/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright (c) 1995-1999 by Sun Microsystems, Inc. * All rights reserved. */ /* LINTLIBRARY */ /* * setupterm.c * * XCurses Library * * Copyright 1990, 1995 by Mortice Kern Systems Inc. All rights reserved. * */ #ifdef M_RCSID #ifndef lint static char const rcsID[] = "$Header: /team/ps/sun_xcurses/archive/local_changes/xcurses/src/lib/" "libxcurses/src/libc/xcurses/rcs/setup.c 1.16 1998/06/05 14:35:33 " "cbates Exp $"; #endif #endif #include #include #ifdef TIOCGWINSZ #include #endif #include #include #include #include #include TERMINAL *cur_term; /* * Any version number should be placed in this file, since setupterm() * must be called in order to initialize Curses or Terminfo. */ char __m_curses_version[] = M_CURSES_VERSION; /* * True if __m_setupterm() should use either the window settings from * ioctl(), or the environment variables LINES and COLUMNS to override * the terminfo database entries for 'lines' and 'columns'. * * Call use_env(flag) before either setupterm(), newterm(), or initscr(). */ static bool use_environment = TRUE; static const char e_terminal[] = "No memory for TERMINAL structure.\n"; static const char e_unknown[] = "\"%s\": Unknown terminal type.\n"; static const char e_pathmax[] = "\"%s\": terminfo database path too long.\n"; /* * These globals are used so that macro arguments are evaluated * exactly once */ /* The downside is that it is not really thread-safe. Oh well... */ WINDOW *__w1; chtype __cht1; chtype __cht2; cchar_t *__pcht1; cchar_t *__pcht2; /* * Take the real command character out of the CC environment variable * and substitute it in for the prototype given in 'command_character'. */ static void do_prototype(void) { int i, j; char proto; char *CC; CC = getenv("CC"); proto = *command_character; for (i = 0; i < __COUNT_STR; i++) for (j = 0; cur_term->_str[i][j]; ++j) if (cur_term->_str[i][j] == proto) cur_term->_str[i][j] = *CC; } #define min(a, b) ((a) < (b) ? (a) : (b)) /* * Return a number from a terminfo file. Numbers in a terminfo * file are stored as two bytes with low-high ordering. */ static short getnum(int fd) { unsigned char bytes[2]; if (read(fd, bytes, 2) != 2) return (SHRT_MIN); return ((short) (bytes[0] + bytes[1] * 256)); } /* * MKS Header format for terminfo database files. * * The header consists of six short integers, stored using VAX/PDP style * byte swapping (least-significant byte first). The integers are * * 1) magic number (octal 0432); * 2) the size, in bytes, of the names sections; * 3) the number of bytes in the boolean section; * 4) the number of short integers in the numbers section; * 5) the number of offsets (short integers) in the strings section; * 6) the size, in bytes, of the string table. * * Between the boolean and number sections, a null byte is inserted, if * necessary, to ensure that the number section begins on an even byte * offset. All short integers are aligned on a short word boundary. */ #define __TERMINFO_MAGIC 0432 typedef struct { short magic; short name_size; short bool_count; short num_count; short str_count; short str_size; } terminfo_header_t; /* * Read the compiled terminfo entry in the given file into the * structure pointed to by ptr, allocating space for the string * table and placing its address in ptr->str_table. */ int __m_read_terminfo(const char *filename, TERMINAL *tp) { int fd; short offset; size_t i, len; terminfo_header_t header; unsigned char ch; /* Get compiled terminfo file header. */ if ((fd = open(filename, 0)) < 0) { goto error_1; } if ((header.magic = getnum(fd)) != __TERMINFO_MAGIC || (header.name_size = getnum(fd)) < 0 || (header.bool_count = getnum(fd)) < 0 || (header.num_count = getnum(fd)) < 0 || (header.str_count = getnum(fd)) < 0 || (header.str_size = getnum(fd)) < 0) { goto error_2; } /* Allocate and fetch terminal names. */ len = min(127, header.name_size); if ((tp->_names = (char *) malloc(len + 1)) == NULL) goto error_2; if (read(fd, tp->_names, len) != len) goto error_3; tp->_names[len] = '\0'; if (127 < header.name_size) (void) lseek(fd, (off_t) (header.name_size - 127), SEEK_CUR); /* Fetch booleans. */ len = min(__COUNT_BOOL, header.bool_count); if (read(fd, tp->_bool, len) != len) goto error_3; if (__COUNT_BOOL < header.bool_count) { (void) lseek(fd, (off_t) (header.bool_count - __COUNT_BOOL), SEEK_CUR); } else { for (len = header.bool_count; len < __COUNT_BOOL; ++len) tp->_bool[len] = 0; } /* Eat padding byte. */ if ((header.name_size + header.bool_count) % 2 != 0) (void) read(fd, &ch, sizeof (ch)); /* Fetch numbers. */ len = min(__COUNT_NUM, header.num_count); for (i = 0; i < len; ++i) tp->_num[i] = getnum(fd); if (__COUNT_NUM < header.num_count) { (void) lseek(fd, (off_t) (2 * (header.num_count - __COUNT_NUM)), SEEK_CUR); } else { for (len = header.num_count; len < __COUNT_NUM; ++len) tp->_num[len] = -1; } /* Allocate and fetch strings. */ if ((tp->_str_table = (char *) malloc(header.str_size)) == NULL) goto error_3; /* Read in string offset section setting pointers to strings. */ len = min(__COUNT_STR, header.str_count); for (i = 0; i < len; ++i) { if ((offset = getnum(fd)) == SHRT_MIN) goto error_4; if (offset < 0) tp->_str[i] = NULL; else tp->_str[i] = tp->_str_table + offset; } if (__COUNT_STR < header.str_count) { (void) lseek(fd, (off_t) (2 * (header.str_count - __COUNT_STR)), SEEK_CUR); } else { for (; i < __COUNT_STR; ++i) tp->_str[i] = NULL; } if (read(fd, tp->_str_table, header.str_size) != header.str_size) goto error_4; (void) close(fd); return (0); error_4: free(tp->_str_table); error_3: free(tp->_names); error_2: (void) close(fd); error_1: return (-1); } void use_env(bool bf) { use_environment = bf; } /* * Set up terminal. * * Reads in the terminfo database pointed to by $TERMINFO env. var. * for the given terminal, but does not set up the output virtualization * structues used by CURSES. If the terminal name pointer is NULL, * the $TERM env. var. is used for the terminal. All output is to * the given file descriptor which is initialized for output. * * On error, if errret != NULL then setupterm() returns OK * or ERR and stores a status value in the integer pointed to by * errret. A status of 1 is normal, 0 means the terminal could * not be found, and -1 means the terminfo database could not be * found. If errret == NULL then setupterm() prints an error * message upon and exit(). * * On success, cur_term set to a terminfo structure and OK returned. */ int __m_setupterm(char *termname, int ifd, int ofd, int *err_return) { int err_code = 1; TERMINAL *old_term; const char *err_msg; /* * It is possible to call setupterm() for multiple terminals, * in which case we have to be able to restore cur_term in * case of error. */ old_term = cur_term; cur_term = (TERMINAL *) calloc(1, sizeof (*cur_term)); if (cur_term == NULL) { err_code = -1; goto error; } if (isatty(cur_term->_ifd = ifd)) cur_term->_flags |= __TERM_ISATTY_IN; if (isatty(cur_term->_ofd = ofd)) cur_term->_flags |= __TERM_ISATTY_OUT; cur_term->_shell = (void *) calloc(1, sizeof (struct termios)); cur_term->_prog = (void *) calloc(1, sizeof (struct termios)); cur_term->_save = (void *) calloc(1, sizeof (struct termios)); cur_term->_actual = (void *) calloc(1, sizeof (struct termios)); cur_term->_term = NULL; cur_term->_names = NULL; cur_term->_str_table = NULL; (void) def_shell_mode(); (void) def_prog_mode(); (void) __m_tty_get(PTERMIOS(_actual)); /* Synch cached value */ #ifdef ONLCR if ((PTERMIOS(_prog)->c_oflag & (OPOST | ONLCR)) == (OPOST | ONLCR)) #else if (PTERMIOS(_prog)->c_oflag & OPOST) #endif cur_term->_flags |= __TERM_NL_IS_CRLF; (void) restartterm(termname, ofd, &err_code); error: switch (err_code) { case -1: err_msg = e_terminal; break; case 0: err_msg = e_unknown; break; case 1: break; case 2: err_msg = e_pathmax; err_code = -1; break; } if (err_return != NULL) { *err_return = err_code; if (err_code == 1) { err_code = OK; } else { err_code = ERR; free(cur_term); cur_term = old_term; } } else if (err_code != 1) { (void) fprintf(stderr, err_msg, termname); exit(1); } return (err_code); } int setupterm(char *term, int out, int *err) { int code; code = __m_setupterm(term, STDIN_FILENO, out, err); return (code); } int del_curterm(TERMINAL *tp) { if (tp != NULL) { if (cur_term == tp) cur_term = NULL; if (tp->_str_table != NULL) free(tp->_str_table); if (tp->_names != NULL) free(tp->_names); if (tp->_term != NULL) free(tp->_term); if (tp->_pair != (short (*)[2]) 0) free(tp->_pair); if (tp->_color != (short (*)[3]) 0) free(tp->_color); if (tp->_shell) free(tp->_shell); if (tp->_prog) free(tp->_prog); if (tp->_save) free(tp->_save); if (tp->_actual) free(tp->_actual); free(tp); } return (OK); } TERMINAL * set_curterm(TERMINAL *tp) { TERMINAL *old; old = cur_term; cur_term = tp; return (old); } int restartterm(char *tm, int fd, int *err_return) { size_t len; int err_code; const char *err_msg, *terminfo; char *old_names, *old_strings, *old_term, *filename; static const char def_termname[] = M_TERM_NAME; static const char def_terminfo[] = M_TERMINFO_DIR; err_code = 1; filename = NULL; old_term = cur_term->_term; old_names = cur_term->_names; old_strings = cur_term->_str_table; terminfo = getenv("TERMINFO"); if (terminfo == NULL || terminfo[0] == '\0') { terminfo = def_terminfo; } else { terminfo = (const char *) strdup((char *) terminfo); if (terminfo == NULL) { /* Not really true... */ err_msg = e_terminal; err_code = 2; goto error; } } if ((tm == NULL) && (((tm = getenv("TERM")) == NULL) || (*tm == '\0'))) { tm = (char *)def_termname; } /* Remember the terminal name being loaded. */ cur_term->_term = strdup(tm); if (cur_term->_term == NULL) { err_msg = e_terminal; err_code = 2; goto error; } /* Length of path we're going to construct. */ len = strlen(terminfo) + 3 + strlen(tm); if ((len > PATH_MAX) || ((filename = (char *)malloc(PATH_MAX + 1)) == NULL)) { err_msg = e_pathmax; err_code = 2; goto error; } /* Construct terminfo filename. */ (void) sprintf(filename, "%s/%c/%s", terminfo, tm[0], tm); /* Go looking for compiled terminal definition. */ if (__m_read_terminfo(filename, cur_term) < 0) { /* Length of default terminfo path. */ len = strlen(def_terminfo) + 3 + strlen(tm); if (len > PATH_MAX) { err_msg = e_pathmax; err_code = 2; goto error; } (void) sprintf(filename, "%s/%c/%s", def_terminfo, tm[0], tm); if (__m_read_terminfo(filename, cur_term) < 0) { err_msg = e_unknown; err_code = 0; goto error; } } if (use_environment) { char *env; #ifdef TIOCGWINSZ /* * Use ioctl(TIOCGWINSZ) to get row and column values. These * values may override the default terminfo settings. */ { struct winsize wininfo; if (ioctl(fd, TIOCGWINSZ, &wininfo) != -1) { if (0 < wininfo.ws_col) columns = wininfo.ws_col; if (0 < wininfo.ws_row) lines = wininfo.ws_row; } } #endif /* TIOCGWINSZ */ /* Check to see is the user wants a particular size terminal. */ if ((env = getenv("LINES")) != NULL) { int nlines = (int) strtol(env, (char **) 0, 10); if (0 < nlines) lines = nlines; } if ((env = getenv("COLUMNS")) != NULL) { int ncolumns = (int) strtol(env, (char **) 0, 10); if (0 < ncolumns) columns = ncolumns; } } if (command_character != NULL && getenv("CC") != NULL) do_prototype(); /* * If no_color_video is disabled, then assign it a value that * permits all attributes in combination with colour. */ if (no_color_video == -1) no_color_video = 0; __m_mvcur_cost(); error: if (filename != NULL) free(filename); if (terminfo != def_terminfo) free((void *) terminfo); if (err_return != NULL) { *err_return = err_code; if (err_code == 1) { err_code = OK; } else { err_code = ERR; cur_term->_term = old_term; cur_term->_names = old_names; cur_term->_str_table = old_strings; } } else if (err_code != 1) { (void) fprintf(stderr, err_msg, tm); exit(1); } if (err_code == OK) { if (old_names != NULL) free(old_names); if (old_strings != NULL) free(old_strings); if (old_term != NULL) free(old_term); } return (err_code); } /* * Get the termios setting for the terminal. Check the input * file descriptor first, else the output file descriptor. If * both input and output are both terminals, it is assumed that * they refer to the same terminal. */ int __m_tty_get(struct termios *tp) { if (tcgetattr(cur_term->_ifd, tp) != 0) { /* * Input was not a terminal, possibly redirected. * Check output instead. */ if (tcgetattr(cur_term->_ofd, tp) != 0) return (ERR); } return (OK); } int __m_tty_set_prog_mode(void) { return (__m_tty_set(PTERMIOS(_prog))); } /* * Restore the termios settings. */ int __m_tty_set(struct termios *tp) { int fd; int rval; if (cur_term->_flags & __TERM_ISATTY_OUT) { fd = cur_term->_ofd; } else if (cur_term->_flags & __TERM_ISATTY_IN) { fd = cur_term->_ifd; } else { return (OK); } if (memcmp(tp, &cur_term->_actual, sizeof (struct termios)) == 0) return (OK); *PTERMIOS(_actual) = *tp; rval = tcsetattr(fd, TCSADRAIN, tp) == 0 ? OK : ERR; return (rval); } int def_shell_mode(void) { return (__m_tty_get(PTERMIOS(_shell))); } int def_prog_mode(void) { return (__m_tty_get(PTERMIOS(_prog))); } int reset_shell_mode(void) { return (__m_tty_set(PTERMIOS(_shell))); } int reset_prog_mode(void) { return (__m_tty_set_prog_mode()); }