include/asm-xtensa/xtensa/xt2000-uart.h - maze/linux - Git at Google

 #ifndef _uart_h_included_
 #define _uart_h_included_

 /*
  * THIS FILE IS GENERATED -- DO NOT MODIFY BY HAND
  *
  * include/asm-xtensa/xtensa/xt2000-uart.h -- NatSemi PC16552D DUART
  * definitions
  *
  * This file is subject to the terms and conditions of the GNU General Public
  * License.  See the file "COPYING" in the main directory of this archive
  * for more details.
  *
  * Copyright (C) 2002 Tensilica Inc.
  */


 #include <xtensa/xt2000.h>


 /* 16550 UART DEVICE REGISTERS
    The XT2000 board aligns each register to a 32-bit word but the UART device only uses
    one byte of the word, which is the least-significant byte regardless of the
    endianness of the core (ie. byte offset 0 for little-endian and 3 for big-endian).
    So if using word accesses then endianness doesn't matter.
    The macros provided here do that.
 */
 struct uart_dev_s {
   union {
     unsigned int rxb;	/* DLAB=0: receive buffer, read-only */
     unsigned int txb;	/* DLAB=0: transmit buffer, write-only */
     unsigned int dll;	/* DLAB=1: divisor, least-significant byte latch (was write-only?) */
   } w0;
   union {
     unsigned int ier;	/* DLAB=0: interrupt-enable register (was write-only?) */
     unsigned int dlm;	/* DLAB=1: divisor, most-significant byte latch (was write-only?) */
   } w1;

   union {
     unsigned int isr;	/* DLAB=0: interrupt status register, read-only */
     unsigned int fcr;	/* DLAB=0: FIFO control register, write-only */
     unsigned int afr;	/* DLAB=1: alternate function register */
   } w2;

   unsigned int lcr;	/* line control-register, write-only */
   unsigned int mcr;	/* modem control-regsiter, write-only */
   unsigned int lsr;	/* line status register, read-only */
   unsigned int msr;	/* modem status register, read-only */
   unsigned int scr;	/* scratch regsiter, read/write */
 };

 #define _RXB(u) ((u)->w0.rxb)
 #define _TXB(u) ((u)->w0.txb)
 #define _DLL(u) ((u)->w0.dll)
 #define _IER(u) ((u)->w1.ier)
 #define _DLM(u) ((u)->w1.dlm)
 #define _ISR(u) ((u)->w2.isr)
 #define _FCR(u) ((u)->w2.fcr)
 #define _AFR(u) ((u)->w2.afr)
 #define _LCR(u) ((u)->lcr)
 #define _MCR(u) ((u)->mcr)
 #define _LSR(u) ((u)->lsr)
 #define _MSR(u) ((u)->msr)
 #define _SCR(u) ((u)->scr)

 typedef volatile struct uart_dev_s uart_dev_t;

 /* IER bits */
 #define RCVR_DATA_REG_INTENABLE 0x01
 #define XMIT_HOLD_REG_INTENABLE    0x02
 #define RCVR_STATUS_INTENABLE   0x04
 #define MODEM_STATUS_INTENABLE     0x08

 /* FCR bits */
 #define _FIFO_ENABLE      0x01
 #define RCVR_FIFO_RESET  0x02
 #define XMIT_FIFO_RESET  0x04
 #define DMA_MODE_SELECT  0x08
 #define RCVR_TRIGGER_LSB 0x40
 #define RCVR_TRIGGER_MSB 0x80

 /* AFR bits */
 #define AFR_CONC_WRITE	0x01
 #define AFR_BAUDOUT_SEL	0x02
 #define AFR_RXRDY_SEL	0x04

 /* ISR bits */
 #define INT_STATUS(r)   ((r)&1)
 #define INT_PRIORITY(r) (((r)>>1)&0x7)

 /* LCR bits */
 #define WORD_LENGTH(n)  (((n)-5)&0x3)
 #define STOP_BIT_ENABLE 0x04
 #define PARITY_ENABLE   0x08
 #define EVEN_PARITY     0x10
 #define FORCE_PARITY    0x20
 #define XMIT_BREAK      0x40
 #define DLAB_ENABLE     0x80

 /* MCR bits */
 #define _DTR 0x01
 #define _RTS 0x02
 #define _OP1 0x04
 #define _OP2 0x08
 #define LOOP_BACK 0x10

 /* LSR Bits */
 #define RCVR_DATA_READY 0x01
 #define OVERRUN_ERROR   0x02
 #define PARITY_ERROR    0x04
 #define FRAMING_ERROR   0x08
 #define BREAK_INTERRUPT 0x10
 #define XMIT_HOLD_EMPTY 0x20
 #define XMIT_EMPTY      0x40
 #define FIFO_ERROR      0x80
 #define RCVR_READY(u)   (_LSR(u)&RCVR_DATA_READY)
 #define XMIT_READY(u)   (_LSR(u)&XMIT_HOLD_EMPTY)

 /* MSR bits */
 #define _RDR       0x01
 #define DELTA_DSR 0x02
 #define DELTA_RI  0x04
 #define DELTA_CD  0x08
 #define _CTS       0x10
 #define _DSR       0x20
 #define _RI        0x40
 #define _CD        0x80

 /* prototypes */
 void uart_init( uart_dev_t *u, int bitrate );
 void uart_out( uart_dev_t *u, char c );
 void uart_puts( uart_dev_t *u, char *s );
 char uart_in( uart_dev_t *u );
 void uart_enable_rcvr_int( uart_dev_t *u );
 void uart_disable_rcvr_int( uart_dev_t *u );

 #ifdef DUART16552_1_VADDR
 /*  DUART present.  */
 #define DUART_1_BASE	(*(uart_dev_t*)DUART16552_1_VADDR)
 #define DUART_2_BASE	(*(uart_dev_t*)DUART16552_2_VADDR)
 #define UART1_PUTS(s)	uart_puts( &DUART_1_BASE, s )
 #define UART2_PUTS(s)	uart_puts( &DUART_2_BASE, s )
 #else
 /*  DUART not configured, use dummy placeholders to allow compiles to work.  */
 #define DUART_1_BASE	(*(uart_dev_t*)0)
 #define DUART_2_BASE	(*(uart_dev_t*)0)
 #define UART1_PUTS(s)
 #define UART2_PUTS(s)
 #endif

 /*  Compute 16-bit divisor for baudrate generator, with rounding:  */
 #define DUART_DIVISOR(crystal,speed)	(((crystal)/16 + (speed)/2)/(speed))

 #endif /*_uart_h_included_*/
	#ifndef _uart_h_included_
	#define _uart_h_included_

	/*
	* THIS FILE IS GENERATED -- DO NOT MODIFY BY HAND
	*
	* include/asm-xtensa/xtensa/xt2000-uart.h -- NatSemi PC16552D DUART
	* definitions
	*
	* This file is subject to the terms and conditions of the GNU General Public
	* License. See the file "COPYING" in the main directory of this archive
	* for more details.
	*
	* Copyright (C) 2002 Tensilica Inc.
	*/


	#include <xtensa/xt2000.h>


	/* 16550 UART DEVICE REGISTERS
	The XT2000 board aligns each register to a 32-bit word but the UART device only uses
	one byte of the word, which is the least-significant byte regardless of the
	endianness of the core (ie. byte offset 0 for little-endian and 3 for big-endian).
	So if using word accesses then endianness doesn't matter.
	The macros provided here do that.
	*/
	struct uart_dev_s {
	union {
	unsigned int rxb; /* DLAB=0: receive buffer, read-only */
	unsigned int txb; /* DLAB=0: transmit buffer, write-only */
	unsigned int dll; /* DLAB=1: divisor, least-significant byte latch (was write-only?) */
	} w0;
	union {
	unsigned int ier; /* DLAB=0: interrupt-enable register (was write-only?) */
	unsigned int dlm; /* DLAB=1: divisor, most-significant byte latch (was write-only?) */
	} w1;

	union {
	unsigned int isr; /* DLAB=0: interrupt status register, read-only */
	unsigned int fcr; /* DLAB=0: FIFO control register, write-only */
	unsigned int afr; /* DLAB=1: alternate function register */
	} w2;

	unsigned int lcr; /* line control-register, write-only */
	unsigned int mcr; /* modem control-regsiter, write-only */
	unsigned int lsr; /* line status register, read-only */
	unsigned int msr; /* modem status register, read-only */
	unsigned int scr; /* scratch regsiter, read/write */
	};

	#define _RXB(u) ((u)->w0.rxb)
	#define _TXB(u) ((u)->w0.txb)
	#define _DLL(u) ((u)->w0.dll)
	#define _IER(u) ((u)->w1.ier)
	#define _DLM(u) ((u)->w1.dlm)
	#define _ISR(u) ((u)->w2.isr)
	#define _FCR(u) ((u)->w2.fcr)
	#define _AFR(u) ((u)->w2.afr)
	#define _LCR(u) ((u)->lcr)
	#define _MCR(u) ((u)->mcr)
	#define _LSR(u) ((u)->lsr)
	#define _MSR(u) ((u)->msr)
	#define _SCR(u) ((u)->scr)

	typedef volatile struct uart_dev_s uart_dev_t;

	/* IER bits */
	#define RCVR_DATA_REG_INTENABLE 0x01
	#define XMIT_HOLD_REG_INTENABLE 0x02
	#define RCVR_STATUS_INTENABLE 0x04
	#define MODEM_STATUS_INTENABLE 0x08

	/* FCR bits */
	#define _FIFO_ENABLE 0x01
	#define RCVR_FIFO_RESET 0x02
	#define XMIT_FIFO_RESET 0x04
	#define DMA_MODE_SELECT 0x08
	#define RCVR_TRIGGER_LSB 0x40
	#define RCVR_TRIGGER_MSB 0x80

	/* AFR bits */
	#define AFR_CONC_WRITE 0x01
	#define AFR_BAUDOUT_SEL 0x02
	#define AFR_RXRDY_SEL 0x04

	/* ISR bits */
	#define INT_STATUS(r) ((r)&1)
	#define INT_PRIORITY(r) (((r)>>1)&0x7)

	/* LCR bits */
	#define WORD_LENGTH(n) (((n)-5)&0x3)
	#define STOP_BIT_ENABLE 0x04
	#define PARITY_ENABLE 0x08
	#define EVEN_PARITY 0x10
	#define FORCE_PARITY 0x20
	#define XMIT_BREAK 0x40
	#define DLAB_ENABLE 0x80

	/* MCR bits */
	#define _DTR 0x01
	#define _RTS 0x02
	#define _OP1 0x04
	#define _OP2 0x08
	#define LOOP_BACK 0x10

	/* LSR Bits */
	#define RCVR_DATA_READY 0x01
	#define OVERRUN_ERROR 0x02
	#define PARITY_ERROR 0x04
	#define FRAMING_ERROR 0x08
	#define BREAK_INTERRUPT 0x10
	#define XMIT_HOLD_EMPTY 0x20
	#define XMIT_EMPTY 0x40
	#define FIFO_ERROR 0x80
	#define RCVR_READY(u) (_LSR(u)&RCVR_DATA_READY)
	#define XMIT_READY(u) (_LSR(u)&XMIT_HOLD_EMPTY)

	/* MSR bits */
	#define _RDR 0x01
	#define DELTA_DSR 0x02
	#define DELTA_RI 0x04
	#define DELTA_CD 0x08
	#define _CTS 0x10
	#define _DSR 0x20
	#define _RI 0x40
	#define _CD 0x80

	/* prototypes */
	void uart_init( uart_dev_t *u, int bitrate );
	void uart_out( uart_dev_t *u, char c );
	void uart_puts( uart_dev_t u, char s );
	char uart_in( uart_dev_t *u );
	void uart_enable_rcvr_int( uart_dev_t *u );
	void uart_disable_rcvr_int( uart_dev_t *u );

	#ifdef DUART16552_1_VADDR
	/* DUART present. */
	#define DUART_1_BASE ((uart_dev_t)DUART16552_1_VADDR)
	#define DUART_2_BASE ((uart_dev_t)DUART16552_2_VADDR)
	#define UART1_PUTS(s) uart_puts( &DUART_1_BASE, s )
	#define UART2_PUTS(s) uart_puts( &DUART_2_BASE, s )
	#else
	/* DUART not configured, use dummy placeholders to allow compiles to work. */
	#define DUART_1_BASE ((uart_dev_t)0)
	#define DUART_2_BASE ((uart_dev_t)0)
	#define UART1_PUTS(s)
	#define UART2_PUTS(s)
	#endif

	/* Compute 16-bit divisor for baudrate generator, with rounding: */
	#define DUART_DIVISOR(crystal,speed) (((crystal)/16 + (speed)/2)/(speed))

	#endif /_uart_h_included_/