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[/] [openrisc/] [trunk/] [rtos/] [rtems/] [c/] [src/] [lib/] [libbsp/] [i386/] [shared/] [comm/] [uart.c] - Rev 30
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/* * This software is Copyright (C) 1998 by T.sqware - all rights limited * It is provided in to the public domain "as is", can be freely modified * as far as this copyight notice is kept unchanged, but does not imply * an endorsement by T.sqware of the product in which it is included. * * $Id: uart.c,v 1.2 2001-09-27 11:59:49 chris Exp $ */ #include <bsp.h> #include <irq.h> #include <uart.h> #include <rtems/libio.h> #include <assert.h> /* * Basic 16552 driver */ struct uart_data { int hwFlow; int baud; }; static struct uart_data uart_data[2]; /* * Macros to read/write register of uart, if configuration is * different just rewrite these macros */ static inline unsigned char uread(int uart, unsigned int reg) { register unsigned char val; if (uart == 0) { inport_byte(COM1_BASE_IO+reg, val); } else { inport_byte(COM2_BASE_IO+reg, val); } return val; } static inline void uwrite(int uart, int reg, unsigned int val) { if (uart == 0) { outport_byte(COM1_BASE_IO+reg, val); } else { outport_byte(COM2_BASE_IO+reg, val); } } #ifdef UARTDEBUG static void uartError(int uart) { unsigned char uartStatus, dummy; uartStatus = uread(uart, LSR); dummy = uread(uart, RBR); if (uartStatus & OE) printk("********* Over run Error **********\n"); if (uartStatus & PE) printk("********* Parity Error **********\n"); if (uartStatus & FE) printk("********* Framing Error **********\n"); if (uartStatus & BI) printk("********* Parity Error **********\n"); if (uartStatus & ERFIFO) printk("********* Error receive Fifo **********\n"); } #else inline void uartError(int uart) { unsigned char uartStatus; uartStatus = uread(uart, LSR); uartStatus = uread(uart, RBR); } #endif /* * Uart initialization, it is hardcoded to 8 bit, no parity, * one stop bit, FIFO, things to be changed * are baud rate and nad hw flow control, * and longest rx fifo setting */ void BSP_uart_init(int uart, int baud, int hwFlow) { unsigned char tmp; /* Sanity check */ assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2); switch(baud) { case 50: case 75: case 110: case 134: case 300: case 600: case 1200: case 2400: case 9600: case 19200: case 38400: case 57600: case 115200: break; default: assert(0); return; } /* Set DLAB bit to 1 */ uwrite(uart, LCR, DLAB); /* Set baud rate */ uwrite(uart, DLL, (BSPBaseBaud/baud) & 0xff); uwrite(uart, DLM, ((BSPBaseBaud/baud) >> 8) & 0xff); /* 8-bit, no parity , 1 stop */ uwrite(uart, LCR, CHR_8_BITS); /* Set DTR, RTS and OUT2 high */ uwrite(uart, MCR, DTR | RTS | OUT_2); /* Enable FIFO */ uwrite(uart, FCR, FIFO_EN | XMIT_RESET | RCV_RESET | RECEIVE_FIFO_TRIGGER12); /* Disable Interrupts */ uwrite(uart, IER, 0); /* Read status to clear them */ tmp = uread(uart, LSR); tmp = uread(uart, RBR); tmp = uread(uart, MSR); /* Remember state */ uart_data[uart].hwFlow = hwFlow; uart_data[uart].baud = baud; return; } /* * Set baud */ void BSP_uart_set_baud(int uart, int baud) { unsigned char mcr, ier; /* Sanity check */ assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2); /* * This function may be called whenever TERMIOS parameters * are changed, so we have to make sure that baud change is * indeed required */ if(baud == uart_data[uart].baud) { return; } mcr = uread(uart, MCR); ier = uread(uart, IER); BSP_uart_init(uart, baud, uart_data[uart].hwFlow); uwrite(uart, MCR, mcr); uwrite(uart, IER, ier); return; } /* * Enable/disable interrupts */ void BSP_uart_intr_ctrl(int uart, int cmd) { assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2); switch(cmd) { case BSP_UART_INTR_CTRL_DISABLE: uwrite(uart, IER, INTERRUPT_DISABLE); break; case BSP_UART_INTR_CTRL_ENABLE: if(uart_data[uart].hwFlow) { uwrite(uart, IER, (RECEIVE_ENABLE | TRANSMIT_ENABLE | RECEIVER_LINE_ST_ENABLE | MODEM_ENABLE ) ); } else { uwrite(uart, IER, (RECEIVE_ENABLE | TRANSMIT_ENABLE | RECEIVER_LINE_ST_ENABLE ) ); } break; case BSP_UART_INTR_CTRL_TERMIOS: if(uart_data[uart].hwFlow) { uwrite(uart, IER, (RECEIVE_ENABLE | RECEIVER_LINE_ST_ENABLE | MODEM_ENABLE ) ); } else { uwrite(uart, IER, (RECEIVE_ENABLE | RECEIVER_LINE_ST_ENABLE ) ); } break; case BSP_UART_INTR_CTRL_GDB: uwrite(uart, IER, RECEIVE_ENABLE); break; default: assert(0); break; } return; } void BSP_uart_throttle(int uart) { unsigned int mcr; assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2); if(!uart_data[uart].hwFlow) { /* Should not happen */ assert(0); return; } mcr = uread (uart, MCR); /* RTS down */ mcr &= ~RTS; uwrite(uart, MCR, mcr); return; } void BSP_uart_unthrottle(int uart) { unsigned int mcr; assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2); if(!uart_data[uart].hwFlow) { /* Should not happen */ assert(0); return; } mcr = uread (uart, MCR); /* RTS up */ mcr |= RTS; uwrite(uart, MCR, mcr); return; } /* * Status function, -1 if error * detected, 0 if no received chars available, * 1 if received char available, 2 if break * is detected, it will eat break and error * chars. It ignores overruns - we cannot do * anything about - it execpt count statistics * and we are not counting it. */ int BSP_uart_polled_status(int uart) { unsigned char val; assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2); val = uread(uart, LSR); if(val & BI) { /* BREAK found, eat character */ uread(uart, RBR); return BSP_UART_STATUS_BREAK; } if((val & (DR | OE | FE)) == 1) { /* No error, character present */ return BSP_UART_STATUS_CHAR; } if((val & (DR | OE | FE)) == 0) { /* Nothing */ return BSP_UART_STATUS_NOCHAR; } /* * Framing or parity error * eat character */ uread(uart, RBR); return BSP_UART_STATUS_ERROR; } /* * Polled mode write function */ void BSP_uart_polled_write(int uart, int val) { unsigned char val1; /* Sanity check */ assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2); for(;;) { if((val1=uread(uart, LSR)) & THRE) { break; } } if(uart_data[uart].hwFlow) { for(;;) { if(uread(uart, MSR) & CTS) { break; } } } uwrite(uart, THR, val & 0xff); return; } void BSP_output_char_via_serial(int val) { BSP_uart_polled_write(BSPConsolePort, val); if (val == '\n') BSP_uart_polled_write(BSPConsolePort,'\r'); } /* * Polled mode read function */ int BSP_uart_polled_read(int uart) { unsigned char val; assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2); for(;;) { if(uread(uart, LSR) & DR) { break; } } val = uread(uart, RBR); return (int)(val & 0xff); } unsigned BSP_poll_char_via_serial() { return BSP_uart_polled_read(BSPConsolePort); } /* ================ Termios support =================*/ static volatile int termios_stopped_com1 = 0; static volatile int termios_tx_active_com1 = 0; static void* termios_ttyp_com1 = NULL; static char termios_tx_hold_com1 = 0; static volatile char termios_tx_hold_valid_com1 = 0; static volatile int termios_stopped_com2 = 0; static volatile int termios_tx_active_com2 = 0; static void* termios_ttyp_com2 = NULL; static char termios_tx_hold_com2 = 0; static volatile char termios_tx_hold_valid_com2 = 0; /* * Set channel parameters */ void BSP_uart_termios_set(int uart, void *ttyp) { unsigned char val; assert(uart == BSP_UART_COM1 || uart == BSP_UART_COM2); if(uart == BSP_UART_COM1) { if(uart_data[uart].hwFlow) { val = uread(uart, MSR); termios_stopped_com1 = (val & CTS) ? 0 : 1; } else { termios_stopped_com1 = 0; } termios_tx_active_com1 = 0; termios_ttyp_com1 = ttyp; termios_tx_hold_com1 = 0; termios_tx_hold_valid_com1 = 0; } else { if(uart_data[uart].hwFlow) { val = uread(uart, MSR); termios_stopped_com2 = (val & CTS) ? 0 : 1; } else { termios_stopped_com2 = 0; } termios_tx_active_com2 = 0; termios_ttyp_com2 = ttyp; termios_tx_hold_com2 = 0; termios_tx_hold_valid_com2 = 0; } return; } int BSP_uart_termios_write_com1(int minor, const char *buf, int len) { assert(buf != NULL); if(len <= 0) { return 0; } /* If there TX buffer is busy - something is royally screwed up */ assert((uread(BSP_UART_COM1, LSR) & THRE) != 0); if(termios_stopped_com1) { /* CTS low */ termios_tx_hold_com1 = *buf; termios_tx_hold_valid_com1 = 1; return 0; } /* Write character */ uwrite(BSP_UART_COM1, THR, *buf & 0xff); /* Enable interrupts if necessary */ if(!termios_tx_active_com1 && uart_data[BSP_UART_COM1].hwFlow) { termios_tx_active_com1 = 1; uwrite(BSP_UART_COM1, IER, (RECEIVE_ENABLE | TRANSMIT_ENABLE | RECEIVER_LINE_ST_ENABLE | MODEM_ENABLE ) ); } else if(!termios_tx_active_com1) { termios_tx_active_com1 = 1; uwrite(BSP_UART_COM1, IER, (RECEIVE_ENABLE | TRANSMIT_ENABLE | RECEIVER_LINE_ST_ENABLE ) ); } return 0; } int BSP_uart_termios_write_com2(int minor, const char *buf, int len) { assert(buf != NULL); if(len <= 0) { return 0; } /* If there TX buffer is busy - something is royally screwed up */ assert((uread(BSP_UART_COM2, LSR) & THRE) != 0); if(termios_stopped_com2) { /* CTS low */ termios_tx_hold_com2 = *buf; termios_tx_hold_valid_com2 = 1; return 0; } /* Write character */ uwrite(BSP_UART_COM2, THR, *buf & 0xff); /* Enable interrupts if necessary */ if(!termios_tx_active_com2 && uart_data[BSP_UART_COM2].hwFlow) { termios_tx_active_com2 = 1; uwrite(BSP_UART_COM2, IER, (RECEIVE_ENABLE | TRANSMIT_ENABLE | RECEIVER_LINE_ST_ENABLE | MODEM_ENABLE ) ); } else if(!termios_tx_active_com2) { termios_tx_active_com2 = 1; uwrite(BSP_UART_COM2, IER, (RECEIVE_ENABLE | TRANSMIT_ENABLE | RECEIVER_LINE_ST_ENABLE ) ); } return 0; } void BSP_uart_termios_isr_com1(void) { unsigned char buf[40]; unsigned char val; int off, ret, vect; off = 0; for(;;) { vect = uread(BSP_UART_COM1, IIR) & 0xf; switch(vect) { case MODEM_STATUS : val = uread(BSP_UART_COM1, MSR); if(uart_data[BSP_UART_COM1].hwFlow) { if(val & CTS) { /* CTS high */ termios_stopped_com1 = 0; if(termios_tx_hold_valid_com1) { termios_tx_hold_valid_com1 = 0; BSP_uart_termios_write_com1(0, &termios_tx_hold_com1, 1); } } else { /* CTS low */ termios_stopped_com1 = 1; } } break; case NO_MORE_INTR : /* No more interrupts */ if(off != 0) { /* Update rx buffer */ rtems_termios_enqueue_raw_characters(termios_ttyp_com1, (char *)buf, off); } return; case TRANSMITTER_HODING_REGISTER_EMPTY : /* * TX holding empty: we have to disable these interrupts * if there is nothing more to send. */ ret = rtems_termios_dequeue_characters(termios_ttyp_com1, 1); /* If nothing else to send disable interrupts */ if(ret == 0 && uart_data[BSP_UART_COM1].hwFlow) { uwrite(BSP_UART_COM1, IER, (RECEIVE_ENABLE | RECEIVER_LINE_ST_ENABLE | MODEM_ENABLE ) ); termios_tx_active_com1 = 0; } else if(ret == 0) { uwrite(BSP_UART_COM1, IER, (RECEIVE_ENABLE | RECEIVER_LINE_ST_ENABLE ) ); termios_tx_active_com1 = 0; } break; case RECEIVER_DATA_AVAIL : case CHARACTER_TIMEOUT_INDICATION: /* RX data ready */ assert(off < sizeof(buf)); buf[off++] = uread(BSP_UART_COM1, RBR); break; case RECEIVER_ERROR: /* RX error: eat character */ uartError(BSP_UART_COM1); break; default: /* Should not happen */ assert(0); return; } } } void BSP_uart_termios_isr_com2() { unsigned char buf[40]; unsigned char val; int off, ret, vect; off = 0; for(;;) { vect = uread(BSP_UART_COM2, IIR) & 0xf; switch(vect) { case MODEM_STATUS : val = uread(BSP_UART_COM2, MSR); if(uart_data[BSP_UART_COM2].hwFlow) { if(val & CTS) { /* CTS high */ termios_stopped_com2 = 0; if(termios_tx_hold_valid_com2) { termios_tx_hold_valid_com2 = 0; BSP_uart_termios_write_com2(0, &termios_tx_hold_com2, 1); } } else { /* CTS low */ termios_stopped_com2 = 1; } } break; case NO_MORE_INTR : /* No more interrupts */ if(off != 0) { /* Update rx buffer */ rtems_termios_enqueue_raw_characters(termios_ttyp_com2, (char *)buf, off); } return; case TRANSMITTER_HODING_REGISTER_EMPTY : /* * TX holding empty: we have to disable these interrupts * if there is nothing more to send. */ ret = rtems_termios_dequeue_characters(termios_ttyp_com2, 1); /* If nothing else to send disable interrupts */ if(ret == 0 && uart_data[BSP_UART_COM2].hwFlow) { uwrite(BSP_UART_COM2, IER, (RECEIVE_ENABLE | RECEIVER_LINE_ST_ENABLE | MODEM_ENABLE ) ); termios_tx_active_com2 = 0; } else if(ret == 0) { uwrite(BSP_UART_COM2, IER, (RECEIVE_ENABLE | RECEIVER_LINE_ST_ENABLE ) ); termios_tx_active_com2 = 0; } break; case RECEIVER_DATA_AVAIL : case CHARACTER_TIMEOUT_INDICATION: /* RX data ready */ assert(off < sizeof(buf)); buf[off++] = uread(BSP_UART_COM2, RBR); break; case RECEIVER_ERROR: /* RX error: eat character */ uartError(BSP_UART_COM2); break; default: /* Should not happen */ assert(0); return; } } } /* ================= GDB support ===================*/ static int sav[4] __attribute__ ((unused)); /* * Interrupt service routine for COM1 - all, * it does it check whether ^C is received * if yes it will flip TF bit before returning * Note: it should be installed as raw interrupt * handler */ asm (".p2align 4"); asm (".text"); asm (".globl BSP_uart_dbgisr_com1"); asm ("BSP_uart_dbgisr_com1:"); asm (" movl %eax, sav"); /* Save eax */ asm (" movl %ebx, sav + 4"); /* Save ebx */ asm (" movl %edx, sav + 8"); /* Save edx */ asm (" movl $0, %ebx"); /* Clear flag */ /* * We know that only receive related interrupts * are available, eat chars */ asm ("uart_dbgisr_com1_1:"); asm (" movw $0x3FD, %dx"); asm (" inb %dx, %al"); /* Read LSR */ asm (" andb $1, %al"); asm (" cmpb $0, %al"); asm (" je uart_dbgisr_com1_2"); asm (" movw $0x3F8, %dx"); asm (" inb %dx, %al"); /* Get input character */ asm (" cmpb $3, %al"); asm (" jne uart_dbgisr_com1_1"); /* ^C received, set flag */ asm (" movl $1, %ebx"); asm (" jmp uart_dbgisr_com1_1"); /* All chars read */ asm ("uart_dbgisr_com1_2:"); /* If flag is set we have to tweak TF */ asm (" cmpl $0, %ebx"); asm (" je uart_dbgisr_com1_3"); /* Flag is set */ asm (" movl sav+4, %ebx"); /* Restore ebx */ asm (" movl sav+8, %edx"); /* Restore edx */ /* Set TF bit */ asm (" popl %eax"); /* Pop eip */ asm (" movl %eax, sav + 4"); /* Save it */ asm (" popl %eax"); /* Pop cs */ asm (" movl %eax, sav + 8"); /* Save it */ asm (" popl %eax"); /* Pop flags */ asm (" orl $0x100, %eax"); /* Modify it */ asm (" pushl %eax"); /* Push it back */ asm (" movl sav+8, %eax"); /* Put back cs */ asm (" pushl %eax"); asm (" movl sav+4, %eax"); /* Put back eip */ asm (" pushl %eax"); /* Acknowledge IRQ */ asm (" movb $0x20, %al"); asm (" outb %al, $0x20"); asm (" movl sav, %eax"); /* Restore eax */ asm (" iret"); /* Done */ /* Flag is not set */ asm("uart_dbgisr_com1_3:"); asm (" movl sav+4, %ebx"); /* Restore ebx */ asm (" movl sav+8, %edx"); /* Restore edx */ /* Acknowledge irq */ asm (" movb $0x20, %al"); asm (" outb %al, $0x20"); asm (" movl sav, %eax"); /* Restore eax */ asm (" iret"); /* Done */ /* * Interrupt service routine for COM2 - all, * it does it check whether ^C is received * if yes it will flip TF bit before returning * Note: it has to be installed as raw interrupt * handler */ asm (".p2align 4"); asm (".text"); asm (".globl BSP_uart_dbgisr_com2"); asm ("BSP_uart_dbgisr_com2:"); asm (" movl %eax, sav"); /* Save eax */ asm (" movl %ebx, sav + 4"); /* Save ebx */ asm (" movl %edx, sav + 8"); /* Save edx */ asm (" movl $0, %ebx"); /* Clear flag */ /* * We know that only receive related interrupts * are available, eat chars */ asm ("uart_dbgisr_com2_1:"); asm (" movw $0x2FD, %dx"); asm (" inb %dx, %al"); /* Read LSR */ asm (" andb $1, %al"); asm (" cmpb $0, %al"); asm (" je uart_dbgisr_com2_2"); asm (" movw $0x2F8, %dx"); asm (" inb %dx, %al"); /* Get input character */ asm (" cmpb $3, %al"); asm (" jne uart_dbgisr_com2_1"); /* ^C received, set flag */ asm (" movl $1, %ebx"); asm (" jmp uart_dbgisr_com2_1"); /* All chars read */ asm ("uart_dbgisr_com2_2:"); /* If flag is set we have to tweak TF */ asm (" cmpl $0, %ebx"); asm (" je uart_dbgisr_com2_3"); /* Flag is set */ asm (" movl sav+4, %ebx"); /* Restore ebx */ asm (" movl sav+8, %edx"); /* Restore edx */ /* Set TF bit */ asm (" popl %eax"); /* Pop eip */ asm (" movl %eax, sav + 4"); /* Save it */ asm (" popl %eax"); /* Pop cs */ asm (" movl %eax, sav + 8"); /* Save it */ asm (" popl %eax"); /* Pop flags */ asm (" orl $0x100, %eax"); /* Modify it */ asm (" pushl %eax"); /* Push it back */ asm (" movl sav+8, %eax"); /* Put back cs */ asm (" pushl %eax"); asm (" movl sav+4, %eax"); /* Put back eip */ asm (" pushl %eax"); /* Acknowledge IRQ */ asm (" movb $0x20, %al"); asm (" outb %al, $0x20"); asm (" movl sav, %eax"); /* Restore eax */ asm (" iret"); /* Done */ /* Flag is not set */ asm("uart_dbgisr_com2_3:"); asm (" movl sav+4, %ebx"); /* Restore ebx */ asm (" movl sav+8, %edx"); /* Restore edx */ /* Acknowledge irq */ asm (" movb $0x20, %al"); asm (" outb %al, $0x20"); asm (" movl sav, %eax"); /* Restore eax */ asm (" iret"); /* Done */
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