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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [m68k/] [efi68k/] [console/] [console.c] - Rev 594
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/* * This file contains the efi68k console IO package. * * COPYRIGHT (c) 1989-1999. * On-Line Applications Research Corporation (OAR). * * The license and distribution terms for this file may be * found in the file LICENSE in this distribution or at * http://www.OARcorp.com/rtems/license.html. * * $Id: console.c,v 1.2 2001-09-27 12:00:03 chris Exp $ */ #include <stdlib.h> #include <bsp.h> #include <rtems/libio.h> #define BAUD 38400 #define CLK_FREQ 8000000.0 /* BUFFER_LENGTH must be 2^n for n=1, 2, 3, .... */ #define BUFFER_LENGTH 256 #define RTS_STOP_SIZE BUFFER_LENGTH-64 #define RTS_START_SIZE 16 char xmt_buf[BUFFER_LENGTH]; char rcv_buf[BUFFER_LENGTH]; /* in: last entry into the buffer; always on a valid character */ /* out: points to the next character to be pull from the buffer */ /* in+1=out => buffer empty */ /* in+2=out => buffer full */ struct UART_buf { char *offset; char *in; char *out; }; static volatile struct UART_buf xmt = { xmt_buf, (char *)0, (char *)1}; static volatile struct UART_buf rcv = { rcv_buf, (char *)0, (char *)1}; static volatile char _debug_flag = 0; static volatile char _tx_stop = 0; /* _catchUARTint is the interrupt front-end */ extern void _catchUARTint(); asm(" .text .align 2 .globl _catchUARTint _catchUARTint: lea %sp@(4),%sp /* pop return address */ moveml %d0-%d7/%a0-%a6,%sp@- /* save registers */ jbsr uart_interrupt moveml %sp@+,%d0-%d7/%a0-%a6 rte "); /* _fake_trap_1 will continue the UART interrupt (%sr *still* UART_ISR_LEVEL) as a trap #1 to enter the debugger */ asm(" .text .align 2 _fake_trap_1: unlk %a6 /* clear interrupt frame */ lea %sp@(4),%sp /* remove jbsr instruction */ moveml %sp@+,%d0-%d7/%a0-%a6 /* pop registers */ jmp (33*6-12+_VBR) /* jump exception 1 */ "); /* dispatch UART interrupt */ void xmit_interrupt(void); void rcvr_interrupt(void); void modem_status(void); void _fake_trap_1(void); void uart_interrupt(void) { register char a; a=*IIR & (NIP | IID_MASK); /* read interrupt id register */ switch (a) { case 0x04: case 0x0c: rcvr_interrupt(); break; case 0x02: xmit_interrupt(); break; case 0x00: modem_status(); break; default: break; } if (_debug_flag) { _debug_flag = 0; /* reset the flag */ _fake_trap_1(); /* fake a trap #1 */ } } /* transfer received character to the buffer */ void rcvr_interrupt(void) { register char *a, c; register int length; while ( (*LSR & DR) != 0) { if ((c=*RBR) == 0x1a) /* use ctl-z to reboot */ reboot(); else if (c == 0x03) { /* use ctl-c to enter debugger */ _debug_flag = 1; continue; } *(char *)((int)rcv.offset +(int) (a=(char *)(((int)rcv.in+1) & ((int)BUFFER_LENGTH-1)))) = c; if ((char *)(((int)rcv.in+2) & ((int)BUFFER_LENGTH-1)) != rcv.out) rcv.in=a; } length = (BUFFER_LENGTH -1) & ( ( ((int)rcv.out <= (int)rcv.in) ? 0 : BUFFER_LENGTH) - (int)rcv.out + (int)rcv.in + 1); if (length >= RTS_STOP_SIZE) *MCR &= (char) (~RTS); } /* tranfer buffered characters to the UART */ void xmit_interrupt(void) { register short int i, oldsr; _CPU_ISR_Disable( oldsr ); /* for when outbyte calls */ if ( (*LSR & THRE) != 0 && _tx_stop == 0 ) for (i=0;i<16;i++) { if ((char *)(((int)xmt.in+1) & ((int)BUFFER_LENGTH-1))== xmt.out) break; *THR=*(char *)((int)xmt.offset+(int)xmt.out); xmt.out= (char *)(((int)xmt.out+1) & ((int)BUFFER_LENGTH-1)); } _CPU_ISR_Enable( oldsr ); } void modem_status(void) { register char a; if ( ((a=*MDSR) & DCTS) != 0 ) if ( (a & CTS) == 0) _tx_stop = 1; else { _tx_stop = 0; xmit_interrupt(); } } /* transfer character from the buffer */ char inbyte(void) { register char a; register int length; while ((char *)(((int)rcv.in+1) & ((int)BUFFER_LENGTH-1))== rcv.out); a=*(char *)((int)rcv.offset+(int)rcv.out); rcv.out= (char *)(((int)rcv.out+1) & ((int)BUFFER_LENGTH-1)); length = (BUFFER_LENGTH -1) & ( ( ((int)rcv.out <= (int)rcv.in) ? 0 : BUFFER_LENGTH) - (int)rcv.out + (int)rcv.in + 1); if (length < RTS_START_SIZE) *MCR |= (char) RTS; return (a); } /* once room is avaliable in the buffer, transfer the character into the buffer and enable the xmtr interrupt */ void outbyte(char c) { register char *a; while ((char *)(((int)xmt.in+2) & ((int)BUFFER_LENGTH-1)) == xmt.out); *(char *)((int)xmt.offset+(int) (a=(char *)(((int)xmt.in+1) & ((int)BUFFER_LENGTH-1))))=c; xmt.in=a; if ( (*LSR & THRE) != 0 ) /* if THRE, uart has already interrupted */ xmit_interrupt(); /* and was ignored. Need to restart. */ } void _UART_flush(void) { /* loop till xmt buffer empty. Works with interrupts disabled */ while ((char *)(((int)xmt.in+1) & ((int)BUFFER_LENGTH-1)) != xmt.out) xmit_interrupt(); /* loop till UART buffer empty */ while ( (*LSR & TEMT) == 0 ); } /* console_initialize * * This routine initializes the console IO driver. * * Input parameters: NONE * * Output parameters: NONE * * Return values: */ void console_init() { /* set clock divisor */ *LCR = (char)(DLAB); *DLL = (char)((int)(CLK_FREQ/BAUD/16.0+0.5) & 0xFF); *DLM = (char)(((int)(CLK_FREQ/BAUD/16.0+0.5) & 0xFF00) >> 8); /* Line control setup */ *LCR = (char)(WL_8 | NSB); /* Interrupt setup */ *IER = (char) 0x0b; /* enable transmit, receive, modem stat int */ /* FIFO setup */ *FCR = (char)(FIFO_E | 0xc0); /* Modem control setup */ *MCR = (char) RTS; /* init tx_stop with CTS */ _tx_stop = ( (*MDSR & CTS) ? 0 : 1); set_vector(_catchUARTint, UART_ISR_LEVEL+24, 0); } rtems_device_driver console_initialize( rtems_device_major_number major, rtems_device_minor_number minor, void *arg ) { rtems_status_code status; status = rtems_io_register_name( "/dev/console", major, (rtems_device_minor_number) 0 ); if (status != RTEMS_SUCCESSFUL) rtems_fatal_error_occurred(status); return RTEMS_SUCCESSFUL; } /* is_character_ready * * This routine returns TRUE if a character is available. * * Input parameters: NONE * * Output parameters: NONE * * Return values: */ rtems_boolean is_character_ready( char *ch ) { if ((char *)(((int)rcv.in+1) & ((int)BUFFER_LENGTH-1))== rcv.out) return(FALSE); else return(TRUE); } /* * Open entry point */ rtems_device_driver console_open( rtems_device_major_number major, rtems_device_minor_number minor, void * arg ) { return RTEMS_SUCCESSFUL; } /* * Close entry point */ rtems_device_driver console_close( rtems_device_major_number major, rtems_device_minor_number minor, void * arg ) { return RTEMS_SUCCESSFUL; } /* * read bytes from the serial port. We only have stdin. */ rtems_device_driver console_read( rtems_device_major_number major, rtems_device_minor_number minor, void * arg ) { rtems_libio_rw_args_t *rw_args; char *buffer; int maximum; int count = 0; rw_args = (rtems_libio_rw_args_t *) arg; buffer = rw_args->buffer; maximum = rw_args->count; for (count = 0; count < maximum; count++) { buffer[ count ] = inbyte(); if (buffer[ count ] == '\n' || buffer[ count ] == '\r') { buffer[ count++ ] = '\n'; break; } } rw_args->bytes_moved = count; return (count >= 0) ? RTEMS_SUCCESSFUL : RTEMS_UNSATISFIED; } /* * write bytes to the serial port. Stdout and stderr are the same. */ rtems_device_driver console_write( rtems_device_major_number major, rtems_device_minor_number minor, void * arg ) { int count; int maximum; rtems_libio_rw_args_t *rw_args; char *buffer; rw_args = (rtems_libio_rw_args_t *) arg; buffer = rw_args->buffer; maximum = rw_args->count; for (count = 0; count < maximum; count++) { if ( buffer[ count ] == '\n') { outbyte('\r'); } outbyte( buffer[ count ] ); } rw_args->bytes_moved = maximum; return 0; } /* * IO Control entry point */ rtems_device_driver console_control( rtems_device_major_number major, rtems_device_minor_number minor, void * arg ) { return RTEMS_SUCCESSFUL; }
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