/* * Routines to access hardware * * Copyright (c) 2013 Realtek Semiconductor Corp. * */ #ifndef _HAL_I2S_H_ #define _HAL_I2S_H_ #include "rtl8195a_i2s.h" /* User Define Flags */ #define I2S_MAX_ID 1 // valid I2S index 0 ~ I2S_MAX_ID /**********************************************************************/ /* I2S HAL initial data structure */ typedef struct _HAL_I2S_INIT_DAT_ { u8 I2SIdx; /*I2S index used*/ u8 I2SEn; /*I2S module enable tx/rx/tx+rx*/ u8 I2SMaster; /*I2S Master or Slave mode*/ u8 I2SWordLen; /*I2S Word length 16 or 24bits*/ u8 I2SChNum; /*I2S Channel number mono or stereo*/ u8 I2SPageNum; /*I2S Page Number 2~4*/ u16 I2SPageSize; /*I2S page Size 1~4096 word*/ u8 *I2STxData; /*I2S Tx data pointer*/ u8 *I2SRxData; /*I2S Rx data pointer*/ u32 I2STxIntrMSK; /*I2S Tx Interrupt Mask*/ u32 I2STxIntrClr; /*I2S Tx Interrupt register to clear */ u32 I2SRxIntrMSK; /*I2S Rx Interrupt Mask*/ u32 I2SRxIntrClr; /*I2S Rx Interrupt register to clear*/ u16 I2STxIdx; /*I2S TX page index */ u16 I2SRxIdx; /*I2S RX page index */ u16 I2SHWTxIdx; /*I2S HW TX page index */ u16 I2SHWRxIdx; /*I2S HW RX page index */ u16 I2SRate; /*I2S sample rate*/ u8 I2STRxAct; /*I2S tx rx act*/ }HAL_I2S_INIT_DAT, *PHAL_I2S_INIT_DAT; /**********************************************************************/ /* I2S Data Structures */ /* I2S Module Selection */ typedef enum _I2S_MODULE_SEL_ { I2S0_SEL = 0x0, I2S1_SEL = 0x1, }I2S_MODULE_SEL,*PI2S_MODULE_SEL; /* typedef struct _HAL_I2S_ADAPTER_ { u32 Enable:1; I2S_CTL_REG I2sCtl; I2S_SETTING_REG I2sSetting; u32 abc; u8 I2sIndex; }HAL_I2S_ADAPTER, *PHAL_I2S_ADAPTER; */ /* I2S HAL Operations */ typedef struct _HAL_I2S_OP_ { RTK_STATUS (*HalI2SInit) (VOID *Data); RTK_STATUS (*HalI2SDeInit) (VOID *Data); RTK_STATUS (*HalI2STx) (VOID *Data, u8 *pBuff); RTK_STATUS (*HalI2SRx) (VOID *Data, u8 *pBuff); RTK_STATUS (*HalI2SEnable) (VOID *Data); RTK_STATUS (*HalI2SIntrCtrl) (VOID *Data); u32 (*HalI2SReadReg) (VOID *Data, u8 I2SReg); RTK_STATUS (*HalI2SSetRate) (VOID *Data); RTK_STATUS (*HalI2SSetWordLen) (VOID *Data); RTK_STATUS (*HalI2SSetChNum) (VOID *Data); RTK_STATUS (*HalI2SSetPageNum) (VOID *Data); RTK_STATUS (*HalI2SSetPageSize) (VOID *Data); RTK_STATUS (*HalI2SClrIntr) (VOID *Data); RTK_STATUS (*HalI2SClrAllIntr) (VOID *Data); RTK_STATUS (*HalI2SDMACtrl) (VOID *Data); /* VOID (*HalI2sOnOff)(VOID *Data); BOOL (*HalI2sInit)(VOID *Data); BOOL (*HalI2sSetting)(VOID *Data); BOOL (*HalI2sEn)(VOID *Data); BOOL (*HalI2sIsrEnAndDis) (VOID *Data); BOOL (*HalI2sDumpReg)(VOID *Data); BOOL (*HalI2s)(VOID *Data); */ }HAL_I2S_OP, *PHAL_I2S_OP; /**********************************************************************/ /* I2S Pinmux Selection */ #if 0 typedef enum _I2S0_PINMUX_ { I2S0_TO_S0 = 0x0, I2S0_TO_S1 = 0x1, I2S0_TO_S2 = 0x2, }I2S0_PINMUX, *PI2S0_PINMUX; typedef enum _I2S1_PINMUX_ { I2S1_TO_S0 = 0x0, I2S1_TO_S1 = 0x1, }I2S1_PINMUX, *PI2S1_PINMUX; #endif typedef enum _I2S_PINMUX_ { I2S_S0 = 0, I2S_S1 = 1, I2S_S2 = 2, I2S_S3 = 3 }I2S_PINMUX, *PI2S_PINMUX; /* I2S Module Status */ typedef enum _I2S_MODULE_STATUS_ { I2S_DISABLE = 0x0, I2S_ENABLE = 0x1, }I2S_MODULE_STATUS, *PI2S_MODULE_STATUS; /* I2S Device Status */ typedef enum _I2S_Device_STATUS_ { I2S_STS_UNINITIAL = 0x00, I2S_STS_INITIALIZED = 0x01, I2S_STS_IDLE = 0x02, I2S_STS_TX_READY = 0x03, I2S_STS_TX_ING = 0x04, I2S_STS_RX_READY = 0x05, I2S_STS_RX_ING = 0x06, I2S_STS_TRX_READY = 0x07, I2S_STS_TRX_ING = 0x08, I2S_STS_ERROR = 0x09, }I2S_Device_STATUS, *PI2S_Device_STATUS; /* I2S Feature Status */ typedef enum _I2S_FEATURE_STATUS_{ I2S_FEATURE_DISABLED = 0, I2S_FEATURE_ENABLED = 1, }I2S_FEATURE_STATUS,*PI2S_FEATURE_STATUS; /* I2S Device Mode */ typedef enum _I2S_DEV_MODE_ { I2S_MASTER_MODE = 0x0, I2S_SLAVE_MODE = 0x1 }I2S_DEV_MODE, *PI2S_DEV_MODE; /* I2S Word Length */ typedef enum _I2S_WORD_LEN_ { I2S_WL_16 = 0x0, I2S_WL_24 = 0x1, }I2S_WORD_LEN, *PI2S_WORD_LEN; /* I2S Bus Transmit/Receive */ typedef enum _I2S_DIRECTION_ { I2S_ONLY_RX = 0x0, I2S_ONLY_TX = 0x1, I2S_TXRX = 0x2 }I2S_DIRECTION, *PI2S_DIRECTION; /* I2S Channel number */ typedef enum _I2S_CH_NUM_ { I2S_CH_STEREO = 0x0, I2S_CH_RSVD = 0x1, I2S_CH_MONO = 0x2 }I2S_CH_NUM, *PI2S_CH_NUM; /* I2S Page number */ typedef enum _I2S_PAGE_NUM_ { I2S_1PAGE = 0x0, I2S_2PAGE = 0x1, I2S_3PAGE = 0x2, I2S_4PAGE = 0x3 }I2S_PAGE_NUM, *PI2S_PAGE_NUM; /* I2S Sample rate*/ typedef enum _I2S_SAMPLE_RATE_ { I2S_SR_8KHZ = 0x00, // /12 I2S_SR_16KHZ = 0x01, // /6 I2S_SR_24KHZ = 0x02, // /4 I2S_SR_32KHZ = 0x03, // /3 I2S_SR_48KHZ = 0x05, // /2 I2S_SR_96KHZ = 0x06, // x1, base 96kHz I2S_SR_7p35KHZ = 0x10, I2S_SR_11p02KHZ = 0x11, I2S_SR_22p05KHZ = 0x12, I2S_SR_29p4KHZ = 0x13, I2S_SR_44p1KHZ = 0x15, I2S_SR_88p2KHZ = 0x16 // x1, base 88200Hz }I2S_SAMPLE_RATE, *PI2S_SAMPLE_RATE; /* I2S TX interrupt mask/status */ typedef enum _I2S_TX_IMR_ { I2S_TX_INT_PAGE0_OK = (1<<0), I2S_TX_INT_PAGE1_OK = (1<<1), I2S_TX_INT_PAGE2_OK = (1<<2), I2S_TX_INT_PAGE3_OK = (1<<3), I2S_TX_INT_FULL = (1<<4), I2S_TX_INT_EMPTY = (1<<5) } I2S_TX_IMR, *PI2S_TX_IMR; /* I2S RX interrupt mask/status */ typedef enum _I2S_RX_IMR_ { I2S_RX_INT_PAGE0_OK = (1<<0), I2S_RX_INT_PAGE1_OK = (1<<1), I2S_RX_INT_PAGE2_OK = (1<<2), I2S_RX_INT_PAGE3_OK = (1<<3), I2S_RX_INT_EMPTY = (1<<4), I2S_RX_INT_FULL = (1<<5) } I2S_RX_IMR, *PI2S_RX_IMR; /* I2S User Callbacks */ typedef struct _SAL_I2S_USER_CB_{ VOID (*TXCB) (VOID *Data); VOID (*TXCCB) (VOID *Data); VOID (*RXCB) (VOID *Data); VOID (*RXCCB) (VOID *Data); VOID (*RDREQCB) (VOID *Data); VOID (*ERRCB) (VOID *Data); VOID (*GENCALLCB) (VOID *Data); }SAL_I2S_USER_CB,*PSAL_I2S_USER_CB; typedef struct _I2S_USER_CB_{ VOID (*TxCCB)(uint32_t id, char *pbuf); u32 TxCBId; VOID (*RxCCB)(uint32_t id, char *pbuf); u32 RxCBId; }I2S_USER_CB,*PI2S_USER_CB; /* Software API Level I2S Handler */ typedef struct _HAL_I2S_ADAPTER_{ u8 DevNum; //I2S device number u8 PinMux; //I2S pin mux seletion u8 RSVD0; //Reserved volatile u8 DevSts; //I2S device status u32 RSVD2; //Reserved u32 I2SExd; //I2S extended options: //bit 0: I2C RESTART supported, // 0 for NOT supported, // 1 for supported //bit 1: I2C General Call supported // 0 for NOT supported, // 1 for supported //bit 2: I2C START Byte supported // 0 for NOT supported, // 1 for supported //bit 3: I2C Slave-No-Ack // supported // 0 for NOT supported, // 1 for supported //bit 4: I2C bus loading, // 0 for 100pf, // 1 for 400pf //bit 5: I2C slave ack to General // Call //bit 6: I2C User register address //bit 7: I2C 2-Byte User register // address //bit 31~bit 8: Reserved u32 ErrType; // u32 TimeOut; //I2S IO Timeout count PHAL_I2S_INIT_DAT pInitDat; //Pointer to I2S initial data struct I2S_USER_CB UserCB; //Pointer to I2S User Callback IRQ_HANDLE IrqHandle; // Irq Handler u32* TxPageList[4]; // The Tx DAM buffer: pointer of each page u32* RxPageList[4]; // The Tx DAM buffer: pointer of each page }HAL_I2S_ADAPTER, *PHAL_I2S_ADAPTER; typedef struct _HAL_I2S_DEF_SETTING_{ u8 I2SMaster; // Master or Slave mode u8 DevSts; //I2S device status u8 I2SChNum; //I2S Channel number mono or stereo u8 I2SPageNum; //I2S Page number 2~4 u8 I2STRxAct; //I2S tx rx act, tx only or rx only or tx+rx u8 I2SWordLen; //I2S Word length 16bit or 24bit u16 I2SPageSize; //I2S Page size 1~4096 word u16 I2SRate; //I2S sample rate 8k ~ 96khz u32 I2STxIntrMSK; /*I2S Tx Interrupt Mask*/ u32 I2SRxIntrMSK; /*I2S Rx Interrupt Mask*/ }HAL_I2S_DEF_SETTING, *PHAL_I2S_DEF_SETTING; /**********************************************************************/ HAL_Status RtkI2SLoadDefault(IN VOID *Adapter, IN VOID *Setting); HAL_Status RtkI2SInit(IN VOID *Data); HAL_Status RtkI2SDeInit(IN VOID *Data); HAL_Status RtkI2SEnable(IN VOID *Data); HAL_Status RtkI2SDisable(IN VOID *Data); extern HAL_Status HalI2SInit( IN VOID *Data); extern VOID HalI2SDeInit( IN VOID *Data); extern HAL_Status HalI2SDisable( IN VOID *Data); extern HAL_Status HalI2SEnable( IN VOID *Data); /**********************************************************************/ VOID I2S0ISRHandle(VOID *Data); VOID I2S1ISRHandle(VOID *Data); /**********************************************************************/ VOID HalI2SOpInit( IN VOID *Data ); #endif