/* $OpenBSD: lib_setup.c,v 1.14 2023/10/17 09:52:09 nicm Exp $ */ /**************************************************************************** * Copyright 2018-2022,2023 Thomas E. Dickey * * Copyright 1998-2016,2017 Free Software Foundation, Inc. * * * * Permission is hereby granted, free of charge, to any person obtaining a * * copy of this software and associated documentation files (the * * "Software"), to deal in the Software without restriction, including * * without limitation the rights to use, copy, modify, merge, publish, * * distribute, distribute with modifications, sublicense, and/or sell * * copies of the Software, and to permit persons to whom the Software is * * furnished to do so, subject to the following conditions: * * * * The above copyright notice and this permission notice shall be included * * in all copies or substantial portions of the Software. * * * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. * * IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, * * DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR * * OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR * * THE USE OR OTHER DEALINGS IN THE SOFTWARE. * * * * Except as contained in this notice, the name(s) of the above copyright * * holders shall not be used in advertising or otherwise to promote the * * sale, use or other dealings in this Software without prior written * * authorization. * ****************************************************************************/ /**************************************************************************** * Author: Zeyd M. Ben-Halim 1992,1995 * * and: Eric S. Raymond * * and: Thomas E. Dickey 1996-on * * and: Juergen Pfeifer 2009 * ****************************************************************************/ /* * Terminal setup routines common to termcap and terminfo: * * use_env(bool) * use_tioctl(bool) * setupterm(char *, int, int *) */ #include #include /* for MAX_NAME_SIZE */ #if HAVE_LOCALE_H #include #endif MODULE_ID("$Id: lib_setup.c,v 1.14 2023/10/17 09:52:09 nicm Exp $") /**************************************************************************** * * Terminal size computation * ****************************************************************************/ #if HAVE_SIZECHANGE # if !defined(sun) || !TERMIOS # if HAVE_SYS_IOCTL_H # include # endif # endif #endif #if NEED_PTEM_H /* On SCO, they neglected to define struct winsize in termios.h -- it is only * in termio.h and ptem.h (the former conflicts with other definitions). */ # include # include #endif #if HAVE_LANGINFO_CODESET #include #endif /* * SCO defines TIOCGSIZE and the corresponding struct. Other systems (SunOS, * Solaris, IRIX) define TIOCGWINSZ and struct winsize. */ #ifdef TIOCGSIZE # define IOCTL_WINSIZE TIOCGSIZE # define STRUCT_WINSIZE struct ttysize # define WINSIZE_ROWS(n) (int)n.ts_lines # define WINSIZE_COLS(n) (int)n.ts_cols #else # ifdef TIOCGWINSZ # define IOCTL_WINSIZE TIOCGWINSZ # define STRUCT_WINSIZE struct winsize # define WINSIZE_ROWS(n) (int)n.ws_row # define WINSIZE_COLS(n) (int)n.ws_col # endif #endif /* * Reduce explicit use of "cur_term" global variable. */ #undef CUR #define CUR TerminalType(termp). /* * Wrap global variables in this module. */ #if USE_REENTRANT NCURSES_EXPORT(char *) NCURSES_PUBLIC_VAR(ttytype) (void) { static char empty[] = ""; char *result = empty; #if NCURSES_SP_FUNCS if (CURRENT_SCREEN) { TERMINAL *termp = TerminalOf(CURRENT_SCREEN); if (termp != 0) { result = TerminalType(termp).term_names; } } #else if (cur_term != 0) { result = TerminalType(cur_term).term_names; } #endif return result; } NCURSES_EXPORT(int *) _nc_ptr_Lines(SCREEN *sp) { return ptrLines(sp); } NCURSES_EXPORT(int) NCURSES_PUBLIC_VAR(LINES) (void) { return *_nc_ptr_Lines(CURRENT_SCREEN); } NCURSES_EXPORT(int *) _nc_ptr_Cols(SCREEN *sp) { return ptrCols(sp); } NCURSES_EXPORT(int) NCURSES_PUBLIC_VAR(COLS) (void) { return *_nc_ptr_Cols(CURRENT_SCREEN); } NCURSES_EXPORT(int *) _nc_ptr_Tabsize(SCREEN *sp) { return ptrTabsize(sp); } NCURSES_EXPORT(int) NCURSES_PUBLIC_VAR(TABSIZE) (void) { return *_nc_ptr_Tabsize(CURRENT_SCREEN); } #else NCURSES_EXPORT_VAR(char) ttytype[NAMESIZE] = ""; NCURSES_EXPORT_VAR(int) LINES = 0; NCURSES_EXPORT_VAR(int) COLS = 0; NCURSES_EXPORT_VAR(int) TABSIZE = 8; #endif #if NCURSES_EXT_FUNCS NCURSES_EXPORT(int) NCURSES_SP_NAME(set_tabsize) (NCURSES_SP_DCLx int value) { int code = OK; if (value <= 0) { code = ERR; } else { #if USE_REENTRANT if (SP_PARM) { SP_PARM->_TABSIZE = value; } else { code = ERR; } #else (void) SP_PARM; TABSIZE = value; #endif } return code; } #if NCURSES_SP_FUNCS NCURSES_EXPORT(int) set_tabsize(int value) { return NCURSES_SP_NAME(set_tabsize) (CURRENT_SCREEN, value); } #endif #endif /* NCURSES_EXT_FUNCS */ #if USE_SIGWINCH /* * If we have a pending SIGWINCH, set the flag in each screen. */ NCURSES_EXPORT(int) _nc_handle_sigwinch(SCREEN *sp) { SCREEN *scan; if (_nc_globals.have_sigwinch) { _nc_globals.have_sigwinch = 0; for (each_screen(scan)) { scan->_sig_winch = TRUE; } } return (sp ? sp->_sig_winch : 0); } #endif NCURSES_EXPORT(void) NCURSES_SP_NAME(use_env) (NCURSES_SP_DCLx bool f) { START_TRACE(); T((T_CALLED("use_env(%p,%d)"), (void *) SP_PARM, (int) f)); #if NCURSES_SP_FUNCS if (IsPreScreen(SP_PARM)) { SP_PARM->_use_env = f; } #else _nc_prescreen.use_env = f; #endif returnVoid; } NCURSES_EXPORT(void) NCURSES_SP_NAME(use_tioctl) (NCURSES_SP_DCLx bool f) { START_TRACE(); T((T_CALLED("use_tioctl(%p,%d)"), (void *) SP_PARM, (int) f)); #if NCURSES_SP_FUNCS if (IsPreScreen(SP_PARM)) { SP_PARM->use_tioctl = f; } #else _nc_prescreen.use_tioctl = f; #endif returnVoid; } #if NCURSES_SP_FUNCS NCURSES_EXPORT(void) use_env(bool f) { START_TRACE(); T((T_CALLED("use_env(%d)"), (int) f)); _nc_prescreen.use_env = f; returnVoid; } NCURSES_EXPORT(void) use_tioctl(bool f) { START_TRACE(); T((T_CALLED("use_tioctl(%d)"), (int) f)); _nc_prescreen.use_tioctl = f; returnVoid; } #endif NCURSES_EXPORT(void) _nc_get_screensize(SCREEN *sp, #ifdef USE_TERM_DRIVER TERMINAL *termp, #endif int *linep, int *colp) /* Obtain lines/columns values from the environment and/or terminfo entry */ { #ifdef USE_TERM_DRIVER TERMINAL_CONTROL_BLOCK *TCB; int my_tabsize; assert(termp != 0 && linep != 0 && colp != 0); TCB = (TERMINAL_CONTROL_BLOCK *) termp; my_tabsize = TCB->info.tabsize; TCB->drv->td_size(TCB, linep, colp); #if USE_REENTRANT if (sp != 0) { sp->_TABSIZE = my_tabsize; } #else (void) sp; TABSIZE = my_tabsize; #endif T(("TABSIZE = %d", my_tabsize)); #else /* !USE_TERM_DRIVER */ TERMINAL *termp = cur_term; int my_tabsize; bool useEnv = _nc_prescreen.use_env; bool useTioctl = _nc_prescreen.use_tioctl; #ifdef EXP_WIN32_DRIVER /* If we are here, then Windows console is used in terminfo mode. We need to figure out the size using the console API */ _nc_console_size(linep, colp); T(("screen size: winconsole lines = %d columns = %d", *linep, *colp)); #else /* figure out the size of the screen */ T(("screen size: terminfo lines = %d columns = %d", lines, columns)); *linep = (int) lines; *colp = (int) columns; #endif #if NCURSES_SP_FUNCS if (sp) { useEnv = sp->_use_env; useTioctl = sp->use_tioctl; } #endif if (useEnv || useTioctl) { #ifdef __EMX__ { int screendata[2]; _scrsize(screendata); *colp = screendata[0]; *linep = ((sp != 0 && sp->_filtered) ? 1 : screendata[1]); T(("EMX screen size: environment LINES = %d COLUMNS = %d", *linep, *colp)); } #endif #if HAVE_SIZECHANGE /* try asking the OS */ if (NC_ISATTY(cur_term->Filedes)) { STRUCT_WINSIZE size; errno = 0; do { if (ioctl(cur_term->Filedes, IOCTL_WINSIZE, &size) >= 0) { *linep = ((sp != 0 && sp->_filtered) ? 1 : WINSIZE_ROWS(size)); *colp = WINSIZE_COLS(size); T(("SYS screen size: environment LINES = %d COLUMNS = %d", *linep, *colp)); break; } } while (errno == EINTR); } #endif /* HAVE_SIZECHANGE */ if (useEnv) { int value; if (useTioctl) { /* * If environment variables are used, update them. */ if ((sp == 0 || !sp->_filtered) && _nc_getenv_num("LINES") > 0) { _nc_setenv_num("LINES", *linep); } if (_nc_getenv_num("COLUMNS") > 0) { _nc_setenv_num("COLUMNS", *colp); } } /* * Finally, look for environment variables. * * Solaris lets users override either dimension with an environment * variable. */ if ((value = _nc_getenv_num("LINES")) > 0) { *linep = value; T(("screen size: environment LINES = %d", *linep)); } if ((value = _nc_getenv_num("COLUMNS")) > 0) { *colp = value; T(("screen size: environment COLUMNS = %d", *colp)); } } /* if we can't get dynamic info about the size, use static */ if (*linep <= 0) { *linep = (int) lines; } if (*colp <= 0) { *colp = (int) columns; } /* the ultimate fallback, assume fixed 24x80 size */ if (*linep <= 0) { *linep = 24; } if (*colp <= 0) { *colp = 80; } /* * Put the derived values back in the screen-size caps, so * tigetnum() and tgetnum() will do the right thing. */ lines = (NCURSES_INT2) (*linep); columns = (NCURSES_INT2) (*colp); #if NCURSES_EXT_NUMBERS #define OldNumber(termp,name) \ (termp)->type.Numbers[(&name - (termp)->type2.Numbers)] OldNumber(termp, lines) = (short) (*linep); OldNumber(termp, columns) = (short) (*colp); #endif } T(("screen size is %dx%d", *linep, *colp)); if (VALID_NUMERIC(init_tabs)) my_tabsize = (int) init_tabs; else my_tabsize = 8; #if USE_REENTRANT if (sp != 0) sp->_TABSIZE = my_tabsize; #else TABSIZE = my_tabsize; #endif T(("TABSIZE = %d", TABSIZE)); #endif /* USE_TERM_DRIVER */ } #if USE_SIZECHANGE NCURSES_EXPORT(void) _nc_update_screensize(SCREEN *sp) { int new_lines; int new_cols; #ifdef USE_TERM_DRIVER int old_lines; int old_cols; assert(sp != 0); CallDriver_2(sp, td_getsize, &old_lines, &old_cols); #else TERMINAL *termp = cur_term; int old_lines = lines; int old_cols = columns; #endif if (sp != 0) { TINFO_GET_SIZE(sp, sp->_term, &new_lines, &new_cols); /* * See is_term_resized() and resizeterm(). * We're doing it this way because those functions belong to the upper * ncurses library, while this resides in the lower terminfo library. */ if (sp->_resize != 0) { if ((new_lines != old_lines) || (new_cols != old_cols)) { sp->_resize(NCURSES_SP_ARGx new_lines, new_cols); } else if (sp->_sig_winch && (sp->_ungetch != 0)) { sp->_ungetch(SP_PARM, KEY_RESIZE); /* so application can know this */ } sp->_sig_winch = FALSE; } } } #endif /* USE_SIZECHANGE */ /**************************************************************************** * * Terminal setup * ****************************************************************************/ #if NCURSES_USE_DATABASE || NCURSES_USE_TERMCAP /* * Return 1 if entry found, 0 if not found, -1 if database not accessible, * just like tgetent(). */ int _nc_setup_tinfo(const char *const tn, TERMTYPE2 *const tp) { char filename[PATH_MAX]; int status = _nc_read_entry2(tn, filename, tp); /* * If we have an entry, force all of the cancelled strings to null * pointers so we don't have to test them in the rest of the library. * (The terminfo compiler bypasses this logic, since it must know if * a string is cancelled, for merging entries). */ if (status == TGETENT_YES) { unsigned n; for_each_boolean(n, tp) { if (!VALID_BOOLEAN(tp->Booleans[n])) tp->Booleans[n] = FALSE; } for_each_string(n, tp) { if (tp->Strings[n] == CANCELLED_STRING) tp->Strings[n] = ABSENT_STRING; } } return (status); } #endif /* ** Take the real command character out of the CC environment variable ** and substitute it in for the prototype given in 'command_character'. */ void _nc_tinfo_cmdch(TERMINAL *termp, int proto) { char *tmp; /* * Only use the character if the string is a single character, * since it is fairly common for developers to set the C compiler * name as an environment variable - using the same symbol. */ if ((tmp = getenv("CC")) != 0 && strlen(tmp) == 1) { unsigned i; char CC = *tmp; for_each_string(i, &(termp->type)) { for (tmp = termp->type.Strings[i]; tmp && *tmp; tmp++) { if (UChar(*tmp) == proto) *tmp = CC; } } } } /* * Find the locale which is in effect. */ NCURSES_EXPORT(char *) _nc_get_locale(void) { char *env; #if HAVE_LOCALE_H /* * This is preferable to using getenv() since it ensures that we are using * the locale which was actually initialized by the application. */ env = setlocale(LC_CTYPE, 0); #else if (((env = getenv("LANG")) != 0 && *env != '\0') || ((env = getenv("LC_CTYPE")) != 0 && *env != '\0') || ((env = getenv("LC_ALL")) != 0 && *env != '\0')) { ; } #endif T(("_nc_get_locale %s", _nc_visbuf(env))); return env; } /* * Check if we are running in a UTF-8 locale. */ NCURSES_EXPORT(int) _nc_unicode_locale(void) { int result = 0; #if defined(_NC_WINDOWS) && USE_WIDEC_SUPPORT result = 1; #elif HAVE_LANGINFO_CODESET char *env = nl_langinfo(CODESET); result = !strcmp(env, "UTF-8"); T(("_nc_unicode_locale(%s) ->%d", env, result)); #else char *env = _nc_get_locale(); if (env != 0) { if (strstr(env, ".UTF-8") != 0) { result = 1; T(("_nc_unicode_locale(%s) ->%d", env, result)); } } #endif return result; } #define CONTROL_N(s) ((s) != 0 && strstr(s, "\016") != 0) #define CONTROL_O(s) ((s) != 0 && strstr(s, "\017") != 0) /* * Check for known broken cases where a UTF-8 locale breaks the alternate * character set. */ NCURSES_EXPORT(int) _nc_locale_breaks_acs(TERMINAL *termp) { const char *env_name = "NCURSES_NO_UTF8_ACS"; const char *env; int value; int result = 0; T((T_CALLED("_nc_locale_breaks_acs:%d"), result)); if (getenv(env_name) != 0) { result = _nc_getenv_num(env_name); } else if ((value = tigetnum("U8")) >= 0) { result = value; /* use extension feature */ } else if ((env = getenv("TERM")) != 0) { if (strstr(env, "linux")) { result = 1; /* always broken */ } else if (strstr(env, "screen") != 0 && ((env = getenv("TERMCAP")) != 0 && strstr(env, "screen") != 0) && strstr(env, "hhII00") != 0) { if (CONTROL_N(enter_alt_charset_mode) || CONTROL_O(enter_alt_charset_mode) || CONTROL_N(set_attributes) || CONTROL_O(set_attributes)) { result = 1; } } } returnCode(result); } NCURSES_EXPORT(int) TINFO_SETUP_TERM(TERMINAL **tp, const char *tname, int Filedes, int *errret, int reuse) { #ifdef USE_TERM_DRIVER TERMINAL_CONTROL_BLOCK *TCB = 0; #endif TERMINAL *termp; SCREEN *sp = 0; char *myname; int code = ERR; START_TRACE(); #ifdef USE_TERM_DRIVER T((T_CALLED("_nc_setupterm_ex(%p,%s,%d,%p)"), (void *) tp, _nc_visbuf(tname), Filedes, (void *) errret)); if (tp == 0) { ret_error0(TGETENT_ERR, "Invalid parameter, internal error.\n"); } else termp = *tp; #else termp = cur_term; T((T_CALLED("setupterm(%s,%d,%p)"), _nc_visbuf(tname), Filedes, (void *) errret)); #endif if (tname == 0) { tname = getenv("TERM"); #if defined(EXP_WIN32_DRIVER) if (!VALID_TERM_ENV(tname, NO_TERMINAL)) { T(("Failure with TERM=%s", NonNull(tname))); ret_error0(TGETENT_ERR, "TERM environment variable not set.\n"); } #elif defined(USE_TERM_DRIVER) if (!NonEmpty(tname)) tname = "unknown"; #else if (!NonEmpty(tname)) { T(("Failure with TERM=%s", NonNull(tname))); ret_error0(TGETENT_ERR, "TERM environment variable not set.\n"); } #endif } myname = strdup(tname); if (myname == NULL || strlen(myname) > MAX_NAME_SIZE) { ret_error(TGETENT_ERR, "TERM environment must be 1..%d characters.\n", MAX_NAME_SIZE, free(myname)); } T(("your terminal name is %s", myname)); /* * Allow output redirection. This is what SVr3 does. If stdout is * directed to a file, screen updates go to standard error. */ if (Filedes == STDOUT_FILENO && !NC_ISATTY(Filedes)) Filedes = STDERR_FILENO; #if defined(EXP_WIN32_DRIVER) if (Filedes != STDERR_FILENO && NC_ISATTY(Filedes)) _setmode(Filedes, _O_BINARY); #endif /* * Check if we have already initialized to use this terminal. If so, we * do not need to re-read the terminfo entry, or obtain TTY settings. * * This is an improvement on SVr4 curses. If an application mixes curses * and termcap calls, it may call both initscr and tgetent. This is not * really a good thing to do, but can happen if someone tries using ncurses * with the readline library. The problem we are fixing is that when * tgetent calls setupterm, the resulting Ottyb struct in cur_term is * zeroed. A subsequent call to endwin uses the zeroed terminal settings * rather than the ones saved in initscr. So we check if cur_term appears * to contain terminal settings for the same output file as our current * call - and copy those terminal settings. (SVr4 curses does not do this, * however applications that are working around the problem will still work * properly with this feature). */ if (reuse && (termp != 0) && termp->Filedes == Filedes && termp->_termname != 0 && !strcmp(termp->_termname, myname) && _nc_name_match(TerminalType(termp).term_names, myname, "|")) { T(("reusing existing terminal information and mode-settings")); code = OK; #ifdef USE_TERM_DRIVER TCB = (TERMINAL_CONTROL_BLOCK *) termp; #endif } else { #ifdef USE_TERM_DRIVER TERMINAL_CONTROL_BLOCK *my_tcb; termp = 0; if ((my_tcb = typeCalloc(TERMINAL_CONTROL_BLOCK, 1)) != 0) termp = &(my_tcb->term); #else int status; termp = typeCalloc(TERMINAL, 1); #endif if (termp == 0) { ret_error1(TGETENT_ERR, "Not enough memory to create terminal structure.\n", myname, free(myname)); } ++_nc_globals.terminal_count; #if HAVE_SYSCONF { long limit; #ifdef LINE_MAX limit = LINE_MAX; #else limit = _nc_globals.getstr_limit; #endif #ifdef _SC_LINE_MAX if (limit < sysconf(_SC_LINE_MAX)) limit = sysconf(_SC_LINE_MAX); #endif if (_nc_globals.getstr_limit < (int) limit) _nc_globals.getstr_limit = (int) limit; } #endif /* HAVE_SYSCONF */ T(("using %d for getstr limit", _nc_globals.getstr_limit)); #ifdef USE_TERM_DRIVER INIT_TERM_DRIVER(); /* * _nc_get_driver() will call td_CanHandle() for each driver, and win_driver * needs file descriptor to do the test, so set it before calling. */ termp->Filedes = (short) Filedes; TCB = (TERMINAL_CONTROL_BLOCK *) termp; code = _nc_globals.term_driver(TCB, myname, errret); if (code == OK) { termp->_termname = strdup(myname); } else { ret_error1(errret ? *errret : TGETENT_ERR, "Could not find any driver to handle terminal.\n", myname, free(myname)); } #else #if NCURSES_USE_DATABASE || NCURSES_USE_TERMCAP status = _nc_setup_tinfo(myname, &TerminalType(termp)); T(("_nc_setup_tinfo returns %d", status)); #else T(("no database available")); status = TGETENT_NO; #endif /* try fallback list if entry on disk */ if (status != TGETENT_YES) { const TERMTYPE2 *fallback = _nc_fallback2(myname); if (fallback) { T(("found fallback entry")); _nc_copy_termtype2(&(TerminalType(termp)), fallback); status = TGETENT_YES; } } if (status != TGETENT_YES) { del_curterm(termp); if (status == TGETENT_ERR) { free(myname); ret_error0(status, "terminals database is inaccessible\n"); } else if (status == TGETENT_NO) { ret_error1(status, "unknown terminal type.\n", myname, free(myname)); } else { free(myname); ret_error0(status, "unexpected return-code\n"); } } #if NCURSES_EXT_NUMBERS _nc_export_termtype2(&termp->type, &TerminalType(termp)); #endif #if !USE_REENTRANT save_ttytype(termp); #endif termp->Filedes = (short) Filedes; termp->_termname = strdup(myname); set_curterm(termp); if (command_character) _nc_tinfo_cmdch(termp, UChar(*command_character)); /* * If an application calls setupterm() rather than initscr() or * newterm(), we will not have the def_prog_mode() call in * _nc_setupscreen(). Do it now anyway, so we can initialize the * baudrate. Also get the shell-mode so that erasechar() works. */ if (NC_ISATTY(Filedes)) { NCURSES_SP_NAME(def_shell_mode) (NCURSES_SP_ARG); NCURSES_SP_NAME(def_prog_mode) (NCURSES_SP_ARG); NCURSES_SP_NAME(baudrate) (NCURSES_SP_ARG); } code = OK; #endif } #ifdef USE_TERM_DRIVER *tp = termp; NCURSES_SP_NAME(set_curterm) (sp, termp); TCB->drv->td_init(TCB); #else sp = SP; #endif /* * We should always check the screensize, just in case. */ TINFO_GET_SIZE(sp, termp, ptrLines(sp), ptrCols(sp)); if (errret) *errret = TGETENT_YES; #ifndef USE_TERM_DRIVER if (generic_type) { /* * BSD 4.3's termcap contains mis-typed "gn" for wy99. Do a sanity * check before giving up. */ if ((VALID_STRING(cursor_address) || (VALID_STRING(cursor_down) && VALID_STRING(cursor_home))) && VALID_STRING(clear_screen)) { ret_error1(TGETENT_YES, "terminal is not really generic.\n", myname, free(myname)); } else { del_curterm(termp); ret_error1(TGETENT_NO, "I need something more specific.\n", myname, free(myname)); } } else if (hard_copy) { ret_error1(TGETENT_YES, "I can't handle hardcopy terminals.\n", myname, free(myname)); } #endif free(myname); returnCode(code); } #ifdef USE_PTHREADS /* * Returns a non-null pointer unless a new screen should be allocated because * no match was found in the pre-screen cache. */ NCURSES_EXPORT(SCREEN *) _nc_find_prescr(void) { SCREEN *result = 0; PRESCREEN_LIST *p; pthread_t id = GetThreadID(); for (p = _nc_prescreen.allocated; p != 0; p = p->next) { if (p->id == id) { result = p->sp; break; } } return result; } /* * Tells ncurses to forget that this thread was associated with the pre-screen * cache. It does not modify the pre-screen cache itself, since that is used * for creating new screens. */ NCURSES_EXPORT(void) _nc_forget_prescr(void) { PRESCREEN_LIST *p, *q; pthread_t id = GetThreadID(); _nc_lock_global(screen); for (p = _nc_prescreen.allocated, q = 0; p != 0; q = p, p = p->next) { if (p->id == id) { if (q) { q->next = p->next; } else { _nc_prescreen.allocated = p->next; } free(p); break; } } _nc_unlock_global(screen); } #endif /* USE_PTHREADS */ #if NCURSES_SP_FUNCS /* * In case of handling multiple screens, we need to have a screen before * initialization in _nc_setupscreen takes place. This is to extend the * substitute for some of the stuff in _nc_prescreen, especially for slk and * ripoff handling which should be done per screen. */ NCURSES_EXPORT(SCREEN *) new_prescr(void) { SCREEN *sp; START_TRACE(); T((T_CALLED("new_prescr()"))); _nc_lock_global(screen); if ((sp = _nc_find_prescr()) == 0) { sp = _nc_alloc_screen_sp(); T(("_nc_alloc_screen_sp %p", (void *) sp)); if (sp != 0) { #ifdef USE_PTHREADS PRESCREEN_LIST *p = typeCalloc(PRESCREEN_LIST, 1); if (p != 0) { p->id = GetThreadID(); p->sp = sp; p->next = _nc_prescreen.allocated; _nc_prescreen.allocated = p; } #else _nc_prescreen.allocated = sp; #endif sp->rsp = sp->rippedoff; sp->_filtered = _nc_prescreen.filter_mode; sp->_use_env = _nc_prescreen.use_env; #if NCURSES_NO_PADDING sp->_no_padding = _nc_prescreen._no_padding; #endif sp->slk_format = 0; sp->_slk = 0; sp->_prescreen = TRUE; SP_PRE_INIT(sp); #if USE_REENTRANT sp->_TABSIZE = _nc_prescreen._TABSIZE; sp->_ESCDELAY = _nc_prescreen._ESCDELAY; #endif } } else { T(("_nc_alloc_screen_sp %p (reuse)", (void *) sp)); } _nc_unlock_global(screen); returnSP(sp); } #endif #ifdef USE_TERM_DRIVER /* * This entrypoint is called from tgetent() to allow a special case of reusing * the same TERMINAL data (see comment). */ NCURSES_EXPORT(int) _nc_setupterm(const char *tname, int Filedes, int *errret, int reuse) { int rc = ERR; TERMINAL *termp = 0; _nc_init_pthreads(); _nc_lock_global(prescreen); START_TRACE(); if (TINFO_SETUP_TERM(&termp, tname, Filedes, errret, reuse) == OK) { _nc_forget_prescr(); if (NCURSES_SP_NAME(set_curterm) (CURRENT_SCREEN_PRE, termp) != 0) { rc = OK; } } _nc_unlock_global(prescreen); return rc; } #endif /* * setupterm(termname, Filedes, errret) * * Find and read the appropriate object file for the terminal * Make cur_term point to the structure. */ NCURSES_EXPORT(int) setupterm(const char *tname, int Filedes, int *errret) { START_TRACE(); return _nc_setupterm(tname, Filedes, errret, FALSE); }