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/*
* This file is part of the coreboot project.
*
* Copyright 2013 Google Inc.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; version 2 of the License.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <types.h>
#include <string.h>
#include <stdlib.h>
#include <device/device.h>
#include <device/device.h>
#include <device/pci_def.h>
#include <device/pci_ops.h>
#include <console/console.h>
#include <delay.h>
#include <pc80/mc146818rtc.h>
#include <arch/acpi.h>
#include <arch/io.h>
#include <arch/interrupt.h>
#include <boot/coreboot_tables.h>
#include <smbios.h>
#include <device/pci.h>
#include <ec/google/chromeec/ec.h>
#include <cpu/x86/tsc.h>
#include <cpu/x86/cache.h>
#include <cpu/x86/mtrr.h>
#include <cpu/x86/msr.h>
#include <edid.h>
#include <drivers/intel/gma/i915.h>
#include <northbridge/intel/haswell/haswell.h>
#include "mainboard.h"
/*
* Here is the rough outline of how we bring up the display:
* 1. Upon power-on Sink generates a hot plug detection pulse thru HPD
* 2. Source determines video mode by reading DPCD receiver capability field
* (DPCD 00000h to 0000Dh) including eDP CP capability register (DPCD
* 0000Dh).
* 3. Sink replies DPCD receiver capability field.
* 4. Source starts EDID read thru I2C-over-AUX.
* 5. Sink replies EDID thru I2C-over-AUX.
* 6. Source determines link configuration, such as MAX_LINK_RATE and
* MAX_LANE_COUNT. Source also determines which type of eDP Authentication
* method to use and writes DPCD link configuration field (DPCD 00100h to
* 0010Ah) including eDP configuration set (DPCD 0010Ah).
* 7. Source starts link training. Sink does clock recovery and equalization.
* 8. Source reads DPCD link status field (DPCD 00200h to 0020Bh).
* 9. Sink replies DPCD link status field. If main link is not stable, Source
* repeats Step 7.
* 10. Source sends MSA (Main Stream Attribute) data. Sink extracts video
* parameters and recovers stream clock.
* 11. Source sends video data.
*/
/* how many bytes do we need for the framebuffer?
* Well, this gets messy. To get an exact answer, we have
* to ask the panel, but we'd rather zero the memory
* and set up the gtt while the panel powers up. So,
* we take a reasonable guess, secure in the knowledge that the
* MRC has to overestimate the number of bytes used.
* 8 MiB is a very safe guess. There may be a better way later, but
* fact is, the initial framebuffer is only very temporary. And taking
* a little long is ok; this is done much faster than the AUX
* channel is ready for IO.
*/
#define FRAME_BUFFER_BYTES (8*MiB)
/* how many 4096-byte pages do we need for the framebuffer?
* There are hard ways to get this, and easy ways:
* there are FRAME_BUFFER_BYTES/4096 pages, since pages are 4096
* on this chip (and in fact every Intel graphics chip we've seen).
*/
#define FRAME_BUFFER_PAGES (FRAME_BUFFER_BYTES/(4096))
static int i915_init_done = 0;
/* fill the palette. */
static void palette(void)
{
int i;
unsigned long color = 0;
for(i = 0; i < 256; i++, color += 0x010101){
gtt_write(_LGC_PALETTE_A + (i<<2),color);
}
}
void mainboard_train_link(struct intel_dp *intel_dp)
{
u8 read_val;
u8 link_status[DP_LINK_STATUS_SIZE];
gtt_write(DP_TP_CTL(intel_dp->port),
DP_TP_CTL_ENABLE | DP_TP_CTL_ENHANCED_FRAME_ENABLE);
gtt_write(DDI_BUF_CTL_A,
DDI_BUF_CTL_ENABLE|
DDI_A_4_LANES|DDI_PORT_WIDTH_X1|DDI_INIT_DISPLAY_DETECTED|0x80000011);
intel_dp_get_training_pattern(intel_dp, &read_val);
intel_dp_set_training_pattern(intel_dp,
DP_TRAINING_PATTERN_1 | DP_LINK_QUAL_PATTERN_DISABLE |
DP_SYMBOL_ERROR_COUNT_BOTH);
intel_dp_set_training_lane0(intel_dp,
DP_TRAIN_VOLTAGE_SWING_400 | DP_TRAIN_PRE_EMPHASIS_0);
intel_dp_get_link_status(intel_dp, link_status);
gtt_write(DP_TP_CTL(intel_dp->port),
DP_TP_CTL_ENABLE |
DP_TP_CTL_ENHANCED_FRAME_ENABLE | DP_TP_CTL_LINK_TRAIN_PAT2);
intel_dp_get_training_pattern(intel_dp, &read_val);
intel_dp_set_training_pattern(intel_dp, DP_TRAINING_PATTERN_2 |
DP_LINK_QUAL_PATTERN_DISABLE | DP_SYMBOL_ERROR_COUNT_BOTH);
intel_dp_get_link_status(intel_dp, link_status);
intel_dp_get_lane_align_status(intel_dp, &read_val);
intel_dp_get_training_pattern(intel_dp, &read_val);
intel_dp_set_training_pattern(intel_dp, DP_TRAINING_PATTERN_DISABLE |
DP_LINK_QUAL_PATTERN_DISABLE | DP_SYMBOL_ERROR_COUNT_BOTH);
}
/* This variable controls whether the test_gfx function below puts up
* color bars or not. In previous revs we ifdef'd the test_gfx function out
* but it's handy, especially when using a JTAG debugger
* to be able to enable and disable a test graphics.
*/
int show_test = 0;
static void test_gfx(struct intel_dp *dp)
{
int i;
if (!show_test)
return;
/* This is a sanity test code which fills the screen with two bands --
green and blue. It is very useful to ensure all the initializations
are made right. Thus, to be used only for testing, not otherwise
*/
for (i = 0; i < (dp->edid.mode.va - 4); i++) {
u32 *l;
int j;
u32 tcolor = 0x0ff;
for (j = 0; j < (dp->edid.mode.ha-4); j++) {
if (j == (dp->edid.mode.ha/2)) {
tcolor = 0xff00;
}
l = (u32*)(dp->graphics + i * dp->stride + j * sizeof(tcolor));
memcpy(l,&tcolor,sizeof(tcolor));
}
}
printk(BIOS_SPEW, "sleep 10\n");
delay(10);
}
void mainboard_set_port_clk_dp(struct intel_dp *intel_dp)
{
u32 ddi_pll_sel = 0;
switch (intel_dp->link_bw) {
case DP_LINK_BW_1_62:
ddi_pll_sel = PORT_CLK_SEL_LCPLL_810;
break;
case DP_LINK_BW_2_7:
ddi_pll_sel = PORT_CLK_SEL_LCPLL_1350;
break;
case DP_LINK_BW_5_4:
ddi_pll_sel = PORT_CLK_SEL_LCPLL_2700;
break;
default:
printk(BIOS_ERR, "invalid link bw %d\n", intel_dp->link_bw);
return;
}
gtt_write(PORT_CLK_SEL(intel_dp->port), ddi_pll_sel);
}
int panel_lightup(struct intel_dp *dp, unsigned int init_fb)
{
int i;
int edid_ok;
int pixels = FRAME_BUFFER_BYTES/64;
gtt_write(PCH_PP_CONTROL,0xabcd000f);
delay(1);
void runio(struct intel_dp *dp);
/* hard codes -- stuff you can only know from the mainboard */
dp->gen = 8; // This is gen 8 which we believe is Haswell
dp->is_haswell = 1;
dp->DP = 0x2;
dp->pipe = PIPE_A;
dp->port = PORT_A;
dp->plane = PLANE_A;
dp->pipe_bits_per_pixel = 24;
dp->type = INTEL_OUTPUT_EDP;
dp->output_reg = DP_A;
/* observed from YABEL. */
dp->aux_clock_divider = 0xe1;
dp->precharge = 3;
/* 1. Normal mode: Set the first page to zero and make
all GTT entries point to the same page
2. Developer/Recovery mode: Set up a tasteful color
so people know we are alive. */
if (init_fb || show_test) {
set_translation_table(0, FRAME_BUFFER_PAGES, dp->physbase,
4096);
memset((void *)dp->graphics, 0x55, FRAME_BUFFER_PAGES*4096);
} else {
set_translation_table(0, FRAME_BUFFER_PAGES, dp->physbase, 0);
memset((void*)dp->graphics, 0, 4096);
}
dp->address = 0x50;
if ( !intel_dp_get_dpcd(dp) )
goto fail;
intel_dp_i2c_aux_ch(dp, MODE_I2C_WRITE, 0, NULL);
for(dp->edidlen = i = 0; i < sizeof(dp->rawedid); i++){
if (intel_dp_i2c_aux_ch(dp, MODE_I2C_READ,
0x50, &dp->rawedid[i]) < 0)
break;
dp->edidlen++;
}
edid_ok = decode_edid(dp->rawedid, dp->edidlen, &dp->edid);
printk(BIOS_SPEW, "decode edid returns %d\n", edid_ok);
compute_display_params(dp);
printk(BIOS_SPEW, "pixel_clock is %i, link_clock is %i\n",
dp->edid.mode.pixel_clock, dp->edid.link_clock);
intel_ddi_set_pipe_settings(dp);
runio(dp);
palette();
pixels = dp->edid.mode.ha * (dp->edid.mode.va-4) * 4;
printk(BIOS_SPEW, "ha=%d, va=%d\n",dp->edid.mode.ha, dp->edid.mode.va);
test_gfx(dp);
set_vbe_mode_info_valid(&dp->edid, (uintptr_t)dp->graphics);
i915_init_done = 1;
return 1;
fail:
printk(BIOS_SPEW, "Graphics could not be started;");
/* unclear we will *ever* want to do this. */
if (0){
printk(BIOS_SPEW, "Turn off power and wait ...");
gtt_write(PCH_PP_CONTROL,0xabcd0000);
udelay(600000);
gtt_write(PCH_PP_CONTROL,0xabcd000f);
}
printk(BIOS_SPEW, "Returning.\n");
return 0;
}
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