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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [sparc/] [erc32/] [console/] [console.c] - Rev 383
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/* * This file contains the TTY driver for the serial ports on the erc32. * * This driver uses the termios pseudo driver. * * 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 12:01:13 chris Exp $ */ #include <bsp.h> #include <rtems/libio.h> #include <stdlib.h> #include <assert.h> /* * Should we use a polled or interrupt drived console? * * NOTE: This is defined in the custom/erc32.cfg file. * * WARNING: In sis 1.6, it did not appear that the UART interrupts * worked in a desirable fashion. Immediately upon writing * a character into the TX buffer, an interrupt was generated. * This did not allow enough time for the program to put more * characters in the buffer. So every character resulted in * "priming" the transmitter. This effectively results in * in a polled console with a useless interrupt per character * on output. It is reasonable to assume that input does not * share this problem although it was not investigated. * */ /* * console_outbyte_polled * * This routine transmits a character using polling. */ void console_outbyte_polled( int port, char ch ); /* body is in debugputs.c */ /* * console_inbyte_nonblocking * * This routine polls for a character. */ int console_inbyte_nonblocking( int port ); /* body is in debugputs.c */ /* * Interrupt driven console IO */ #if (CONSOLE_USE_INTERRUPTS) /* * Buffers between task and ISRs */ #include <ringbuf.h> Ring_buffer_t TX_Buffer[ 2 ]; boolean Is_TX_active[ 2 ]; void *console_termios_data[ 2 ]; /* * console_isr_a * * This routine is the console interrupt handler for Channel A. * * Input parameters: * vector - vector number * * Output parameters: NONE * * Return values: NONE */ rtems_isr console_isr_a( rtems_vector_number vector ) { char ch; int UStat; if ( (UStat = ERC32_MEC.UART_Status) & ERC32_MEC_UART_STATUS_DRA ) { if (UStat & ERC32_MEC_UART_STATUS_ERRA) { ERC32_MEC.UART_Status = ERC32_MEC_UART_STATUS_CLRA; ERC32_MEC.Control = ERC32_MEC.Control; } ch = ERC32_MEC.UART_Channel_A; rtems_termios_enqueue_raw_characters( console_termios_data[ 0 ], &ch, 1 ); } if ( ERC32_MEC.UART_Status & ERC32_MEC_UART_STATUS_THEA ) { if ( !Ring_buffer_Is_empty( &TX_Buffer[ 0 ] ) ) { Ring_buffer_Remove_character( &TX_Buffer[ 0 ], ch ); ERC32_MEC.UART_Channel_A = (unsigned32) ch; } else Is_TX_active[ 0 ] = FALSE; } ERC32_Clear_interrupt( ERC32_INTERRUPT_UART_A_RX_TX ); } /* * console_isr_b * * This routine is the console interrupt handler for Channel B. * * Input parameters: * vector - vector number * * Output parameters: NONE * * Return values: NONE */ rtems_isr console_isr_b( rtems_vector_number vector ) { char ch; int UStat; if ( (UStat = ERC32_MEC.UART_Status) & ERC32_MEC_UART_STATUS_DRB ) { if (UStat & ERC32_MEC_UART_STATUS_ERRB) { ERC32_MEC.UART_Status = ERC32_MEC_UART_STATUS_CLRB; ERC32_MEC.Control = ERC32_MEC.Control; } ch = ERC32_MEC.UART_Channel_B; rtems_termios_enqueue_raw_characters( console_termios_data[ 1 ], &ch, 1 ); } if ( ERC32_MEC.UART_Status & ERC32_MEC_UART_STATUS_THEB ) { if ( !Ring_buffer_Is_empty( &TX_Buffer[ 1 ] ) ) { Ring_buffer_Remove_character( &TX_Buffer[ 1 ], ch ); ERC32_MEC.UART_Channel_B = (unsigned32) ch; } else Is_TX_active[ 1 ] = FALSE; } ERC32_Clear_interrupt( ERC32_INTERRUPT_UART_B_RX_TX ); } /* * console_exit * * This routine allows the console to exit by masking its associated interrupt * vectors. * * Input parameters: NONE * * Output parameters: NONE * * Return values: NONE */ void console_exit() { rtems_unsigned32 port; rtems_unsigned32 ch; /* * Although the interrupts for the UART are unmasked, the PIL is set to * disable all external interrupts. So we might as well do this first. */ ERC32_Mask_interrupt( ERC32_INTERRUPT_UART_A_RX_TX ); ERC32_Mask_interrupt( ERC32_INTERRUPT_UART_B_RX_TX ); for ( port=0 ; port <= 1 ; port++ ) { while ( !Ring_buffer_Is_empty( &TX_Buffer[ port ] ) ) { Ring_buffer_Remove_character( &TX_Buffer[ port ], ch ); console_outbyte_polled( port, ch ); } } /* * Now wait for all the data to actually get out ... the send register * should be empty. */ while ( (ERC32_MEC.UART_Status & ERC32_MEC_UART_STATUS_THEA) != ERC32_MEC_UART_STATUS_THEA ); while ( (ERC32_MEC.UART_Status & ERC32_MEC_UART_STATUS_THEB) != ERC32_MEC_UART_STATUS_THEB ); } #define CONSOLE_UART_A_TRAP ERC32_TRAP_TYPE( ERC32_INTERRUPT_UART_A_RX_TX ) #define CONSOLE_UART_B_TRAP ERC32_TRAP_TYPE( ERC32_INTERRUPT_UART_B_RX_TX ) /* * console_initialize_interrupts * * This routine initializes the console's receive and transmit * ring buffers and loads the appropriate vectors to handle the interrupts. * * Input parameters: NONE * * Output parameters: NONE * * Return values: NONE */ #ifdef RDB_BREAK_IN extern unsigned32 trap_table[]; #endif void console_initialize_interrupts( void ) { Ring_buffer_Initialize( &TX_Buffer[ 0 ] ); Ring_buffer_Initialize( &TX_Buffer[ 1 ] ); Is_TX_active[ 0 ] = FALSE; Is_TX_active[ 1 ] = FALSE; atexit( console_exit ); set_vector( console_isr_a, CONSOLE_UART_A_TRAP, 1 ); #ifdef RDB_BREAK_IN if (trap_table[0x150/4] == 0x91d02000) #endif set_vector( console_isr_b, CONSOLE_UART_B_TRAP, 1 ); } /* * console_outbyte_interrupt * * This routine transmits a character out. * * Input parameters: * port - port to transmit character to * ch - character to be transmitted * * Output parameters: NONE * * Return values: NONE */ void console_outbyte_interrupt( int port, char ch ) { /* * If this is the first character then we need to prime the pump */ if ( Is_TX_active[ port ] == FALSE ) { Is_TX_active[ port ] = TRUE; console_outbyte_polled( port, ch ); return; } while ( Ring_buffer_Is_full( &TX_Buffer[ port ] ) ); Ring_buffer_Add_character( &TX_Buffer[ port ], ch ); } #endif /* CONSOLE_USE_INTERRUPTS */ /* * Console Termios Support Entry Points * */ int console_write_support (int minor, const char *buf, int len) { int nwrite = 0; while (nwrite < len) { #if (CONSOLE_USE_INTERRUPTS) console_outbyte_interrupt( minor, *buf++ ); #else console_outbyte_polled( minor, *buf++ ); #endif nwrite++; } return nwrite; } /* * Console Device Driver Entry Points * */ rtems_device_driver console_initialize( rtems_device_major_number major, rtems_device_minor_number minor, void *arg ) { rtems_status_code status; rtems_termios_initialize(); /* * Register Device Names */ status = rtems_io_register_name( "/dev/console", major, 0 ); if (status != RTEMS_SUCCESSFUL) rtems_fatal_error_occurred(status); status = rtems_io_register_name( "/dev/console_b", major, 1 ); if (status != RTEMS_SUCCESSFUL) rtems_fatal_error_occurred(status); /* * Initialize Hardware */ #if (CONSOLE_USE_INTERRUPTS) console_initialize_interrupts(); #endif return RTEMS_SUCCESSFUL; } rtems_device_driver console_open( rtems_device_major_number major, rtems_device_minor_number minor, void * arg ) { rtems_status_code sc; #if (CONSOLE_USE_INTERRUPTS) rtems_libio_open_close_args_t *args = arg; static const rtems_termios_callbacks intrCallbacks = { NULL, /* firstOpen */ NULL, /* lastClose */ NULL, /* pollRead */ console_write_support, /* write */ NULL, /* setAttributes */ NULL, /* stopRemoteTx */ NULL, /* startRemoteTx */ 0 /* outputUsesInterrupts */ }; #else static const rtems_termios_callbacks pollCallbacks = { NULL, /* firstOpen */ NULL, /* lastClose */ console_inbyte_nonblocking, /* pollRead */ console_write_support, /* write */ NULL, /* setAttributes */ NULL, /* stopRemoteTx */ NULL, /* startRemoteTx */ 0 /* outputUsesInterrupts */ }; #endif assert( minor <= 1 ); if ( minor > 2 ) return RTEMS_INVALID_NUMBER; #if (CONSOLE_USE_INTERRUPTS) sc = rtems_termios_open (major, minor, arg, &intrCallbacks); console_termios_data[ minor ] = args->iop->data1; #else sc = rtems_termios_open (major, minor, arg, &pollCallbacks); #endif return RTEMS_SUCCESSFUL; } rtems_device_driver console_close( rtems_device_major_number major, rtems_device_minor_number minor, void * arg ) { return rtems_termios_close (arg); } rtems_device_driver console_read( rtems_device_major_number major, rtems_device_minor_number minor, void * arg ) { return rtems_termios_read (arg); } rtems_device_driver console_write( rtems_device_major_number major, rtems_device_minor_number minor, void * arg ) { return rtems_termios_write (arg); } rtems_device_driver console_control( rtems_device_major_number major, rtems_device_minor_number minor, void * arg ) { return rtems_termios_ioctl (arg); }
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