rt-thread/bsp/efm32/Libraries/emlib/inc/em_ebi.h

817 lines
31 KiB
C

/***************************************************************************//**
* @file
* @brief External Bus Iterface (EBI) peripheral API
* @author Energy Micro AS
* @version 3.0.0
*******************************************************************************
* @section License
* <b>(C) Copyright 2012 Energy Micro AS, http://www.energymicro.com</b>
*******************************************************************************
*
* Permission is granted to anyone to use this software for any purpose,
* including commercial applications, and to alter it and redistribute it
* freely, subject to the following restrictions:
*
* 1. The origin of this software must not be misrepresented; you must not
* claim that you wrote the original software.
* 2. Altered source versions must be plainly marked as such, and must not be
* misrepresented as being the original software.
* 3. This notice may not be removed or altered from any source distribution.
*
* DISCLAIMER OF WARRANTY/LIMITATION OF REMEDIES: Energy Micro AS has no
* obligation to support this Software. Energy Micro AS is providing the
* Software "AS IS", with no express or implied warranties of any kind,
* including, but not limited to, any implied warranties of merchantability
* or fitness for any particular purpose or warranties against infringement
* of any proprietary rights of a third party.
*
* Energy Micro AS will not be liable for any consequential, incidental, or
* special damages, or any other relief, or for any claim by any third party,
* arising from your use of this Software.
*
******************************************************************************/
#ifndef __EM_EBI_H
#define __EM_EBI_H
#include "em_part.h"
#if defined(EBI_COUNT) && (EBI_COUNT > 0)
#include "em_assert.h"
#include <stdint.h>
#include <stdbool.h>
#ifdef __cplusplus
extern "C" {
#endif
/***************************************************************************//**
* @addtogroup EM_Library
* @{
******************************************************************************/
/***************************************************************************//**
* @addtogroup EBI
* @{
******************************************************************************/
/***************************************************************************//**
* @verbatim
*
* --------- ---------
* | EBI | /| |\ | Ext. |
* | | / --------- \ | Async |
* |(EFM32)| \ --------- / | Device|
* | | \| |/ | |
* --------- ---------
* Parallel interface
*
* @endverbatim
******************************************************************************/
/*******************************************************************************
******************************* DEFINES ***********************************
******************************************************************************/
#define EBI_BANK0 (uint32_t)(1 << 1) /**< EBI address bank 0 */
#define EBI_BANK1 (uint32_t)(1 << 2) /**< EBI address bank 1 */
#define EBI_BANK2 (uint32_t)(1 << 3) /**< EBI address bank 2 */
#define EBI_BANK3 (uint32_t)(1 << 4) /**< EBI address bank 3 */
#define EBI_CS0 (uint32_t)(1 << 1) /**< EBI chip select line 0 */
#define EBI_CS1 (uint32_t)(1 << 2) /**< EBI chip select line 1 */
#define EBI_CS2 (uint32_t)(1 << 3) /**< EBI chip select line 2 */
#define EBI_CS3 (uint32_t)(1 << 4) /**< EBI chip select line 3 */
/*******************************************************************************
******************************** ENUMS ************************************
******************************************************************************/
/** EBI Mode of operation */
typedef enum
{
/** 8 data bits, 8 address bits */
ebiModeD8A8 = EBI_CTRL_MODE_D8A8,
/** 16 data bits, 16 address bits, using address latch enable */
ebiModeD16A16ALE = EBI_CTRL_MODE_D16A16ALE,
/** 8 data bits, 24 address bits, using address latch enable */
ebiModeD8A24ALE = EBI_CTRL_MODE_D8A24ALE,
/** Mode D16 */
#if defined(_EFM32_GIANT_FAMILY)
ebiModeD16 = EBI_CTRL_MODE_D16,
#endif
} EBI_Mode_TypeDef;
/** EBI Polarity configuration */
typedef enum
{
/** Active Low */
ebiActiveLow = 0,
/** Active High */
ebiActiveHigh = 1
} EBI_Polarity_TypeDef;
/** EBI Pin Line types */
typedef enum
{
/** Address Ready line */
ebiLineARDY,
/** Address Latch Enable line */
ebiLineALE,
/** Write Enable line */
ebiLineWE,
/** Read Enable line */
ebiLineRE,
/** Chip Select line */
ebiLineCS,
#if defined(_EFM32_GIANT_FAMILY)
/** BL line */
ebiLineBL,
#endif
#if defined(_EFM32_GIANT_FAMILY)
/** TFT VSYNC line */
ebiLineTFTVSync,
/** TFT HSYNC line */
ebiLineTFTHSync,
/** TFT Data enable line */
ebiLineTFTDataEn,
/** TFT DCLK line */
ebiLineTFTDClk,
/** TFT Chip select line */
ebiLineTFTCS,
#endif
} EBI_Line_TypeDef;
#if defined(_EFM32_GIANT_FAMILY)
/** Address Pin Enable, lower limit - lower range of pins to enable */
typedef enum
{
/** Adress lines EBI_A[0] and upwards are enabled by APEN */
ebiALowA0 = EBI_ROUTE_ALB_A0,
/** Adress lines EBI_A[8] and upwards are enabled by APEN */
ebiALowA8 = EBI_ROUTE_ALB_A8,
/** Adress lines EBI_A[16] and upwards are enabled by APEN */
ebiALowA16 = EBI_ROUTE_ALB_A16,
/** Adress lines EBI_A[24] and upwards are enabled by APEN */
ebiALowA24 = EBI_ROUTE_ALB_A24,
} EBI_ALow_TypeDef;
/** Adress Pin Enable, high limit - higher limit of pins to enable */
typedef enum
{
/** All EBI_A pins are disabled */
ebiAHighA0 = EBI_ROUTE_APEN_A0,
/** All EBI_A[4:ALow] are enabled */
ebiAHighA5 = EBI_ROUTE_APEN_A5,
/** All EBI_A[5:ALow] are enabled */
ebiAHighA6 = EBI_ROUTE_APEN_A6,
/** All EBI_A[6:ALow] are enabled */
ebiAHighA7 = EBI_ROUTE_APEN_A7,
/** All EBI_A[7:ALow] are enabled */
ebiAHighA8 = EBI_ROUTE_APEN_A8,
/** All EBI_A[8:ALow] are enabled */
ebiAHighA9 = EBI_ROUTE_APEN_A9,
/** All EBI_A[9:ALow] are enabled */
ebiAHighA10 = EBI_ROUTE_APEN_A10,
/** All EBI_A[10:ALow] are enabled */
ebiAHighA11 = EBI_ROUTE_APEN_A11,
/** All EBI_A[11:ALow] are enabled */
ebiAHighA12 = EBI_ROUTE_APEN_A12,
/** All EBI_A[12:ALow] are enabled */
ebiAHighA13 = EBI_ROUTE_APEN_A13,
/** All EBI_A[13:ALow] are enabled */
ebiAHighA14 = EBI_ROUTE_APEN_A14,
/** All EBI_A[14:ALow] are enabled */
ebiAHighA15 = EBI_ROUTE_APEN_A15,
/** All EBI_A[15:ALow] are enabled */
ebiAHighA16 = EBI_ROUTE_APEN_A16,
/** All EBI_A[16:ALow] are enabled */
ebiAHighA17 = EBI_ROUTE_APEN_A17,
/** All EBI_A[17:ALow] are enabled */
ebiAHighA18 = EBI_ROUTE_APEN_A18,
/** All EBI_A[18:ALow] are enabled */
ebiAHighA19 = EBI_ROUTE_APEN_A19,
/** All EBI_A[19:ALow] are enabled */
ebiAHighA20 = EBI_ROUTE_APEN_A20,
/** All EBI_A[20:ALow] are enabled */
ebiAHighA21 = EBI_ROUTE_APEN_A21,
/** All EBI_A[21:ALow] are enabled */
ebiAHighA22 = EBI_ROUTE_APEN_A22,
/** All EBI_A[22:ALow] are enabled */
ebiAHighA23 = EBI_ROUTE_APEN_A23,
/** All EBI_A[23:ALow] are enabled */
ebiAHighA24 = EBI_ROUTE_APEN_A24,
/** All EBI_A[24:ALow] are enabled */
ebiAHighA25 = EBI_ROUTE_APEN_A25,
/** All EBI_A[25:ALow] are enabled */
ebiAHighA26 = EBI_ROUTE_APEN_A26,
/** All EBI_A[26:ALow] are enabled */
ebiAHighA27 = EBI_ROUTE_APEN_A27,
/** All EBI_A[27:ALow] are enabled */
ebiAHighA28 = EBI_ROUTE_APEN_A28,
} EBI_AHigh_TypeDef;
/** EBI I/O Alternate Pin Location */
typedef enum {
/** EBI PIN I/O Location 0 */
ebiLocation0 = EBI_ROUTE_LOCATION_LOC0,
/** EBI PIN I/O Location 1 */
ebiLocation1 = EBI_ROUTE_LOCATION_LOC1,
/** EBI PIN I/O Location 2 */
ebiLocation2 = EBI_ROUTE_LOCATION_LOC2,
/** EBI PIN I/O Location 3 */
// ebiLocation3 = EBI_ROUTE_LOCATION_LOC3,
} EBI_Location_TypeDef;
#endif
/* TFT support */
#if defined(_EFM32_GIANT_FAMILY)
/** EBI TFT Graphics Bank Select */
typedef enum
{
/** Memory BANK0 contains frame buffer */
ebiTFTBank0 = EBI_TFTCTRL_BANKSEL_BANK0,
/** Memory BANK1 contains frame buffer */
ebiTFTBank1 = EBI_TFTCTRL_BANKSEL_BANK1,
/** Memory BANK2 contains frame buffer */
ebiTFTBank2 = EBI_TFTCTRL_BANKSEL_BANK2,
/** Memory BANK3 contains frame buffer */
ebiTFTBank3 = EBI_TFTCTRL_BANKSEL_BANK3
} EBI_TFTBank_TypeDef;
/** Masking and Alpha blending source color*/
typedef enum
{
/** Use memory as source color for masking/alpha blending */
ebiTFTColorSrcMem = EBI_TFTCTRL_COLOR1SRC_MEM,
/** Use PIXEL1 register as source color for masking/alpha blending */
ebiTFTColorSrcPixel1 = EBI_TFTCTRL_COLOR1SRC_PIXEL1,
} EBI_TFTColorSrc_TypeDef;
/** Bus Data Interleave Mode */
typedef enum
{
/** Unlimited interleaved accesses per EBI_DCLK period. Can cause jitter */
ebiTFTInterleaveUnlimited = EBI_TFTCTRL_INTERLEAVE_UNLIMITED,
/** Allow 1 interleaved access per EBI_DCLK period */
ebiTFTInterleaveOnePerDClk = EBI_TFTCTRL_INTERLEAVE_ONEPERDCLK,
/** Only allow accesses during porch periods */
ebiTFTInterleavePorch = EBI_TFTCTRL_INTERLEAVE_PORCH,
} EBI_TFTInterleave_TypeDef;
/** Control frame base pointer copy */
typedef enum
{
/** Trigger update of frame buffer pointer on vertical sync */
ebiTFTFrameBufTriggerVSync = EBI_TFTCTRL_FBCTRIG_VSYNC,
/** Trigger update of frame buffer pointer on horizontal sync */
ebiTFTFrameBufTriggerHSync = EBI_TFTCTRL_FBCTRIG_HSYNC,
} EBI_TFTFrameBufTrigger_TypeDef;
/** Control of mask and alpha blending mode */
typedef enum
{
/** Masking and blending are disabled */
ebiTFTMBDisabled = EBI_TFTCTRL_MASKBLEND_DISABLED,
/** Internal masking */
ebiTFTMBIMask = EBI_TFTCTRL_MASKBLEND_IMASK,
/** Internal alpha blending */
ebiTFTMBIAlpha = EBI_TFTCTRL_MASKBLEND_IALPHA,
/** Internal masking and alpha blending are enabled */
ebiTFTMBIMaskAlpha = EBI_TFTCTRL_MASKBLEND_IMASKIALPHA,
/** External masking */
ebiTFTMBEMask = EBI_TFTCTRL_MASKBLEND_EMASK,
/** External alpha blending */
ebiTFTMBEAlpha = EBI_TFTCTRL_MASKBLEND_EALPHA,
/** External masking and alpha blending */
ebiTFTMBEMaskAlpha = EBI_TFTCTRL_MASKBLEND_EMASKEALPHA,
} EBI_TFTMaskBlend_TypeDef;
/** TFT Direct Drive mode */
typedef enum
{
/** Disabled */
ebiTFTDDModeDisabled = EBI_TFTCTRL_DD_DISABLED,
/** Direct Drive from internal memory */
ebiTFTDDModeInternal = EBI_TFTCTRL_DD_INTERNAL,
/** Direct Drive from external memory */
ebiTFTDDModeExternal = EBI_TFTCTRL_DD_EXTERNAL,
} EBI_TFTDDMode_TypeDef;
/** TFT Data Increment Width */
typedef enum
{
/** Pixel increments are 1 byte at a time */
ebiTFTWidthByte = EBI_TFTCTRL_WIDTH_BYTE,
/** Pixel increments are 2 bytes (half word) */
ebiTFTWidthHalfWord = EBI_TFTCTRL_WIDTH_HALFWORD,
} EBI_TFTWidth_TypeDef;
#endif
/*******************************************************************************
******************************* STRUCTS ***********************************
******************************************************************************/
/** EBI Initialization structure */
typedef struct
{
/** EBI operation mode, data and address limits */
EBI_Mode_TypeDef mode;
/** Address Ready pin polarity, active high or low */
EBI_Polarity_TypeDef ardyPolarity;
/** Address Latch Enable pin polarity, active high or low */
EBI_Polarity_TypeDef alePolarity;
/** Write Enable pin polarity, active high or low */
EBI_Polarity_TypeDef wePolarity;
/** Read Enable pin polarity, active high or low */
EBI_Polarity_TypeDef rePolarity;
/** Chip Select pin polarity, active high or low */
EBI_Polarity_TypeDef csPolarity;
#if defined(_EFM32_GIANT_FAMILY)
/** Byte Lane pin polaritym, active high or low */
EBI_Polarity_TypeDef blPolarity;
/** Flag to enable or disable Byte Lane support */
bool blEnable;
/** Flag to enable or disable idle state insertion between transfers */
bool noIdle;
#endif
/** Flag to enable or disable Address Ready support */
bool ardyEnable;
/** Set to turn off 32 cycle timeout ability */
bool ardyDisableTimeout;
/** Mask of flags which selects address banks to configure EBI_BANK<0-3> */
uint32_t banks;
/** Mask of flags which selects chip select lines to configure EBI_CS<0-3> */
uint32_t csLines;
/** Number of cycles address is held after Adress Latch Enable is asserted */
int addrSetupCycles;
/** Number of cycles address is driven onto the ADDRDAT bus before ALE is asserted */
int addrHoldCycles;
#if defined(_EFM32_GIANT_FAMILY)
/** Enable or disables half cycle duration of the ALE strobe in the last address setup cycle */
bool addrHalfALE;
#endif
/** Number of cycles for address setup before REn is asserted */
int readSetupCycles;
/** Number of cycles REn is held active */
int readStrobeCycles;
/** Number of cycles CSn is held active after REn is deasserted */
int readHoldCycles;
#if defined(_EFM32_GIANT_FAMILY)
/** Enable or disable page mode reads */
bool readPageMode;
/** Enables or disable prefetching from sequential addresses */
bool readPrefetch;
/** Enabled or disables half cycle duration of the REn signal in the last strobe cycle */
bool readHalfRE;
#endif
/** Number of cycles for address setup before WEn is asserted */
int writeSetupCycles;
/** Number of cycles WEn is held active */
int writeStrobeCycles;
/** Number of cycles CSn is held active after WEn is deasserted */
int writeHoldCycles;
#if defined(_EFM32_GIANT_FAMILY)
/** Enable or disable the write buffer */
bool writeBufferDisable;
/** Enables or disables half cycle duration of the WEn signal in the last strobe cycle */
bool writeHalfWE;
/** Lower address pin limit to enable */
EBI_ALow_TypeDef aLow;
/** High address pin limit to enable */
EBI_AHigh_TypeDef aHigh;
/** Pin Location */
EBI_Location_TypeDef location;
#endif
/** Flag, if EBI should be enabled after configuration */
bool enable;
} EBI_Init_TypeDef;
/** Default config for EBI init structures */
#if defined(_EFM32_GIANT_FAMILY)
#define EBI_INIT_DEFAULT \
{ ebiModeD8A8, /* 8 bit address, 8 bit data */ \
ebiActiveLow, /* ARDY polarity */ \
ebiActiveLow, /* ALE polarity */ \
ebiActiveLow, /* WE polarity */ \
ebiActiveLow, /* RE polarity */ \
ebiActiveLow, /* CS polarity */ \
ebiActiveLow, /* BL polarity */ \
false, /* enable BL */ \
false, /* enable NOIDLE */ \
false, /* enable ARDY */ \
false, /* don't disable ARDY timeout */ \
EBI_BANK0, /* enable bank 0 */ \
EBI_CS0, /* enable chip select 0 */ \
0, /* addr setup cycles */ \
1, /* addr hold cycles */ \
false, /* do not enable half cycle ALE strobe */ \
0, /* read setup cycles */ \
0, /* read strobe cycles */ \
0, /* read hold cycles */ \
false, /* disable page mode */ \
false, /* disable prefetch */ \
false, /* do not enable half cycle REn strobe */ \
0, /* write setup cycles */ \
0, /* write strobe cycles */ \
1, /* write hold cycles */ \
false, /* do not disable the write buffer */ \
false, /* do not enable halc cycle WEn strobe */ \
ebiALowA0, /* ALB - Low bound, address lines */ \
ebiAHighA0, /* APEN - High bound, address lines */ \
ebiLocation0, /* Use Location 0 */ \
true, /* enable EBI */ \
}
#else
#define EBI_INIT_DEFAULT \
{ ebiModeD8A8, /* 8 bit address, 8 bit data */ \
ebiActiveLow, /* ARDY polarity */ \
ebiActiveLow, /* ALE polarity */ \
ebiActiveLow, /* WE polarity */ \
ebiActiveLow, /* RE polarity */ \
ebiActiveLow, /* CS polarity */ \
false, /* enable ARDY */ \
false, /* don't disable ARDY timeout */ \
EBI_BANK0, /* enable bank 0 */ \
EBI_CS0, /* enable chip select 0 */ \
0, /* addr setup cycles */ \
1, /* addr hold cycles */ \
0, /* read setup cycles */ \
0, /* read strobe cycles */ \
0, /* read hold cycles */ \
0, /* write setup cycles */ \
0, /* write strobe cycles */ \
1, /* write hold cycles */ \
true, /* enable EBI */ \
}
#endif
#if defined(_EFM32_GIANT_FAMILY)
/** TFT Initialization structure */
typedef struct
{
/** External memory bank for driving display */
EBI_TFTBank_TypeDef bank;
/** Width */
EBI_TFTWidth_TypeDef width;
/** Color source for masking and alpha blending */
EBI_TFTColorSrc_TypeDef colSrc;
/** Bus Interleave mode */
EBI_TFTInterleave_TypeDef interleave;
/** Trigger for updating frame buffer pointer */
EBI_TFTFrameBufTrigger_TypeDef fbTrigger;
/** Drive DCLK from negative clock edge of internal clock */
bool shiftDClk;
/** Masking and alpha blending mode */
EBI_TFTMaskBlend_TypeDef maskBlend;
/** TFT Direct Drive mode */
EBI_TFTDDMode_TypeDef driveMode;
/** TFT Polarity for Chip Select (CS) Line */
EBI_Polarity_TypeDef csPolarity;
/** TFT Polarity for Data Clock (DCLK) Line */
EBI_Polarity_TypeDef dclkPolarity;
/** TFT Polarity for Data Enable (DATAEN) Line */
EBI_Polarity_TypeDef dataenPolarity;
/** TFT Polarity for Horizontal Sync (HSYNC) Line */
EBI_Polarity_TypeDef hsyncPolarity;
/** TFT Polarity for Vertical Sync (VSYNC) Line */
EBI_Polarity_TypeDef vsyncPolarity;
/** Horizontal size in pixels */
int hsize;
/** Horizontal Front Porch Size */
int hPorchFront;
/** Horizontal Back Porch Size */
int hPorchBack;
/** Horizontal Synchronization Pulse Width */
int hPulseWidth;
/** Vertical size in pixels */
int vsize;
/** Vertical Front Porch Size */
int vPorchFront;
/** Vertical Back Porch Size */
int vPorchBack;
/** Vertical Synchronization Pulse Width */
int vPulseWidth;
/** TFT Frame Buffer address, offset to EBI bank base address */
uint32_t addressOffset;
/** TFT DCLK period in internal cycles */
int dclkPeriod;
/** Starting position of External Direct Drive relative to DCLK inactive edge */
int startPosition;
/** Number of cycles RGB data is driven before active edge of DCLK */
int setupCycles;
/** Number of cycles RGB data is held after active edge of DCLK */
int holdCycles;
} EBI_TFTInit_TypeDef;
#define EBI_TFTINIT_DEFAULT \
{ ebiTFTBank0, /* Select EBI Bank 0 */ \
ebiTFTWidthHalfWord, /* Select 2-byte increments */ \
ebiTFTColorSrcMem, /* Use memory as source for mask/blending */ \
ebiTFTInterleaveUnlimited, /* Unlimited interleaved accesses */ \
ebiTFTFrameBufTriggerVSync, /* VSYNC as frame buffer update trigger */ \
false, /* Drive DCLK from negative edge of internal clock */ \
ebiTFTMBDisabled, /* No masking and alpha blending enabled */ \
ebiTFTDDModeExternal, /* Drive from external memory */ \
ebiActiveLow, /* CS Active Low polarity */ \
ebiActiveLow, /* DCLK Active Low polarity */ \
ebiActiveLow, /* DATAEN Active Low polarity */ \
ebiActiveLow, /* HSYNC Active Low polarity */ \
ebiActiveLow, /* VSYNC Active Low polarity */ \
320, /* Horizontal size in pixels */ \
1, /* Horizontal Front Porch */ \
29, /* Horizontal Back Porch */ \
2, /* Horizontal Synchronization Pulse Width */ \
240, /* Vertical size in pixels */ \
1, /* Vertical Front Porch */ \
4, /* Vertical Back Porch */ \
2, /* Vertical Synchronization Pulse Width */ \
0x0000, /* Address offset to EBI memory base */ \
5, /* DCLK Period */ \
2, /* DCLK Start */ \
1, /* DCLK Setup cycles */ \
1, /* DCLK Hold cycles */ \
}
#endif
/*******************************************************************************
***************************** PROTOTYPES **********************************
******************************************************************************/
void EBI_Init(const EBI_Init_TypeDef *ebiInit);
void EBI_Disable(void);
uint32_t EBI_BankAddress(uint32_t bank);
void EBI_BankEnable(uint32_t banks, bool enable);
#if defined(_EFM32_GIANT_FAMILY)
void EBI_TFTInit(const EBI_TFTInit_TypeDef *ebiTFTInit);
void EBI_TFTSizeSet(uint32_t horizontal, uint32_t vertical);
void EBI_TFTHPorchSet(int front, int back, int pulseWidth);
void EBI_TFTVPorchSet(int front, int back, int pulseWidth);
void EBI_TFTTimingSet(int dclkPeriod, int start, int setup, int hold);
#endif
#if defined(_EFM32_GIANT_FAMILY)
/* This functionality is only available on devices with independent timing support */
void EBI_BankReadTimingSet(uint32_t bank, int setupCycles, int strobeCycles, int holdCycles);
void EBI_BankReadTimingConfig(uint32_t bank, bool pageMode, bool prefetch, bool halfRE);
void EBI_BankWriteTimingSet(uint32_t bank, int setupCycles, int strobeCycles, int holdCycles);
void EBI_BankWriteTimingConfig(uint32_t bank, bool writeBufDisable, bool halfWE);
void EBI_BankAddressTimingSet(uint32_t bank, int setupCycles, int holdCycles);
void EBI_BankAddressTimingConfig(uint32_t bank, bool halfALE);
void EBI_BankPolaritySet(uint32_t bank, EBI_Line_TypeDef line, EBI_Polarity_TypeDef polarity);
void EBI_BankByteLaneEnable(uint32_t bank, bool enable);
void EBI_BankPage(uint32_t bank, bool enable);
void EBI_AltMapEnable(bool enable);
/***************************************************************************//**
* @brief
* Enable or disable TFT Direct Drive
*
* @param[in] mode
* Drive from Internal or External memory, or Disable Direct Drive
******************************************************************************/
__STATIC_INLINE void EBI_TFTEnable(EBI_TFTDDMode_TypeDef mode)
{
EBI->TFTCTRL = (EBI->TFTCTRL & ~(_EBI_TFTCTRL_DD_MASK)) | (uint32_t) mode;
}
/***************************************************************************//**
* @brief
* Configure frame buffer pointer
*
* @param[in] address
* Frame pointer address, as offset by EBI base address
******************************************************************************/
__STATIC_INLINE void EBI_TFTFrameBaseSet(uint32_t address)
{
EBI->TFTFRAMEBASE = (uint32_t) address;
}
/***************************************************************************//**
* @brief Set TFT Pixel Color 0 or 1
*
* @param[in] pixel
* Which pixel instance to set
* @param[in] color
* Color of pixel, 16-bit value
******************************************************************************/
__STATIC_INLINE void EBI_TFTPixelSet(int pixel, uint32_t color)
{
EFM_ASSERT(pixel == 0 || pixel == 1);
if (pixel == 0)
{
EBI->TFTPIXEL0 = color;
}
if (pixel == 1)
{
EBI->TFTPIXEL1 = color;
}
}
/***************************************************************************//**
* @brief Masking and Blending Mode Set
*
* @param[in] alpha
* 8-bit value indicating blending factor
******************************************************************************/
__STATIC_INLINE void EBI_TFTMaskBlendMode(EBI_TFTMaskBlend_TypeDef maskBlend)
{
EBI->TFTCTRL = (EBI->TFTCTRL & (~_EBI_TFTCTRL_MASKBLEND_MASK))|maskBlend;
}
/***************************************************************************//**
* @brief Set TFT Alpha Blending Factor
*
* @param[in] alpha
* 8-bit value indicating blending factor
******************************************************************************/
__STATIC_INLINE void EBI_TFTAlphaBlendSet(uint8_t alpha)
{
EBI->TFTALPHA = alpha;
}
/***************************************************************************//**
* @brief Set TFT mask value
* Data accesses that matches this value are suppressed
* @param[in] mask
******************************************************************************/
__STATIC_INLINE void EBI_TFTMaskSet(uint32_t mask)
{
EBI->TFTMASK = mask;
}
/***************************************************************************//**
* @brief Get current vertical position counter
* @return
* Returns the current line position for the visible part of a frame
******************************************************************************/
__STATIC_INLINE uint32_t EBI_TFTVCount(void)
{
return((EBI->TFTSTATUS & _EBI_TFTSTATUS_VCNT_MASK) >> _EBI_TFTSTATUS_VCNT_SHIFT);
}
/***************************************************************************//**
* @brief Get current horizontal position counter
* @return
* Returns the current horizontal pixel position within a visible line
******************************************************************************/
__STATIC_INLINE uint32_t EBI_TFTHCount(void)
{
return((EBI->TFTSTATUS & _EBI_TFTSTATUS_HCNT_MASK) >> _EBI_TFTSTATUS_HCNT_SHIFT);
}
/***************************************************************************//**
* @brief Set Frame Buffer Trigger
* Frame buffer pointer will be updated either on each horizontal line (hsync)
* or vertical update (vsync)(
******************************************************************************/
__STATIC_INLINE void EBI_TFTFBTriggerSet(EBI_TFTFrameBufTrigger_TypeDef sync)
{
EBI->TFTCTRL = ((EBI->TFTCTRL & ~_EBI_TFTCTRL_FBCTRIG_MASK)|sync);
}
/***************************************************************************//**
* @brief Set horizontal TFT stride value in number of bytes
*
* @param[in] nbytes
* Number of bytes to add to frame buffer pointer after each horizontal line
* update
******************************************************************************/
__STATIC_INLINE void EBI_TFTHStrideSet(uint32_t nbytes)
{
EFM_ASSERT(nbytes < 0x1000);
EBI->TFTSTRIDE = (EBI->TFTSTRIDE & ~(_EBI_TFTSTRIDE_HSTRIDE_MASK))|
(nbytes<<_EBI_TFTSTRIDE_HSTRIDE_SHIFT);
}
/***************************************************************************//**
* @brief
* Clear one or more pending EBI interrupts.
* @param[in] flags
* Pending EBI interrupt source to clear. Use a logical OR combination
* of valid interrupt flags for the EBI module (EBI_IF_nnn).
******************************************************************************/
__STATIC_INLINE void EBI_IntClear(uint32_t flags)
{
EBI->IFC = flags;
}
/***************************************************************************//**
* @brief
* Set one or more pending EBI interrupts from SW.
*
* @param[in] flags
* EBI interrupt sources to set to pending. Use a logical OR combination of
* valid interrupt flags for the EBI module (EBI_IF_nnn).
******************************************************************************/
__STATIC_INLINE void EBI_IntSet(uint32_t flags)
{
EBI->IFS = flags;
}
/***************************************************************************//**
* @brief
* Disable one or more EBI interrupts
*
* @param[in] flags
* EBI interrupt sources to disable. Use logical OR combination of valid
* interrupt flags for the EBI module (EBI_IF_nnn)
******************************************************************************/
__STATIC_INLINE void EBI_IntDisable(uint32_t flags)
{
EBI->IEN &= ~(flags);
}
/***************************************************************************//**
* @brief
* Enable one or more EBI interrupts
*
* @param[in] flags
* EBI interrupt sources to enable. Use logical OR combination of valid
* interrupt flags for the EBI module (EBI_IF_nnn)
******************************************************************************/
__STATIC_INLINE void EBI_IntEnable(uint32_t flags)
{
EBI->IEN |= flags;
}
/***************************************************************************//**
* @brief
* Get pending EBI interrupt flags
*
* @note
* The event bits are not cleared by the use of this function
*
* @return
* EBI interrupt sources pending, a logical combination of valid EBI
* interrupt flags, EBI_IF_nnn
******************************************************************************/
__STATIC_INLINE uint32_t EBI_IntGet(void)
{
return(EBI->IF);
}
/***************************************************************************//**
* @brief
* Start ECC generator on NAND flash transfers.
******************************************************************************/
__STATIC_INLINE void EBI_StartNandEccGen(void)
{
EBI->CMD = EBI_CMD_ECCSTART | EBI_CMD_ECCCLEAR;
}
/***************************************************************************//**
* @brief
* Stop NAND flash ECC generator and return generated ECC.
*
* @return
* The generated ECC.
******************************************************************************/
__STATIC_INLINE uint32_t EBI_StopNandEccGen( void )
{
EBI->CMD = EBI_CMD_ECCSTOP;
return EBI->ECCPARITY;
}
#endif
void EBI_ChipSelectEnable(uint32_t banks, bool enable);
void EBI_ReadTimingSet(int setupCycles, int strobeCycles, int holdCycles);
void EBI_WriteTimingSet(int setupCycles, int strobeCycles, int holdCycles);
void EBI_AddressTimingSet(int setupCycles, int holdCycles);
void EBI_PolaritySet(EBI_Line_TypeDef line, EBI_Polarity_TypeDef polarity);
/** @} (end addtogroup EBI) */
/** @} (end addtogroup EM_Library) */
#ifdef __cplusplus
}
#endif
#endif /* defined(EBI_COUNT) && (EBI_COUNT > 0) */
#endif /* __EM_EBI_H */