueColor:
depth = 24;
channel = 0;
break;
default:
return (unsigned int) -1;
};
palette = -1;
if (p->flags & FFB_DAC_PAC1) {
if (visclass == PseudoColor ||
visclass == GrayScale ||
visclass == DirectColor)
palette = 0;
} else {
if (visclass == PseudoColor)
palette = 0;
if (visclass == GrayScale)
palette = 1;
if (visclass == DirectColor)
palette = 2;
}
if (canshare) {
for (i = 0; i < table->num_wids; i++) {
if (table->wid_pool[i].InUse == TRUE &&
table->wid_pool[i].canshare == TRUE &&
table->wid_pool[i].palette == palette &&
table->wid_pool[i].direct == direct &&
table->wid_pool[i].greyscale == static_greyscale &&
table->wid_pool[i].channel == channel &&
table->wid_pool[i].depth == depth) {
table->wid_pool[i].refcount++;
return i << table->wid_shift;
}
}
}
for (i = 0; i < table->num_wids; i++) {
if (table->wid_pool[i].InUse == FALSE)
break;
}
if (i != table->num_wids) {
table->wid_pool[i].InUse = TRUE;
table->wid_pool[i].buffer = 0;
table->wid_pool[i].depth = depth;
table->wid_pool[i].palette = palette;
table->wid_pool[i].direct = direct;
table->wid_pool[i].greyscale = static_greyscale;
if (depth == 8)
table->wid_pool[i].channel = 1;
else
table->wid_pool[i].channel = 0;
table->wid_pool[i].refcount = 1;
table->wid_pool[i].canshare = canshare;
make_wlut_regval(p, &table->wid_pool[i]);
update_wids(pFfb, i);
return i << table->wid_shift;
}
return (unsigned int) -1;
}
void
FFBWidFree(FFBPtr pFfb, unsigned int wid)
{
ffb_dac_info_t *p = &pFfb->dac_info;
ffb_wid_pool_t *table = &p->wid_table;
int index = wid >> table->wid_shift;
if (index < 0 || index >= table->num_wids) {
return;
}
if (--table->wid_pool[index].refcount == 0) {
table->wid_pool[index].InUse = FALSE;
}
}
/* Double Buffering support. */
unsigned int
FFBWidUnshare(FFBPtr pFfb, unsigned int wid)
{
ffb_dac_info_t *p = &pFfb->dac_info;
ffb_wid_pool_t *table = &p->wid_table;
int index = wid >> table->wid_shift;
int i;
if (index < 0 || index >= table->num_wids) {
return (unsigned int) -1;
}
for (i = 0; i < table->num_wids; i++) {
if (table->wid_pool[i].InUse == FALSE)
break;
}
if (i == table->num_wids) {
return (unsigned int) -1;
}
table->wid_pool[i].InUse = TRUE;
table->wid_pool[i].buffer = 0;
table->wid_pool[i].depth = table->wid_pool[index].depth;
table->wid_pool[i].palette = table->wid_pool[index].palette;
table->wid_pool[i].direct = table->wid_pool[index].direct;
table->wid_pool[i].greyscale = table->wid_pool[index].greyscale;
table->wid_pool[i].channel = table->wid_pool[index].channel;
table->wid_pool[i].refcount = 1;
table->wid_pool[i].canshare = FALSE;
make_wlut_regval(p, &table->wid_pool[i]);
update_wids(pFfb, i);
/* Now free the original WID. */
if (--table->wid_pool[index].refcount == 0) {
table->wid_pool[index].InUse = FALSE;
}
return i << table->wid_shift;
}
unsigned int
FFBWidReshare(FFBPtr pFfb, unsigned int wid)
{
ffb_dac_info_t *p = &pFfb->dac_info;
ffb_wid_pool_t *table = &p->wid_table;
int index = wid >> table->wid_shift;
int i;
if (index < 0 || index >= table->num_wids) {
return wid;
}
for (i = 0; i < table->num_wids; i++) {
if (table->wid_pool[i].InUse == TRUE &&
table->wid_pool[i].canshare == TRUE &&
table->wid_pool[i].depth == table->wid_pool[index].depth &&
table->wid_pool[i].palette == table->wid_pool[index].palette &&
table->wid_pool[i].direct == table->wid_pool[index].direct &&
table->wid_pool[i].greyscale == table->wid_pool[index].greyscale &&
table->wid_pool[i].channel == table->wid_pool[index].channel)
break;
}
if (i == table->num_wids) {
/* OK, very simple, just make the old one shared. */
table->wid_pool[index].canshare = TRUE;
table->wid_pool[index].buffer = 0;
make_wlut_regval(p, &table->wid_pool[index]);
update_wids(pFfb, index);
return wid;
}
/* Ok, free the original WID. */
if (--table->wid_pool[index].refcount == 0) {
table->wid_pool[index].InUse = FALSE;
}
/* And grab a reference to the new one. */
table->wid_pool[i].refcount++;
/* And return the shared one. */
return i << table->wid_shift;
}
void
FFBWidChangeBuffer(FFBPtr pFfb, unsigned int wid, int visible)
{
ffb_dac_info_t *p = &pFfb->dac_info;
ffb_wid_pool_t *table = &p->wid_table;
int index = wid >> table->wid_shift;
int buffer;
if (index < 0 || index >= table->num_wids)
return;
buffer = (table->wid_pool[index].buffer ^= 1);
if (visible) {
unsigned int bit;
if (p->flags & FFB_DAC_PAC1)
bit = FFBDAC_PAC1_WLUT_DB;
else
bit = FFBDAC_PAC2_WLUT_DB;
if (buffer)
table->wid_pool[index].wlut_regval |= bit;
else
table->wid_pool[index].wlut_regval &= ~bit;
update_wids(pFfb, index);
}
}
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