FreeCalypso > hg > freecalypso-citrine
view bsp/abb+spi/spi_drv.h @ 48:4bb56b6c8645
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author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Tue, 14 Apr 2020 21:38:35 +0000 |
parents | 75a11d740a02 |
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/******************************************************************************/ /* TEXAS INSTRUMENTS INCORPORATED PROPRIETARY INFORMATION */ /* */ /* Property of Texas Instruments -- For Unrestricted Internal Use Only */ /* Unauthorized reproduction and/or distribution is strictly prohibited. This*/ /* product is protected under copyright law and trade secret law as an*/ /* unpublished work. Created 1987, (C) Copyright 1997 Texas Instruments. All*/ /* rights reserved. */ /* */ /* */ /* Filename : spi_drv.h */ /* */ /* Description : SPI registers and bits definitions. */ /* Functions and macros to drive the SPI module. */ /* The Serial Port Interface is a bidirectional 3 lines */ /* interface dedicated to the transfer of data to and */ /* from up to 5 external devices offering a 3 lines */ /* serial interface. */ /* In this project, it is only used to connect the TI */ /* Analog BaseBand (ABB). */ /* It is assumed that the ABB is connected as the SPI */ /* device 0. */ /* */ /* This interface is specified to be compatible with */ /* the UMA1018M Philips, the FUJITSU MB15F02, the */ /* SIEMENS PMB2306T synthesizers and the TI ABB. */ /* */ /* This serial port is based on a looped shift-register */ /* thus allowing both transmit (PISO) and receive (SIPO) */ /* modes. */ /* */ /* */ /* Author : Pascal PUEL */ /* */ /* Version number : 1.28 */ /* */ /* Date and time : 07/01/03 */ /* */ /* Previous delta : Rework */ /* */ /******************************************************************************/ #ifndef __SPI_DRV_H__ #define __SPI_DRV_H__ #include "../../include/config.h" #include "../../include/sys_types.h" #include "../mem.h" // SPI module registers definition #define SPI_REG_SET1 (MEM_SPI + 0x00) #define SPI_REG_SET2 (MEM_SPI + 0x02) #define SPI_REG_CTRL (MEM_SPI + 0x04) #define SPI_REG_STATUS (MEM_SPI + 0x06) #define SPI_REG_TX_LSB (MEM_SPI + 0x08) #define SPI_REG_TX_MSB (MEM_SPI + 0x0A) #define SPI_REG_RX_LSB (MEM_SPI + 0x0C) #define SPI_REG_RX_MSB (MEM_SPI + 0x0E) // SPI module bits definition of register SPI_REG_SET1 #define SPI_CLK_OFF 0x0000 // default value #define SPI_CLK_ON 0x0001 #define SPI_CLOCK_DIV_1 0x0000 // default value #define SPI_CLOCK_DIV_2 0x0002 #define SPI_CLOCK_DIV_4 0x0004 #define SPI_CLOCK_DIV_8 0x0006 #define SPI_CLOCK_DIV_16 0x0008 #if (CHIPSET == 12) #define SPI_CLOCK_DIV_32 0x000A #define SPI_CLOCK_DIV_64 0x000C #define SPI_CLOCK_DIV_128 0x000E #endif #define SPI_IT_MASK_0 0x0010 // default value #define SPI_IT_DEMASK_0 0x0000 #define SPI_IT_MASK_1 0x0020 // default value #define SPI_IT_DEMASK_1 0x0000 // SPI module bits definition of register SPI_REG_SET2 #define SPI_CLK_EDG_FALL 0x0000 // default value for device 0 #define SPI_CLK_EDG_RISE 0x0001 #define SPI_CLK_EDG_FALL_1 0x0000 // default value for device 1 #define SPI_CLK_EDG_RISE_1 0x0002 #define SPI_CLK_EDG_FALL_2 0x0000 // default value for device 2 #define SPI_CLK_EDG_RISE_2 0x0004 #define SPI_CLK_EDG_FALL_3 0x0000 // default value for device 3 #define SPI_CLK_EDG_RISE_3 0x0008 #define SPI_CLK_EDG_FALL_4 0x0000 // default value for device 4 #define SPI_CLK_EDG_RISE_4 0x0010 #define SPI_NTSPEN_NEG_LEV 0x0000 // default value for device 0 #define SPI_NTSPEN_POS_LEV 0x0020 #define SPI_NTSPEN_NEG_LEV_1 0x0000 // default value for device 1 #define SPI_NTSPEN_POS_LEV_1 0x0040 #define SPI_NTSPEN_NEG_LEV_2 0x0000 // default value for device 2 #define SPI_NTSPEN_POS_LEV_2 0x0080 #define SPI_NTSPEN_NEG_LEV_3 0x0000 // default value for device 3 #define SPI_NTSPEN_POS_LEV_3 0x0100 #define SPI_NTSPEN_NEG_LEV_4 0x0000 // default value for device 4 #define SPI_NTSPEN_POS_LEV_4 0x0200 #define SPI_NTSPEN_LEV_TRIG 0x0000 // default value for device 0 #define SPI_NTSPEN_EDG_TRIG 0x0400 #define SPI_NTSPEN_LEV_TRIG_1 0x0000 // default value for device 1 #define SPI_NTSPEN_EDG_TRIG_1 0x0800 #define SPI_NTSPEN_LEV_TRIG_2 0x0000 // default value for device 2 #define SPI_NTSPEN_EDG_TRIG_2 0x1000 #define SPI_NTSPEN_LEV_TRIG_3 0x0000 // default value for device 3 #define SPI_NTSPEN_EDG_TRIG_3 0x2000 #define SPI_NTSPEN_LEV_TRIG_4 0x0000 // default value for device 4 #define SPI_NTSPEN_EDG_TRIG_4 0x4000 // SPI module bits definition of register SPI_REG_CTRL #define SPI_RDWR_DEACTIV 0x0000 // default value #define SPI_RDWR_ACTIV 0x0001 #define SPI_WR_DEACTIV 0x0000 // default value #define SPI_WR_ACTIV 0x0002 #define SPI_WNB_0 0x0000 // default value #define SPI_WNB_1 0x0004 #define SPI_WNB_2 0x0008 #define SPI_WNB_3 0x000c #define SPI_WNB_4 0x0010 #define SPI_WNB_5 0x0014 #define SPI_WNB_6 0x0018 #define SPI_WNB_7 0x001c #define SPI_WNB_8 0x0020 #define SPI_WNB_9 0x0024 #define SPI_WNB_10 0x0028 #define SPI_WNB_11 0x002c #define SPI_WNB_12 0x0030 #define SPI_WNB_13 0x0034 #define SPI_WNB_14 0x0038 #define SPI_WNB_15 0x003c #define SPI_WNB_16 0x0040 #define SPI_WNB_17 0x0044 #define SPI_WNB_18 0x0048 #define SPI_WNB_19 0x004c #define SPI_WNB_20 0x0050 #define SPI_WNB_21 0x0054 #define SPI_WNB_22 0x0058 #define SPI_WNB_23 0x005c #define SPI_WNB_24 0x0060 #define SPI_WNB_25 0x0064 #define SPI_WNB_26 0x0068 #define SPI_WNB_27 0x006c #define SPI_WNB_28 0x0070 #define SPI_WNB_29 0x0074 #define SPI_WNB_30 0x0078 #define SPI_WNB_31 0x007c // SPI possible device IDs #define SPI_DEV0 0x0000 #define SPI_DEV1 0x0080 #define SPI_DEV2 0x0100 #define SPI_DEV3 0x0180 #define SPI_DEV4 0x0200 // ABB should be mapped as device 0 #define ABB SPI_DEV0 // SPI module bits definition of register SPI_REG_STATUS #define RE_ST 0x0001 // bit 0 #define WE_ST 0x0002 // bit 1 /* The ARM emulator requires the spi clock always ON to be able to access */ /* spi registers through a window.*/ /* But it's better to stop the SPI clock in the GSM application to reduce the power consumption. */ /* Validate the next line to reduce power consumption */ //#define SPI_CLK_LOW_POWER // STRUCTURES typedef struct { SYS_UWORD16 PrescVal; SYS_UWORD16 DataTrLength; SYS_UWORD16 DevAddLength; SYS_UWORD16 DevId; SYS_UWORD16 ClkEdge; SYS_UWORD16 TspEnLevel; SYS_UWORD16 TspEnForm; }T_SPI_DEV; // T_SPI_DEV is used to define an SPI device // MACROS #define SPI_WRITE_TX_LSB(TxLsb) { \ * (volatile SYS_UWORD16 *) SPI_REG_TX_LSB = TxLsb; } #define SPI_WRITE_TX_MSB(TxMsb) { \ * (volatile SYS_UWORD16 *) SPI_REG_TX_MSB = TxMsb; } #define SPI_START_WRITE {* (volatile SYS_UWORD16 *) SPI_REG_CTRL |= SPI_WR_ACTIV; } #define SPI_START_READ {* (volatile SYS_UWORD16 *) SPI_REG_CTRL |= SPI_RDWR_ACTIV; } #define SPI_CLK_DISABLE { \ * (volatile SYS_UWORD16 *) SPI_REG_SET1 &= ~SPI_CLK_ON; } #define SPI_CLK_ENABLE { \ * (volatile SYS_UWORD16 *) SPI_REG_SET1 |= SPI_CLK_ON; } #define SPI_MaskIT_WR { \ * (volatile SYS_UWORD16 *) SPI_REG_SET1 |= SPI_IT_MASK_0; } #define SPI_MaskIT_RD { \ * (volatile SYS_UWORD16 *) SPI_REG_SET1 |= SPI_IT_MASK_1; } #define SPI_Mask_All_IT { \ * (volatile SYS_UWORD16 *) SPI_REG_SET1 |= (SPI_IT_MASK_0 | SPI_IT_MASK_1); } #define SPI_UnmaskIT_WR { \ * (volatile SYS_UWORD16 *) SPI_REG_SET1 &= ~SPI_IT_MASK_0; } #define SPI_UnmaskIT_RD { \ * (volatile SYS_UWORD16 *) SPI_REG_SET1 &= ~SPI_IT_MASK_1; } #define SPI_Unmask_All_IT { \ * (volatile SYS_UWORD16 *) SPI_REG_SET1 &= ~(SPI_IT_MASK_0 | SPI_IT_MASK_1); } #define SPI_Ready_for_WR { \ * (volatile SYS_UWORD16 *) SPI_REG_SET1 |= (SPI_CLK_ON | SPI_IT_MASK_0); } #define SPI_Ready_for_RD { \ * (volatile SYS_UWORD16 *) SPI_REG_SET1 |= (SPI_CLK_ON | SPI_IT_MASK_1); } #define SPI_Ready_for_RDWR { \ * (volatile SYS_UWORD16 *) SPI_REG_SET1 |= (SPI_CLK_ON | SPI_IT_MASK_0 | SPI_IT_MASK_1); } // INLINE FUNCTIONS /*-----------------------------------------------------------------------*/ /* SPI_ReadRX_LSB() */ /* */ /* This function returns the value of SPI_REG_RX_LSB register */ /* */ /*-----------------------------------------------------------------------*/ static inline SYS_UWORD16 SPI_ReadRX_LSB(void) { return * (volatile SYS_UWORD16 *) SPI_REG_RX_LSB; } /*-----------------------------------------------------------------------*/ /* SPI_ReadRX_MSB() */ /* */ /* This function returns the value of SPI_REG_RX_MSB register */ /* */ /*-----------------------------------------------------------------------*/ static inline SYS_UWORD16 SPI_ReadRX_MSB(void) { return * (volatile SYS_UWORD16 *) SPI_REG_RX_MSB; } /*-----------------------------------------------------------------------*/ /* SPI_ReadStatus() */ /* */ /* This function returns the value of SPI_REG_STATUS register */ /* */ /*-----------------------------------------------------------------------*/ static inline SYS_UWORD16 SPI_ReadStatus(void) { return * (volatile SYS_UWORD16 *) SPI_REG_STATUS; } // PROTOTYPES void SPI_InitDev(T_SPI_DEV *Device); #endif // __SPI_DRV_H__