upstream u-boot with additional patches for our devices/boards:
https://lists.denx.de/pipermail/u-boot/2017-March/282789.html (AXP crashes) ;
Gbit ethernet patch for some LIME2 revisions ;
with SPI flash support
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309 lines
10 KiB
309 lines
10 KiB
#ifndef I2C_H
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#define I2C_H
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/****************************************************
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*
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* Copyright Motrola 1999
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*
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****************************************************/
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#define get_eumbbar() CFG_EUMB_ADDR
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#define I2CADR 0x00003000
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#define I2CFDR 0x00003004
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#define I2CCR 0x00003008
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#define I2CSR 0x0000300C
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#define I2CDR 0x00003010
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typedef enum _i2cstatus
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{
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I2CSUCCESS = 0x3000,
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I2CADDRESS,
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I2CERROR,
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I2CBUFFFULL,
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I2CBUFFEMPTY,
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I2CXMITERROR,
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I2CRCVERROR,
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I2CBUSBUSY,
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I2CALOSS,
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I2CNOEVENT,
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} I2CStatus;
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typedef enum i2c_control
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{
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MEN = 0x00000080,
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MIEN = 0x00000040,
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MSTA = 0x00000020,
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MTX = 0x00000010,
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TXAK = 0x00000008,
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RSTA = 0x00000004,
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} I2C_CONTROL;
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typedef enum i2c_status
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{
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MCF = 0x00000080,
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MAAS = 0x00000040,
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MBB = 0x00000020,
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MAL = 0x00000010,
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SRW = 0x00000004,
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MIF = 0x00000002,
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RXAK = 0x00000001,
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} I2C_STATUS;
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typedef struct _i2c_ctrl
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{
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unsigned int reserved0 : 24;
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unsigned int men : 1;
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unsigned int mien : 1;
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unsigned int msta : 1;
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unsigned int mtx : 1;
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unsigned int txak : 1;
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unsigned int rsta : 1;
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unsigned int reserved1 : 2;
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} I2C_CTRL;
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typedef struct _i2c_stat
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{
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unsigned int rsrv0 : 24;
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unsigned int mcf : 1;
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unsigned int maas : 1;
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unsigned int mbb : 1;
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unsigned int mal : 1;
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unsigned int rsrv1 : 1;
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unsigned int srw : 1;
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unsigned int mif : 1;
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unsigned int rxak : 1;
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} I2C_STAT;
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typedef enum _i2c_mode
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{
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RCV = 0,
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XMIT = 1,
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} I2C_MODE;
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/******************** App. API ********************
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* The application API is for user level application
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* to use the funcitonality provided by I2C driver
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*
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* Note: Its App.s responsibility to swap the data
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* byte. In our API, we just transfer whatever
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* we are given
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**************************************************/
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/**
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* Note:
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*
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* In all following functions,
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* the caller shall pass the configured embedded utility memory
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* block base, EUMBBAR.
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**/
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/* Send a buffer of data to the intended rcv_addr.
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* If stop_flag is set, after the whole buffer
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* is sent, generate a STOP signal provided that the
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* receiver doesn't signal the STOP in the middle.
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* I2C is the master performing transmitting. If
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* no STOP signal is generated at the end of current
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* transaction, the master can generate a START signal
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* to another slave addr.
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*
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* return I2CSUCCESS if no error.
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*/
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static I2CStatus I2C_put( unsigned int eumbbar,
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unsigned char rcv_addr, /* receiver's address */
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unsigned char *buffer_ptr, /* pointer of data to be sent */
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unsigned int length, /* number of byte of in the buffer */
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unsigned int stop_flag, /* 1 - signal STOP when buffer is empty
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* 0 - no STOP signal when buffer is empty
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*/
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unsigned int is_cnt ); /* 1 - this is a restart, don't check MBB
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* 0 - this is a new start, check MBB
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*/
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/* Receive a buffer of data from the desired sender_addr
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* If stop_flag is set, when the buffer is full and the
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* sender does not signal STOP, generate a STOP signal.
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* I2C is the master performing receiving. If no STOP signal
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* is generated, the master can generate a START signal
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* to another slave addr.
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*
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* return I2CSUCCESS if no error.
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*/
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static I2CStatus I2C_get( unsigned int eumbbar,
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unsigned char sender_addr, /* sender's address */
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unsigned char *buffer_ptr, /* pointer of receiving buffer */
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unsigned int length, /* length of the receiving buffer */
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unsigned int stop_flag, /* 1 - signal STOP when buffer is full
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* 0 - no STOP signal when buffer is full
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*/
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unsigned int is_cnt ); /* 1 - this is a restart, don't check MBB
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* 0 - this is a new start, check MBB
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*/
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#if 0 /* the I2C_write and I2C_read functions are not active */
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/* Send a buffer of data to the requiring master.
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* If stop_flag is set, after the whole buffer is sent,
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* generate a STOP signal provided that the requiring
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* receiver doesn't signal the STOP in the middle.
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* I2C is the slave performing transmitting.
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*
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* return I2CSUCCESS if no error.
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*
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* Note: due to the Kahlua design, slave transmitter
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* shall not signal STOP since there is no way
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* for master to detect it, causing I2C bus hung.
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*
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* For the above reason, the stop_flag is always
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* set, i.e., 1.
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*
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* programmer shall use the timer on Kahlua to
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* control the interval of data byte at the
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* master side.
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*/
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static I2CStatus I2C_write( unsigned int eumbbar,
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unsigned char *buffer_ptr, /* pointer of data to be sent */
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unsigned int length, /* number of byte of in the buffer */
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unsigned int stop_flag ); /* 1 - signal STOP when buffer is empty
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* 0 - no STOP signal when buffer is empty
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*/
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/* Receive a buffer of data from the sending master.
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* If stop_flag is set, when the buffer is full and the
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* sender does not signal STOP, generate a STOP signal.
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* I2C is the slave performing receiving.
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*
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* return I2CSUCCESS if no error.
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*/
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static I2CStatus I2C_read(unsigned int eumbbar,
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unsigned char *buffer_ptr, /* pointer of receiving buffer */
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unsigned int length, /* length of the receiving buffer */
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unsigned int stop_flag ); /* 1 - signal STOP when buffer is full
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* 0 - no STOP signal when buffer is full
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*/
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#endif /* of if0 for turning off I2C_read & I2C_write */
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/* if interrupt is not used, this is the timer event handler.
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* After each fixed time interval, this function can be called
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* to check the I2C status and call appropriate function to
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* handle the status event.
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*/
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static I2CStatus I2C_Timer_Event( unsigned int eumbbar, I2CStatus (*handler)( unsigned int ) );
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/********************* Kernel API ************************
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* Kernel APIs are functions I2C driver provides to the
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* O.S.
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*********************************************************/
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/******************* device I/O function ***************/
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/* Generate a START signal in the desired mode.
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* I2C is the master.
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*
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* return I2CSUCCESS if no error.
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* I2CERROR if i2c unit is not enabled.
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* I2CBUSBUSY if bus cannot be granted
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*/
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static I2CStatus I2C_Start( unsigned int eumbbar,
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unsigned char slave_addr, /* address of the receiver */
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I2C_MODE mode, /* XMIT(1) - put (write)
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* RCV(0) - get (read)
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*/
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unsigned int is_cnt ); /* 1 - this is a restart, don't check MBB
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* 0 - this is a new start, check MBB
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*/
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/* Generate a STOP signal to terminate the transaction. */
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static I2CStatus I2C_Stop( unsigned int eumbbar );
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/* Do a one-byte master transmit.
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*
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* return I2CBUFFEMPTY if this is the last byte.
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* Otherwise return I2CSUCCESS
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*/
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static I2CStatus I2C_Master_Xmit( unsigned int eumbbar );
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/* Do a one-byte master receive.
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*
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* return I2CBUFFFULL if this is the last byte.
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* Otherwise return I2CSUCCESS
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*/
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static I2CStatus I2C_Master_Rcv( unsigned int eumbbar );
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/* Do a one-byte slave transmit.
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*
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* return I2CBUFFEMPTY if this is the last byte.
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* Otherwise return I2CSUCCESS
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*
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*/
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static I2CStatus I2C_Slave_Xmit( unsigned int eumbbar );
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/* Do a one-byte slave receive.
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*
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* return I2CBUFFFULL if this is the last byte.
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* Otherwise return I2CSUCCESS
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*/
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static I2CStatus I2C_Slave_Rcv( unsigned int eumbbar );
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/* Process slave address phase.
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*
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* return I2CADDRESS if this is slave receiver's address phase
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* Otherwise return the result of slave xmit one byte.
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*/
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static I2CStatus I2C_Slave_Addr( unsigned int eumbbar );
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/******************* Device Control Fucntion ****************/
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/* Initialize I2C unit with desired frequency divider,
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* driver's slave address w/o interrupt enabled.
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*
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* This function must be called before I2C unit can
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* be used.
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*/
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static I2CStatus I2C_Init( unsigned int eumbbar,
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unsigned char fdr, /* frequency divider */
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unsigned char addr, /* driver's address used for receiving */
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unsigned int en_int); /* 1 - enable I2C interrupt
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* 0 - disable I2C interrup
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*/
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/* I2C interrupt service routine.
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*
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* return I2CADDRESS if it is receiver's (either master or slave) address phase.
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* return the result of xmit or receive one byte
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*/
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static I2CStatus I2C_ISR(unsigned int eumbbar );
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/* Set I2C Status, i.e., write to I2CSR */
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static void I2C_Set_Stat( unsigned int eumbbar, I2C_STAT stat );
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/* Query I2C Status, i.e., read I2CSR */
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static I2C_STAT I2C_Get_Stat( unsigned int eumbbar );
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/* Change I2C Control bits, i.e., write to I2CCR */
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static void I2C_Set_Ctrl( unsigned int eumbbar, I2C_CTRL ); /* new control value */
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/* Query I2C Control bits, i.e., read I2CCR */
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static I2C_CTRL I2C_Get_Ctrl( unsigned int eumbbar );
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/* This function performs the work for I2C_do_transaction. The work is
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* split into this function to enable I2C_do_transaction to first transmit
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* the data address to the I2C slave device without putting the data address
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* into the first byte of the buffer.
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*
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* en_int controls interrupt/polling mode
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* act is the type of transaction
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* i2c_addr is the I2C address of the slave device
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* len is the length of data to send or receive
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* buffer is the address of the data buffer
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* stop = I2C_NO_STOP, don't signal STOP at end of transaction
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* I2C_STOP, signal STOP at end of transaction
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* retry is the timeout retry value, currently ignored
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* rsta = I2C_NO_RESTART, this is not continuation of existing transaction
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* I2C_RESTART, this is a continuation of existing transaction
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*/
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static I2C_Status I2C_do_buffer( I2C_INTERRUPT_MODE en_int,
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I2C_TRANSACTION_MODE act,
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unsigned char i2c_addr,
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int len,
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unsigned char *buffer,
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I2C_STOP_MODE stop,
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int retry,
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I2C_RESTART_MODE rsta);
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#endif
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