/* * Copyright 2019-2021, 2023 NXP * All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include "display_support.h" #include "fsl_gpio.h" #include "fsl_mipi_dsi.h" /******************************************************************************* * Definitions ******************************************************************************/ /* * The DPHY bit clock must be fast enough to send out the pixels, it should be * larger than: * * (Pixel clock * bit per output pixel) / number of MIPI data lane * * Here the desired DPHY bit clock multiplied by ( 9 / 8 = 1.125) to ensure * it is fast enough. */ #define DEMO_MIPI_DPHY_BIT_CLK_ENLARGE(origin) (((origin) / 8) * 9) /******************************************************************************* * Prototypes ******************************************************************************/ static void BOARD_PullPanelResetPin(bool pullUp); static void BOARD_PullPanelPowerPin(bool pullUp); static void BOARD_InitLcdifClock(void); static void BOARD_InitMipiDsiClock(void); static status_t BOARD_DSI_Transfer(dsi_transfer_t *xfer); /******************************************************************************* * Variables ******************************************************************************/ static uint32_t mipiDsiTxEscClkFreq_Hz; static uint32_t mipiDsiDphyBitClkFreq_Hz; static uint32_t mipiDsiDphyRefClkFreq_Hz; static uint32_t mipiDsiDpiClkFreq_Hz; const MIPI_DSI_Type g_mipiDsi = { .host = DSI_HOST, .apb = DSI_HOST_APB_PKT_IF, .dpi = DSI_HOST_DPI_INTFC, .dphy = DSI_HOST_DPHY_INTFC, }; #if defined(DISPLAY_USING_RK055AHD091) static mipi_dsi_device_t dsiDevice = { .virtualChannel = 0, .xferFunc = BOARD_DSI_Transfer, }; static const rm68200_resource_t rm68200Resource = { .dsiDevice = &dsiDevice, .pullResetPin = BOARD_PullPanelResetPin, .pullPowerPin = BOARD_PullPanelPowerPin, }; static display_handle_t rm68200Handle = { .resource = &rm68200Resource, .ops = &rm68200_ops, }; #elif defined(DISPLAY_USING_RK055MHD091) static mipi_dsi_device_t dsiDevice = { .virtualChannel = 0, .xferFunc = BOARD_DSI_Transfer, }; static const hx8394_resource_t hx8394Resource = { .dsiDevice = &dsiDevice, .pullResetPin = BOARD_PullPanelResetPin, .pullPowerPin = BOARD_PullPanelPowerPin, }; static display_handle_t hx8394Handle = { .resource = &hx8394Resource, .ops = &hx8394_ops, }; #elif defined(DISPLAY_USING_RK055IQH091) static mipi_dsi_device_t dsiDevice = { .virtualChannel = 0, .xferFunc = BOARD_DSI_Transfer, }; static const rm68191_resource_t rm68191Resource = { .dsiDevice = &dsiDevice, .pullResetPin = BOARD_PullPanelResetPin, .pullPowerPin = BOARD_PullPanelPowerPin, }; static display_handle_t rm68191Handle = { .resource = &rm68191Resource, .ops = &rm68191_ops, }; #endif #if defined(BSP_USING_LCDIFV2) static dc_fb_lcdifv2_handle_t s_dcFbLcdifv2Handle = {0}; static const dc_fb_lcdifv2_config_t s_dcFbLcdifv2Config = { .lcdifv2 = DEMO_LCDIF, .width = LCD_MIPI_WIDTH, .height = LCD_MIPI_HEIGHT, .hsw = LCD_MIPI_HSW, .hfp = LCD_MIPI_HFP, .hbp = LCD_MIPI_HBP, .vsw = LCD_MIPI_VSW, .vfp = LCD_MIPI_VFP, .vbp = LCD_MIPI_VBP, .polarityFlags = DEMO_LCDIF_POL_FLAGS, .lineOrder = kLCDIFV2_LineOrderRGB, /* CM4 is domain 1, CM7 is domain 0. */ #if (__CORTEX_M <= 4) .domain = 1, #else .domain = 0, #endif }; const dc_fb_t g_dc = { .ops = &g_dcFbOpsLcdifv2, .prvData = &s_dcFbLcdifv2Handle, .config = &s_dcFbLcdifv2Config, }; #elif defined(BSP_USING_ELCDIF) dc_fb_elcdif_handle_t s_dcFbElcdifHandle = {0}; /* The handle must be initialized to 0. */ const dc_fb_elcdif_config_t s_dcFbElcdifConfig = { .elcdif = DEMO_LCDIF, .width = LCD_MIPI_WIDTH, .height = LCD_MIPI_HEIGHT, .hsw = LCD_MIPI_HSW, .hfp = LCD_MIPI_HFP, .hbp = LCD_MIPI_HBP, .vsw = LCD_MIPI_VSW, .vfp = LCD_MIPI_VFP, .vbp = LCD_MIPI_VBP, .polarityFlags = DEMO_LCDIF_POL_FLAGS, #if (!DEMO_USE_XRGB8888) && (DEMO_USE_LUT8) .dataBus = kELCDIF_DataBus8Bit, #else .dataBus = kELCDIF_DataBus24Bit, #endif }; const dc_fb_t g_dc = { .ops = &g_dcFbOpsElcdif, .prvData = &s_dcFbElcdifHandle, .config = &s_dcFbElcdifConfig, }; #endif /******************************************************************************* * Code ******************************************************************************/ static void BOARD_PullPanelResetPin(bool pullUp) { if (pullUp) { GPIO_PinWrite(BOARD_MIPI_PANEL_RST_GPIO, BOARD_MIPI_PANEL_RST_PIN, 1); } else { GPIO_PinWrite(BOARD_MIPI_PANEL_RST_GPIO, BOARD_MIPI_PANEL_RST_PIN, 0); } } static void BOARD_PullPanelPowerPin(bool pullUp) { if (pullUp) { GPIO_PinWrite(BOARD_MIPI_PANEL_POWER_GPIO, BOARD_MIPI_PANEL_POWER_PIN, 1); } else { GPIO_PinWrite(BOARD_MIPI_PANEL_POWER_GPIO, BOARD_MIPI_PANEL_POWER_PIN, 0); } } static status_t BOARD_DSI_Transfer(dsi_transfer_t *xfer) { return DSI_TransferBlocking(DEMO_LCD_MIPI, xfer); } static void BOARD_InitLcdifClock(void) { /* * The pixel clock is (height + VSW + VFP + VBP) * (width + HSW + HFP + HBP) * frame rate. * * For 60Hz frame rate, the RK055IQH091 pixel clock should be 36MHz. * the RK055AHD091 pixel clock should be 62MHz. */ const clock_root_config_t lcdifClockConfig = { .clockOff = false, .mux = 4, /*!< PLL_528. */ #if (defined(DISPLAY_USING_RK055AHD091) || defined(DISPLAY_USING_RK055MHD091)) .div = 9, #elif defined(DISPLAY_USING_RK055IQH091) .div = 15, #endif }; #if defined(BSP_USING_LCDIFV2) CLOCK_SetRootClock(kCLOCK_Root_Lcdifv2, &lcdifClockConfig); mipiDsiDpiClkFreq_Hz = CLOCK_GetRootClockFreq(kCLOCK_Root_Lcdifv2); #elif defined(BSP_USING_ELCDIF) CLOCK_SetRootClock(kCLOCK_Root_Lcdif, &lcdifClockConfig); mipiDsiDpiClkFreq_Hz = CLOCK_GetRootClockFreq(kCLOCK_Root_Lcdif); #endif } static void BOARD_InitMipiDsiClock(void) { uint32_t mipiDsiEscClkFreq_Hz; /* RxClkEsc max 60MHz, TxClkEsc 12 to 20MHz. */ /* RxClkEsc = 528MHz / 11 = 48MHz. */ /* TxClkEsc = 528MHz / 11 / 4 = 16MHz. */ const clock_root_config_t mipiEscClockConfig = { .clockOff = false, .mux = 4, /*!< PLL_528. */ .div = 11, }; CLOCK_SetRootClock(kCLOCK_Root_Mipi_Esc, &mipiEscClockConfig); mipiDsiEscClkFreq_Hz = CLOCK_GetRootClockFreq(kCLOCK_Root_Mipi_Esc); const clock_group_config_t mipiEscClockGroupConfig = { .clockOff = false, .resetDiv = 2, .div0 = 2, /* TX esc clock. */ }; CLOCK_SetGroupConfig(kCLOCK_Group_MipiDsi, &mipiEscClockGroupConfig); mipiDsiTxEscClkFreq_Hz = mipiDsiEscClkFreq_Hz / 3; /* DPHY reference clock, use OSC 24MHz clock. */ const clock_root_config_t mipiDphyRefClockConfig = { .clockOff = false, .mux = 1, /*!< OSC_24M. */ .div = 1, }; CLOCK_SetRootClock(kCLOCK_Root_Mipi_Ref, &mipiDphyRefClockConfig); mipiDsiDphyRefClkFreq_Hz = BOARD_XTAL0_CLK_HZ; } static status_t BOARD_InitLcdPanel(void) { status_t status; const gpio_pin_config_t pinConfig = {kGPIO_DigitalOutput, 0, kGPIO_NoIntmode}; const display_config_t displayConfig = { .resolution = FSL_VIDEO_RESOLUTION(LCD_MIPI_WIDTH, LCD_MIPI_HEIGHT), .hsw = LCD_MIPI_HSW, .hfp = LCD_MIPI_HFP, .hbp = LCD_MIPI_HBP, .vsw = LCD_MIPI_VSW, .vfp = LCD_MIPI_VFP, .vbp = LCD_MIPI_VBP, .controlFlags = 0, .dsiLanes = DEMO_LCD_MIPI_LANE_NUM, }; GPIO_PinInit(BOARD_MIPI_PANEL_POWER_GPIO, BOARD_MIPI_PANEL_POWER_PIN, &pinConfig); GPIO_PinInit(BOARD_MIPI_PANEL_BL_GPIO, BOARD_MIPI_PANEL_BL_PIN, &pinConfig); GPIO_PinInit(BOARD_MIPI_PANEL_RST_GPIO, BOARD_MIPI_PANEL_RST_PIN, &pinConfig); #if defined(DISPLAY_USING_RK055AHD091) status = RM68200_Init(&rm68200Handle, &displayConfig); #elif defined(DISPLAY_USING_RK055MHD091) status = HX8394_Init(&hx8394Handle, &displayConfig); #elif defined(DISPLAY_USING_RK055IQH091) status = RM68191_Init(&rm68191Handle, &displayConfig); #endif if (status == kStatus_Success) { GPIO_PinWrite(BOARD_MIPI_PANEL_BL_GPIO, BOARD_MIPI_PANEL_BL_PIN, 1); } return status; } static void BOARD_SetMipiDsiConfig(void) { dsi_config_t dsiConfig; dsi_dphy_config_t dphyConfig; const dsi_dpi_config_t dpiConfig = {.pixelPayloadSize = LCD_MIPI_WIDTH, .dpiColorCoding = kDSI_Dpi24Bit, .pixelPacket = kDSI_PixelPacket24Bit, .videoMode = kDSI_DpiBurst, .bllpMode = kDSI_DpiBllpLowPower, .polarityFlags = kDSI_DpiVsyncActiveLow | kDSI_DpiHsyncActiveLow, .hfp = LCD_MIPI_HFP, .hbp = LCD_MIPI_HBP, .hsw = LCD_MIPI_HSW, .vfp = LCD_MIPI_VFP, .vbp = LCD_MIPI_VBP, .panelHeight = LCD_MIPI_HEIGHT, .virtualChannel = 0}; /* * dsiConfig.numLanes = 4; * dsiConfig.enableNonContinuousHsClk = false; * dsiConfig.autoInsertEoTp = true; * dsiConfig.numExtraEoTp = 0; * dsiConfig.htxTo_ByteClk = 0; * dsiConfig.lrxHostTo_ByteClk = 0; * dsiConfig.btaTo_ByteClk = 0; */ DSI_GetDefaultConfig(&dsiConfig); dsiConfig.numLanes = DEMO_LCD_MIPI_LANE_NUM; dsiConfig.autoInsertEoTp = true; /* Init the DSI module. */ DSI_Init(DEMO_LCD_MIPI, &dsiConfig); /* Init DPHY. * * The DPHY bit clock must be fast enough to send out the pixels, it should be * larger than: * * (Pixel clock * bit per output pixel) / number of MIPI data lane * * Here the desired DPHY bit clock multiplied by ( 9 / 8 = 1.125) to ensure * it is fast enough. * * Note that the DSI output pixel is 24bit per pixel. */ mipiDsiDphyBitClkFreq_Hz = mipiDsiDpiClkFreq_Hz * (24 / DEMO_LCD_MIPI_LANE_NUM); mipiDsiDphyBitClkFreq_Hz = DEMO_MIPI_DPHY_BIT_CLK_ENLARGE(mipiDsiDphyBitClkFreq_Hz); DSI_GetDphyDefaultConfig(&dphyConfig, mipiDsiDphyBitClkFreq_Hz, mipiDsiTxEscClkFreq_Hz); mipiDsiDphyBitClkFreq_Hz = DSI_InitDphy(DEMO_LCD_MIPI, &dphyConfig, mipiDsiDphyRefClkFreq_Hz); /* Init DPI interface. */ DSI_SetDpiConfig(DEMO_LCD_MIPI, &dpiConfig, DEMO_LCD_MIPI_LANE_NUM, mipiDsiDpiClkFreq_Hz, mipiDsiDphyBitClkFreq_Hz); } status_t BOARD_InitDisplayInterface(void) { CLOCK_EnableClock(kCLOCK_Video_Mux); #if defined(BSP_USING_LCDIFV2) /* LCDIF v2 output to MIPI DSI. */ VIDEO_MUX->VID_MUX_CTRL.SET = VIDEO_MUX_VID_MUX_CTRL_MIPI_DSI_SEL_MASK; #elif defined(BSP_USING_ELCDIF) /* ELCDIF output to MIPI DSI. */ VIDEO_MUX->VID_MUX_CTRL.CLR = VIDEO_MUX_VID_MUX_CTRL_MIPI_DSI_SEL_MASK; #endif /* 1. Power on and isolation off. */ PGMC_BPC4->BPC_POWER_CTRL |= (PGMC_BPC_BPC_POWER_CTRL_PSW_ON_SOFT_MASK | PGMC_BPC_BPC_POWER_CTRL_ISO_OFF_SOFT_MASK); /* 2. Assert MIPI reset. */ IOMUXC_GPR->GPR62 &= ~(IOMUXC_GPR_GPR62_MIPI_DSI_PCLK_SOFT_RESET_N_MASK | IOMUXC_GPR_GPR62_MIPI_DSI_ESC_SOFT_RESET_N_MASK | IOMUXC_GPR_GPR62_MIPI_DSI_BYTE_SOFT_RESET_N_MASK | IOMUXC_GPR_GPR62_MIPI_DSI_DPI_SOFT_RESET_N_MASK); /* 3. Setup clock. */ BOARD_InitMipiDsiClock(); /* 4. Deassert PCLK and ESC reset. */ IOMUXC_GPR->GPR62 |= (IOMUXC_GPR_GPR62_MIPI_DSI_PCLK_SOFT_RESET_N_MASK | IOMUXC_GPR_GPR62_MIPI_DSI_ESC_SOFT_RESET_N_MASK); /* 5. Configures peripheral. */ BOARD_SetMipiDsiConfig(); /* 6. Deassert BYTE and DBI reset. */ IOMUXC_GPR->GPR62 |= (IOMUXC_GPR_GPR62_MIPI_DSI_BYTE_SOFT_RESET_N_MASK | IOMUXC_GPR_GPR62_MIPI_DSI_DPI_SOFT_RESET_N_MASK); /* 7. Configure the panel. */ return BOARD_InitLcdPanel(); } #if defined(BSP_USING_LCDIFV2) void LCDIFv2_IRQHandler(void) { DC_FB_LCDIFV2_IRQHandler(&g_dc); } #elif defined(BSP_USING_ELCDIF) void eLCDIF_IRQHandler(void) { DC_FB_ELCDIF_IRQHandler(&g_dc); } #endif status_t BOARD_VerifyDisplayClockSource(void) { status_t status; uint32_t srcClkFreq; /* * In this implementation, the SYSPLL2 (528M) clock is used as the source * of LCDIFV2 pixel clock and MIPI DSI ESC clock. The OSC24M clock is used * as the MIPI DSI DPHY PLL reference clock. This function checks the clock * source are valid. OSC24M is always valid, so only verify the SYSPLL2. */ srcClkFreq = CLOCK_GetPllFreq(kCLOCK_PllSys2); if (528 != (srcClkFreq / 1000000)) { status = kStatus_Fail; } else { status = kStatus_Success; } return status; } status_t BOARD_PrepareDisplayController(void) { status_t status; status = BOARD_VerifyDisplayClockSource(); if (status != kStatus_Success) { return status; } BOARD_InitLcdifClock(); status = BOARD_InitDisplayInterface(); if (kStatus_Success == status) { #if defined(BSP_USING_LCDIFV2) NVIC_ClearPendingIRQ(LCDIFv2_IRQn); NVIC_SetPriority(LCDIFv2_IRQn, 3); EnableIRQ(LCDIFv2_IRQn); #elif defined(BSP_USING_ELCDIF) NVIC_ClearPendingIRQ(eLCDIF_IRQn); NVIC_SetPriority(eLCDIF_IRQn, 3); EnableIRQ(eLCDIF_IRQn); #endif } return kStatus_Success; }