FreeCalypso > hg > freecalypso-sw
view gsm-fw/bsp/abb+spi/abb_inline.h @ 982:461f7ee5f254
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author | Mychaela Falconia <falcon@ivan.Harhan.ORG> |
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date | Thu, 10 Dec 2015 05:35:42 +0000 |
parents | cc0944d35698 |
children |
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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 This*/ /* product is protected under copyright law and trade secret law as an*/ /* unpublished work.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 : abb_inline.h */ /* */ /* Description : inline functions to drive the ABB device. */ /* The Serial Port Interface is used to connect the TI */ /* Analog BaseBand (ABB). */ /* It is assumed that the ABB is connected as the SPI */ /* device 0. */ /* */ /* Author : Pascal PUEL */ /* */ /* Version number : 1.0 */ /* */ /* Date and time : Dec 2002 */ /* */ /* Previous delta : Creation */ /* */ /******************************************************************************/ #ifndef __ABB_INLINE_H__ #define __ABB_INLINE_H__ #include "../../include/config.h" #include "../../include/sys_types.h" #include "spi_drv.h" // MACROS #define ABB_WRITE_REG(reg, data) { \ SPI_WRITE_TX_MSB((data << 6) | reg) \ SPI_START_WRITE } #define ABB_READ_REG(reg) { \ SPI_WRITE_TX_MSB(reg | 1) \ SPI_START_READ } #define ABB_SET_PAGE(page) ABB_WRITE_REG(PAGEREG, page) #define SEVEN_CYCLES_13M_NS 539 // INLINE FUNCTIONS /*-----------------------------------------------------------------------*/ /* ABB_SetPage() */ /* */ /* This function sets the right page in the ABB register PAGEREG. */ /* */ /*-----------------------------------------------------------------------*/ static inline void ABB_SetPage(SYS_UWORD16 page) { volatile SYS_UWORD16 status; ABB_SET_PAGE(page); while(((status = * (volatile SYS_UWORD16 *) SPI_REG_STATUS) & WE_ST) == 0); // if IBIC is already processing another request (from the BSP) // the USP request is delayed by 3 clock cycles // which gives a total of 7 clock cycles ( = 539 ns at 13 MHz) in the worst case wait_ARM_cycles(convert_nanosec_to_cycles(SEVEN_CYCLES_13M_NS)); } /*-----------------------------------------------------------------------*/ /* ABB_WriteRegister() */ /* */ /* This function writes "data" in the ABB register "abb_reg". */ /* */ /*-----------------------------------------------------------------------*/ static inline void ABB_WriteRegister(SYS_UWORD16 abb_reg, SYS_UWORD16 data) { volatile SYS_UWORD16 status; ABB_WRITE_REG(abb_reg, data); while(((status = * (volatile SYS_UWORD16 *) SPI_REG_STATUS) & WE_ST) == 0); // if IBIC is already processing another request (from the BSP) // the USP request is delayed by 3 clock cycles // which gives a total of 7 clock cycles ( = 539 ns at 13 MHz) in the worst case wait_ARM_cycles(convert_nanosec_to_cycles(SEVEN_CYCLES_13M_NS)); } /*-----------------------------------------------------------------------*/ /* ABB_ReadRegister() */ /* */ /* This function reads the ABB register "abb_reg" and returns */ /* the real register value. */ /* */ /*-----------------------------------------------------------------------*/ static inline SYS_UWORD16 ABB_ReadRegister(SYS_UWORD16 abb_reg) { volatile SYS_UWORD16 status; // First part of read access to the ABB register ABB_READ_REG(abb_reg); while(((status = * (volatile SYS_UWORD16 *) SPI_REG_STATUS) & RE_ST) == 0); // if IBIC is already processing another request (from the BSP) // the USP request is delayed by 3 clock cycles // which gives a total of 7 clock cycles ( = 539 ns at 13 MHz) in the worst case wait_ARM_cycles(convert_nanosec_to_cycles(SEVEN_CYCLES_13M_NS)); // Second part of read access to the ABB register ABB_READ_REG(abb_reg); while(((status = * (volatile SYS_UWORD16 *) SPI_REG_STATUS) & RE_ST) == 0); // if IBIC is already processing another request (from the BSP) // the USP request is delayed by 3 clock cycles // which gives a total of 7 clock cycles ( = 539 ns at 13 MHz) in the worst case wait_ARM_cycles(convert_nanosec_to_cycles(SEVEN_CYCLES_13M_NS)); return ((SPI_ReadRX_LSB() >> 6) & 0x3ff); } #endif // __ABB_INLINE_H__