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https://opencores.org/ocsvn/eco32/eco32/trunk
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[/] [eco32/] [trunk/] [sim/] [serial.c] - Rev 268
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/* * serial.c -- serial line simulation */ #ifdef __linux__ #define _XOPEN_SOURCE #endif #include <stdio.h> #include <stdlib.h> #include <string.h> #include <setjmp.h> #include <signal.h> #include <sys/types.h> #include <sys/wait.h> #include <unistd.h> #include <fcntl.h> #include <termios.h> #include "common.h" #include "console.h" #include "error.h" #include "except.h" #include "cpu.h" #include "timer.h" #include "serial.h" /**************************************************************/ static Bool debug = false; typedef struct { pid_t pid; FILE *in; FILE *out; Word rcvrCtrl; Word rcvrData; int rcvrIRQ; Word xmtrCtrl; Word xmtrData; int xmtrIRQ; } Serial; static Serial serials[MAX_NSERIALS]; static int nSerials; /**************************************************************/ static void rcvrCallback(int dev) { int c; if (debug) { cPrintf("\n**** SERIAL RCVR CALLBACK ****\n"); } timerStart(SERIAL_RCVR_USEC, rcvrCallback, dev); c = fgetc(serials[dev].in); if (c == EOF) { /* no character typed */ return; } /* any character typed */ serials[dev].rcvrData = c & 0xFF; serials[dev].rcvrCtrl |= SERIAL_RCVR_RDY; if (serials[dev].rcvrCtrl & SERIAL_RCVR_IEN) { /* raise serial line rcvr interrupt */ cpuSetInterrupt(serials[dev].rcvrIRQ); } } static void xmtrCallback(int dev) { if (debug) { cPrintf("\n**** SERIAL XMTR CALLBACK ****\n"); } fputc(serials[dev].xmtrData & 0xFF, serials[dev].out); serials[dev].xmtrCtrl |= SERIAL_XMTR_RDY; if (serials[dev].xmtrCtrl & SERIAL_XMTR_IEN) { /* raise serial line xmtr interrupt */ cpuSetInterrupt(serials[dev].xmtrIRQ); } } /**************************************************************/ Word serialRead(Word addr) { int dev, reg; Word data; if (debug) { cPrintf("\n**** SERIAL READ from 0x%08X", addr); } dev = addr >> 12; if (dev >= nSerials) { /* illegal device */ throwException(EXC_BUS_TIMEOUT); } reg = addr & 0x0FFF; if (reg == SERIAL_RCVR_CTRL) { data = serials[dev].rcvrCtrl; } else if (reg == SERIAL_RCVR_DATA) { serials[dev].rcvrCtrl &= ~SERIAL_RCVR_RDY; if (serials[dev].rcvrCtrl & SERIAL_RCVR_IEN) { /* lower serial line rcvr interrupt */ cpuResetInterrupt(serials[dev].rcvrIRQ); } data = serials[dev].rcvrData; } else if (reg == SERIAL_XMTR_CTRL) { data = serials[dev].xmtrCtrl; } else if (reg == SERIAL_XMTR_DATA) { /* this register is write-only */ throwException(EXC_BUS_TIMEOUT); } else { /* illegal register */ throwException(EXC_BUS_TIMEOUT); } if (debug) { cPrintf(", data = 0x%08X ****\n", data); } return data; } void serialWrite(Word addr, Word data) { int dev, reg; if (debug) { cPrintf("\n**** SERIAL WRITE to 0x%08X, data = 0x%08X ****\n", addr, data); } dev = addr >> 12; if (dev >= nSerials) { /* illegal device */ throwException(EXC_BUS_TIMEOUT); } reg = addr & 0x0FFF; if (reg == SERIAL_RCVR_CTRL) { if (data & SERIAL_RCVR_IEN) { serials[dev].rcvrCtrl |= SERIAL_RCVR_IEN; } else { serials[dev].rcvrCtrl &= ~SERIAL_RCVR_IEN; } if (data & SERIAL_RCVR_RDY) { serials[dev].rcvrCtrl |= SERIAL_RCVR_RDY; } else { serials[dev].rcvrCtrl &= ~SERIAL_RCVR_RDY; } if ((serials[dev].rcvrCtrl & SERIAL_RCVR_IEN) != 0 && (serials[dev].rcvrCtrl & SERIAL_RCVR_RDY) != 0) { /* raise serial line rcvr interrupt */ cpuSetInterrupt(serials[dev].rcvrIRQ); } else { /* lower serial line rcvr interrupt */ cpuResetInterrupt(serials[dev].rcvrIRQ); } } else if (reg == SERIAL_RCVR_DATA) { /* this register is read-only */ throwException(EXC_BUS_TIMEOUT); } else if (reg == SERIAL_XMTR_CTRL) { if (data & SERIAL_XMTR_IEN) { serials[dev].xmtrCtrl |= SERIAL_XMTR_IEN; } else { serials[dev].xmtrCtrl &= ~SERIAL_XMTR_IEN; } if (data & SERIAL_XMTR_RDY) { serials[dev].xmtrCtrl |= SERIAL_XMTR_RDY; } else { serials[dev].xmtrCtrl &= ~SERIAL_XMTR_RDY; } if ((serials[dev].xmtrCtrl & SERIAL_XMTR_IEN) != 0 && (serials[dev].xmtrCtrl & SERIAL_XMTR_RDY) != 0) { /* raise serial line xmtr interrupt */ cpuSetInterrupt(serials[dev].xmtrIRQ); } else { /* lower serial line xmtr interrupt */ cpuResetInterrupt(serials[dev].xmtrIRQ); } } else if (reg == SERIAL_XMTR_DATA) { serials[dev].xmtrData = data & 0xFF; serials[dev].xmtrCtrl &= ~SERIAL_XMTR_RDY; if (serials[dev].xmtrCtrl & SERIAL_XMTR_IEN) { /* lower serial line xmtr interrupt */ cpuResetInterrupt(serials[dev].xmtrIRQ); } timerStart(SERIAL_XMTR_USEC, xmtrCallback, dev); } else { /* illegal register */ throwException(EXC_BUS_TIMEOUT); } } /**************************************************************/ void serialReset(void) { int i; cPrintf("Resetting Serial Lines...\n"); for (i = 0; i < nSerials; i++) { serials[i].rcvrCtrl = 0; serials[i].rcvrData = 0; serials[i].rcvrIRQ = IRQ_SERIAL_0_RCVR + 2 * i; timerStart(SERIAL_RCVR_USEC, rcvrCallback, i); serials[i].xmtrCtrl = SERIAL_XMTR_RDY; serials[i].xmtrData = 0; serials[i].xmtrIRQ = IRQ_SERIAL_0_XMTR + 2 * i; } } static void makeRaw(int fd) { struct termios t; tcgetattr(fd, &t); t.c_iflag &= ~(IGNBRK|BRKINT|PARMRK|ISTRIP|INLCR|IGNCR|ICRNL|IXON); t.c_oflag &= ~OPOST; t.c_lflag &= ~(ECHO|ECHONL|ICANON|ISIG|IEXTEN); t.c_cflag &= ~(CSIZE|PARENB); t.c_cflag |= CS8; tcsetattr(fd, TCSANOW, &t); } void serialInit(int numSerials, Bool connectTerminals[]) { int i; int master; char slavePath[100]; int slave; char termTitle[100]; char termSlave[100]; nSerials = numSerials; for (i = 0; i < nSerials; i++) { /* open pseudo terminal */ master = open("/dev/ptmx", O_RDWR | O_NONBLOCK); if (master < 0) { error("cannot open pseudo terminal master for serial line %d", i); } grantpt(master); unlockpt(master); strcpy(slavePath, ptsname(master)); if (debug) { cPrintf("pseudo terminal %d: master fd = %d, slave path = '%s'\n", i, master, slavePath); } if (connectTerminals[i]) { /* connect a terminal to the serial line */ /* i.e., fork and exec a new xterm process */ serials[i].pid = fork(); if (serials[i].pid < 0) { error("cannot fork xterm process for serial line %d", i); } if (serials[i].pid == 0) { /* terminal process */ setpgid(0, 0); close(master); /* open and configure pseudo terminal slave */ slave = open(slavePath, O_RDWR | O_NONBLOCK); if (slave < 0) { error("cannot open pseudo terminal slave '%s'\n", slavePath); } makeRaw(slave); /* exec xterm */ sprintf(termTitle, "ECO32 Terminal %d", i); sprintf(termSlave, "-Sab%d", slave); execlp("xterm", "xterm", "-title", termTitle, termSlave, NULL); error("cannot exec xterm process for serial line %d", i); } } else { /* leave serial line unconnected */ serials[i].pid = 0; cPrintf("Serial line %d can be accessed by opening device '%s'.\n", i, slavePath); } fcntl(master, F_SETFL, O_NONBLOCK); serials[i].in = fdopen(master, "r"); setvbuf(serials[i].in, NULL, _IONBF, 0); serials[i].out = fdopen(master, "w"); setvbuf(serials[i].out, NULL, _IONBF, 0); if (connectTerminals[i]) { /* skip the window id written by xterm */ while (fgetc(serials[i].in) != '\n') ; } } serialReset(); } void serialExit(void) { int i; /* kill and wait for all xterm processes */ for (i = 0; i < nSerials; i++) { if (serials[i].pid > 0) { kill(serials[i].pid, SIGKILL); waitpid(serials[i].pid, NULL, 0); } } }
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