M7350/kernel/drivers/video/msm/mddi_quickvx.c

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2024-09-09 08:52:07 +00:00
/* Copyright (c) 2010, 2012 The Linux Foundation. All rights reserved.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 and
* only version 2 as published by the Free Software Foundation.
*
* 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 <mach/pmic.h>
#include "msm_fb.h"
#include "mddihost.h"
#include "mddihosti.h"
/* WVGA Primary Display */
#define MDDI_QUICKVX_1_2 1
/* MDDI Manufacturer Code */
#define QUICKVX_MDDI_MFR_CODE 0xc583
/* MDDI Product Code */
#define QUICKVX_MDDI_PRD_CODE 0x5800
/* Register Address Maps */
/* MDDI Address Anti-fuse values for bits [31:22] */
#define QUICKVX_ADDR_31_22_AF (0X000 << 22)
/* MDDI Address Maps */
/* VEE Block Address Base */
#define QUICKVX_VEE_BASE (QUICKVX_ADDR_31_22_AF | 0x00000000)
/* SPI Block Address Base */
#define QUICKVX_SPI_BASE (QUICKVX_ADDR_31_22_AF | 0x00010000)
/* Clock and Reset (CAR) Address Base */
#define QUICKVX_CAR_BASE (QUICKVX_ADDR_31_22_AF | 0x00020000)
/* Register Control Block (RCB) Address Base */
#define QUICKVX_RCB_BASE (QUICKVX_ADDR_31_22_AF | 0x00030000)
/* Cellular RAM Address Base */
#define QUICKVX_CELLRAM_BASE (QUICKVX_ADDR_31_22_AF | 0x00100000)
/* FB through A2F Address Base */
#define QUICKVX_FB_A2F_BASE (QUICKVX_ADDR_31_22_AF | 0x00200000)
/***************************************************
* Common Registers in Register Control Block (RCB) Registers
***************************************************/
/* CellRAM Configuration RCR Register */
#define QUICKVX_RCB_RCR_REG (QUICKVX_RCB_BASE | 0x00000000)
/* Image Effect Register */
#define QUICKVX_RCB_IER_REG (QUICKVX_RCB_BASE | 0x00000004)
/* Row Number Register */
#define QUICKVX_RCB_ROWNUM_REG (QUICKVX_RCB_BASE | 0x00000008)
/* TCON Timing0 Register */
#define QUICKVX_RCB_TCON0_REG (QUICKVX_RCB_BASE | 0x0000000C)
/* TCON Timing1 Register */
#define QUICKVX_RCB_TCON1_REG (QUICKVX_RCB_BASE | 0x00000010)
/* TCON Timing2 Register */
#define QUICKVX_RCB_TCON2_REG (QUICKVX_RCB_BASE | 0x00000014)
/* PWM Control Register */
#define QUICKVX_RCB_PWMC_REG (QUICKVX_RCB_BASE | 0x00000018)
/* PWM Width Register */
#define QUICKVX_RCB_PWMW_REG (QUICKVX_RCB_BASE | 0x0000001C)
/* VEE Configuration Register */
#define QUICKVX_RCB_VEECONF_REG (QUICKVX_RCB_BASE | 0x00000020)
/* CellRAM Configuration BCR Register */
#define QUICKVX_RCB_CELLBCR_REG (QUICKVX_RCB_BASE | 0x00000024)
/* CellRAM Configuration Control Register */
#define QUICKVX_RCB_CELLCC_REG (QUICKVX_RCB_BASE | 0x00000028)
/* Use Case Register */
#define QUICKVX_RCB_USECASE_REG (QUICKVX_RCB_BASE | 0x00000100)
/* Video Parameter Register */
#define QUICKVX_RCB_VPARM_REG (QUICKVX_RCB_BASE | 0x00000104)
/* MDDI Client Wake-up Register */
#define QUICKVX_RCB_MCW_REG (QUICKVX_RCB_BASE | 0x00000108)
/* Burst Length Register */
#define QUICKVX_RCB_BURSTLN_REG (QUICKVX_RCB_BASE | 0x0000010C)
/* Display Attributes Register */
#define QUICKVX_RCB_DISPATTR_REG (QUICKVX_RCB_BASE | 0x00000110)
/* Error Status Register */
#define QUICKVX_RCB_ERRSTAT_REG (QUICKVX_RCB_BASE | 0x00000114)
/* Error Mask Register */
#define QUICKVX_RCB_ERRMSK_REG (QUICKVX_RCB_BASE | 0x00000118)
/* MDDI ASSP FIFO Overflow Address Register */
#define QUICKVX_RCB_ASSPFOA_REG (QUICKVX_RCB_BASE | 0x0000011C)
/* MDDI Fabric FIFO Overflow Address Register */
#define QUICKVX_RCB_FABFOA_REG (QUICKVX_RCB_BASE | 0x00000120)
/* Incoming RGB FIFO Overflow Address Register */
#define QUICKVX_RCB_IRFOA_REG (QUICKVX_RCB_BASE | 0x00000124)
/* SPI Overflow Address Register */
#define QUICKVX_RCB_SPIOA_REG (QUICKVX_RCB_BASE | 0x00000128)
/* Ping Buffer Address Register */
#define QUICKVX_RCB_PINGBA_REG (QUICKVX_RCB_BASE | 0x0000012C)
/* Pong Buffer Address Register */
#define QUICKVX_RCB_PONGBA_REG (QUICKVX_RCB_BASE | 0x00000130)
/* Configuration Done Register */
#define QUICKVX_RCB_CONFDONE_REG (QUICKVX_RCB_BASE | 0x00000134)
/* FIFO Flush Register */
#define QUICKVX_RCB_FFLUSH_REG (QUICKVX_RCB_BASE | 0x00000138)
/***************************************************
* SPI Block Registers
***************************************************/
/* SPI Rx0 Register */
#define QUICKVX_SPI_RX0_REG (QUICKVX_SPI_BASE | 0x00000000)
/* SPI Rx1 Register */
#define QUICKVX_SPI_RX1_REG (QUICKVX_SPI_BASE | 0x00000004)
/* SPI Rx2 Register */
#define QUICKVX_SPI_RX2_REG (QUICKVX_SPI_BASE | 0x00000008)
/* SPI Rx3 Register */
#define QUICKVX_SPI_RX3_REG (QUICKVX_SPI_BASE | 0x0000000C)
/* SPI Rx4 Register */
#define QUICKVX_SPI_RX4_REG (QUICKVX_SPI_BASE | 0x00000010)
/* SPI Rx5 Register */
#define QUICKVX_SPI_RX5_REG (QUICKVX_SPI_BASE | 0x00000014)
/* SPI Rx6 Register */
#define QUICKVX_SPI_RX6_REG (QUICKVX_SPI_BASE | 0x00000018)
/* SPI Rx7 Register */
#define QUICKVX_SPI_RX7_REG (QUICKVX_SPI_BASE | 0x0000001C)
/* SPI Tx0 Register */
#define QUICKVX_SPI_TX0_REG (QUICKVX_SPI_BASE | 0x00000020)
/* SPI Tx1 Register */
#define QUICKVX_SPI_TX1_REG (QUICKVX_SPI_BASE | 0x00000024)
/* SPI Tx2 Register */
#define QUICKVX_SPI_TX2_REG (QUICKVX_SPI_BASE | 0x00000028)
/* SPI Tx3 Register */
#define QUICKVX_SPI_TX3_REG (QUICKVX_SPI_BASE | 0x0000002C)
/* SPI Tx4 Register */
#define QUICKVX_SPI_TX4_REG (QUICKVX_SPI_BASE | 0x00000030)
/* SPI Tx5 Register */
#define QUICKVX_SPI_TX5_REG (QUICKVX_SPI_BASE | 0x00000034)
/* SPI Tx6 Register */
#define QUICKVX_SPI_TX6_REG (QUICKVX_SPI_BASE | 0x00000038)
/* SPI Tx7 Register */
#define QUICKVX_SPI_TX7_REG (QUICKVX_SPI_BASE | 0x0000003C)
/* SPI Control Register */
#define QUICKVX_SPI_CTRL_REG (QUICKVX_SPI_BASE | 0x00000040)
/* SPI Transfer Length Register */
#define QUICKVX_SPI_TLEN_REG (QUICKVX_SPI_BASE | 0x00000044)
/***************************************************
* Clock and Reset (CAR) Block Registers
***************************************************/
/* ASSP Global Clock Enable Register */
#define QUICKVX_CAR_ASSP_GCE_REG (QUICKVX_CAR_BASE | 0x00000000)
/* VLP Control1 Register */
#define QUICKVX_CAR_VLPCTRL1_REG (QUICKVX_CAR_BASE | 0x00000004)
/* VLP Control2 Register */
#define QUICKVX_CAR_VLPCTRL2_REG (QUICKVX_CAR_BASE | 0x00000008)
/* Clock Selection Register */
#define QUICKVX_CAR_CLKSEL_REG (QUICKVX_CAR_BASE | 0x0000000C)
/* PLL Control Register */
#define QUICKVX_CAR_PLLCTRL_REG (QUICKVX_CAR_BASE | 0x00000010)
/* PLL Clock Ratio Register */
#define QUICKVX_CAR_PLLCLKRATIO_REG (QUICKVX_CAR_BASE | 0x00000014)
/***************************************************
* VEE Block Registers
***************************************************/
/* VEE Control Register */
#define QUICKVX_VEE_VEECTRL_REG (QUICKVX_VEE_BASE | 0x00000000)
/* Strength Register */
#define QUICKVX_VEE_STRENGTH_REG (QUICKVX_VEE_BASE | 0x0000000C)
/* Variance Register */
#define QUICKVX_VEE_VARIANCE_REG (QUICKVX_VEE_BASE | 0x00000010)
/* Slope Register */
#define QUICKVX_VEE_SLOPE_REG (QUICKVX_VEE_BASE | 0x00000014)
/* Sharpen Control0 Register */
#define QUICKVX_VEE_SHRPCTRL0_REG (QUICKVX_VEE_BASE | 0x0000001C)
/* Sharpen Control1 Register */
#define QUICKVX_VEE_SHRPCTRL1_REG (QUICKVX_VEE_BASE | 0x00000020)
/* Upper Horizontal Positon Register */
#define QUICKVX_VEE_UHPOS_REG (QUICKVX_VEE_BASE | 0x00000024)
/* Lower Horizontal Positon Register */
#define QUICKVX_VEE_LHPOS_REG (QUICKVX_VEE_BASE | 0x00000028)
/* Upper Vertical Positon Register */
#define QUICKVX_VEE_UVPOS_REG (QUICKVX_VEE_BASE | 0x0000002C)
/* Lower Vertical Positon Register */
#define QUICKVX_VEE_LVPOS_REG (QUICKVX_VEE_BASE | 0x00000030)
/* Upper Frame Width Register */
#define QUICKVX_VEE_UFWDTH_REG (QUICKVX_VEE_BASE | 0x00000034)
/* Lower Frame Width Register */
#define QUICKVX_VEE_LFWDTH_REG (QUICKVX_VEE_BASE | 0x00000038)
/* Upper Frame Height Register */
#define QUICKVX_VEE_UFHGHT_REG (QUICKVX_VEE_BASE | 0x0000003C)
/* Lower Frame Height Register */
#define QUICKVX_VEE_LFHGHT_REG (QUICKVX_VEE_BASE | 0x00000040)
/* Control0 Register */
#define QUICKVX_VEE_CTRL0_REG (QUICKVX_VEE_BASE | 0x00000044)
/* Control1 Register */
#define QUICKVX_VEE_CTRL1_REG (QUICKVX_VEE_BASE | 0x00000048)
/* Video Enhancement Enable Register */
#define QUICKVX_VEE_VDOEEN_REG (QUICKVX_VEE_BASE | 0x0000004C)
/* Black Level Register */
#define QUICKVX_VEE_BLCKLEV_REG (QUICKVX_VEE_BASE | 0x00000050)
/* White Level Register */
#define QUICKVX_VEE_WHTLEV_REG (QUICKVX_VEE_BASE | 0x00000054)
/* Amplification Limits Register */
#define QUICKVX_VEE_AMPLMTS_REG (QUICKVX_VEE_BASE | 0x00000060)
/* Dithering Mode Register */
#define QUICKVX_VEE_DITHMOD_REG (QUICKVX_VEE_BASE | 0x00000064)
/* Upper Look-up Data Register */
#define QUICKVX_VEE_ULUD_REG (QUICKVX_VEE_BASE | 0x00000080)
/* Lower Look-up Data Register */
#define QUICKVX_VEE_LLUD_REG (QUICKVX_VEE_BASE | 0x00000084)
/* Look-up Address Register */
#define QUICKVX_VEE_LUADDR_REG (QUICKVX_VEE_BASE | 0x00000088)
/* Look-up Write Enable Register */
#define QUICKVX_VEE_LUWREN_REG (QUICKVX_VEE_BASE | 0x0000008C)
/* VEE ID Register */
#define QUICKVX_VEE_VEEID_REG (QUICKVX_VEE_BASE | 0x000003FC)
/* M_11 Register */
#define QUICKVX_VEE_M_11_REG (QUICKVX_VEE_BASE | 0x000000C0)
/* M_12 Register */
#define QUICKVX_VEE_M_12_REG (QUICKVX_VEE_BASE | 0x000000C4)
/* M_13 Register */
#define QUICKVX_VEE_M_13_REG (QUICKVX_VEE_BASE | 0x000000C8)
/* M_21 Register */
#define QUICKVX_VEE_M_21_REG (QUICKVX_VEE_BASE | 0x000000CC)
/* M_22 Register */
#define QUICKVX_VEE_M_22_REG (QUICKVX_VEE_BASE | 0x000000D0)
/* M_23 Register */
#define QUICKVX_VEE_M_23_REG (QUICKVX_VEE_BASE | 0x000000D4)
/* M_31 Register */
#define QUICKVX_VEE_M_31_REG (QUICKVX_VEE_BASE | 0x000000D8)
/* M_32 Register */
#define QUICKVX_VEE_M_32_REG (QUICKVX_VEE_BASE | 0x000000DC)
/* M_33 Register */
#define QUICKVX_VEE_M_33_REG (QUICKVX_VEE_BASE | 0x000000E0)
/* R Offset Register */
#define QUICKVX_VEE_OFFSET_R_REG (QUICKVX_VEE_BASE | 0x000000E8)
/* G Offset Register */
#define QUICKVX_VEE_OFFSET_G_REG (QUICKVX_VEE_BASE | 0x000000EC)
/* B Offset Register */
#define QUICKVX_VEE_OFFSET_B_REG (QUICKVX_VEE_BASE | 0x000000F0)
/* LCD Reset Register */
#define QUICKVX_FB_A2F_LCD_RESET_REG (QUICKVX_FB_A2F_BASE | 0x00000000)
/* Register bit defines */
/* PLL Lock bit in the PLL Control Register */
#define QUICKVX_PLL_LOCK_BIT (1 << 7)
#define QL_SPI_CTRL_rSPISTart(x) (x)
#define QL_SPI_CTRL_rCPHA(x) (x << 1)
#define QL_SPI_CTRL_rCPOL(x) (x << 2)
#define QL_SPI_CTRL_rLSB(x) (x << 3)
#define QL_SPI_CTRL_rSLVSEL(x) (x << 4)
#define QL_SPI_CTRL_MASK_rTxDone (1 << 9)
#define QL_SPI_LCD_DEV_ID 0x1c
#define QL_SPI_LCD_RS(x) (x << 1)
#define QL_SPI_LCD_RW(x) (x)
#define QL_SPI_LCD_INDEX_START_BYTE ((QL_SPI_LCD_DEV_ID << 2) | \
QL_SPI_LCD_RS(0) | QL_SPI_LCD_RW(0))
#define QL_SPI_LCD_CMD_START_BYTE ((QL_SPI_LCD_DEV_ID << 2) | \
QL_SPI_LCD_RS(1) | QL_SPI_LCD_RW(0))
#define QL_SPI_CTRL_LCD_START (QL_SPI_CTRL_rSPISTart(1) | \
QL_SPI_CTRL_rCPHA(1) | QL_SPI_CTRL_rCPOL(1) | \
QL_SPI_CTRL_rLSB(0) | QL_SPI_CTRL_rSLVSEL(0))
int ql_mddi_write(uint32 address, uint32 value)
{
int ret = 0;
ret = mddi_queue_register_write(address, value, TRUE, 0);
return ret;
}
int ql_mddi_read(uint32 address, uint32 *regval)
{
int ret = 0;
ret = mddi_queue_register_read(address, regval, TRUE, 0);
MDDI_MSG_DEBUG("\nql_mddi_read[0x%x]=0x%x", address, *regval);
return ret;
}
int ql_send_spi_cmd_to_lcd(uint32 index, uint32 cmd)
{
MDDI_MSG_DEBUG("\n %s(): index 0x%x, cmd 0x%x", __func__, index, cmd);
/* do the index phase */
/* send 24 bits in the index phase */
ql_mddi_write(QUICKVX_SPI_TLEN_REG, 23);
/* send 24 bits in the index phase, starting at bit 23 of TX0 reg */
ql_mddi_write(QUICKVX_SPI_TX0_REG,
(QL_SPI_LCD_INDEX_START_BYTE << 16) | index);
/* set start */
ql_mddi_write(QUICKVX_SPI_CTRL_REG, QL_SPI_CTRL_LCD_START);
/* do the command phase */
/* send 24 bits in the cmd phase */
ql_mddi_write(QUICKVX_SPI_TLEN_REG, 23);
/* send 24 bits in the cmd phase, starting at bit 23 of TX0 reg. */
ql_mddi_write(QUICKVX_SPI_TX0_REG,
(QL_SPI_LCD_CMD_START_BYTE << 16) | cmd);
/* set start */
ql_mddi_write(QUICKVX_SPI_CTRL_REG, QL_SPI_CTRL_LCD_START);
return 0;
}
int ql_send_spi_data_from_lcd(uint32 index, uint32 *value)
{
MDDI_MSG_DEBUG("\n %s(): index 0x%x", __func__, index);
/* do the index phase */
/* send 24 bits in the index phase */
ql_mddi_write(QUICKVX_SPI_TLEN_REG, 23);
/* send 24 bits in the index phase, starting at bit 23 of TX0 reg */
ql_mddi_write(QUICKVX_SPI_TX0_REG,
(QL_SPI_LCD_INDEX_START_BYTE << 16) | index);
/* set start */
ql_mddi_write(QUICKVX_SPI_CTRL_REG, QL_SPI_CTRL_LCD_START);
/* do the command phase */
/* send 8 bits and read 24 bits in the cmd phase, so total 32 bits */
ql_mddi_write(QUICKVX_SPI_TLEN_REG, 31);
/* send 24 bits in the cmd phase, starting at bit 31 of TX0 reg */
ql_mddi_write(QUICKVX_SPI_TX0_REG,
((QL_SPI_LCD_CMD_START_BYTE << 16)) << 8);
/* set start */
ql_mddi_write(QUICKVX_SPI_CTRL_REG, QL_SPI_CTRL_LCD_START);
return 0;
}
/* Global Variables */
static uint32 mddi_quickvx_rows_per_second;
static uint32 mddi_quickvx_usecs_per_refresh;
static uint32 mddi_quickvx_rows_per_refresh;
void mddi_quickvx_configure_registers(void)
{
MDDI_MSG_DEBUG("\n%s(): ", __func__);
ql_mddi_write(QUICKVX_CAR_CLKSEL_REG, 0x00007000);
ql_mddi_write(QUICKVX_RCB_PWMW_REG, 0x0000FFFF);
ql_mddi_write(QUICKVX_RCB_PWMC_REG, 0x00000001);
ql_mddi_write(QUICKVX_RCB_CONFDONE_REG, 0x00000000);
/* display is x width = 480, y width = 864 */
ql_mddi_write(QUICKVX_RCB_TCON0_REG, 0x035f01df);
/* VFP=2, VBP=4, HFP=16, HBP=16 */
ql_mddi_write(QUICKVX_RCB_TCON1_REG, 0x01e301e1);
/* VSW =2, HSW=8 */
ql_mddi_write(QUICKVX_RCB_TCON2_REG, 0x000000e1);
ql_mddi_write(QUICKVX_RCB_DISPATTR_REG, 0x00000000);
ql_mddi_write(QUICKVX_RCB_USECASE_REG, 0x00000025);
ql_mddi_write(QUICKVX_RCB_VPARM_REG, 0x00000888);
ql_mddi_write(QUICKVX_RCB_VEECONF_REG, 0x00000001);
ql_mddi_write(QUICKVX_RCB_IER_REG, 0x00000000);
ql_mddi_write(QUICKVX_RCB_RCR_REG, 0x80000010);
ql_mddi_write(QUICKVX_RCB_CELLBCR_REG, 0x8008746F);
ql_mddi_write(QUICKVX_RCB_CELLCC_REG, 0x800000A3);
ql_mddi_write(QUICKVX_RCB_CONFDONE_REG, 0x00000001);
}
void mddi_quickvx_prim_lcd_init(void)
{
uint32 value;
MDDI_MSG_DEBUG("\n%s(): ", __func__);
ql_send_spi_data_from_lcd(0, &value);
ql_send_spi_cmd_to_lcd(0x0100, 0x3000); /* power control1 */
ql_send_spi_cmd_to_lcd(0x0101, 0x4010); /* power control2 */
ql_send_spi_cmd_to_lcd(0x0106, 0x0000); /* auto seq setting */
mddi_wait(3);
ql_mddi_write(QUICKVX_FB_A2F_LCD_RESET_REG, 0x00000001);
mddi_wait(1);
ql_mddi_write(QUICKVX_FB_A2F_LCD_RESET_REG, 0x00000000);
mddi_wait(1);
ql_mddi_write(QUICKVX_FB_A2F_LCD_RESET_REG, 0x00000001);
mddi_wait(10);
ql_send_spi_cmd_to_lcd(0x0001, 0x0310); /* driver out control */
ql_send_spi_cmd_to_lcd(0x0002, 0x0100); /* lcd ac control */
ql_send_spi_cmd_to_lcd(0x0003, 0x0000); /* entry mode */
ql_send_spi_cmd_to_lcd(0x0007, 0x0000); /* disp cont1 */
ql_send_spi_cmd_to_lcd(0x0008, 0x0004); /* disp cont2 */
ql_send_spi_cmd_to_lcd(0x0009, 0x000C); /* disp cont3 */
ql_send_spi_cmd_to_lcd(0x000C, 0x4010); /* disp if cont1 */
ql_send_spi_cmd_to_lcd(0x000E, 0x0000); /* disp if cont2 */
ql_send_spi_cmd_to_lcd(0x0020, 0x013F); /* panel if cont1 */
ql_send_spi_cmd_to_lcd(0x0022, 0x7600); /* panel if cont3 */
ql_send_spi_cmd_to_lcd(0x0023, 0x1C0A); /* panel if cont4 */
ql_send_spi_cmd_to_lcd(0x0024, 0x1C2C); /* panel if cont5 */
ql_send_spi_cmd_to_lcd(0x0025, 0x1C4E); /* panel if cont6 */
ql_send_spi_cmd_to_lcd(0x0027, 0x0000); /* panel if cont8 */
ql_send_spi_cmd_to_lcd(0x0028, 0x760C); /* panel if cont9 */
ql_send_spi_cmd_to_lcd(0x0300, 0x0000); /* gamma adj0 */
ql_send_spi_cmd_to_lcd(0x0301, 0x0502); /* gamma adj1 */
ql_send_spi_cmd_to_lcd(0x0302, 0x0705); /* gamma adj2 */
ql_send_spi_cmd_to_lcd(0x0303, 0x0000); /* gamma adj3 */
ql_send_spi_cmd_to_lcd(0x0304, 0x0200); /* gamma adj4 */
ql_send_spi_cmd_to_lcd(0x0305, 0x0707); /* gamma adj5 */
ql_send_spi_cmd_to_lcd(0x0306, 0x1010); /* gamma adj6 */
ql_send_spi_cmd_to_lcd(0x0307, 0x0202); /* gamma adj7 */
ql_send_spi_cmd_to_lcd(0x0308, 0x0704); /* gamma adj8 */
ql_send_spi_cmd_to_lcd(0x0309, 0x0707); /* gamma adj9 */
ql_send_spi_cmd_to_lcd(0x030A, 0x0000); /* gamma adja */
ql_send_spi_cmd_to_lcd(0x030B, 0x0000); /* gamma adjb */
ql_send_spi_cmd_to_lcd(0x030C, 0x0707); /* gamma adjc */
ql_send_spi_cmd_to_lcd(0x030D, 0x1010); /* gamma adjd */
ql_send_spi_cmd_to_lcd(0x0310, 0x0104); /* gamma adj10 */
ql_send_spi_cmd_to_lcd(0x0311, 0x0503); /* gamma adj11 */
ql_send_spi_cmd_to_lcd(0x0312, 0x0304); /* gamma adj12 */
ql_send_spi_cmd_to_lcd(0x0315, 0x0304); /* gamma adj15 */
ql_send_spi_cmd_to_lcd(0x0316, 0x031C); /* gamma adj16 */
ql_send_spi_cmd_to_lcd(0x0317, 0x0204); /* gamma adj17 */
ql_send_spi_cmd_to_lcd(0x0318, 0x0402); /* gamma adj18 */
ql_send_spi_cmd_to_lcd(0x0319, 0x0305); /* gamma adj19 */
ql_send_spi_cmd_to_lcd(0x031C, 0x0707); /* gamma adj1c */
ql_send_spi_cmd_to_lcd(0x031D, 0x021F); /* gamma adj1d */
ql_send_spi_cmd_to_lcd(0x0320, 0x0507); /* gamma adj20 */
ql_send_spi_cmd_to_lcd(0x0321, 0x0604); /* gamma adj21 */
ql_send_spi_cmd_to_lcd(0x0322, 0x0405); /* gamma adj22 */
ql_send_spi_cmd_to_lcd(0x0327, 0x0203); /* gamma adj27 */
ql_send_spi_cmd_to_lcd(0x0328, 0x0300); /* gamma adj28 */
ql_send_spi_cmd_to_lcd(0x0329, 0x0002); /* gamma adj29 */
ql_send_spi_cmd_to_lcd(0x0100, 0x363C); /* power cont1 */
mddi_wait(1);
ql_send_spi_cmd_to_lcd(0x0101, 0x4003); /* power cont2 */
ql_send_spi_cmd_to_lcd(0x0102, 0x0001); /* power cont3 */
ql_send_spi_cmd_to_lcd(0x0103, 0x3C58); /* power cont4 */
ql_send_spi_cmd_to_lcd(0x010C, 0x0135); /* power cont6 */
ql_send_spi_cmd_to_lcd(0x0106, 0x0002); /* auto seq */
ql_send_spi_cmd_to_lcd(0x0029, 0x03BF); /* panel if cont10 */
ql_send_spi_cmd_to_lcd(0x0106, 0x0003); /* auto seq */
mddi_wait(5);
ql_send_spi_cmd_to_lcd(0x0101, 0x4010); /* power cont2 */
mddi_wait(10);
}
/* Function to Power On the Primary and Secondary LCD panels */
static int mddi_quickvx_lcd_on(struct platform_device *pdev)
{
struct msm_fb_data_type *mfd;
MDDI_MSG_DEBUG("\n%s(): ", __func__);
mfd = platform_get_drvdata(pdev);
if (!mfd) {
MDDI_MSG_DEBUG("\n mddi_quickvx_lcd_on: Device not found!");
return -ENODEV;
}
if (mfd->key != MFD_KEY) {
MDDI_MSG_DEBUG("\n mddi_quickvx_lcd_on: Invalid MFD key!");
return -EINVAL;
}
mddi_host_client_cnt_reset();
mddi_quickvx_configure_registers();
mddi_quickvx_prim_lcd_init();
return 0;
}
/* Function to Power Off the Primary and Secondary LCD panels */
static int mddi_quickvx_lcd_off(struct platform_device *pdev)
{
MDDI_MSG_DEBUG("\n%s(): ", __func__);
mddi_wait(1);
ql_send_spi_cmd_to_lcd(0x0106, 0x0002); /* Auto Sequencer setting */
mddi_wait(10);
ql_send_spi_cmd_to_lcd(0x0106, 0x0000); /* Auto Sequencer setting */
ql_send_spi_cmd_to_lcd(0x0029, 0x0002); /* Panel IF control 10 */
ql_send_spi_cmd_to_lcd(0x0100, 0x300D); /* Power Control 1 */
mddi_wait(1);
return 0;
}
/* Function to set the Backlight brightness level */
static void mddi_quickvx_lcd_set_backlight(struct msm_fb_data_type *mfd)
{
int32 level, i = 0, ret;
MDDI_MSG_DEBUG("%s(): ", __func__);
level = mfd->bl_level;
MDDI_MSG_DEBUG("\n level = %d", level);
if (level < 0) {
MDDI_MSG_DEBUG("mddi_quickvx_lcd_set_backlight: "
"Invalid backlight level (%d)!\n", level);
return;
}
while (i++ < 3) {
ret = pmic_set_led_intensity(LED_LCD, level);
if (ret == 0)
return;
msleep(10);
}
MDDI_MSG_DEBUG("%s: can't set lcd backlight!\n",
__func__);
}
/* Driver Probe function */
static int __devinit mddi_quickvx_lcd_probe(struct platform_device *pdev)
{
MDDI_MSG_DEBUG("\n%s(): id is %d", __func__, pdev->id);
msm_fb_add_device(pdev);
return 0;
}
/* Driver data structure */
static struct platform_driver this_driver = {
.probe = mddi_quickvx_lcd_probe,
.driver = {
.name = "mddi_quickvx",
},
};
/* Primary LCD panel data structure */
static struct msm_fb_panel_data mddi_quickvx_panel_data0 = {
.on = mddi_quickvx_lcd_on,
.off = mddi_quickvx_lcd_off,
.set_backlight = mddi_quickvx_lcd_set_backlight,
};
/* Primary LCD panel device structure */
static struct platform_device this_device0 = {
.name = "mddi_quickvx",
.id = MDDI_QUICKVX_1_2,
.dev = {
.platform_data = &mddi_quickvx_panel_data0,
}
};
/* Module init - driver main entry point */
static int __init mddi_quickvx_lcd_init(void)
{
int ret;
struct msm_panel_info *pinfo;
#ifdef CONFIG_FB_MSM_MDDI_AUTO_DETECT
u32 cid;
MDDI_MSG_DEBUG("\n%s(): ", __func__);
ret = msm_fb_detect_client("mddi_quickvx");
if (ret == -ENODEV) {
/* Device not found */
MDDI_MSG_DEBUG("\n mddi_quickvx_lcd_init: No device found!");
return 0;
}
if (ret) {
cid = mddi_get_client_id();
MDDI_MSG_DEBUG("\n cid = 0x%x", cid);
if (((cid >> 16) != QUICKVX_MDDI_MFR_CODE) ||
((cid & 0xFFFF) != QUICKVX_MDDI_PRD_CODE)) {
/* MDDI Client ID not matching */
MDDI_MSG_DEBUG("\n mddi_quickvx_lcd_init: "
"Client ID missmatch!");
return 0;
}
MDDI_MSG_DEBUG("\n mddi_quickvx_lcd_init: "
"QuickVX LCD panel detected!");
}
#endif /* CONFIG_FB_MSM_MDDI_AUTO_DETECT */
mddi_quickvx_rows_per_refresh = 872;
mddi_quickvx_rows_per_second = 52364;
mddi_quickvx_usecs_per_refresh = 16574;
ret = platform_driver_register(&this_driver);
if (!ret) {
pinfo = &mddi_quickvx_panel_data0.panel_info;
pinfo->xres = 480;
pinfo->yres = 864;
MSM_FB_SINGLE_MODE_PANEL(pinfo);
pinfo->type = MDDI_PANEL;
pinfo->pdest = DISPLAY_1;
pinfo->mddi.vdopkt = MDDI_DEFAULT_PRIM_PIX_ATTR;
pinfo->wait_cycle = 0;
pinfo->bpp = 24;
pinfo->fb_num = 2;
pinfo->clk_rate = 192000000;
pinfo->clk_min = 192000000;
pinfo->clk_max = 200000000;
pinfo->lcd.rev = 1;
pinfo->lcd.vsync_enable = TRUE;
pinfo->lcd.refx100 = (mddi_quickvx_rows_per_second \
* 100)/mddi_quickvx_rows_per_refresh;
pinfo->mddi.is_type1 = TRUE;
pinfo->lcd.v_back_porch = 4;
pinfo->lcd.v_front_porch = 2;
pinfo->lcd.v_pulse_width = 2;
pinfo->lcd.hw_vsync_mode = TRUE;
pinfo->lcd.vsync_notifier_period = (1 * HZ);
pinfo->bl_max = 10;
pinfo->bl_min = 0;
ret = platform_device_register(&this_device0);
if (ret) {
platform_driver_unregister(&this_driver);
MDDI_MSG_DEBUG("mddi_quickvx_lcd_init: "
"Primary device registration failed!\n");
}
}
return ret;
}
module_init(mddi_quickvx_lcd_init);