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[/] [or1k/] [trunk/] [rtems-20020807/] [c/] [src/] [lib/] [libbsp/] [m68k/] [gen68340/] [console/] [m340uart.c] - Rev 1765
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/* * M68340/349 uart management tools * * Author: * Geoffroy Montel * France Telecom - CNET/DSM/TAM/CAT * 4, rue du Clos Courtel * 35512 CESSON-SEVIGNE * FRANCE * * e-mail: g_montel@yahoo.com * * 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. * * m340uart.c,v 1.2 1999/11/17 17:50:56 joel Exp */ #include <termios.h> #include <bsp.h> #include <rtems/libio.h> #include <m68340.h> #include <m340uart.h> #include <stdarg.h> /* this table shows compatible speed configurations for the MC68340: the first row shows baud rates for baud speed set 1 the second row shows baud rates for baud speed set 2 look at Motorola's MC68340 Integrated Processor User's Manual page 7-30 for more infos */ float m340_Baud_Rates_Table[16][2] = {\ { 50, 75 }, \ { 110, 110 }, \ { 134.5, 134.5 }, \ { 200, 150 }, \ { 300, 300 }, \ { 600, 600 }, \ { 1200, 1200 }, \ { 1050, 2000 }, \ { 2400, 2400 }, \ { 4800, 4800 }, \ { 7200, 1800 }, \ { 9600, 9600 }, \ { 38400, 19200 }, \ { 76800, 38400 }, \ { SCLK/16, SCLK/16}, \ { SCLK, SCLK }, \ }; /* config on both 340 channels */ uart_channel_config m340_uart_config[UART_NUMBER_OF_CHANNELS]; /* * Init UART table */ #define NOT_IMPLEMENTED_YET 0 /****************************************************** Name: Init_UART_Table Input parameters: - Output parameters: - Description: Init the m340_uart_config THIS SHOULD NOT BE HERE! Its aim was to let the user configure UARTs for each application. As we can't pass args to the console driver initialisation routine at the moment, this was not done. ATTENTION: TERMIOS init presupposes that the channel baud rates is 9600/9600. -> risks when using IOCTL *****************************************************/ void Init_UART_Table(void) { m340_uart_config[UART_CHANNEL_A].enable = TRUE; strcpy(m340_uart_config[UART_CHANNEL_A].name, UART_CONSOLE_NAME); m340_uart_config[UART_CHANNEL_A].parity_mode = m340_No_Parity; m340_uart_config[UART_CHANNEL_A].bits_per_char = m340_8bpc; m340_uart_config[UART_CHANNEL_A].rx_baudrate = 9600; m340_uart_config[UART_CHANNEL_A].tx_baudrate = 9600; m340_uart_config[UART_CHANNEL_A].rx_mode = UART_CRR; m340_uart_config[UART_CHANNEL_A].mode = UART_POLLING; m340_uart_config[UART_CHANNEL_A].termios.enable = TRUE; m340_uart_config[UART_CHANNEL_A].termios.rx_buffer_size = NOT_IMPLEMENTED_YET; m340_uart_config[UART_CHANNEL_A].termios.tx_buffer_size = NOT_IMPLEMENTED_YET; m340_uart_config[UART_CHANNEL_B].enable = FALSE; strcpy(m340_uart_config[UART_CHANNEL_B].name, UART_RAW_IO_NAME); m340_uart_config[UART_CHANNEL_B].parity_mode = m340_No_Parity; m340_uart_config[UART_CHANNEL_B].bits_per_char = m340_8bpc; m340_uart_config[UART_CHANNEL_B].rx_baudrate = 38400; m340_uart_config[UART_CHANNEL_B].tx_baudrate = 38400; m340_uart_config[UART_CHANNEL_B].rx_mode = UART_CRR; m340_uart_config[UART_CHANNEL_B].mode = UART_INTERRUPTS; m340_uart_config[UART_CHANNEL_B].termios.enable = TRUE; m340_uart_config[UART_CHANNEL_B].termios.rx_buffer_size = NOT_IMPLEMENTED_YET; m340_uart_config[UART_CHANNEL_B].termios.tx_buffer_size = NOT_IMPLEMENTED_YET; } /****************************************************** Name: Find_Right_m340_UART_Channel_Config Input parameters: Send/Receive baud rates for a given channel Output parameters: UART compatible configs for this channel Description: returns which uart configurations fit Receiver Baud Rate and Transmitter Baud Rate for a given channel For instance, according to the m340_Baud_Rates_Table: - Output Speed = 50, Input Speed = 75 is not a correct config, because 50 bauds implies set 1 and 75 bauds implies set 2 - Output Speed = 9600, Input Speed = 9600 two correct configs for this: RCS=11, TCS=11, Set=1 or 2 *****************************************************/ t_baud_speed_table Find_Right_m340_UART_Channel_Config(float ReceiverBaudRate, float TransmitterBaudRate) { t_baud_speed_table return_value; struct { int cs; int set; } Receiver[2], Transmitter[2]; int Receiver_nb_of_config = 0; int Transmitter_nb_of_config = 0; int i,j; /* Receiver and Transmitter baud rates must be compatible, ie in the same set */ /* search for configurations for ReceiverBaudRate - there can't be more than two (only two sets) */ for (i=0;i<16;i++) for (j=0;j<2;j++) if (m340_Baud_Rates_Table[i][j]==ReceiverBaudRate) { Receiver[Receiver_nb_of_config].cs=i; Receiver[Receiver_nb_of_config].set=j; Receiver_nb_of_config++; } /* search for configurations for TransmitterBaudRate - there can't be more than two (only two sets) */ for (i=0;i<16;i++) for (j=0;j<2;j++) if (m340_Baud_Rates_Table[i][j]==TransmitterBaudRate) { Transmitter[Transmitter_nb_of_config].cs=i; Transmitter[Transmitter_nb_of_config].set=j; Transmitter_nb_of_config++; } /* now check if there's a compatible config */ return_value.nb=0; for (i=0; i<Receiver_nb_of_config; i++) for (j=0;j<Transmitter_nb_of_config;j++) if (Receiver[i].set == Transmitter[j].set) { return_value.baud_speed_table[return_value.nb].set = Receiver[i].set + 1; /* we want set 1 or set 2, not 0 or 1 */ return_value.baud_speed_table[return_value.nb].rcs = Receiver[i].cs; return_value.baud_speed_table[return_value.nb].tcs = Transmitter[j].cs; return_value.nb++; } return return_value; } /****************************************************** Name: Find_Right_m340_UART_Config Input parameters: Send/Receive baud rates for both channels Output parameters: UART compatible configs for BOTH channels Description: returns which uart configurations fit Receiver Baud Rate and Transmitter Baud Rate for both channels For instance, if we want 9600/38400 on channel A and 9600/19200 on channel B, this is not a good m340 uart config (channel A needs set 1 and channel B needs set 2) *****************************************************/ t_baud_speed_table Find_Right_m340_UART_Config(float ChannelA_ReceiverBaudRate, float ChannelA_TransmitterBaudRate, rtems_unsigned8 enableA, float ChannelB_ReceiverBaudRate, float ChannelB_TransmitterBaudRate, rtems_unsigned8 enableB) { t_baud_speed_table tableA, tableB; t_baud_speed_table return_value, tmp; int i,j; return_value.nb=0; if (enableA && enableB) { tableA = Find_Right_m340_UART_Channel_Config(ChannelA_ReceiverBaudRate, ChannelA_TransmitterBaudRate); tableB = Find_Right_m340_UART_Channel_Config(ChannelB_ReceiverBaudRate, ChannelB_TransmitterBaudRate); for (i=0;i<tableA.nb;i++) for (j=0;j<tableB.nb;j++) if (tableA.baud_speed_table[i].set==tableB.baud_speed_table[j].set) { return_value.baud_speed_table[UART_CHANNEL_A].set=tableA.baud_speed_table[i].set; return_value.baud_speed_table[UART_CHANNEL_A].rcs=tableA.baud_speed_table[i].rcs; return_value.baud_speed_table[UART_CHANNEL_A].tcs=tableA.baud_speed_table[i].tcs; return_value.baud_speed_table[UART_CHANNEL_B].set=tableB.baud_speed_table[j].set; return_value.baud_speed_table[UART_CHANNEL_B].rcs=tableB.baud_speed_table[j].rcs; return_value.baud_speed_table[UART_CHANNEL_B].tcs=tableB.baud_speed_table[j].tcs; return_value.nb=2; break; } return return_value; } if (enableA) { return_value = Find_Right_m340_UART_Channel_Config(ChannelA_ReceiverBaudRate, ChannelA_TransmitterBaudRate); return return_value; } if (enableB) { tmp = Find_Right_m340_UART_Channel_Config(ChannelB_ReceiverBaudRate, ChannelB_TransmitterBaudRate); if (tmp.nb!=0) { return_value.nb = 2; return_value.baud_speed_table[1].set = tmp.baud_speed_table[0].set; return_value.baud_speed_table[1].rcs = tmp.baud_speed_table[0].rcs; return_value.baud_speed_table[1].tcs = tmp.baud_speed_table[0].tcs; } } return return_value; } /****************************************************** Name: termios_baud_rates_equivalence Input parameters: Termios coded speed Output parameters: explicit speed Description: ioctl calls return termios coded speed we need to know real speed in order to use the functions above *****************************************************/ float termios_baud_rates_equivalence ( int speed ) { switch (speed) { default: return 0; break; case B50: return 50; break; case B75: return 75; break; case B110: return 110; break; case B134: return 134; break; case B150: return 150; break; case B200: return 200; break; case B300: return 300; break; case B600: return 600; break; case B1200: return 1200; break; case B1800: return 1800; break; case B2400: return 2400; break; case B4800: return 4800; break; case B9600: return 9600; break; case B19200: return 19200; break; case B38400: return 38400; break; case B57600: return 57600; break; case B115200: return 115200; break; case B230400: return 230400; break; case B460800: return 460800; break; } return 0; } /****************************************************************************************************/ /* * very low level fmted output */ extern void dbug_out_char( int minor, int ch ); extern int dbug_in_char( int minor ); extern int dbug_char_present( int minor ); /****************************************************** Name: dbugRead Input parameters: channel Output parameters: char read Description: polled read *****************************************************/ int dbugRead (int minor) { if (dbug_char_present(minor) == 0) return -1; return dbug_in_char(minor); } /****************************************************** Name: dbugWrite Input parameters: channel, buffer and its length Output parameters: always successfull Description: polled write *****************************************************/ int dbugWrite (int minor, const char *buf, int len) { static char txBuf; while (len--) { txBuf = *buf++; dbug_out_char( minor, (int)txBuf ); } return 0; } static void fmt_num( int minor, unsigned long, unsigned ); static void fmt_str( int minor, const char* ); /****************************************************** Name: RAW_GETC Input parameters: channel, buffer and its length Output parameters: Description: a light blocking "getc" *****************************************************/ char RAW_GETC(int minor) { while (!dbug_char_present(minor)) continue; return dbug_in_char(minor); } /****************************************************** Name: RAW_FMT Input parameters: channel, buffer and its length Output parameters: always successfull Description: a light polled "printf" useful when there's a serious pb and there are no more interrupts *****************************************************/ void RAW_FMT( int minor, const char* fmt, ... ) { int ch; va_list va; va_start( va, fmt ); while( (ch = *fmt++) ) if( ch != '%' || (ch = *fmt++) == '%' ) { if( ch == '\n' ) dbug_out_char( minor, '\r' ); dbug_out_char( minor, ch ); } else switch( ch ) { case 'c': dbug_out_char( minor, va_arg( va, int ) ); continue; case 's': fmt_str( minor, va_arg( va, char* ) ); continue; case 'd': ch = va_arg( va, int ); if( ch >= 0 ) fmt_num( minor, ch, 10 ); else { dbug_out_char( minor, '-' ); fmt_num( minor, -ch, 10 ); } continue; case 'u': fmt_num( minor, va_arg( va, unsigned ), 10 ); continue; case 'o': fmt_num( minor, va_arg( va, unsigned ), 8 ); continue; case 'x': case 'p': fmt_num( minor, va_arg( va, unsigned ), 16 ); continue; default: continue; return; } va_end( va ); } static void fmt_num( int minor, unsigned long num, unsigned base ) { char buf[33]; int ib = sizeof(buf); buf[--ib] = 0; do { buf[--ib] = "0123456789ABCDEF"[num%base]; num /= base; } while( num != 0 ); fmt_str( minor, buf+ib ); } static void fmt_str( int minor, const char* str ) { if( str ) while( *str ) dbug_out_char( minor, *str++ ); }