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/****************************************************************************
* Copyright (C) 2003-2006 by XGI Technology, Taiwan.
*
* 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
* XGI AND/OR ITS 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.
***************************************************************************/
#include "xgi_drv.h"
#include "xgi_regs.h"
#include <linux/delay.h>
/*
* irq functions
*/
#define STALL_INTERRUPT_RESET_THRESHOLD 0xffff
static unsigned int s_invalid_begin = 0;
static bool xgi_validate_signal(struct drm_map * map)
{
if (DRM_READ32(map, 0x2800) & 0x001c0000) {
u16 check;
/* Check Read back status */
DRM_WRITE8(map, 0x235c, 0x80);
check = DRM_READ16(map, 0x2360);
if ((check & 0x3f) != ((check & 0x3f00) >> 8)) {
return FALSE;
}
/* Check RO channel */
DRM_WRITE8(map, 0x235c, 0x83);
check = DRM_READ16(map, 0x2360);
if ((check & 0x0f) != ((check & 0xf0) >> 4)) {
return FALSE;
}
/* Check RW channel */
DRM_WRITE8(map, 0x235c, 0x88);
check = DRM_READ16(map, 0x2360);
if ((check & 0x0f) != ((check & 0xf0) >> 4)) {
return FALSE;
}
/* Check RO channel outstanding */
DRM_WRITE8(map, 0x235c, 0x8f);
check = DRM_READ16(map, 0x2360);
if (0 != (check & 0x3ff)) {
return FALSE;
}
/* Check RW channel outstanding */
DRM_WRITE8(map, 0x235c, 0x90);
check = DRM_READ16(map, 0x2360);
if (0 != (check & 0x3ff)) {
return FALSE;
}
/* No pending PCIE request. GE stall. */
}
return TRUE;
}
static void xgi_ge_hang_reset(struct drm_map * map)
{
int time_out = 0xffff;
DRM_WRITE8(map, 0xb057, 8);
while (0 != (DRM_READ32(map, 0x2800) & 0xf0000000)) {
while (0 != ((--time_out) & 0xfff))
/* empty */ ;
if (0 == time_out) {
u8 old_3ce;
u8 old_3cf;
u8 old_index;
u8 old_36;
DRM_INFO("Can not reset back 0x%x!\n",
DRM_READ32(map, 0x2800));
DRM_WRITE8(map, 0xb057, 0);
/* Have to use 3x5.36 to reset. */
/* Save and close dynamic gating */
old_3ce = DRM_READ8(map, 0x3ce);
DRM_WRITE8(map, 0x3ce, 0x2a);
old_3cf = DRM_READ8(map, 0x3cf);
DRM_WRITE8(map, 0x3cf, old_3cf & 0xfe);
/* Reset GE */
old_index = DRM_READ8(map, 0x3d4);
DRM_WRITE8(map, 0x3d4, 0x36);
old_36 = DRM_READ8(map, 0x3d5);
DRM_WRITE8(map, 0x3d5, old_36 | 0x10);
while (0 != ((--time_out) & 0xfff))
/* empty */ ;
DRM_WRITE8(map, 0x3d5, old_36);
DRM_WRITE8(map, 0x3d4, old_index);
/* Restore dynamic gating */
DRM_WRITE8(map, 0x3cf, old_3cf);
DRM_WRITE8(map, 0x3ce, old_3ce);
break;
}
}
DRM_WRITE8(map, 0xb057, 0);
}
bool xgi_ge_irq_handler(struct xgi_info * info)
{
const u32 int_status = DRM_READ32(info->mmio_map, 0x2810);
bool is_support_auto_reset = FALSE;
/* Check GE on/off */
if (0 == (0xffffc0f0 & int_status)) {
if (0 != (0x1000 & int_status)) {
/* We got GE stall interrupt.
*/
DRM_WRITE32(info->mmio_map, 0x2810,
int_status | 0x04000000);
if (is_support_auto_reset) {
static cycles_t last_tick;
static unsigned continue_int_count = 0;
/* OE II is busy. */
if (!xgi_validate_signal(info->mmio_map)) {
/* Nothing but skip. */
} else if (0 == continue_int_count++) {
last_tick = get_cycles();
} else {
const cycles_t new_tick = get_cycles();
if ((new_tick - last_tick) >
STALL_INTERRUPT_RESET_THRESHOLD) {
continue_int_count = 0;
} else if (continue_int_count >= 3) {
continue_int_count = 0;
/* GE Hung up, need reset. */
DRM_INFO("Reset GE!\n");
xgi_ge_hang_reset(info->mmio_map);
}
}
}
} else if (0 != (0x1 & int_status)) {
s_invalid_begin++;
DRM_WRITE32(info->mmio_map, 0x2810,
(int_status & ~0x01) | 0x04000000);
}
return TRUE;
}
return FALSE;
}
bool xgi_crt_irq_handler(struct xgi_info * info)
{
bool ret = FALSE;
u8 save_3ce = DRM_READ8(info->mmio_map, 0x3ce);
/* CRT1 interrupt just happened
*/
if (IN3CFB(info->mmio_map, 0x37) & 0x01) {
u8 op3cf_3d;
u8 op3cf_37;
/* What happened?
*/
op3cf_37 = IN3CFB(info->mmio_map, 0x37);
/* Clear CRT interrupt
*/
op3cf_3d = IN3CFB(info->mmio_map, 0x3d);
OUT3CFB(info->mmio_map, 0x3d, (op3cf_3d | 0x04));
OUT3CFB(info->mmio_map, 0x3d, (op3cf_3d & ~0x04));
ret = TRUE;
}
DRM_WRITE8(info->mmio_map, 0x3ce, save_3ce);
return (ret);
}
bool xgi_dvi_irq_handler(struct xgi_info * info)
{
bool ret = FALSE;
const u8 save_3ce = DRM_READ8(info->mmio_map, 0x3ce);
/* DVI interrupt just happened
*/
if (IN3CFB(info->mmio_map, 0x38) & 0x20) {
const u8 save_3x4 = DRM_READ8(info->mmio_map, 0x3d4);
u8 op3cf_39;
u8 op3cf_37;
u8 op3x5_5a;
/* What happened?
*/
op3cf_37 = IN3CFB(info->mmio_map, 0x37);
/* Notify BIOS that DVI plug/unplug happened
*/
op3x5_5a = IN3X5B(info->mmio_map, 0x5a);
OUT3X5B(info->mmio_map, 0x5a, op3x5_5a & 0xf7);
DRM_WRITE8(info->mmio_map, 0x3d4, save_3x4);
/* Clear DVI interrupt
*/
op3cf_39 = IN3CFB(info->mmio_map, 0x39);
OUT3C5B(info->mmio_map, 0x39, (op3cf_39 & ~0x01));
OUT3C5B(info->mmio_map, 0x39, (op3cf_39 | 0x01));
ret = TRUE;
}
DRM_WRITE8(info->mmio_map, 0x3ce, save_3ce);
return (ret);
}
static void dump_reg_header(unsigned regbase)
{
printk("\n=====xgi_dump_register========0x%x===============\n",
regbase);
printk(" 0 1 2 3 4 5 6 7 8 9 a b c d e f\n");
}
static void dump_indexed_reg(struct xgi_info * info, unsigned regbase)
{
unsigned i, j;
u8 temp;
dump_reg_header(regbase);
for (i = 0; i < 0x10; i++) {
printk("%1x ", i);
for (j = 0; j < 0x10; j++) {
DRM_WRITE8(info->mmio_map, regbase - 1,
(i * 0x10) + j);
temp = DRM_READ8(info->mmio_map, regbase);
printk("%3x", temp);
}
printk("\n");
}
}
static void dump_reg(struct xgi_info * info, unsigned regbase, unsigned range)
{
unsigned i, j;
dump_reg_header(regbase);
for (i = 0; i < range; i++) {
printk("%1x ", i);
for (j = 0; j < 0x10; j++) {
u8 temp = DRM_READ8(info->mmio_map,
regbase + (i * 0x10) + j);
printk("%3x", temp);
}
printk("\n");
}
}
void xgi_dump_register(struct xgi_info * info)
{
dump_indexed_reg(info, 0x3c5);
dump_indexed_reg(info, 0x3d5);
dump_indexed_reg(info, 0x3cf);
dump_reg(info, 0xB000, 0x05);
dump_reg(info, 0x2200, 0x0B);
dump_reg(info, 0x2300, 0x07);
dump_reg(info, 0x2400, 0x10);
dump_reg(info, 0x2800, 0x10);
}
#define WHOLD_GE_STATUS 0x2800
/* Test everything except the "whole GE busy" bit, the "master engine busy"
* bit, and the reserved bits [26:21].
*/
#define IDLE_MASK ~((1U<<31) | (1U<<28) | (0x3f<<21))
void xgi_waitfor_pci_idle(struct xgi_info * info)
{
unsigned int idleCount = 0;
u32 old_status = 0;
unsigned int same_count = 0;
while (idleCount < 5) {
const u32 status = DRM_READ32(info->mmio_map, WHOLD_GE_STATUS)
& IDLE_MASK;
if (status == old_status) {
same_count++;
if ((same_count % 100) == 0) {
DRM_ERROR("GE status stuck at 0x%08x for %u iterations!\n",
old_status, same_count);
}
} else {
old_status = status;
same_count = 0;
}
if (status != 0) {
msleep(1);
idleCount = 0;
} else {
idleCount++;
}
}
}
void xgi_enable_mmio(struct xgi_info * info)
{
u8 protect = 0;
u8 temp;
/* Unprotect registers */
DRM_WRITE8(info->mmio_map, 0x3C4, 0x11);
protect = DRM_READ8(info->mmio_map, 0x3C5);
DRM_WRITE8(info->mmio_map, 0x3C5, 0x92);
DRM_WRITE8(info->mmio_map, 0x3D4, 0x3A);
temp = DRM_READ8(info->mmio_map, 0x3D5);
DRM_WRITE8(info->mmio_map, 0x3D5, temp | 0x20);
/* Enable MMIO */
DRM_WRITE8(info->mmio_map, 0x3D4, 0x39);
temp = DRM_READ8(info->mmio_map, 0x3D5);
DRM_WRITE8(info->mmio_map, 0x3D5, temp | 0x01);
/* Protect registers */
OUT3C5B(info->mmio_map, 0x11, protect);
}
void xgi_disable_mmio(struct xgi_info * info)
{
u8 protect = 0;
u8 temp;
/* Unprotect registers */
DRM_WRITE8(info->mmio_map, 0x3C4, 0x11);
protect = DRM_READ8(info->mmio_map, 0x3C5);
DRM_WRITE8(info->mmio_map, 0x3C5, 0x92);
/* Disable MMIO access */
DRM_WRITE8(info->mmio_map, 0x3D4, 0x39);
temp = DRM_READ8(info->mmio_map, 0x3D5);
DRM_WRITE8(info->mmio_map, 0x3D5, temp & 0xFE);
/* Protect registers */
OUT3C5B(info->mmio_map, 0x11, protect);
}
void xgi_enable_ge(struct xgi_info * info)
{
u8 bOld3cf2a;
int wait = 0;
OUT3C5B(info->mmio_map, 0x11, 0x92);
/* Save and close dynamic gating
*/
bOld3cf2a = IN3CFB(info->mmio_map, XGI_MISC_CTRL);
OUT3CFB(info->mmio_map, XGI_MISC_CTRL, bOld3cf2a & ~EN_GEPWM);
/* Enable 2D and 3D GE
*/
OUT3X5B(info->mmio_map, XGI_GE_CNTL, (GE_ENABLE | GE_ENABLE_3D));
wait = 10;
while (wait--) {
DRM_READ8(info->mmio_map, 0x36);
}
/* Reset both 3D and 2D engine
*/
OUT3X5B(info->mmio_map, XGI_GE_CNTL,
(GE_ENABLE | GE_RESET | GE_ENABLE_3D));
wait = 10;
while (wait--) {
DRM_READ8(info->mmio_map, 0x36);
}
OUT3X5B(info->mmio_map, XGI_GE_CNTL, (GE_ENABLE | GE_ENABLE_3D));
wait = 10;
while (wait--) {
DRM_READ8(info->mmio_map, 0x36);
}
/* Enable 2D engine only
*/
OUT3X5B(info->mmio_map, XGI_GE_CNTL, GE_ENABLE);
/* Enable 2D+3D engine
*/
OUT3X5B(info->mmio_map, XGI_GE_CNTL, (GE_ENABLE | GE_ENABLE_3D));
/* Restore dynamic gating
*/
OUT3CFB(info->mmio_map, XGI_MISC_CTRL, bOld3cf2a);
}
void xgi_disable_ge(struct xgi_info * info)
{
int wait = 0;
OUT3X5B(info->mmio_map, XGI_GE_CNTL, (GE_ENABLE | GE_ENABLE_3D));
wait = 10;
while (wait--) {
DRM_READ8(info->mmio_map, 0x36);
}
/* Reset both 3D and 2D engine
*/
OUT3X5B(info->mmio_map, XGI_GE_CNTL,
(GE_ENABLE | GE_RESET | GE_ENABLE_3D));
wait = 10;
while (wait--) {
DRM_READ8(info->mmio_map, 0x36);
}
OUT3X5B(info->mmio_map, XGI_GE_CNTL, (GE_ENABLE | GE_ENABLE_3D));
wait = 10;
while (wait--) {
DRM_READ8(info->mmio_map, 0x36);
}
/* Disable 2D engine and 3D engine.
*/
OUT3X5B(info->mmio_map, XGI_GE_CNTL, 0);
}
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