mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
synced 2024-11-29 12:35:53 +01:00
7c0aa811ec
Signed-off-by: Sergey Isakov <isakov-sl@bk.ru>
176 lines
5.4 KiB
C
176 lines
5.4 KiB
C
/*
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* nvidia_resolution.c
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*
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*
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* Created by Le Bidou on 19/03/10.
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* Copyright 2010 ---. All rights reserved.
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*
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*/
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#include "nvidia_resolution.h"
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vbios_map * open_nvidia_vbios(vbios_map *map)
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{
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UINT16 nv_data_table_offset = 0;
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UINT16 nv_modeline_2_offset = 0;
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UINT16 * nv_data_table = NULL;
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NV_VESA_TABLE * std_vesa;
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/*
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* Locate the VESA Tables
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*/
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int i = 0;
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while (i < 0x300) { //We don't need to look for the table in the whole bios, the 768 first bytes only
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if ((map->bios_ptr[i] == 0x44)
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&& (map->bios_ptr[i+1] == 0x01)
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&& (map->bios_ptr[i+2] == 0x04)
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&& (map->bios_ptr[i+3] == 0x00)) {
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nv_data_table_offset = (UINT16) (map->bios_ptr[i+4] | (map->bios_ptr[i+5] << 8));
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break;
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}
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i++;
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}
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//Second VESA Table on some nVidia 8xxx 9xxx and GT
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while (i < VBIOS_SIZE) { //We don't know how to locate it other way
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if ((map->bios_ptr[i] == 0x40) && (map->bios_ptr[i+1] == 0x01) //this is the first 320x200 modeline.
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&& (map->bios_ptr[i+2] == 0xC8) && (map->bios_ptr[i+3] == 0x00)
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&& (map->bios_ptr[i+4] == 0x28)
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&& (map->bios_ptr[i+5] == 0x18)
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&& (map->bios_ptr[i+6] == 0x08)
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&& (map->bios_ptr[i+7] == 0x08)) {
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nv_modeline_2_offset = (UINT16) i;
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break;
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}
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i++;
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}
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nv_data_table = (UINT16 *) (map->bios_ptr + (nv_data_table_offset + OFFSET_TO_VESA_TABLE_INDEX));
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std_vesa = (NV_VESA_TABLE *) (map->bios_ptr + *nv_data_table);
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map->mode_table = (CHAR8 *) std_vesa->sModelines;
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PRINT("First Standard VESA Table at offset 0x%x\n", *nv_data_table);
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if (nv_modeline_2_offset == (VBIOS_SIZE-1) || nv_modeline_2_offset == 0) {
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map->nv_mode_table_2 = NULL;
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PRINT("There is no Second Standard VESA Table to patch\n");
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} else {
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map->nv_mode_table_2 = (CHAR8*) map->bios_ptr + nv_modeline_2_offset;
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PRINT("Second Standard VESA Table at offset 0x%x\n", nv_modeline_2_offset);
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}
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if (map->mode_table == NULL) {
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PRINT("Unable to locate the mode table.\n");
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PRINT("Please run the program 'dump_bios' as root and\n");
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PRINT("email the file 'vbios.dmp' to gaeloulacuisse@yahoo.fr.\n");
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close_vbios(map);
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return 0;
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}
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/*
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* Having trouble determining the number of table
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* so it's hardcode to 16 and 31 for the First VESA table
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* and the Second Vesa Table respectively
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*/
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map->modeline_num = 16;
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map->nv_modeline_num_2 = 31;
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/*NV_MODELINE_2 * mode_2_ptr = (NV_MODELINE_2 *) map->nv_mode_table_2;
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map->modeline_num = map->nv_modeline_num_2 = 0;
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//First Table
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map->modeline_num = std_vesa->sHeader.usTableSize;
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PRINT("First VESA Table has %d modes\n",map->modeline_num);
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if (map->modeline_num == 0) {
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PRINT("%d is incorrect, make it a 16\n",map->modeline_num);
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map->modeline_num = 16;
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}
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map->mode_table_size = map->modeline_num * sizeof(NV_MODELINE);
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//Second Table
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map->nv_modeline_num_2 = *((UInt8 *)(mode_2_ptr - 2)) - 32;
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PRINT("Second VESA Table has %d modes\n",map->nv_modeline_num_2);
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if (map->nv_modeline_num_2 == 0) {
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PRINT("%d is incorrect, make it a 32\n",map->nv_modeline_num_2);
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map->nv_modeline_num_2 = 32;
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}
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map->nv_mode_table_2_size = map->nv_modeline_num_2 * sizeof(NV_MODELINE_2);*/
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return map;
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}
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bool nvidia_set_mode(vbios_map* map, UInt8 idx, UInt32* x, UInt32* y, CHAR8 Type)
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{
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if (Type == MAIN_VESA_TABLE) {
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NV_MODELINE * mode_timing = (NV_MODELINE *) map->mode_table;
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if ((*x != 0) && (*y != 0) && ( mode_timing[idx].usH_Active >= 640 )) {
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PRINT("Mode %dx%d -> %dx%d ", mode_timing[idx].usH_Active, mode_timing[idx].usV_Active,
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*x, *y);
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generic_modeline modeline;
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cvt_timings(*x, *y, 60, &modeline.clock,
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&modeline.hsyncstart, &modeline.hsyncend,
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&modeline.htotal, &modeline.vsyncstart,
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&modeline.vsyncend, &modeline.vtotal, FALSE);
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mode_timing[idx].usH_Active = *x;
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mode_timing[idx].usH_Active_minus_One = *x - 1;
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mode_timing[idx].usH_Active_minus_One_ = *x - 1;
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mode_timing[idx].usV_Active = *y;
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mode_timing[idx].usV_Active_minus_One = *y - 1;
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mode_timing[idx].usV_Active_minus_One_ = *y - 1;
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mode_timing[idx].usH_Total = modeline.htotal;
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mode_timing[idx].usH_SyncStart = modeline.hsyncstart;
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mode_timing[idx].usH_SyncEnd = modeline.hsyncend;
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mode_timing[idx].usV_Total = modeline.vtotal;
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mode_timing[idx].usV_SyncStart = modeline.vsyncstart;
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mode_timing[idx].usV_SyncEnd = modeline.vsyncend;
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mode_timing[idx].usPixel_Clock = modeline.clock;
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}
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*x = mode_timing[idx + 1].usH_Active;
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*y = mode_timing[idx + 1].usV_Active;
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}
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if (Type == SECOND_VESA_TABLE) {
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NV_MODELINE_2 * mode_timing = (NV_MODELINE_2 *) map->nv_mode_table_2;
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if (mode_timing[idx].h_disp > 0x800) return FALSE;
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if ((*x != 0) && (*y != 0) && ( mode_timing[idx].h_disp >= 640 )) {
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PRINT("Mode %dx%d -> %dx%d ", mode_timing[idx].h_disp, mode_timing[idx].v_disp,
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*x, *y);
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generic_modeline modeline;
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cvt_timings(*x, *y, 60, &modeline.clock,
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&modeline.hsyncstart, &modeline.hsyncend,
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&modeline.htotal, &modeline.vsyncstart,
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&modeline.vsyncend, &modeline.vtotal, TRUE);
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mode_timing[idx].h_disp = *x;
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mode_timing[idx].v_disp = *y;
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mode_timing[idx].h_blank = modeline.htotal - *x;
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mode_timing[idx].h_syncoffset = modeline.hsyncstart - *x;
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mode_timing[idx].h_syncwidth = modeline.hsyncend - modeline.hsyncstart;
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mode_timing[idx].v_blank = modeline.vtotal - *y;
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}
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*x = mode_timing[idx + 1].h_disp;
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*y = mode_timing[idx + 1].v_disp;
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}
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return TRUE;
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}
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