/* * Copyright (C) 1984-2023 Mark Nudelman * * You may distribute under the terms of either the GNU General Public * License or the Less License, as specified in the README file. * * For more information, see the README file. */ /* * Operating system dependent routines. * * Most of the stuff in here is based on Unix, but an attempt * has been made to make things work on other operating systems. * This will sometimes result in a loss of functionality, unless * someone rewrites code specifically for the new operating system. * * The makefile provides defines to decide whether various * Unix features are present. */ #include "less.h" #include #include #if MSDOS_COMPILER==WIN32C #include #endif #if HAVE_TIME_H #include #endif #if HAVE_ERRNO_H #include #endif #if HAVE_VALUES_H #include #endif #if defined(__APPLE__) #include #endif #if HAVE_POLL && !MSDOS_COMPILER #define USE_POLL 1 static int use_poll = TRUE; #else #define USE_POLL 0 #endif #if USE_POLL #include static int any_data = FALSE; #endif /* * BSD setjmp() saves (and longjmp() restores) the signal mask. * This costs a system call or two per setjmp(), so if possible we clear the * signal mask with sigsetmask(), and use _setjmp()/_longjmp() instead. * On other systems, setjmp() doesn't affect the signal mask and so * _setjmp() does not exist; we just use setjmp(). */ #if HAVE__SETJMP && HAVE_SIGSETMASK #define SET_JUMP _setjmp #define LONG_JUMP _longjmp #else #define SET_JUMP setjmp #define LONG_JUMP longjmp #endif public int reading; public int waiting_for_data; public int consecutive_nulls = 0; /* Milliseconds to wait for data before displaying "waiting for data" message. */ static int waiting_for_data_delay = 4000; static jmp_buf read_label; extern int sigs; extern int ignore_eoi; extern int exit_F_on_close; extern int follow_mode; extern int scanning_eof; extern char intr_char; #if !MSDOS_COMPILER extern int tty; #endif #if LESSTEST extern char *ttyin_name; #endif /*LESSTEST*/ public void init_poll(void) { char *delay = lgetenv("LESS_DATA_DELAY"); int idelay = (delay == NULL) ? 0 : atoi(delay); if (idelay > 0) waiting_for_data_delay = idelay; #if USE_POLL #if defined(__APPLE__) /* In old versions of MacOS, poll() does not work with /dev/tty. */ struct utsname uts; if (uname(&uts) < 0 || lstrtoi(uts.release, NULL, 10) < 20) use_poll = FALSE; #endif #endif } #if USE_POLL /* * Check whether data is available, either from a file/pipe or from the tty. * Return READ_AGAIN if no data currently available, but caller should retry later. * Return READ_INTR to abort F command (forw_loop). * Return 0 if safe to read from fd. */ static int check_poll(int fd, int tty) { struct pollfd poller[2] = { { fd, POLLIN, 0 }, { tty, POLLIN, 0 } }; int timeout = (waiting_for_data && !(scanning_eof && follow_mode == FOLLOW_NAME)) ? -1 : waiting_for_data_delay; if (!any_data) { /* * Don't do polling if no data has yet been received, * to allow a program piping data into less to have temporary * access to the tty (like sudo asking for a password). */ return (0); } poll(poller, 2, timeout); #if LESSTEST if (ttyin_name == NULL) /* Check for ^X only on a real tty. */ #endif /*LESSTEST*/ { if (poller[1].revents & POLLIN) { LWCHAR ch = getchr(); if (ch == intr_char) /* Break out of "waiting for data". */ return (READ_INTR); ungetcc_back(ch); } } if (ignore_eoi && exit_F_on_close && (poller[0].revents & (POLLHUP|POLLIN)) == POLLHUP) /* Break out of F loop on HUP due to --exit-follow-on-close. */ return (READ_INTR); if ((poller[0].revents & (POLLIN|POLLHUP|POLLERR)) == 0) /* No data available; let caller take action, then try again. */ return (READ_AGAIN); /* There is data (or HUP/ERR) available. Safe to call read() without blocking. */ return (0); } #endif /* USE_POLL */ public int supports_ctrl_x(void) { #if USE_POLL return (use_poll); #else return (FALSE); #endif /* USE_POLL */ } /* * Like read() system call, but is deliberately interruptible. * A call to intread() from a signal handler will interrupt * any pending iread(). */ public int iread(int fd, unsigned char *buf, unsigned int len) { int n; start: #if MSDOS_COMPILER==WIN32C if (ABORT_SIGS()) return (READ_INTR); #else #if MSDOS_COMPILER && MSDOS_COMPILER != DJGPPC if (kbhit()) { int c; c = getch(); if (c == '\003') return (READ_INTR); ungetch(c); } #endif #endif if (!reading && SET_JUMP(read_label)) { /* * We jumped here from intread. */ reading = 0; #if HAVE_SIGPROCMASK { sigset_t mask; sigemptyset(&mask); sigprocmask(SIG_SETMASK, &mask, NULL); } #else #if HAVE_SIGSETMASK sigsetmask(0); #else #ifdef _OSK sigmask(~0); #endif #endif #endif #if !MSDOS_COMPILER if (fd != tty && !ABORT_SIGS()) /* Non-interrupt signal like SIGWINCH. */ return (READ_AGAIN); #endif return (READ_INTR); } flush(); reading = 1; #if MSDOS_COMPILER==DJGPPC if (isatty(fd)) { /* * Don't try reading from a TTY until a character is * available, because that makes some background programs * believe DOS is busy in a way that prevents those * programs from working while "less" waits. * {{ This code was added 12 Jan 2007; still needed? }} */ fd_set readfds; FD_ZERO(&readfds); FD_SET(fd, &readfds); if (select(fd+1, &readfds, 0, 0, 0) == -1) { reading = 0; return (READ_ERR); } } #endif #if USE_POLL if (fd != tty && use_poll) { int ret = check_poll(fd, tty); if (ret != 0) { if (ret == READ_INTR) sigs |= S_INTERRUPT; reading = 0; return (ret); } } #else #if MSDOS_COMPILER==WIN32C if (win32_kbhit()) { int c; c = WIN32getch(); if (c == intr_char) { sigs |= S_INTERRUPT; reading = 0; return (READ_INTR); } WIN32ungetch(c); } #endif #endif n = read(fd, buf, len); reading = 0; #if 1 /* * This is a kludge to workaround a problem on some systems * where terminating a remote tty connection causes read() to * start returning 0 forever, instead of -1. */ { if (!ignore_eoi) { if (n == 0) consecutive_nulls++; else consecutive_nulls = 0; if (consecutive_nulls > 20) quit(QUIT_ERROR); } } #endif if (n < 0) { #if HAVE_ERRNO /* * Certain values of errno indicate we should just retry the read. */ #if MUST_DEFINE_ERRNO extern int errno; #endif #ifdef EINTR if (errno == EINTR) goto start; #endif #ifdef EAGAIN if (errno == EAGAIN) goto start; #endif #endif return (READ_ERR); } #if USE_POLL if (fd != tty && n > 0) any_data = TRUE; #endif return (n); } /* * Interrupt a pending iread(). */ public void intread(void) { LONG_JUMP(read_label, 1); } /* * Return the current time. */ #if HAVE_TIME public time_type get_time(void) { time_type t; time(&t); return (t); } #endif #if !HAVE_STRERROR /* * Local version of strerror, if not available from the system. */ static char * strerror(int err) { static char buf[INT_STRLEN_BOUND(int)+12]; #if HAVE_SYS_ERRLIST extern char *sys_errlist[]; extern int sys_nerr; if (err < sys_nerr) return sys_errlist[err]; #endif sprintf(buf, "Error %d", err); return buf; } #endif /* * errno_message: Return an error message based on the value of "errno". */ public char * errno_message(char *filename) { char *p; char *m; int len; #if HAVE_ERRNO #if MUST_DEFINE_ERRNO extern int errno; #endif p = strerror(errno); #else p = "cannot open"; #endif len = (int) (strlen(filename) + strlen(p) + 3); m = (char *) ecalloc(len, sizeof(char)); SNPRINTF2(m, len, "%s: %s", filename, p); return (m); } /* * Return a description of a signal. * The return value is good until the next call to this function. */ public char * signal_message(int sig) { static char sigbuf[sizeof("Signal ") + INT_STRLEN_BOUND(sig) + 1]; #if HAVE_STRSIGNAL char *description = strsignal(sig); if (description) return description; #endif sprintf(sigbuf, "Signal %d", sig); return sigbuf; } /* * Return (VAL * NUM) / DEN, where DEN is positive * and min(VAL, NUM) <= DEN so the result cannot overflow. * Round to the nearest integer, breaking ties by rounding to even. */ public uintmax muldiv(uintmax val, uintmax num, uintmax den) { /* * Like round(val * (double) num / den), but without rounding error. * Overflow cannot occur, so there is no need for floating point. */ uintmax q = val / den; uintmax r = val % den; uintmax qnum = q * num; uintmax rnum = r * num; uintmax quot = qnum + rnum / den; uintmax rem = rnum % den; return quot + (den / 2 < rem + (quot & ~den & 1)); } /* * Return the ratio of two POSITIONS, as a percentage. * {{ Assumes a POSITION is a long int. }} */ public int percentage(POSITION num, POSITION den) { return (int) muldiv(num, (POSITION) 100, den); } /* * Return the specified percentage of a POSITION. * Assume (0 <= POS && 0 <= PERCENT <= 100 * && 0 <= FRACTION < (PERCENT == 100 ? 1 : NUM_FRAC_DENOM)), * so the result cannot overflow. Round to even. */ public POSITION percent_pos(POSITION pos, int percent, long fraction) { /* * Change from percent (parts per 100) * to pctden (parts per 100 * NUM_FRAC_DENOM). */ POSITION pctden = (percent * NUM_FRAC_DENOM) + fraction; return (POSITION) muldiv(pos, pctden, 100 * (POSITION) NUM_FRAC_DENOM); } #if !HAVE_STRCHR /* * strchr is used by regexp.c. */ char * strchr(char *s, char c) { for ( ; *s != '\0'; s++) if (*s == c) return (s); if (c == '\0') return (s); return (NULL); } #endif #if !HAVE_MEMCPY void * memcpy(void *dst, void *src, int len) { char *dstp = (char *) dst; char *srcp = (char *) src; int i; for (i = 0; i < len; i++) dstp[i] = srcp[i]; return (dst); } #endif #ifdef _OSK_MWC32 /* * This implements an ANSI-style intercept setup for Microware C 3.2 */ public int os9_signal(int type, RETSIGTYPE (*handler)()) { intercept(handler); } #include int isatty(int f) { struct sgbuf sgbuf; if (_gs_opt(f, &sgbuf) < 0) return -1; return (sgbuf.sg_class == 0); } #endif public void sleep_ms(int ms) { #if MSDOS_COMPILER==WIN32C Sleep(ms); #else #if HAVE_NANOSLEEP int sec = ms / 1000; struct timespec t = { sec, (ms - sec*1000) * 1000000 }; nanosleep(&t, NULL); #else #if HAVE_USLEEP usleep(ms); #else sleep(ms / 1000 + (ms % 1000 != 0)); #endif #endif #endif }