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/*
* This file is part of the coreboot project.
*
* Copyright 2017 Rockchip 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 <arch/io.h>
#include <assert.h>
#include <console/console.h>
#include <delay.h>
#include <device/device.h>
#include <edid.h>
#include <gpio.h>
#include <stdlib.h>
#include <stdint.h>
#include <string.h>
#include <soc/addressmap.h>
#include <soc/clock.h>
#include <soc/display.h>
#include <soc/mipi.h>
#include <soc/soc.h>
#include <timer.h>
static struct rk_mipi_dsi rk_mipi;
static struct rk_mipi_regs *mipi_regs = (void *)MIPI_BASE;
/*
* The controller should generate 2 frames before
* preparing the peripheral.
*/
static void rk_mipi_dsi_wait_for_two_frames(struct rk_mipi_dsi *dsi,
const struct edid *edid)
{
int two_frames;
unsigned int refresh = edid->mode.refresh;
two_frames = div_round_up(MSECS_PER_SEC * 2, refresh);
mdelay(two_frames);
}
static const struct dphy_pll_testdin_map dptdin_map[] = {
{ 90, 0x00}, { 100, 0x10}, { 110, 0x20}, { 130, 0x01},
{ 140, 0x11}, { 150, 0x21}, { 170, 0x02}, { 180, 0x12},
{ 200, 0x22}, { 220, 0x03}, { 240, 0x13}, { 250, 0x23},
{ 270, 0x04}, { 300, 0x14}, { 330, 0x05}, { 360, 0x15},
{ 400, 0x25}, { 450, 0x06}, { 500, 0x16}, { 550, 0x07},
{ 600, 0x17}, { 650, 0x08}, { 700, 0x18}, { 750, 0x09},
{ 800, 0x19}, { 850, 0x29}, { 900, 0x39}, { 950, 0x0a},
{1000, 0x1a}, {1050, 0x2a}, {1100, 0x3a}, {1150, 0x0b},
{1200, 0x1b}, {1250, 0x2b}, {1300, 0x3b}, {1350, 0x0c},
{1400, 0x1c}, {1450, 0x2c}, {1500, 0x3c}
};
static int max_mbps_to_testdin(unsigned int max_mbps)
{
int i;
for (i = 0; i < ARRAY_SIZE(dptdin_map); i++)
if (dptdin_map[i].max_mbps > max_mbps)
return dptdin_map[i].testdin;
return -1;
}
static void rk_mipi_dsi_phy_write(struct rk_mipi_dsi *dsi,
u8 test_code,
u8 test_data)
{
/*
* With the falling edge on TESTCLK, the TESTDIN[7:0] signal content
* is latched internally as the current test code. Test data is
* programmed internally by rising edge on TESTCLK.
*/
write32(&mipi_regs->dsi_phy_tst_ctrl0, PHY_TESTCLK | PHY_UNTESTCLR);
write32(&mipi_regs->dsi_phy_tst_ctrl1, PHY_TESTEN | PHY_TESTDOUT(0) |
PHY_TESTDIN(test_code));
write32(&mipi_regs->dsi_phy_tst_ctrl0, PHY_UNTESTCLK | PHY_UNTESTCLR);
write32(&mipi_regs->dsi_phy_tst_ctrl1, PHY_UNTESTEN | PHY_TESTDOUT(0) |
PHY_TESTDIN(test_data));
write32(&mipi_regs->dsi_phy_tst_ctrl0, PHY_TESTCLK | PHY_UNTESTCLR);
}
static int rk_mipi_dsi_phy_init(struct rk_mipi_dsi *dsi)
{
int testdin, vco;
int lane_mbps = div_round_up(dsi->lane_bps, USECS_PER_SEC);
vco = (lane_mbps < 200) ? 0 : (lane_mbps + 100) / 200;
testdin = max_mbps_to_testdin(lane_mbps);
if (testdin < 0) {
printk(BIOS_DEBUG, "failed to get testdin for %dmbps\n",
lane_mbps);
return testdin;
}
/* Start by clearing PHY state */
write32(&mipi_regs->dsi_phy_tst_ctrl0, PHY_UNTESTCLR);
write32(&mipi_regs->dsi_phy_tst_ctrl0, PHY_TESTCLR);
write32(&mipi_regs->dsi_phy_tst_ctrl0, PHY_UNTESTCLR);
rk_mipi_dsi_phy_write(dsi, PLL_BIAS_CUR_SEL_CAP_VCO_CONTROL,
BYPASS_VCO_RANGE |
VCO_RANGE_CON_SEL(vco) |
VCO_IN_CAP_CON_LOW |
REF_BIAS_CUR_SEL);
rk_mipi_dsi_phy_write(dsi, PLL_CP_CONTROL_PLL_LOCK_BYPASS,
CP_CURRENT_3MA);
rk_mipi_dsi_phy_write(dsi, PLL_LPF_AND_CP_CONTROL,
CP_PROGRAM_EN |
LPF_PROGRAM_EN |
LPF_RESISTORS_20_KOHM);
rk_mipi_dsi_phy_write(dsi, HS_RX_CONTROL_OF_LANE_0,
HSFREQRANGE_SEL(testdin));
rk_mipi_dsi_phy_write(dsi, PLL_INPUT_DIVIDER_RATIO,
INPUT_DIVIDER(dsi->input_div));
rk_mipi_dsi_phy_write(dsi, PLL_LOOP_DIVIDER_RATIO,
LOOP_DIV_LOW_SEL(dsi->feedback_div) |
LOW_PROGRAM_EN);
rk_mipi_dsi_phy_write(dsi, PLL_LOOP_DIVIDER_RATIO,
LOOP_DIV_HIGH_SEL(dsi->feedback_div) |
HIGH_PROGRAM_EN);
rk_mipi_dsi_phy_write(dsi, PLL_INPUT_AND_LOOP_DIVIDER_RATIOS_CONTROL,
PLL_LOOP_DIV_EN | PLL_INPUT_DIV_EN);
rk_mipi_dsi_phy_write(dsi, AFE_BIAS_BANDGAP_ANALOG_PROGRAMMABILITY,
LOW_PROGRAM_EN |
BIASEXTR_SEL(BIASEXTR_127_7));
rk_mipi_dsi_phy_write(dsi, AFE_BIAS_BANDGAP_ANALOG_PROGRAMMABILITY,
HIGH_PROGRAM_EN |
BANDGAP_SEL(BANDGAP_96_10));
rk_mipi_dsi_phy_write(dsi, BANDGAP_AND_BIAS_CONTROL,
POWER_CONTROL | INTERNAL_REG_CURRENT |
BIAS_BLOCK_ON | BANDGAP_ON);
rk_mipi_dsi_phy_write(dsi, TERMINATION_RESISTER_CONTROL,
TER_RESISTOR_LOW | TER_CAL_DONE |
SETRD_MAX | TER_RESISTORS_ON);
rk_mipi_dsi_phy_write(dsi, TERMINATION_RESISTER_CONTROL,
TER_RESISTOR_HIGH | LEVEL_SHIFTERS_ON |
SETRD_MAX | POWER_MANAGE |
TER_RESISTORS_ON);
write32(&mipi_regs->dsi_phy_rstz, PHY_ENFORCEPLL | PHY_ENABLECLK |
PHY_UNRSTZ | PHY_UNSHUTDOWNZ);
return 0;
}
static inline int mipi_dsi_pixel_format_to_bpp(enum mipi_dsi_pixel_format fmt)
{
switch (fmt) {
case MIPI_DSI_FMT_RGB888:
case MIPI_DSI_FMT_RGB666:
return 24;
case MIPI_DSI_FMT_RGB666_PACKED:
return 18;
case MIPI_DSI_FMT_RGB565:
return 16;
}
return -1;
}
static int rk_mipi_dsi_get_lane_bps(struct rk_mipi_dsi *dsi,
const struct edid *edid)
{
u32 i, pre;
u64 pclk, pllref, tmp, target_bps;
u32 m = 1, n = 1;
u32 max_bps = 1500 * MHz;
int bpp;
bpp = mipi_dsi_pixel_format_to_bpp(dsi->format);
if (bpp < 0) {
printk(BIOS_DEBUG, "failed to get bpp for pixel format %d\n",
dsi->format);
return bpp;
}
pclk = edid->mode.pixel_clock * MSECS_PER_SEC;
/* take 1 / 0.8, since mbps must bigger than bandwidth of RGB */
target_bps = pclk / dsi->lanes * bpp / 8 * 10;
if (target_bps >= max_bps) {
printk(BIOS_DEBUG, "DPHY clock frequency is out of range\n");
return -1;
}
pllref = OSC_HZ;
tmp = pllref;
/*
* The limits on the PLL divisor are:
*
* 5MHz <= (pllref / n) <= 40MHz
*/
for (i = pllref / (5 * MHz); i > div_round_up(pllref, 40 * MHz); i--) {
pre = pllref / i;
if ((tmp > (target_bps % pre)) && (target_bps / pre < 512)) {
tmp = target_bps % pre;
n = i;
m = target_bps / pre;
}
if (tmp == 0)
break;
}
dsi->lane_bps = pllref / n * m;
dsi->input_div = n;
dsi->feedback_div = m;
return 0;
}
static void rk_mipi_dsi_dpi_config(struct rk_mipi_dsi *dsi)
{
u32 color = 0;
switch (dsi->format) {
case MIPI_DSI_FMT_RGB888:
color = DPI_COLOR_CODING_24BIT;
break;
case MIPI_DSI_FMT_RGB666:
color = DPI_COLOR_CODING_18BIT_2 | EN18_LOOSELY;
break;
case MIPI_DSI_FMT_RGB666_PACKED:
color = DPI_COLOR_CODING_18BIT_1;
break;
case MIPI_DSI_FMT_RGB565:
color = DPI_COLOR_CODING_16BIT_1;
break;
}
write32(&mipi_regs->dsi_dpi_vcid, 0);
write32(&mipi_regs->dsi_dpi_color_coding, color);
write32(&mipi_regs->dsi_dpi_cfg_pol, 0);
write32(&mipi_regs->dsi_dpi_lp_cmd_tim, OUTVACT_LPCMD_TIME(4) |
INVACT_LPCMD_TIME(4));
}
static void rk_mipi_dsi_packet_handler_config(struct rk_mipi_dsi *dsi)
{
write32(&mipi_regs->dsi_pckhdl_cfg, EN_CRC_RX | EN_ECC_RX | EN_BTA);
}
static void rk_mipi_dsi_video_mode_config(struct rk_mipi_dsi *dsi)
{
write32(&mipi_regs->dsi_vid_mode_cfg,
VID_MODE_TYPE_BURST_SYNC_PULSES | ENABLE_LOW_POWER);
}
static void rk_mipi_dsi_video_packet_config(struct rk_mipi_dsi *dsi)
{
write32(&mipi_regs->dsi_vid_pkt_size, VID_PKT_SIZE(0x300));
}
static void rk_mipi_dsi_command_mode_config(struct rk_mipi_dsi *dsi)
{
write32(&mipi_regs->dsi_to_cnt_cfg,
HSTX_TO_CNT(1000) | LPRX_TO_CNT(1000));
write32(&mipi_regs->dsi_bta_to_cnt, 0xd00);
write32(&mipi_regs->dsi_cmd_mode_cfg, CMD_MODE_ALL_LP);
write32(&mipi_regs->dsi_mode_cfg, ENABLE_CMD_MODE);
}
/* Get lane byte clock cycles. */
static u32 rk_mipi_dsi_get_hcomponent_lbcc(struct rk_mipi_dsi *dsi,
u32 hcomponent,
const struct edid *edid)
{
u32 lbcc;
u64 lbcc_tmp;
lbcc_tmp = hcomponent * dsi->lane_bps / (8 * MSECS_PER_SEC);
lbcc = div_round_up(lbcc_tmp, edid->mode.pixel_clock);
return lbcc;
}
static void rk_mipi_dsi_line_timer_config(struct rk_mipi_dsi *dsi,
const struct edid *edid)
{
u32 htotal, hsa, hbp, lbcc;
htotal = edid->mode.ha + edid->mode.hbl;
hsa = edid->mode.hspw;
hbp = edid->mode.hbl - edid->mode.hso - edid->mode.hspw;
lbcc = rk_mipi_dsi_get_hcomponent_lbcc(dsi, htotal, edid);
write32(&mipi_regs->dsi_vid_hline_time, lbcc);
lbcc = rk_mipi_dsi_get_hcomponent_lbcc(dsi, hsa, edid);
write32(&mipi_regs->dsi_vid_hsa_time, lbcc);
lbcc = rk_mipi_dsi_get_hcomponent_lbcc(dsi, hbp, edid);
write32(&mipi_regs->dsi_vid_hbp_time, lbcc);
}
static void rk_mipi_dsi_vertical_timing_config(struct rk_mipi_dsi *dsi,
const struct edid *edid)
{
u32 vactive, vsa, vfp, vbp;
vactive = edid->mode.va;
vsa = edid->mode.vspw;
vfp = edid->mode.vso;
vbp = edid->mode.vbl - edid->mode.vso - edid->mode.vspw;
write32(&mipi_regs->dsi_vid_vactive_lines, vactive);
write32(&mipi_regs->dsi_vid_vsa_lines, vsa);
write32(&mipi_regs->dsi_vid_vfp_lines, vfp);
write32(&mipi_regs->dsi_vid_vbp_lines, vbp);
}
static void rk_mipi_dsi_dphy_timing_config(struct rk_mipi_dsi *dsi)
{
/*
* HS-PREPARE: 40ns + 4 * UI ~ 85ns + 6 * UI
* HS-EXIT: 100ns
*/
write32(&mipi_regs->dsi_phy_tmr_cfg, PHY_HS2LP_TIME(0x40) |
PHY_LP2HS_TIME(0x40) |
MAX_RD_TIME(10000));
write32(&mipi_regs->dsi_phy_tmr_lpclk_cfg, PHY_CLKHS2LP_TIME(0x40) |
PHY_CLKLP2HS_TIME(0x40));
}
static void rk_mipi_dsi_clear_err(struct rk_mipi_dsi *dsi)
{
read32(&mipi_regs->dsi_int_st0);
read32(&mipi_regs->dsi_int_st1);
write32(&mipi_regs->dsi_int_msk0, 0);
write32(&mipi_regs->dsi_int_msk1, 0);
}
static void rk_mipi_dsi_dphy_interface_config(struct rk_mipi_dsi *dsi)
{
write32(&mipi_regs->dsi_phy_if_cfg, PHY_STOP_WAIT_TIME(0x20) |
N_LANES(dsi->lanes));
}
static void rk_mipi_dsi_set_mode(struct rk_mipi_dsi *dsi,
enum rk_mipi_dsi_mode mode)
{
write32(&mipi_regs->dsi_pwr_up, RESET);
if (mode == MIPI_DSI_CMD_MODE) {
write32(&mipi_regs->dsi_mode_cfg, ENABLE_CMD_MODE);
} else {
write32(&mipi_regs->dsi_mode_cfg, ENABLE_VIDEO_MODE);
rk_mipi_dsi_video_mode_config(dsi);
write32(&mipi_regs->dsi_lpclk_ctrl, PHY_TXREQUESTCLKHS);
}
write32(&mipi_regs->dsi_pwr_up, POWERUP);
}
static void rk_mipi_dsi_init(struct rk_mipi_dsi *dsi)
{
/*
* The maximum permitted escape clock is 20MHz and it is derived from
* lanebyteclk, which is running at "lane_mbps / 8". Thus we want:
*
* (lane_mbps >> 3) / esc_clk_division < 20
* which is:
* (lane_mbps >> 3) / 20 > esc_clk_division
*/
u32 esc_clk_division = div_round_up(dsi->lane_bps, 8 * 20 * USECS_PER_SEC);
write32(&mipi_regs->dsi_pwr_up, RESET);
write32(&mipi_regs->dsi_phy_rstz, PHY_DISFORCEPLL | PHY_DISABLECLK |
PHY_RSTZ | PHY_SHUTDOWNZ);
write32(&mipi_regs->dsi_clk_cfg,
TO_CLK_DIVIDSION(10) |
TX_ESC_CLK_DIVIDSION(esc_clk_division));
}
static int rk_mipi_dsi_dcs_transfer(struct rk_mipi_dsi *dsi, u32 hdr_val)
{
int ret;
hdr_val = GEN_HDATA(hdr_val) | GEN_HTYPE(0x05);
ret = read32(&mipi_regs->dsi_cmd_pkt_status);
if (ret < 0) {
printk(BIOS_DEBUG, "failed to get available command FIFO\n");
return ret;
}
write32(&mipi_regs->dsi_lpclk_ctrl, 0);
write32(&mipi_regs->dsi_cmd_mode_cfg, CMD_MODE_ALL_LP);
write32(&mipi_regs->dsi_gen_hdr, hdr_val);
return 0;
}
void rk_mipi_prepare(const struct edid *edid, u32 display_on_mdelay, u32 video_mode_mdelay)
{
rk_mipi.lanes = 4;
rk_mipi.format = MIPI_DSI_FMT_RGB888;
if (rk_mipi_dsi_get_lane_bps(&rk_mipi, edid) < 0)
return;
rk_mipi_dsi_init(&rk_mipi);
rk_mipi_dsi_dpi_config(&rk_mipi);
rk_mipi_dsi_packet_handler_config(&rk_mipi);
rk_mipi_dsi_video_mode_config(&rk_mipi);
rk_mipi_dsi_video_packet_config(&rk_mipi);
rk_mipi_dsi_command_mode_config(&rk_mipi);
rk_mipi_dsi_line_timer_config(&rk_mipi, edid);
rk_mipi_dsi_vertical_timing_config(&rk_mipi, edid);
rk_mipi_dsi_dphy_timing_config(&rk_mipi);
rk_mipi_dsi_dphy_interface_config(&rk_mipi);
rk_mipi_dsi_clear_err(&rk_mipi);
if (rk_mipi_dsi_phy_init(&rk_mipi) < 0)
return;
rk_mipi_dsi_wait_for_two_frames(&rk_mipi, edid);
rk_mipi_dsi_set_mode(&rk_mipi, MIPI_DSI_CMD_MODE);
if (rk_mipi_dsi_dcs_transfer(&rk_mipi, MIPI_DCS_EXIT_SLEEP_MODE) < 0)
return;
mdelay(display_on_mdelay);
if (rk_mipi_dsi_dcs_transfer(&rk_mipi, MIPI_DCS_SET_DISPLAY_ON) < 0)
return;
mdelay(video_mode_mdelay);
rk_mipi_dsi_set_mode(&rk_mipi, MIPI_DSI_VID_MODE);
}
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