linux-zen-desktop/drivers/gpu/drm/ast/ast_post.c

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/*
* Copyright 2012 Red Hat 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, sub license, 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 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
* THE COPYRIGHT HOLDERS, AUTHORS 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.
*
* The above copyright notice and this permission notice (including the
* next paragraph) shall be included in all copies or substantial portions
* of the Software.
*
*/
/*
* Authors: Dave Airlie <airlied@redhat.com>
*/
#include <linux/delay.h>
#include <linux/pci.h>
#include <drm/drm_print.h>
#include "ast_dram_tables.h"
#include "ast_drv.h"
static void ast_post_chip_2300(struct drm_device *dev);
static void ast_post_chip_2500(struct drm_device *dev);
void ast_enable_vga(struct drm_device *dev)
{
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struct ast_device *ast = to_ast_device(dev);
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ast_io_write8(ast, AST_IO_VGA_ENABLE_PORT, 0x01);
ast_io_write8(ast, AST_IO_MISC_PORT_WRITE, 0x01);
}
void ast_enable_mmio(struct drm_device *dev)
{
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struct ast_device *ast = to_ast_device(dev);
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ast_set_index_reg(ast, AST_IO_CRTC_PORT, 0xa1, 0x06);
}
bool ast_is_vga_enabled(struct drm_device *dev)
{
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struct ast_device *ast = to_ast_device(dev);
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u8 ch;
ch = ast_io_read8(ast, AST_IO_VGA_ENABLE_PORT);
return !!(ch & 0x01);
}
static const u8 extreginfo[] = { 0x0f, 0x04, 0x1c, 0xff };
static const u8 extreginfo_ast2300a0[] = { 0x0f, 0x04, 0x1c, 0xff };
static const u8 extreginfo_ast2300[] = { 0x0f, 0x04, 0x1f, 0xff };
static void
ast_set_def_ext_reg(struct drm_device *dev)
{
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struct ast_device *ast = to_ast_device(dev);
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struct pci_dev *pdev = to_pci_dev(dev->dev);
u8 i, index, reg;
const u8 *ext_reg_info;
/* reset scratch */
for (i = 0x81; i <= 0x9f; i++)
ast_set_index_reg(ast, AST_IO_CRTC_PORT, i, 0x00);
if (ast->chip == AST2300 || ast->chip == AST2400 ||
ast->chip == AST2500) {
if (pdev->revision >= 0x20)
ext_reg_info = extreginfo_ast2300;
else
ext_reg_info = extreginfo_ast2300a0;
} else
ext_reg_info = extreginfo;
index = 0xa0;
while (*ext_reg_info != 0xff) {
ast_set_index_reg_mask(ast, AST_IO_CRTC_PORT, index, 0x00, *ext_reg_info);
index++;
ext_reg_info++;
}
/* disable standard IO/MEM decode if secondary */
/* ast_set_index_reg-mask(ast, AST_IO_CRTC_PORT, 0xa1, 0xff, 0x3); */
/* Set Ext. Default */
ast_set_index_reg_mask(ast, AST_IO_CRTC_PORT, 0x8c, 0x00, 0x01);
ast_set_index_reg_mask(ast, AST_IO_CRTC_PORT, 0xb7, 0x00, 0x00);
/* Enable RAMDAC for A1 */
reg = 0x04;
if (ast->chip == AST2300 || ast->chip == AST2400 ||
ast->chip == AST2500)
reg |= 0x20;
ast_set_index_reg_mask(ast, AST_IO_CRTC_PORT, 0xb6, 0xff, reg);
}
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u32 ast_mindwm(struct ast_device *ast, u32 r)
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{
uint32_t data;
ast_write32(ast, 0xf004, r & 0xffff0000);
ast_write32(ast, 0xf000, 0x1);
do {
data = ast_read32(ast, 0xf004) & 0xffff0000;
} while (data != (r & 0xffff0000));
return ast_read32(ast, 0x10000 + (r & 0x0000ffff));
}
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void ast_moutdwm(struct ast_device *ast, u32 r, u32 v)
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{
uint32_t data;
ast_write32(ast, 0xf004, r & 0xffff0000);
ast_write32(ast, 0xf000, 0x1);
do {
data = ast_read32(ast, 0xf004) & 0xffff0000;
} while (data != (r & 0xffff0000));
ast_write32(ast, 0x10000 + (r & 0x0000ffff), v);
}
/*
* AST2100/2150 DLL CBR Setting
*/
#define CBR_SIZE_AST2150 ((16 << 10) - 1)
#define CBR_PASSNUM_AST2150 5
#define CBR_THRESHOLD_AST2150 10
#define CBR_THRESHOLD2_AST2150 10
#define TIMEOUT_AST2150 5000000
#define CBR_PATNUM_AST2150 8
static const u32 pattern_AST2150[14] = {
0xFF00FF00,
0xCC33CC33,
0xAA55AA55,
0xFFFE0001,
0x683501FE,
0x0F1929B0,
0x2D0B4346,
0x60767F02,
0x6FBE36A6,
0x3A253035,
0x3019686D,
0x41C6167E,
0x620152BF,
0x20F050E0
};
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static u32 mmctestburst2_ast2150(struct ast_device *ast, u32 datagen)
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{
u32 data, timeout;
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
ast_moutdwm(ast, 0x1e6e0070, 0x00000001 | (datagen << 3));
timeout = 0;
do {
data = ast_mindwm(ast, 0x1e6e0070) & 0x40;
if (++timeout > TIMEOUT_AST2150) {
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
return 0xffffffff;
}
} while (!data);
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
ast_moutdwm(ast, 0x1e6e0070, 0x00000003 | (datagen << 3));
timeout = 0;
do {
data = ast_mindwm(ast, 0x1e6e0070) & 0x40;
if (++timeout > TIMEOUT_AST2150) {
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
return 0xffffffff;
}
} while (!data);
data = (ast_mindwm(ast, 0x1e6e0070) & 0x80) >> 7;
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
return data;
}
#if 0 /* unused in DDX driver - here for completeness */
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static u32 mmctestsingle2_ast2150(struct ast_device *ast, u32 datagen)
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{
u32 data, timeout;
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
ast_moutdwm(ast, 0x1e6e0070, 0x00000005 | (datagen << 3));
timeout = 0;
do {
data = ast_mindwm(ast, 0x1e6e0070) & 0x40;
if (++timeout > TIMEOUT_AST2150) {
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
return 0xffffffff;
}
} while (!data);
data = (ast_mindwm(ast, 0x1e6e0070) & 0x80) >> 7;
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
return data;
}
#endif
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static int cbrtest_ast2150(struct ast_device *ast)
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{
int i;
for (i = 0; i < 8; i++)
if (mmctestburst2_ast2150(ast, i))
return 0;
return 1;
}
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static int cbrscan_ast2150(struct ast_device *ast, int busw)
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{
u32 patcnt, loop;
for (patcnt = 0; patcnt < CBR_PATNUM_AST2150; patcnt++) {
ast_moutdwm(ast, 0x1e6e007c, pattern_AST2150[patcnt]);
for (loop = 0; loop < CBR_PASSNUM_AST2150; loop++) {
if (cbrtest_ast2150(ast))
break;
}
if (loop == CBR_PASSNUM_AST2150)
return 0;
}
return 1;
}
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static void cbrdlli_ast2150(struct ast_device *ast, int busw)
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{
u32 dll_min[4], dll_max[4], dlli, data, passcnt;
cbr_start:
dll_min[0] = dll_min[1] = dll_min[2] = dll_min[3] = 0xff;
dll_max[0] = dll_max[1] = dll_max[2] = dll_max[3] = 0x0;
passcnt = 0;
for (dlli = 0; dlli < 100; dlli++) {
ast_moutdwm(ast, 0x1e6e0068, dlli | (dlli << 8) | (dlli << 16) | (dlli << 24));
data = cbrscan_ast2150(ast, busw);
if (data != 0) {
if (data & 0x1) {
if (dll_min[0] > dlli)
dll_min[0] = dlli;
if (dll_max[0] < dlli)
dll_max[0] = dlli;
}
passcnt++;
} else if (passcnt >= CBR_THRESHOLD_AST2150)
goto cbr_start;
}
if (dll_max[0] == 0 || (dll_max[0]-dll_min[0]) < CBR_THRESHOLD_AST2150)
goto cbr_start;
dlli = dll_min[0] + (((dll_max[0] - dll_min[0]) * 7) >> 4);
ast_moutdwm(ast, 0x1e6e0068, dlli | (dlli << 8) | (dlli << 16) | (dlli << 24));
}
static void ast_init_dram_reg(struct drm_device *dev)
{
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struct ast_device *ast = to_ast_device(dev);
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u8 j;
u32 data, temp, i;
const struct ast_dramstruct *dram_reg_info;
j = ast_get_index_reg_mask(ast, AST_IO_CRTC_PORT, 0xd0, 0xff);
if ((j & 0x80) == 0) { /* VGA only */
if (ast->chip == AST2000) {
dram_reg_info = ast2000_dram_table_data;
ast_write32(ast, 0xf004, 0x1e6e0000);
ast_write32(ast, 0xf000, 0x1);
ast_write32(ast, 0x10100, 0xa8);
do {
;
} while (ast_read32(ast, 0x10100) != 0xa8);
} else {/* AST2100/1100 */
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if (ast->chip == AST2100 || ast->chip == AST2200)
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dram_reg_info = ast2100_dram_table_data;
else
dram_reg_info = ast1100_dram_table_data;
ast_write32(ast, 0xf004, 0x1e6e0000);
ast_write32(ast, 0xf000, 0x1);
ast_write32(ast, 0x12000, 0x1688A8A8);
do {
;
} while (ast_read32(ast, 0x12000) != 0x01);
ast_write32(ast, 0x10000, 0xfc600309);
do {
;
} while (ast_read32(ast, 0x10000) != 0x01);
}
while (dram_reg_info->index != 0xffff) {
if (dram_reg_info->index == 0xff00) {/* delay fn */
for (i = 0; i < 15; i++)
udelay(dram_reg_info->data);
} else if (dram_reg_info->index == 0x4 && ast->chip != AST2000) {
data = dram_reg_info->data;
if (ast->dram_type == AST_DRAM_1Gx16)
data = 0x00000d89;
else if (ast->dram_type == AST_DRAM_1Gx32)
data = 0x00000c8d;
temp = ast_read32(ast, 0x12070);
temp &= 0xc;
temp <<= 2;
ast_write32(ast, 0x10000 + dram_reg_info->index, data | temp);
} else
ast_write32(ast, 0x10000 + dram_reg_info->index, dram_reg_info->data);
dram_reg_info++;
}
/* AST 2100/2150 DRAM calibration */
data = ast_read32(ast, 0x10120);
if (data == 0x5061) { /* 266Mhz */
data = ast_read32(ast, 0x10004);
if (data & 0x40)
cbrdlli_ast2150(ast, 16); /* 16 bits */
else
cbrdlli_ast2150(ast, 32); /* 32 bits */
}
switch (ast->chip) {
case AST2000:
temp = ast_read32(ast, 0x10140);
ast_write32(ast, 0x10140, temp | 0x40);
break;
case AST1100:
case AST2100:
case AST2200:
case AST2150:
temp = ast_read32(ast, 0x1200c);
ast_write32(ast, 0x1200c, temp & 0xfffffffd);
temp = ast_read32(ast, 0x12040);
ast_write32(ast, 0x12040, temp | 0x40);
break;
default:
break;
}
}
/* wait ready */
do {
j = ast_get_index_reg_mask(ast, AST_IO_CRTC_PORT, 0xd0, 0xff);
} while ((j & 0x40) == 0);
}
void ast_post_gpu(struct drm_device *dev)
{
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struct ast_device *ast = to_ast_device(dev);
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struct pci_dev *pdev = to_pci_dev(dev->dev);
u32 reg;
pci_read_config_dword(pdev, 0x04, &reg);
reg |= 0x3;
pci_write_config_dword(pdev, 0x04, reg);
ast_enable_vga(dev);
ast_open_key(ast);
ast_enable_mmio(dev);
ast_set_def_ext_reg(dev);
if (ast->chip == AST2600) {
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if (ast->tx_chip_types & AST_TX_ASTDP_BIT)
ast_dp_launch(dev);
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} else if (ast->config_mode == ast_use_p2a) {
if (ast->chip == AST2500)
ast_post_chip_2500(dev);
else if (ast->chip == AST2300 || ast->chip == AST2400)
ast_post_chip_2300(dev);
else
ast_init_dram_reg(dev);
ast_init_3rdtx(dev);
} else {
if (ast->tx_chip_types & AST_TX_SIL164_BIT)
ast_set_index_reg_mask(ast, AST_IO_CRTC_PORT, 0xa3, 0xcf, 0x80); /* Enable DVO */
}
}
/* AST 2300 DRAM settings */
#define AST_DDR3 0
#define AST_DDR2 1
struct ast2300_dram_param {
u32 dram_type;
u32 dram_chipid;
u32 dram_freq;
u32 vram_size;
u32 odt;
u32 wodt;
u32 rodt;
u32 dram_config;
u32 reg_PERIOD;
u32 reg_MADJ;
u32 reg_SADJ;
u32 reg_MRS;
u32 reg_EMRS;
u32 reg_AC1;
u32 reg_AC2;
u32 reg_DQSIC;
u32 reg_DRV;
u32 reg_IOZ;
u32 reg_DQIDLY;
u32 reg_FREQ;
u32 madj_max;
u32 dll2_finetune_step;
};
/*
* DQSI DLL CBR Setting
*/
#define CBR_SIZE0 ((1 << 10) - 1)
#define CBR_SIZE1 ((4 << 10) - 1)
#define CBR_SIZE2 ((64 << 10) - 1)
#define CBR_PASSNUM 5
#define CBR_PASSNUM2 5
#define CBR_THRESHOLD 10
#define CBR_THRESHOLD2 10
#define TIMEOUT 5000000
#define CBR_PATNUM 8
static const u32 pattern[8] = {
0xFF00FF00,
0xCC33CC33,
0xAA55AA55,
0x88778877,
0x92CC4D6E,
0x543D3CDE,
0xF1E843C7,
0x7C61D253
};
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static bool mmc_test(struct ast_device *ast, u32 datagen, u8 test_ctl)
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{
u32 data, timeout;
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
ast_moutdwm(ast, 0x1e6e0070, (datagen << 3) | test_ctl);
timeout = 0;
do {
data = ast_mindwm(ast, 0x1e6e0070) & 0x3000;
if (data & 0x2000)
return false;
if (++timeout > TIMEOUT) {
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
return false;
}
} while (!data);
ast_moutdwm(ast, 0x1e6e0070, 0x0);
return true;
}
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static u32 mmc_test2(struct ast_device *ast, u32 datagen, u8 test_ctl)
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{
u32 data, timeout;
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
ast_moutdwm(ast, 0x1e6e0070, (datagen << 3) | test_ctl);
timeout = 0;
do {
data = ast_mindwm(ast, 0x1e6e0070) & 0x1000;
if (++timeout > TIMEOUT) {
ast_moutdwm(ast, 0x1e6e0070, 0x0);
return 0xffffffff;
}
} while (!data);
data = ast_mindwm(ast, 0x1e6e0078);
data = (data | (data >> 16)) & 0xffff;
ast_moutdwm(ast, 0x1e6e0070, 0x00000000);
return data;
}
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static bool mmc_test_burst(struct ast_device *ast, u32 datagen)
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{
return mmc_test(ast, datagen, 0xc1);
}
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static u32 mmc_test_burst2(struct ast_device *ast, u32 datagen)
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{
return mmc_test2(ast, datagen, 0x41);
}
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static bool mmc_test_single(struct ast_device *ast, u32 datagen)
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{
return mmc_test(ast, datagen, 0xc5);
}
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static u32 mmc_test_single2(struct ast_device *ast, u32 datagen)
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{
return mmc_test2(ast, datagen, 0x05);
}
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static bool mmc_test_single_2500(struct ast_device *ast, u32 datagen)
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{
return mmc_test(ast, datagen, 0x85);
}
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static int cbr_test(struct ast_device *ast)
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{
u32 data;
int i;
data = mmc_test_single2(ast, 0);
if ((data & 0xff) && (data & 0xff00))
return 0;
for (i = 0; i < 8; i++) {
data = mmc_test_burst2(ast, i);
if ((data & 0xff) && (data & 0xff00))
return 0;
}
if (!data)
return 3;
else if (data & 0xff)
return 2;
return 1;
}
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static int cbr_scan(struct ast_device *ast)
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{
u32 data, data2, patcnt, loop;
data2 = 3;
for (patcnt = 0; patcnt < CBR_PATNUM; patcnt++) {
ast_moutdwm(ast, 0x1e6e007c, pattern[patcnt]);
for (loop = 0; loop < CBR_PASSNUM2; loop++) {
if ((data = cbr_test(ast)) != 0) {
data2 &= data;
if (!data2)
return 0;
break;
}
}
if (loop == CBR_PASSNUM2)
return 0;
}
return data2;
}
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static u32 cbr_test2(struct ast_device *ast)
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{
u32 data;
data = mmc_test_burst2(ast, 0);
if (data == 0xffff)
return 0;
data |= mmc_test_single2(ast, 0);
if (data == 0xffff)
return 0;
return ~data & 0xffff;
}
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static u32 cbr_scan2(struct ast_device *ast)
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{
u32 data, data2, patcnt, loop;
data2 = 0xffff;
for (patcnt = 0; patcnt < CBR_PATNUM; patcnt++) {
ast_moutdwm(ast, 0x1e6e007c, pattern[patcnt]);
for (loop = 0; loop < CBR_PASSNUM2; loop++) {
if ((data = cbr_test2(ast)) != 0) {
data2 &= data;
if (!data2)
return 0;
break;
}
}
if (loop == CBR_PASSNUM2)
return 0;
}
return data2;
}
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static bool cbr_test3(struct ast_device *ast)
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{
if (!mmc_test_burst(ast, 0))
return false;
if (!mmc_test_single(ast, 0))
return false;
return true;
}
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static bool cbr_scan3(struct ast_device *ast)
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{
u32 patcnt, loop;
for (patcnt = 0; patcnt < CBR_PATNUM; patcnt++) {
ast_moutdwm(ast, 0x1e6e007c, pattern[patcnt]);
for (loop = 0; loop < 2; loop++) {
if (cbr_test3(ast))
break;
}
if (loop == 2)
return false;
}
return true;
}
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static bool finetuneDQI_L(struct ast_device *ast, struct ast2300_dram_param *param)
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{
u32 gold_sadj[2], dllmin[16], dllmax[16], dlli, data, cnt, mask, passcnt, retry = 0;
bool status = false;
FINETUNE_START:
for (cnt = 0; cnt < 16; cnt++) {
dllmin[cnt] = 0xff;
dllmax[cnt] = 0x0;
}
passcnt = 0;
for (dlli = 0; dlli < 76; dlli++) {
ast_moutdwm(ast, 0x1E6E0068, 0x00001400 | (dlli << 16) | (dlli << 24));
ast_moutdwm(ast, 0x1E6E0074, CBR_SIZE1);
data = cbr_scan2(ast);
if (data != 0) {
mask = 0x00010001;
for (cnt = 0; cnt < 16; cnt++) {
if (data & mask) {
if (dllmin[cnt] > dlli) {
dllmin[cnt] = dlli;
}
if (dllmax[cnt] < dlli) {
dllmax[cnt] = dlli;
}
}
mask <<= 1;
}
passcnt++;
} else if (passcnt >= CBR_THRESHOLD2) {
break;
}
}
gold_sadj[0] = 0x0;
passcnt = 0;
for (cnt = 0; cnt < 16; cnt++) {
if ((dllmax[cnt] > dllmin[cnt]) && ((dllmax[cnt] - dllmin[cnt]) >= CBR_THRESHOLD2)) {
gold_sadj[0] += dllmin[cnt];
passcnt++;
}
}
if (retry++ > 10)
goto FINETUNE_DONE;
if (passcnt != 16) {
goto FINETUNE_START;
}
status = true;
FINETUNE_DONE:
gold_sadj[0] = gold_sadj[0] >> 4;
gold_sadj[1] = gold_sadj[0];
data = 0;
for (cnt = 0; cnt < 8; cnt++) {
data >>= 3;
if ((dllmax[cnt] > dllmin[cnt]) && ((dllmax[cnt] - dllmin[cnt]) >= CBR_THRESHOLD2)) {
dlli = dllmin[cnt];
if (gold_sadj[0] >= dlli) {
dlli = ((gold_sadj[0] - dlli) * 19) >> 5;
if (dlli > 3) {
dlli = 3;
}
} else {
dlli = ((dlli - gold_sadj[0]) * 19) >> 5;
if (dlli > 4) {
dlli = 4;
}
dlli = (8 - dlli) & 0x7;
}
data |= dlli << 21;
}
}
ast_moutdwm(ast, 0x1E6E0080, data);
data = 0;
for (cnt = 8; cnt < 16; cnt++) {
data >>= 3;
if ((dllmax[cnt] > dllmin[cnt]) && ((dllmax[cnt] - dllmin[cnt]) >= CBR_THRESHOLD2)) {
dlli = dllmin[cnt];
if (gold_sadj[1] >= dlli) {
dlli = ((gold_sadj[1] - dlli) * 19) >> 5;
if (dlli > 3) {
dlli = 3;
} else {
dlli = (dlli - 1) & 0x7;
}
} else {
dlli = ((dlli - gold_sadj[1]) * 19) >> 5;
dlli += 1;
if (dlli > 4) {
dlli = 4;
}
dlli = (8 - dlli) & 0x7;
}
data |= dlli << 21;
}
}
ast_moutdwm(ast, 0x1E6E0084, data);
return status;
} /* finetuneDQI_L */
2023-10-24 12:59:35 +02:00
static void finetuneDQSI(struct ast_device *ast)
2023-08-30 17:31:07 +02:00
{
u32 dlli, dqsip, dqidly;
u32 reg_mcr18, reg_mcr0c, passcnt[2], diff;
u32 g_dqidly, g_dqsip, g_margin, g_side;
u16 pass[32][2][2];
char tag[2][76];
/* Disable DQI CBR */
reg_mcr0c = ast_mindwm(ast, 0x1E6E000C);
reg_mcr18 = ast_mindwm(ast, 0x1E6E0018);
reg_mcr18 &= 0x0000ffff;
ast_moutdwm(ast, 0x1E6E0018, reg_mcr18);
for (dlli = 0; dlli < 76; dlli++) {
tag[0][dlli] = 0x0;
tag[1][dlli] = 0x0;
}
for (dqidly = 0; dqidly < 32; dqidly++) {
pass[dqidly][0][0] = 0xff;
pass[dqidly][0][1] = 0x0;
pass[dqidly][1][0] = 0xff;
pass[dqidly][1][1] = 0x0;
}
for (dqidly = 0; dqidly < 32; dqidly++) {
passcnt[0] = passcnt[1] = 0;
for (dqsip = 0; dqsip < 2; dqsip++) {
ast_moutdwm(ast, 0x1E6E000C, 0);
ast_moutdwm(ast, 0x1E6E0018, reg_mcr18 | (dqidly << 16) | (dqsip << 23));
ast_moutdwm(ast, 0x1E6E000C, reg_mcr0c);
for (dlli = 0; dlli < 76; dlli++) {
ast_moutdwm(ast, 0x1E6E0068, 0x00001300 | (dlli << 16) | (dlli << 24));
ast_moutdwm(ast, 0x1E6E0070, 0);
ast_moutdwm(ast, 0x1E6E0074, CBR_SIZE0);
if (cbr_scan3(ast)) {
if (dlli == 0)
break;
passcnt[dqsip]++;
tag[dqsip][dlli] = 'P';
if (dlli < pass[dqidly][dqsip][0])
pass[dqidly][dqsip][0] = (u16) dlli;
if (dlli > pass[dqidly][dqsip][1])
pass[dqidly][dqsip][1] = (u16) dlli;
} else if (passcnt[dqsip] >= 5)
break;
else {
pass[dqidly][dqsip][0] = 0xff;
pass[dqidly][dqsip][1] = 0x0;
}
}
}
if (passcnt[0] == 0 && passcnt[1] == 0)
dqidly++;
}
/* Search margin */
g_dqidly = g_dqsip = g_margin = g_side = 0;
for (dqidly = 0; dqidly < 32; dqidly++) {
for (dqsip = 0; dqsip < 2; dqsip++) {
if (pass[dqidly][dqsip][0] > pass[dqidly][dqsip][1])
continue;
diff = pass[dqidly][dqsip][1] - pass[dqidly][dqsip][0];
if ((diff+2) < g_margin)
continue;
passcnt[0] = passcnt[1] = 0;
for (dlli = pass[dqidly][dqsip][0]; dlli > 0 && tag[dqsip][dlli] != 0; dlli--, passcnt[0]++);
for (dlli = pass[dqidly][dqsip][1]; dlli < 76 && tag[dqsip][dlli] != 0; dlli++, passcnt[1]++);
if (passcnt[0] > passcnt[1])
passcnt[0] = passcnt[1];
passcnt[1] = 0;
if (passcnt[0] > g_side)
passcnt[1] = passcnt[0] - g_side;
if (diff > (g_margin+1) && (passcnt[1] > 0 || passcnt[0] > 8)) {
g_margin = diff;
g_dqidly = dqidly;
g_dqsip = dqsip;
g_side = passcnt[0];
} else if (passcnt[1] > 1 && g_side < 8) {
if (diff > g_margin)
g_margin = diff;
g_dqidly = dqidly;
g_dqsip = dqsip;
g_side = passcnt[0];
}
}
}
reg_mcr18 = reg_mcr18 | (g_dqidly << 16) | (g_dqsip << 23);
ast_moutdwm(ast, 0x1E6E0018, reg_mcr18);
}
2023-10-24 12:59:35 +02:00
static bool cbr_dll2(struct ast_device *ast, struct ast2300_dram_param *param)
2023-08-30 17:31:07 +02:00
{
u32 dllmin[2], dllmax[2], dlli, data, passcnt, retry = 0;
bool status = false;
finetuneDQSI(ast);
if (finetuneDQI_L(ast, param) == false)
return status;
CBR_START2:
dllmin[0] = dllmin[1] = 0xff;
dllmax[0] = dllmax[1] = 0x0;
passcnt = 0;
for (dlli = 0; dlli < 76; dlli++) {
ast_moutdwm(ast, 0x1E6E0068, 0x00001300 | (dlli << 16) | (dlli << 24));
ast_moutdwm(ast, 0x1E6E0074, CBR_SIZE2);
data = cbr_scan(ast);
if (data != 0) {
if (data & 0x1) {
if (dllmin[0] > dlli) {
dllmin[0] = dlli;
}
if (dllmax[0] < dlli) {
dllmax[0] = dlli;
}
}
if (data & 0x2) {
if (dllmin[1] > dlli) {
dllmin[1] = dlli;
}
if (dllmax[1] < dlli) {
dllmax[1] = dlli;
}
}
passcnt++;
} else if (passcnt >= CBR_THRESHOLD) {
break;
}
}
if (retry++ > 10)
goto CBR_DONE2;
if (dllmax[0] == 0 || (dllmax[0]-dllmin[0]) < CBR_THRESHOLD) {
goto CBR_START2;
}
if (dllmax[1] == 0 || (dllmax[1]-dllmin[1]) < CBR_THRESHOLD) {
goto CBR_START2;
}
status = true;
CBR_DONE2:
dlli = (dllmin[1] + dllmax[1]) >> 1;
dlli <<= 8;
dlli += (dllmin[0] + dllmax[0]) >> 1;
ast_moutdwm(ast, 0x1E6E0068, ast_mindwm(ast, 0x1E720058) | (dlli << 16));
return status;
} /* CBRDLL2 */
2023-10-24 12:59:35 +02:00
static void get_ddr3_info(struct ast_device *ast, struct ast2300_dram_param *param)
2023-08-30 17:31:07 +02:00
{
u32 trap, trap_AC2, trap_MRS;
ast_moutdwm(ast, 0x1E6E2000, 0x1688A8A8);
/* Ger trap info */
trap = (ast_mindwm(ast, 0x1E6E2070) >> 25) & 0x3;
trap_AC2 = 0x00020000 + (trap << 16);
trap_AC2 |= 0x00300000 + ((trap & 0x2) << 19);
trap_MRS = 0x00000010 + (trap << 4);
trap_MRS |= ((trap & 0x2) << 18);
param->reg_MADJ = 0x00034C4C;
param->reg_SADJ = 0x00001800;
param->reg_DRV = 0x000000F0;
param->reg_PERIOD = param->dram_freq;
param->rodt = 0;
switch (param->dram_freq) {
case 336:
ast_moutdwm(ast, 0x1E6E2020, 0x0190);
param->wodt = 0;
param->reg_AC1 = 0x22202725;
param->reg_AC2 = 0xAA007613 | trap_AC2;
param->reg_DQSIC = 0x000000BA;
param->reg_MRS = 0x04001400 | trap_MRS;
param->reg_EMRS = 0x00000000;
param->reg_IOZ = 0x00000023;
param->reg_DQIDLY = 0x00000074;
param->reg_FREQ = 0x00004DC0;
param->madj_max = 96;
param->dll2_finetune_step = 3;
switch (param->dram_chipid) {
default:
case AST_DRAM_512Mx16:
case AST_DRAM_1Gx16:
param->reg_AC2 = 0xAA007613 | trap_AC2;
break;
case AST_DRAM_2Gx16:
param->reg_AC2 = 0xAA00761C | trap_AC2;
break;
case AST_DRAM_4Gx16:
param->reg_AC2 = 0xAA007636 | trap_AC2;
break;
}
break;
default:
case 396:
ast_moutdwm(ast, 0x1E6E2020, 0x03F1);
param->wodt = 1;
param->reg_AC1 = 0x33302825;
param->reg_AC2 = 0xCC009617 | trap_AC2;
param->reg_DQSIC = 0x000000E2;
param->reg_MRS = 0x04001600 | trap_MRS;
param->reg_EMRS = 0x00000000;
param->reg_IOZ = 0x00000034;
param->reg_DRV = 0x000000FA;
param->reg_DQIDLY = 0x00000089;
param->reg_FREQ = 0x00005040;
param->madj_max = 96;
param->dll2_finetune_step = 4;
switch (param->dram_chipid) {
default:
case AST_DRAM_512Mx16:
case AST_DRAM_1Gx16:
param->reg_AC2 = 0xCC009617 | trap_AC2;
break;
case AST_DRAM_2Gx16:
param->reg_AC2 = 0xCC009622 | trap_AC2;
break;
case AST_DRAM_4Gx16:
param->reg_AC2 = 0xCC00963F | trap_AC2;
break;
}
break;
case 408:
ast_moutdwm(ast, 0x1E6E2020, 0x01F0);
param->wodt = 1;
param->reg_AC1 = 0x33302825;
param->reg_AC2 = 0xCC009617 | trap_AC2;
param->reg_DQSIC = 0x000000E2;
param->reg_MRS = 0x04001600 | trap_MRS;
param->reg_EMRS = 0x00000000;
param->reg_IOZ = 0x00000023;
param->reg_DRV = 0x000000FA;
param->reg_DQIDLY = 0x00000089;
param->reg_FREQ = 0x000050C0;
param->madj_max = 96;
param->dll2_finetune_step = 4;
switch (param->dram_chipid) {
default:
case AST_DRAM_512Mx16:
case AST_DRAM_1Gx16:
param->reg_AC2 = 0xCC009617 | trap_AC2;
break;
case AST_DRAM_2Gx16:
param->reg_AC2 = 0xCC009622 | trap_AC2;
break;
case AST_DRAM_4Gx16:
param->reg_AC2 = 0xCC00963F | trap_AC2;
break;
}
break;
case 456:
ast_moutdwm(ast, 0x1E6E2020, 0x0230);
param->wodt = 0;
param->reg_AC1 = 0x33302926;
param->reg_AC2 = 0xCD44961A;
param->reg_DQSIC = 0x000000FC;
param->reg_MRS = 0x00081830;
param->reg_EMRS = 0x00000000;
param->reg_IOZ = 0x00000045;
param->reg_DQIDLY = 0x00000097;
param->reg_FREQ = 0x000052C0;
param->madj_max = 88;
param->dll2_finetune_step = 4;
break;
case 504:
ast_moutdwm(ast, 0x1E6E2020, 0x0270);
param->wodt = 1;
param->reg_AC1 = 0x33302926;
param->reg_AC2 = 0xDE44A61D;
param->reg_DQSIC = 0x00000117;
param->reg_MRS = 0x00081A30;
param->reg_EMRS = 0x00000000;
param->reg_IOZ = 0x070000BB;
param->reg_DQIDLY = 0x000000A0;
param->reg_FREQ = 0x000054C0;
param->madj_max = 79;
param->dll2_finetune_step = 4;
break;
case 528:
ast_moutdwm(ast, 0x1E6E2020, 0x0290);
param->wodt = 1;
param->rodt = 1;
param->reg_AC1 = 0x33302926;
param->reg_AC2 = 0xEF44B61E;
param->reg_DQSIC = 0x00000125;
param->reg_MRS = 0x00081A30;
param->reg_EMRS = 0x00000040;
param->reg_DRV = 0x000000F5;
param->reg_IOZ = 0x00000023;
param->reg_DQIDLY = 0x00000088;
param->reg_FREQ = 0x000055C0;
param->madj_max = 76;
param->dll2_finetune_step = 3;
break;
case 576:
ast_moutdwm(ast, 0x1E6E2020, 0x0140);
param->reg_MADJ = 0x00136868;
param->reg_SADJ = 0x00004534;
param->wodt = 1;
param->rodt = 1;
param->reg_AC1 = 0x33302A37;
param->reg_AC2 = 0xEF56B61E;
param->reg_DQSIC = 0x0000013F;
param->reg_MRS = 0x00101A50;
param->reg_EMRS = 0x00000040;
param->reg_DRV = 0x000000FA;
param->reg_IOZ = 0x00000023;
param->reg_DQIDLY = 0x00000078;
param->reg_FREQ = 0x000057C0;
param->madj_max = 136;
param->dll2_finetune_step = 3;
break;
case 600:
ast_moutdwm(ast, 0x1E6E2020, 0x02E1);
param->reg_MADJ = 0x00136868;
param->reg_SADJ = 0x00004534;
param->wodt = 1;
param->rodt = 1;
param->reg_AC1 = 0x32302A37;
param->reg_AC2 = 0xDF56B61F;
param->reg_DQSIC = 0x0000014D;
param->reg_MRS = 0x00101A50;
param->reg_EMRS = 0x00000004;
param->reg_DRV = 0x000000F5;
param->reg_IOZ = 0x00000023;
param->reg_DQIDLY = 0x00000078;
param->reg_FREQ = 0x000058C0;
param->madj_max = 132;
param->dll2_finetune_step = 3;
break;
case 624:
ast_moutdwm(ast, 0x1E6E2020, 0x0160);
param->reg_MADJ = 0x00136868;
param->reg_SADJ = 0x00004534;
param->wodt = 1;
param->rodt = 1;
param->reg_AC1 = 0x32302A37;
param->reg_AC2 = 0xEF56B621;
param->reg_DQSIC = 0x0000015A;
param->reg_MRS = 0x02101A50;
param->reg_EMRS = 0x00000004;
param->reg_DRV = 0x000000F5;
param->reg_IOZ = 0x00000034;
param->reg_DQIDLY = 0x00000078;
param->reg_FREQ = 0x000059C0;
param->madj_max = 128;
param->dll2_finetune_step = 3;
break;
} /* switch freq */
switch (param->dram_chipid) {
case AST_DRAM_512Mx16:
param->dram_config = 0x130;
break;
default:
case AST_DRAM_1Gx16:
param->dram_config = 0x131;
break;
case AST_DRAM_2Gx16:
param->dram_config = 0x132;
break;
case AST_DRAM_4Gx16:
param->dram_config = 0x133;
break;
} /* switch size */
switch (param->vram_size) {
default:
case AST_VIDMEM_SIZE_8M:
param->dram_config |= 0x00;
break;
case AST_VIDMEM_SIZE_16M:
param->dram_config |= 0x04;
break;
case AST_VIDMEM_SIZE_32M:
param->dram_config |= 0x08;
break;
case AST_VIDMEM_SIZE_64M:
param->dram_config |= 0x0c;
break;
}
}
2023-10-24 12:59:35 +02:00
static void ddr3_init(struct ast_device *ast, struct ast2300_dram_param *param)
2023-08-30 17:31:07 +02:00
{
u32 data, data2, retry = 0;
ddr3_init_start:
ast_moutdwm(ast, 0x1E6E0000, 0xFC600309);
ast_moutdwm(ast, 0x1E6E0018, 0x00000100);
ast_moutdwm(ast, 0x1E6E0024, 0x00000000);
ast_moutdwm(ast, 0x1E6E0034, 0x00000000);
udelay(10);
ast_moutdwm(ast, 0x1E6E0064, param->reg_MADJ);
ast_moutdwm(ast, 0x1E6E0068, param->reg_SADJ);
udelay(10);
ast_moutdwm(ast, 0x1E6E0064, param->reg_MADJ | 0xC0000);
udelay(10);
ast_moutdwm(ast, 0x1E6E0004, param->dram_config);
ast_moutdwm(ast, 0x1E6E0008, 0x90040f);
ast_moutdwm(ast, 0x1E6E0010, param->reg_AC1);
ast_moutdwm(ast, 0x1E6E0014, param->reg_AC2);
ast_moutdwm(ast, 0x1E6E0020, param->reg_DQSIC);
ast_moutdwm(ast, 0x1E6E0080, 0x00000000);
ast_moutdwm(ast, 0x1E6E0084, 0x00000000);
ast_moutdwm(ast, 0x1E6E0088, param->reg_DQIDLY);
ast_moutdwm(ast, 0x1E6E0018, 0x4000A170);
ast_moutdwm(ast, 0x1E6E0018, 0x00002370);
ast_moutdwm(ast, 0x1E6E0038, 0x00000000);
ast_moutdwm(ast, 0x1E6E0040, 0xFF444444);
ast_moutdwm(ast, 0x1E6E0044, 0x22222222);
ast_moutdwm(ast, 0x1E6E0048, 0x22222222);
ast_moutdwm(ast, 0x1E6E004C, 0x00000002);
ast_moutdwm(ast, 0x1E6E0050, 0x80000000);
ast_moutdwm(ast, 0x1E6E0050, 0x00000000);
ast_moutdwm(ast, 0x1E6E0054, 0);
ast_moutdwm(ast, 0x1E6E0060, param->reg_DRV);
ast_moutdwm(ast, 0x1E6E006C, param->reg_IOZ);
ast_moutdwm(ast, 0x1E6E0070, 0x00000000);
ast_moutdwm(ast, 0x1E6E0074, 0x00000000);
ast_moutdwm(ast, 0x1E6E0078, 0x00000000);
ast_moutdwm(ast, 0x1E6E007C, 0x00000000);
/* Wait MCLK2X lock to MCLK */
do {
data = ast_mindwm(ast, 0x1E6E001C);
} while (!(data & 0x08000000));
data = ast_mindwm(ast, 0x1E6E001C);
data = (data >> 8) & 0xff;
while ((data & 0x08) || ((data & 0x7) < 2) || (data < 4)) {
data2 = (ast_mindwm(ast, 0x1E6E0064) & 0xfff3ffff) + 4;
if ((data2 & 0xff) > param->madj_max) {
break;
}
ast_moutdwm(ast, 0x1E6E0064, data2);
if (data2 & 0x00100000) {
data2 = ((data2 & 0xff) >> 3) + 3;
} else {
data2 = ((data2 & 0xff) >> 2) + 5;
}
data = ast_mindwm(ast, 0x1E6E0068) & 0xffff00ff;
data2 += data & 0xff;
data = data | (data2 << 8);
ast_moutdwm(ast, 0x1E6E0068, data);
udelay(10);
ast_moutdwm(ast, 0x1E6E0064, ast_mindwm(ast, 0x1E6E0064) | 0xC0000);
udelay(10);
data = ast_mindwm(ast, 0x1E6E0018) & 0xfffff1ff;
ast_moutdwm(ast, 0x1E6E0018, data);
data = data | 0x200;
ast_moutdwm(ast, 0x1E6E0018, data);
do {
data = ast_mindwm(ast, 0x1E6E001C);
} while (!(data & 0x08000000));
data = ast_mindwm(ast, 0x1E6E001C);
data = (data >> 8) & 0xff;
}
ast_moutdwm(ast, 0x1E720058, ast_mindwm(ast, 0x1E6E0068) & 0xffff);
data = ast_mindwm(ast, 0x1E6E0018) | 0xC00;
ast_moutdwm(ast, 0x1E6E0018, data);
ast_moutdwm(ast, 0x1E6E0034, 0x00000001);
ast_moutdwm(ast, 0x1E6E000C, 0x00000040);
udelay(50);
/* Mode Register Setting */
ast_moutdwm(ast, 0x1E6E002C, param->reg_MRS | 0x100);
ast_moutdwm(ast, 0x1E6E0030, param->reg_EMRS);
ast_moutdwm(ast, 0x1E6E0028, 0x00000005);
ast_moutdwm(ast, 0x1E6E0028, 0x00000007);
ast_moutdwm(ast, 0x1E6E0028, 0x00000003);
ast_moutdwm(ast, 0x1E6E0028, 0x00000001);
ast_moutdwm(ast, 0x1E6E002C, param->reg_MRS);
ast_moutdwm(ast, 0x1E6E000C, 0x00005C08);
ast_moutdwm(ast, 0x1E6E0028, 0x00000001);
ast_moutdwm(ast, 0x1E6E000C, 0x00005C01);
data = 0;
if (param->wodt) {
data = 0x300;
}
if (param->rodt) {
data = data | 0x3000 | ((param->reg_AC2 & 0x60000) >> 3);
}
ast_moutdwm(ast, 0x1E6E0034, data | 0x3);
/* Calibrate the DQSI delay */
if ((cbr_dll2(ast, param) == false) && (retry++ < 10))
goto ddr3_init_start;
ast_moutdwm(ast, 0x1E6E0120, param->reg_FREQ);
/* ECC Memory Initialization */
#ifdef ECC
ast_moutdwm(ast, 0x1E6E007C, 0x00000000);
ast_moutdwm(ast, 0x1E6E0070, 0x221);
do {
data = ast_mindwm(ast, 0x1E6E0070);
} while (!(data & 0x00001000));
ast_moutdwm(ast, 0x1E6E0070, 0x00000000);
ast_moutdwm(ast, 0x1E6E0050, 0x80000000);
ast_moutdwm(ast, 0x1E6E0050, 0x00000000);
#endif
}
2023-10-24 12:59:35 +02:00
static void get_ddr2_info(struct ast_device *ast, struct ast2300_dram_param *param)
2023-08-30 17:31:07 +02:00
{
u32 trap, trap_AC2, trap_MRS;
ast_moutdwm(ast, 0x1E6E2000, 0x1688A8A8);
/* Ger trap info */
trap = (ast_mindwm(ast, 0x1E6E2070) >> 25) & 0x3;
trap_AC2 = (trap << 20) | (trap << 16);
trap_AC2 += 0x00110000;
trap_MRS = 0x00000040 | (trap << 4);
param->reg_MADJ = 0x00034C4C;
param->reg_SADJ = 0x00001800;
param->reg_DRV = 0x000000F0;
param->reg_PERIOD = param->dram_freq;
param->rodt = 0;
switch (param->dram_freq) {
case 264:
ast_moutdwm(ast, 0x1E6E2020, 0x0130);
param->wodt = 0;
param->reg_AC1 = 0x11101513;
param->reg_AC2 = 0x78117011;
param->reg_DQSIC = 0x00000092;
param->reg_MRS = 0x00000842;
param->reg_EMRS = 0x00000000;
param->reg_DRV = 0x000000F0;
param->reg_IOZ = 0x00000034;
param->reg_DQIDLY = 0x0000005A;
param->reg_FREQ = 0x00004AC0;
param->madj_max = 138;
param->dll2_finetune_step = 3;
break;
case 336:
ast_moutdwm(ast, 0x1E6E2020, 0x0190);
param->wodt = 1;
param->reg_AC1 = 0x22202613;
param->reg_AC2 = 0xAA009016 | trap_AC2;
param->reg_DQSIC = 0x000000BA;
param->reg_MRS = 0x00000A02 | trap_MRS;
param->reg_EMRS = 0x00000040;
param->reg_DRV = 0x000000FA;
param->reg_IOZ = 0x00000034;
param->reg_DQIDLY = 0x00000074;
param->reg_FREQ = 0x00004DC0;
param->madj_max = 96;
param->dll2_finetune_step = 3;
switch (param->dram_chipid) {
default:
case AST_DRAM_512Mx16:
param->reg_AC2 = 0xAA009012 | trap_AC2;
break;
case AST_DRAM_1Gx16:
param->reg_AC2 = 0xAA009016 | trap_AC2;
break;
case AST_DRAM_2Gx16:
param->reg_AC2 = 0xAA009023 | trap_AC2;
break;
case AST_DRAM_4Gx16:
param->reg_AC2 = 0xAA00903B | trap_AC2;
break;
}
break;
default:
case 396:
ast_moutdwm(ast, 0x1E6E2020, 0x03F1);
param->wodt = 1;
param->rodt = 0;
param->reg_AC1 = 0x33302714;
param->reg_AC2 = 0xCC00B01B | trap_AC2;
param->reg_DQSIC = 0x000000E2;
param->reg_MRS = 0x00000C02 | trap_MRS;
param->reg_EMRS = 0x00000040;
param->reg_DRV = 0x000000FA;
param->reg_IOZ = 0x00000034;
param->reg_DQIDLY = 0x00000089;
param->reg_FREQ = 0x00005040;
param->madj_max = 96;
param->dll2_finetune_step = 4;
switch (param->dram_chipid) {
case AST_DRAM_512Mx16:
param->reg_AC2 = 0xCC00B016 | trap_AC2;
break;
default:
case AST_DRAM_1Gx16:
param->reg_AC2 = 0xCC00B01B | trap_AC2;
break;
case AST_DRAM_2Gx16:
param->reg_AC2 = 0xCC00B02B | trap_AC2;
break;
case AST_DRAM_4Gx16:
param->reg_AC2 = 0xCC00B03F | trap_AC2;
break;
}
break;
case 408:
ast_moutdwm(ast, 0x1E6E2020, 0x01F0);
param->wodt = 1;
param->rodt = 0;
param->reg_AC1 = 0x33302714;
param->reg_AC2 = 0xCC00B01B | trap_AC2;
param->reg_DQSIC = 0x000000E2;
param->reg_MRS = 0x00000C02 | trap_MRS;
param->reg_EMRS = 0x00000040;
param->reg_DRV = 0x000000FA;
param->reg_IOZ = 0x00000034;
param->reg_DQIDLY = 0x00000089;
param->reg_FREQ = 0x000050C0;
param->madj_max = 96;
param->dll2_finetune_step = 4;
switch (param->dram_chipid) {
case AST_DRAM_512Mx16:
param->reg_AC2 = 0xCC00B016 | trap_AC2;
break;
default:
case AST_DRAM_1Gx16:
param->reg_AC2 = 0xCC00B01B | trap_AC2;
break;
case AST_DRAM_2Gx16:
param->reg_AC2 = 0xCC00B02B | trap_AC2;
break;
case AST_DRAM_4Gx16:
param->reg_AC2 = 0xCC00B03F | trap_AC2;
break;
}
break;
case 456:
ast_moutdwm(ast, 0x1E6E2020, 0x0230);
param->wodt = 0;
param->reg_AC1 = 0x33302815;
param->reg_AC2 = 0xCD44B01E;
param->reg_DQSIC = 0x000000FC;
param->reg_MRS = 0x00000E72;
param->reg_EMRS = 0x00000000;
param->reg_DRV = 0x00000000;
param->reg_IOZ = 0x00000034;
param->reg_DQIDLY = 0x00000097;
param->reg_FREQ = 0x000052C0;
param->madj_max = 88;
param->dll2_finetune_step = 3;
break;
case 504:
ast_moutdwm(ast, 0x1E6E2020, 0x0261);
param->wodt = 1;
param->rodt = 1;
param->reg_AC1 = 0x33302815;
param->reg_AC2 = 0xDE44C022;
param->reg_DQSIC = 0x00000117;
param->reg_MRS = 0x00000E72;
param->reg_EMRS = 0x00000040;
param->reg_DRV = 0x0000000A;
param->reg_IOZ = 0x00000045;
param->reg_DQIDLY = 0x000000A0;
param->reg_FREQ = 0x000054C0;
param->madj_max = 79;
param->dll2_finetune_step = 3;
break;
case 528:
ast_moutdwm(ast, 0x1E6E2020, 0x0120);
param->wodt = 1;
param->rodt = 1;
param->reg_AC1 = 0x33302815;
param->reg_AC2 = 0xEF44D024;
param->reg_DQSIC = 0x00000125;
param->reg_MRS = 0x00000E72;
param->reg_EMRS = 0x00000004;
param->reg_DRV = 0x000000F9;
param->reg_IOZ = 0x00000045;
param->reg_DQIDLY = 0x000000A7;
param->reg_FREQ = 0x000055C0;
param->madj_max = 76;
param->dll2_finetune_step = 3;
break;
case 552:
ast_moutdwm(ast, 0x1E6E2020, 0x02A1);
param->wodt = 1;
param->rodt = 1;
param->reg_AC1 = 0x43402915;
param->reg_AC2 = 0xFF44E025;
param->reg_DQSIC = 0x00000132;
param->reg_MRS = 0x00000E72;
param->reg_EMRS = 0x00000040;
param->reg_DRV = 0x0000000A;
param->reg_IOZ = 0x00000045;
param->reg_DQIDLY = 0x000000AD;
param->reg_FREQ = 0x000056C0;
param->madj_max = 76;
param->dll2_finetune_step = 3;
break;
case 576:
ast_moutdwm(ast, 0x1E6E2020, 0x0140);
param->wodt = 1;
param->rodt = 1;
param->reg_AC1 = 0x43402915;
param->reg_AC2 = 0xFF44E027;
param->reg_DQSIC = 0x0000013F;
param->reg_MRS = 0x00000E72;
param->reg_EMRS = 0x00000004;
param->reg_DRV = 0x000000F5;
param->reg_IOZ = 0x00000045;
param->reg_DQIDLY = 0x000000B3;
param->reg_FREQ = 0x000057C0;
param->madj_max = 76;
param->dll2_finetune_step = 3;
break;
}
switch (param->dram_chipid) {
case AST_DRAM_512Mx16:
param->dram_config = 0x100;
break;
default:
case AST_DRAM_1Gx16:
param->dram_config = 0x121;
break;
case AST_DRAM_2Gx16:
param->dram_config = 0x122;
break;
case AST_DRAM_4Gx16:
param->dram_config = 0x123;
break;
} /* switch size */
switch (param->vram_size) {
default:
case AST_VIDMEM_SIZE_8M:
param->dram_config |= 0x00;
break;
case AST_VIDMEM_SIZE_16M:
param->dram_config |= 0x04;
break;
case AST_VIDMEM_SIZE_32M:
param->dram_config |= 0x08;
break;
case AST_VIDMEM_SIZE_64M:
param->dram_config |= 0x0c;
break;
}
}
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static void ddr2_init(struct ast_device *ast, struct ast2300_dram_param *param)
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{
u32 data, data2, retry = 0;
ddr2_init_start:
ast_moutdwm(ast, 0x1E6E0000, 0xFC600309);
ast_moutdwm(ast, 0x1E6E0018, 0x00000100);
ast_moutdwm(ast, 0x1E6E0024, 0x00000000);
ast_moutdwm(ast, 0x1E6E0064, param->reg_MADJ);
ast_moutdwm(ast, 0x1E6E0068, param->reg_SADJ);
udelay(10);
ast_moutdwm(ast, 0x1E6E0064, param->reg_MADJ | 0xC0000);
udelay(10);
ast_moutdwm(ast, 0x1E6E0004, param->dram_config);
ast_moutdwm(ast, 0x1E6E0008, 0x90040f);
ast_moutdwm(ast, 0x1E6E0010, param->reg_AC1);
ast_moutdwm(ast, 0x1E6E0014, param->reg_AC2);
ast_moutdwm(ast, 0x1E6E0020, param->reg_DQSIC);
ast_moutdwm(ast, 0x1E6E0080, 0x00000000);
ast_moutdwm(ast, 0x1E6E0084, 0x00000000);
ast_moutdwm(ast, 0x1E6E0088, param->reg_DQIDLY);
ast_moutdwm(ast, 0x1E6E0018, 0x4000A130);
ast_moutdwm(ast, 0x1E6E0018, 0x00002330);
ast_moutdwm(ast, 0x1E6E0038, 0x00000000);
ast_moutdwm(ast, 0x1E6E0040, 0xFF808000);
ast_moutdwm(ast, 0x1E6E0044, 0x88848466);
ast_moutdwm(ast, 0x1E6E0048, 0x44440008);
ast_moutdwm(ast, 0x1E6E004C, 0x00000000);
ast_moutdwm(ast, 0x1E6E0050, 0x80000000);
ast_moutdwm(ast, 0x1E6E0050, 0x00000000);
ast_moutdwm(ast, 0x1E6E0054, 0);
ast_moutdwm(ast, 0x1E6E0060, param->reg_DRV);
ast_moutdwm(ast, 0x1E6E006C, param->reg_IOZ);
ast_moutdwm(ast, 0x1E6E0070, 0x00000000);
ast_moutdwm(ast, 0x1E6E0074, 0x00000000);
ast_moutdwm(ast, 0x1E6E0078, 0x00000000);
ast_moutdwm(ast, 0x1E6E007C, 0x00000000);
/* Wait MCLK2X lock to MCLK */
do {
data = ast_mindwm(ast, 0x1E6E001C);
} while (!(data & 0x08000000));
data = ast_mindwm(ast, 0x1E6E001C);
data = (data >> 8) & 0xff;
while ((data & 0x08) || ((data & 0x7) < 2) || (data < 4)) {
data2 = (ast_mindwm(ast, 0x1E6E0064) & 0xfff3ffff) + 4;
if ((data2 & 0xff) > param->madj_max) {
break;
}
ast_moutdwm(ast, 0x1E6E0064, data2);
if (data2 & 0x00100000) {
data2 = ((data2 & 0xff) >> 3) + 3;
} else {
data2 = ((data2 & 0xff) >> 2) + 5;
}
data = ast_mindwm(ast, 0x1E6E0068) & 0xffff00ff;
data2 += data & 0xff;
data = data | (data2 << 8);
ast_moutdwm(ast, 0x1E6E0068, data);
udelay(10);
ast_moutdwm(ast, 0x1E6E0064, ast_mindwm(ast, 0x1E6E0064) | 0xC0000);
udelay(10);
data = ast_mindwm(ast, 0x1E6E0018) & 0xfffff1ff;
ast_moutdwm(ast, 0x1E6E0018, data);
data = data | 0x200;
ast_moutdwm(ast, 0x1E6E0018, data);
do {
data = ast_mindwm(ast, 0x1E6E001C);
} while (!(data & 0x08000000));
data = ast_mindwm(ast, 0x1E6E001C);
data = (data >> 8) & 0xff;
}
ast_moutdwm(ast, 0x1E720058, ast_mindwm(ast, 0x1E6E0008) & 0xffff);
data = ast_mindwm(ast, 0x1E6E0018) | 0xC00;
ast_moutdwm(ast, 0x1E6E0018, data);
ast_moutdwm(ast, 0x1E6E0034, 0x00000001);
ast_moutdwm(ast, 0x1E6E000C, 0x00000000);
udelay(50);
/* Mode Register Setting */
ast_moutdwm(ast, 0x1E6E002C, param->reg_MRS | 0x100);
ast_moutdwm(ast, 0x1E6E0030, param->reg_EMRS);
ast_moutdwm(ast, 0x1E6E0028, 0x00000005);
ast_moutdwm(ast, 0x1E6E0028, 0x00000007);
ast_moutdwm(ast, 0x1E6E0028, 0x00000003);
ast_moutdwm(ast, 0x1E6E0028, 0x00000001);
ast_moutdwm(ast, 0x1E6E000C, 0x00005C08);
ast_moutdwm(ast, 0x1E6E002C, param->reg_MRS);
ast_moutdwm(ast, 0x1E6E0028, 0x00000001);
ast_moutdwm(ast, 0x1E6E0030, param->reg_EMRS | 0x380);
ast_moutdwm(ast, 0x1E6E0028, 0x00000003);
ast_moutdwm(ast, 0x1E6E0030, param->reg_EMRS);
ast_moutdwm(ast, 0x1E6E0028, 0x00000003);
ast_moutdwm(ast, 0x1E6E000C, 0x7FFF5C01);
data = 0;
if (param->wodt) {
data = 0x500;
}
if (param->rodt) {
data = data | 0x3000 | ((param->reg_AC2 & 0x60000) >> 3);
}
ast_moutdwm(ast, 0x1E6E0034, data | 0x3);
ast_moutdwm(ast, 0x1E6E0120, param->reg_FREQ);
/* Calibrate the DQSI delay */
if ((cbr_dll2(ast, param) == false) && (retry++ < 10))
goto ddr2_init_start;
/* ECC Memory Initialization */
#ifdef ECC
ast_moutdwm(ast, 0x1E6E007C, 0x00000000);
ast_moutdwm(ast, 0x1E6E0070, 0x221);
do {
data = ast_mindwm(ast, 0x1E6E0070);
} while (!(data & 0x00001000));
ast_moutdwm(ast, 0x1E6E0070, 0x00000000);
ast_moutdwm(ast, 0x1E6E0050, 0x80000000);
ast_moutdwm(ast, 0x1E6E0050, 0x00000000);
#endif
}
static void ast_post_chip_2300(struct drm_device *dev)
{
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struct ast_device *ast = to_ast_device(dev);
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struct ast2300_dram_param param;
u32 temp;
u8 reg;
reg = ast_get_index_reg_mask(ast, AST_IO_CRTC_PORT, 0xd0, 0xff);
if ((reg & 0x80) == 0) {/* vga only */
ast_write32(ast, 0xf004, 0x1e6e0000);
ast_write32(ast, 0xf000, 0x1);
ast_write32(ast, 0x12000, 0x1688a8a8);
do {
;
} while (ast_read32(ast, 0x12000) != 0x1);
ast_write32(ast, 0x10000, 0xfc600309);
do {
;
} while (ast_read32(ast, 0x10000) != 0x1);
/* Slow down CPU/AHB CLK in VGA only mode */
temp = ast_read32(ast, 0x12008);
temp |= 0x73;
ast_write32(ast, 0x12008, temp);
param.dram_freq = 396;
param.dram_type = AST_DDR3;
temp = ast_mindwm(ast, 0x1e6e2070);
if (temp & 0x01000000)
param.dram_type = AST_DDR2;
switch (temp & 0x18000000) {
case 0:
param.dram_chipid = AST_DRAM_512Mx16;
break;
default:
case 0x08000000:
param.dram_chipid = AST_DRAM_1Gx16;
break;
case 0x10000000:
param.dram_chipid = AST_DRAM_2Gx16;
break;
case 0x18000000:
param.dram_chipid = AST_DRAM_4Gx16;
break;
}
switch (temp & 0x0c) {
default:
case 0x00:
param.vram_size = AST_VIDMEM_SIZE_8M;
break;
case 0x04:
param.vram_size = AST_VIDMEM_SIZE_16M;
break;
case 0x08:
param.vram_size = AST_VIDMEM_SIZE_32M;
break;
case 0x0c:
param.vram_size = AST_VIDMEM_SIZE_64M;
break;
}
if (param.dram_type == AST_DDR3) {
get_ddr3_info(ast, &param);
ddr3_init(ast, &param);
} else {
get_ddr2_info(ast, &param);
ddr2_init(ast, &param);
}
temp = ast_mindwm(ast, 0x1e6e2040);
ast_moutdwm(ast, 0x1e6e2040, temp | 0x40);
}
/* wait ready */
do {
reg = ast_get_index_reg_mask(ast, AST_IO_CRTC_PORT, 0xd0, 0xff);
} while ((reg & 0x40) == 0);
}
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static bool cbr_test_2500(struct ast_device *ast)
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{
ast_moutdwm(ast, 0x1E6E0074, 0x0000FFFF);
ast_moutdwm(ast, 0x1E6E007C, 0xFF00FF00);
if (!mmc_test_burst(ast, 0))
return false;
if (!mmc_test_single_2500(ast, 0))
return false;
return true;
}
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static bool ddr_test_2500(struct ast_device *ast)
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{
ast_moutdwm(ast, 0x1E6E0074, 0x0000FFFF);
ast_moutdwm(ast, 0x1E6E007C, 0xFF00FF00);
if (!mmc_test_burst(ast, 0))
return false;
if (!mmc_test_burst(ast, 1))
return false;
if (!mmc_test_burst(ast, 2))
return false;
if (!mmc_test_burst(ast, 3))
return false;
if (!mmc_test_single_2500(ast, 0))
return false;
return true;
}
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static void ddr_init_common_2500(struct ast_device *ast)
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{
ast_moutdwm(ast, 0x1E6E0034, 0x00020080);
ast_moutdwm(ast, 0x1E6E0008, 0x2003000F);
ast_moutdwm(ast, 0x1E6E0038, 0x00000FFF);
ast_moutdwm(ast, 0x1E6E0040, 0x88448844);
ast_moutdwm(ast, 0x1E6E0044, 0x24422288);
ast_moutdwm(ast, 0x1E6E0048, 0x22222222);
ast_moutdwm(ast, 0x1E6E004C, 0x22222222);
ast_moutdwm(ast, 0x1E6E0050, 0x80000000);
ast_moutdwm(ast, 0x1E6E0208, 0x00000000);
ast_moutdwm(ast, 0x1E6E0218, 0x00000000);
ast_moutdwm(ast, 0x1E6E0220, 0x00000000);
ast_moutdwm(ast, 0x1E6E0228, 0x00000000);
ast_moutdwm(ast, 0x1E6E0230, 0x00000000);
ast_moutdwm(ast, 0x1E6E02A8, 0x00000000);
ast_moutdwm(ast, 0x1E6E02B0, 0x00000000);
ast_moutdwm(ast, 0x1E6E0240, 0x86000000);
ast_moutdwm(ast, 0x1E6E0244, 0x00008600);
ast_moutdwm(ast, 0x1E6E0248, 0x80000000);
ast_moutdwm(ast, 0x1E6E024C, 0x80808080);
}
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static void ddr_phy_init_2500(struct ast_device *ast)
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{
u32 data, pass, timecnt;
pass = 0;
ast_moutdwm(ast, 0x1E6E0060, 0x00000005);
while (!pass) {
for (timecnt = 0; timecnt < TIMEOUT; timecnt++) {
data = ast_mindwm(ast, 0x1E6E0060) & 0x1;
if (!data)
break;
}
if (timecnt != TIMEOUT) {
data = ast_mindwm(ast, 0x1E6E0300) & 0x000A0000;
if (!data)
pass = 1;
}
if (!pass) {
ast_moutdwm(ast, 0x1E6E0060, 0x00000000);
udelay(10); /* delay 10 us */
ast_moutdwm(ast, 0x1E6E0060, 0x00000005);
}
}
ast_moutdwm(ast, 0x1E6E0060, 0x00000006);
}
/*
* Check DRAM Size
* 1Gb : 0x80000000 ~ 0x87FFFFFF
* 2Gb : 0x80000000 ~ 0x8FFFFFFF
* 4Gb : 0x80000000 ~ 0x9FFFFFFF
* 8Gb : 0x80000000 ~ 0xBFFFFFFF
*/
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static void check_dram_size_2500(struct ast_device *ast, u32 tRFC)
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{
u32 reg_04, reg_14;
reg_04 = ast_mindwm(ast, 0x1E6E0004) & 0xfffffffc;
reg_14 = ast_mindwm(ast, 0x1E6E0014) & 0xffffff00;
ast_moutdwm(ast, 0xA0100000, 0x41424344);
ast_moutdwm(ast, 0x90100000, 0x35363738);
ast_moutdwm(ast, 0x88100000, 0x292A2B2C);
ast_moutdwm(ast, 0x80100000, 0x1D1E1F10);
/* Check 8Gbit */
if (ast_mindwm(ast, 0xA0100000) == 0x41424344) {
reg_04 |= 0x03;
reg_14 |= (tRFC >> 24) & 0xFF;
/* Check 4Gbit */
} else if (ast_mindwm(ast, 0x90100000) == 0x35363738) {
reg_04 |= 0x02;
reg_14 |= (tRFC >> 16) & 0xFF;
/* Check 2Gbit */
} else if (ast_mindwm(ast, 0x88100000) == 0x292A2B2C) {
reg_04 |= 0x01;
reg_14 |= (tRFC >> 8) & 0xFF;
} else {
reg_14 |= tRFC & 0xFF;
}
ast_moutdwm(ast, 0x1E6E0004, reg_04);
ast_moutdwm(ast, 0x1E6E0014, reg_14);
}
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static void enable_cache_2500(struct ast_device *ast)
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{
u32 reg_04, data;
reg_04 = ast_mindwm(ast, 0x1E6E0004);
ast_moutdwm(ast, 0x1E6E0004, reg_04 | 0x1000);
do
data = ast_mindwm(ast, 0x1E6E0004);
while (!(data & 0x80000));
ast_moutdwm(ast, 0x1E6E0004, reg_04 | 0x400);
}
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static void set_mpll_2500(struct ast_device *ast)
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{
u32 addr, data, param;
/* Reset MMC */
ast_moutdwm(ast, 0x1E6E0000, 0xFC600309);
ast_moutdwm(ast, 0x1E6E0034, 0x00020080);
for (addr = 0x1e6e0004; addr < 0x1e6e0090;) {
ast_moutdwm(ast, addr, 0x0);
addr += 4;
}
ast_moutdwm(ast, 0x1E6E0034, 0x00020000);
ast_moutdwm(ast, 0x1E6E2000, 0x1688A8A8);
data = ast_mindwm(ast, 0x1E6E2070) & 0x00800000;
if (data) {
/* CLKIN = 25MHz */
param = 0x930023E0;
ast_moutdwm(ast, 0x1E6E2160, 0x00011320);
} else {
/* CLKIN = 24MHz */
param = 0x93002400;
}
ast_moutdwm(ast, 0x1E6E2020, param);
udelay(100);
}
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static void reset_mmc_2500(struct ast_device *ast)
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{
ast_moutdwm(ast, 0x1E78505C, 0x00000004);
ast_moutdwm(ast, 0x1E785044, 0x00000001);
ast_moutdwm(ast, 0x1E785048, 0x00004755);
ast_moutdwm(ast, 0x1E78504C, 0x00000013);
mdelay(100);
ast_moutdwm(ast, 0x1E785054, 0x00000077);
ast_moutdwm(ast, 0x1E6E0000, 0xFC600309);
}
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static void ddr3_init_2500(struct ast_device *ast, const u32 *ddr_table)
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{
ast_moutdwm(ast, 0x1E6E0004, 0x00000303);
ast_moutdwm(ast, 0x1E6E0010, ddr_table[REGIDX_010]);
ast_moutdwm(ast, 0x1E6E0014, ddr_table[REGIDX_014]);
ast_moutdwm(ast, 0x1E6E0018, ddr_table[REGIDX_018]);
ast_moutdwm(ast, 0x1E6E0020, ddr_table[REGIDX_020]); /* MODEREG4/6 */
ast_moutdwm(ast, 0x1E6E0024, ddr_table[REGIDX_024]); /* MODEREG5 */
ast_moutdwm(ast, 0x1E6E002C, ddr_table[REGIDX_02C] | 0x100); /* MODEREG0/2 */
ast_moutdwm(ast, 0x1E6E0030, ddr_table[REGIDX_030]); /* MODEREG1/3 */
/* DDR PHY Setting */
ast_moutdwm(ast, 0x1E6E0200, 0x02492AAE);
ast_moutdwm(ast, 0x1E6E0204, 0x00001001);
ast_moutdwm(ast, 0x1E6E020C, 0x55E00B0B);
ast_moutdwm(ast, 0x1E6E0210, 0x20000000);
ast_moutdwm(ast, 0x1E6E0214, ddr_table[REGIDX_214]);
ast_moutdwm(ast, 0x1E6E02E0, ddr_table[REGIDX_2E0]);
ast_moutdwm(ast, 0x1E6E02E4, ddr_table[REGIDX_2E4]);
ast_moutdwm(ast, 0x1E6E02E8, ddr_table[REGIDX_2E8]);
ast_moutdwm(ast, 0x1E6E02EC, ddr_table[REGIDX_2EC]);
ast_moutdwm(ast, 0x1E6E02F0, ddr_table[REGIDX_2F0]);
ast_moutdwm(ast, 0x1E6E02F4, ddr_table[REGIDX_2F4]);
ast_moutdwm(ast, 0x1E6E02F8, ddr_table[REGIDX_2F8]);
ast_moutdwm(ast, 0x1E6E0290, 0x00100008);
ast_moutdwm(ast, 0x1E6E02C0, 0x00000006);
/* Controller Setting */
ast_moutdwm(ast, 0x1E6E0034, 0x00020091);
/* Wait DDR PHY init done */
ddr_phy_init_2500(ast);
ast_moutdwm(ast, 0x1E6E0120, ddr_table[REGIDX_PLL]);
ast_moutdwm(ast, 0x1E6E000C, 0x42AA5C81);
ast_moutdwm(ast, 0x1E6E0034, 0x0001AF93);
check_dram_size_2500(ast, ddr_table[REGIDX_RFC]);
enable_cache_2500(ast);
ast_moutdwm(ast, 0x1E6E001C, 0x00000008);
ast_moutdwm(ast, 0x1E6E0038, 0xFFFFFF00);
}
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static void ddr4_init_2500(struct ast_device *ast, const u32 *ddr_table)
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{
u32 data, data2, pass, retrycnt;
u32 ddr_vref, phy_vref;
u32 min_ddr_vref = 0, min_phy_vref = 0;
u32 max_ddr_vref = 0, max_phy_vref = 0;
ast_moutdwm(ast, 0x1E6E0004, 0x00000313);
ast_moutdwm(ast, 0x1E6E0010, ddr_table[REGIDX_010]);
ast_moutdwm(ast, 0x1E6E0014, ddr_table[REGIDX_014]);
ast_moutdwm(ast, 0x1E6E0018, ddr_table[REGIDX_018]);
ast_moutdwm(ast, 0x1E6E0020, ddr_table[REGIDX_020]); /* MODEREG4/6 */
ast_moutdwm(ast, 0x1E6E0024, ddr_table[REGIDX_024]); /* MODEREG5 */
ast_moutdwm(ast, 0x1E6E002C, ddr_table[REGIDX_02C] | 0x100); /* MODEREG0/2 */
ast_moutdwm(ast, 0x1E6E0030, ddr_table[REGIDX_030]); /* MODEREG1/3 */
/* DDR PHY Setting */
ast_moutdwm(ast, 0x1E6E0200, 0x42492AAE);
ast_moutdwm(ast, 0x1E6E0204, 0x09002000);
ast_moutdwm(ast, 0x1E6E020C, 0x55E00B0B);
ast_moutdwm(ast, 0x1E6E0210, 0x20000000);
ast_moutdwm(ast, 0x1E6E0214, ddr_table[REGIDX_214]);
ast_moutdwm(ast, 0x1E6E02E0, ddr_table[REGIDX_2E0]);
ast_moutdwm(ast, 0x1E6E02E4, ddr_table[REGIDX_2E4]);
ast_moutdwm(ast, 0x1E6E02E8, ddr_table[REGIDX_2E8]);
ast_moutdwm(ast, 0x1E6E02EC, ddr_table[REGIDX_2EC]);
ast_moutdwm(ast, 0x1E6E02F0, ddr_table[REGIDX_2F0]);
ast_moutdwm(ast, 0x1E6E02F4, ddr_table[REGIDX_2F4]);
ast_moutdwm(ast, 0x1E6E02F8, ddr_table[REGIDX_2F8]);
ast_moutdwm(ast, 0x1E6E0290, 0x00100008);
ast_moutdwm(ast, 0x1E6E02C4, 0x3C183C3C);
ast_moutdwm(ast, 0x1E6E02C8, 0x00631E0E);
/* Controller Setting */
ast_moutdwm(ast, 0x1E6E0034, 0x0001A991);
/* Train PHY Vref first */
pass = 0;
for (retrycnt = 0; retrycnt < 4 && pass == 0; retrycnt++) {
max_phy_vref = 0x0;
pass = 0;
ast_moutdwm(ast, 0x1E6E02C0, 0x00001C06);
for (phy_vref = 0x40; phy_vref < 0x80; phy_vref++) {
ast_moutdwm(ast, 0x1E6E000C, 0x00000000);
ast_moutdwm(ast, 0x1E6E0060, 0x00000000);
ast_moutdwm(ast, 0x1E6E02CC, phy_vref | (phy_vref << 8));
/* Fire DFI Init */
ddr_phy_init_2500(ast);
ast_moutdwm(ast, 0x1E6E000C, 0x00005C01);
if (cbr_test_2500(ast)) {
pass++;
data = ast_mindwm(ast, 0x1E6E03D0);
data2 = data >> 8;
data = data & 0xff;
if (data > data2)
data = data2;
if (max_phy_vref < data) {
max_phy_vref = data;
min_phy_vref = phy_vref;
}
} else if (pass > 0)
break;
}
}
ast_moutdwm(ast, 0x1E6E02CC, min_phy_vref | (min_phy_vref << 8));
/* Train DDR Vref next */
pass = 0;
for (retrycnt = 0; retrycnt < 4 && pass == 0; retrycnt++) {
min_ddr_vref = 0xFF;
max_ddr_vref = 0x0;
pass = 0;
for (ddr_vref = 0x00; ddr_vref < 0x40; ddr_vref++) {
ast_moutdwm(ast, 0x1E6E000C, 0x00000000);
ast_moutdwm(ast, 0x1E6E0060, 0x00000000);
ast_moutdwm(ast, 0x1E6E02C0, 0x00000006 | (ddr_vref << 8));
/* Fire DFI Init */
ddr_phy_init_2500(ast);
ast_moutdwm(ast, 0x1E6E000C, 0x00005C01);
if (cbr_test_2500(ast)) {
pass++;
if (min_ddr_vref > ddr_vref)
min_ddr_vref = ddr_vref;
if (max_ddr_vref < ddr_vref)
max_ddr_vref = ddr_vref;
} else if (pass != 0)
break;
}
}
ast_moutdwm(ast, 0x1E6E000C, 0x00000000);
ast_moutdwm(ast, 0x1E6E0060, 0x00000000);
ddr_vref = (min_ddr_vref + max_ddr_vref + 1) >> 1;
ast_moutdwm(ast, 0x1E6E02C0, 0x00000006 | (ddr_vref << 8));
/* Wait DDR PHY init done */
ddr_phy_init_2500(ast);
ast_moutdwm(ast, 0x1E6E0120, ddr_table[REGIDX_PLL]);
ast_moutdwm(ast, 0x1E6E000C, 0x42AA5C81);
ast_moutdwm(ast, 0x1E6E0034, 0x0001AF93);
check_dram_size_2500(ast, ddr_table[REGIDX_RFC]);
enable_cache_2500(ast);
ast_moutdwm(ast, 0x1E6E001C, 0x00000008);
ast_moutdwm(ast, 0x1E6E0038, 0xFFFFFF00);
}
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static bool ast_dram_init_2500(struct ast_device *ast)
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{
u32 data;
u32 max_tries = 5;
do {
if (max_tries-- == 0)
return false;
set_mpll_2500(ast);
reset_mmc_2500(ast);
ddr_init_common_2500(ast);
data = ast_mindwm(ast, 0x1E6E2070);
if (data & 0x01000000)
ddr4_init_2500(ast, ast2500_ddr4_1600_timing_table);
else
ddr3_init_2500(ast, ast2500_ddr3_1600_timing_table);
} while (!ddr_test_2500(ast));
ast_moutdwm(ast, 0x1E6E2040, ast_mindwm(ast, 0x1E6E2040) | 0x41);
/* Patch code */
data = ast_mindwm(ast, 0x1E6E200C) & 0xF9FFFFFF;
ast_moutdwm(ast, 0x1E6E200C, data | 0x10000000);
return true;
}
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void ast_patch_ahb_2500(struct ast_device *ast)
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{
u32 data;
/* Clear bus lock condition */
ast_moutdwm(ast, 0x1e600000, 0xAEED1A03);
ast_moutdwm(ast, 0x1e600084, 0x00010000);
ast_moutdwm(ast, 0x1e600088, 0x00000000);
ast_moutdwm(ast, 0x1e6e2000, 0x1688A8A8);
data = ast_mindwm(ast, 0x1e6e2070);
if (data & 0x08000000) { /* check fast reset */
/*
* If "Fast restet" is enabled for ARM-ICE debugger,
* then WDT needs to enable, that
* WDT04 is WDT#1 Reload reg.
* WDT08 is WDT#1 counter restart reg to avoid system deadlock
* WDT0C is WDT#1 control reg
* [6:5]:= 01:Full chip
* [4]:= 1:1MHz clock source
* [1]:= 1:WDT will be cleeared and disabled after timeout occurs
* [0]:= 1:WDT enable
*/
ast_moutdwm(ast, 0x1E785004, 0x00000010);
ast_moutdwm(ast, 0x1E785008, 0x00004755);
ast_moutdwm(ast, 0x1E78500c, 0x00000033);
udelay(1000);
}
do {
ast_moutdwm(ast, 0x1e6e2000, 0x1688A8A8);
data = ast_mindwm(ast, 0x1e6e2000);
} while (data != 1);
ast_moutdwm(ast, 0x1e6e207c, 0x08000000); /* clear fast reset */
}
void ast_post_chip_2500(struct drm_device *dev)
{
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struct ast_device *ast = to_ast_device(dev);
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u32 temp;
u8 reg;
reg = ast_get_index_reg_mask(ast, AST_IO_CRTC_PORT, 0xd0, 0xff);
if ((reg & AST_VRAM_INIT_STATUS_MASK) == 0) {/* vga only */
/* Clear bus lock condition */
ast_patch_ahb_2500(ast);
/* Disable watchdog */
ast_moutdwm(ast, 0x1E78502C, 0x00000000);
ast_moutdwm(ast, 0x1E78504C, 0x00000000);
/*
* Reset USB port to patch USB unknown device issue
* SCU90 is Multi-function Pin Control #5
* [29]:= 1:Enable USB2.0 Host port#1 (that the mutually shared USB2.0 Hub
* port).
* SCU94 is Multi-function Pin Control #6
* [14:13]:= 1x:USB2.0 Host2 controller
* SCU70 is Hardware Strap reg
* [23]:= 1:CLKIN is 25MHz and USBCK1 = 24/48 MHz (determined by
* [18]: 0(24)/1(48) MHz)
* SCU7C is Write clear reg to SCU70
* [23]:= write 1 and then SCU70[23] will be clear as 0b.
*/
ast_moutdwm(ast, 0x1E6E2090, 0x20000000);
ast_moutdwm(ast, 0x1E6E2094, 0x00004000);
if (ast_mindwm(ast, 0x1E6E2070) & 0x00800000) {
ast_moutdwm(ast, 0x1E6E207C, 0x00800000);
mdelay(100);
ast_moutdwm(ast, 0x1E6E2070, 0x00800000);
}
/* Modify eSPI reset pin */
temp = ast_mindwm(ast, 0x1E6E2070);
if (temp & 0x02000000)
ast_moutdwm(ast, 0x1E6E207C, 0x00004000);
/* Slow down CPU/AHB CLK in VGA only mode */
temp = ast_read32(ast, 0x12008);
temp |= 0x73;
ast_write32(ast, 0x12008, temp);
if (!ast_dram_init_2500(ast))
drm_err(dev, "DRAM init failed !\n");
temp = ast_mindwm(ast, 0x1e6e2040);
ast_moutdwm(ast, 0x1e6e2040, temp | 0x40);
}
/* wait ready */
do {
reg = ast_get_index_reg_mask(ast, AST_IO_CRTC_PORT, 0xd0, 0xff);
} while ((reg & 0x40) == 0);
}