/* $XTermId: print.c,v 1.150 2013/05/27 00:55:47 tom Exp $ */ /* * Copyright 1997-2012,2013 by Thomas E. Dickey * * All Rights Reserved * * 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, 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 LISTED COPYRIGHT HOLDER(S) 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. */ #include #include #include #include #include #include #include #undef CTRL #define CTRL(c) ((c) & 0x1f) #define SHIFT_IN '\017' #define SHIFT_OUT '\016' #define CSET_IN 'A' #define CSET_OUT '0' #define isForm(c) ((c) == '\r' || (c) == '\n' || (c) == '\f') #define Strlen(a) strlen((const char *)a) #define Strcmp(a,b) strcmp((const char *)a,(const char *)b) #define Strncmp(a,b,c) strncmp((const char *)a,(const char *)b,c) #define SPS PrinterOf(screen) #ifdef VMS #define VMS_TEMP_PRINT_FILE "sys$scratch:xterm_print.txt" #endif static void charToPrinter(XtermWidget /* xw */ , unsigned /* chr */ ); static void printLine(XtermWidget /* xw */ , int /* row */ , unsigned /* chr */ , PrinterFlags * /* p */ ); static void send_CharSet(XtermWidget /* xw */ , LineData * /* ld */ ); static void send_SGR(XtermWidget /* xw */ , unsigned /* attr */ , unsigned /* fg */ , unsigned /* bg */ ); static void stringToPrinter(XtermWidget /* xw */ , const char * /*str */ ); static void closePrinter(XtermWidget xw GCC_UNUSED) { if (xtermHasPrinter(xw) != 0) { TScreen *screen = TScreenOf(xw); #ifdef VMS char pcommand[256]; (void) sprintf(pcommand, "%s %s;", SPS.printer_command, VMS_TEMP_PRINT_FILE); #endif if (SPS.fp != 0) { DEBUG_MSG("closePrinter\n"); pclose(SPS.fp); TRACE(("closed printer, waiting...\n")); #ifdef VMS /* This is a quick hack, really should use spawn and check status or system services and go straight to the queue */ (void) system(pcommand); #else /* VMS */ while (nonblocking_wait() > 0) { ; } #endif /* VMS */ SPS.fp = 0; SPS.isOpen = False; TRACE(("closed printer\n")); DEBUG_MSG("...closePrinter (done)\n"); } } } static void printCursorLine(XtermWidget xw) { TScreen *screen = TScreenOf(xw); TRACE(("printCursorLine\n")); printLine(xw, screen->cur_row, '\n', getPrinterFlags(xw, NULL, 0)); } #define NO_COLOR ((unsigned)-1) /* * DEC's manual doesn't document whether trailing blanks are removed, or what * happens with a line that is entirely blank. This function prints the * characters that xterm would allow as a selection (which may include blanks). */ static void printLine(XtermWidget xw, int row, unsigned chr, PrinterFlags * p) { TScreen *screen = TScreenOf(xw); int inx = ROW2INX(screen, row); LineData *ld; Char attr = 0; unsigned ch; int last = MaxCols(screen); int col; #if OPT_ISO_COLORS && OPT_PRINT_COLORS #define ColorOf(ld,col) (ld->color[col]) #endif unsigned fg = NO_COLOR, last_fg = NO_COLOR; unsigned bg = NO_COLOR, last_bg = NO_COLOR; int cs = CSET_IN; int last_cs = CSET_IN; ld = getLineData(screen, inx); if (ld == 0) return; TRACE(("printLine(row=%d/%d, top=%d:%d, chr=%d):%s\n", row, ROW2INX(screen, row), screen->topline, screen->max_row, chr, visibleIChars(ld->charData, (unsigned) last))); while (last > 0) { if ((ld->attribs[last - 1] & CHARDRAWN) == 0) last--; else break; } if (last) { if (p->print_attributes) { send_CharSet(xw, ld); send_SGR(xw, 0, NO_COLOR, NO_COLOR); } for (col = 0; col < last; col++) { ch = ld->charData[col]; #if OPT_PRINT_COLORS if (screen->colorMode) { if (p->print_attributes > 1) { fg = (ld->attribs[col] & FG_COLOR) ? extract_fg(xw, ColorOf(ld, col), ld->attribs[col]) : NO_COLOR; bg = (ld->attribs[col] & BG_COLOR) ? extract_bg(xw, ColorOf(ld, col), ld->attribs[col]) : NO_COLOR; } } #endif if ((((ld->attribs[col] & SGR_MASK) != attr) #if OPT_PRINT_COLORS || (last_fg != fg) || (last_bg != bg) #endif ) && ch) { attr = CharOf(ld->attribs[col] & SGR_MASK); #if OPT_PRINT_COLORS last_fg = fg; last_bg = bg; #endif if (p->print_attributes) send_SGR(xw, attr, fg, bg); } if (ch == 0) ch = ' '; #if OPT_WIDE_CHARS if (screen->utf8_mode) cs = CSET_IN; else #endif cs = (ch >= ' ' && ch != ANSI_DEL) ? CSET_IN : CSET_OUT; if (last_cs != cs) { if (p->print_attributes) { charToPrinter(xw, (unsigned) ((cs == CSET_OUT) ? SHIFT_OUT : SHIFT_IN)); } last_cs = cs; } /* FIXME: we shouldn't have to map back from the * alternate character set, except that the * corresponding charset information is not encoded * into the CSETS array. */ charToPrinter(xw, ((cs == CSET_OUT) ? (ch == ANSI_DEL ? 0x5f : (ch + 0x5f)) : ch)); if_OPT_WIDE_CHARS(screen, { size_t off; for_each_combData(off, ld) { ch = ld->combData[off][col]; if (ch == 0) break; charToPrinter(xw, ch); } }); } if (p->print_attributes) { send_SGR(xw, 0, NO_COLOR, NO_COLOR); if (cs != CSET_IN) charToPrinter(xw, SHIFT_IN); } } /* finish line (protocol for attributes needs a CR */ if (p->print_attributes) charToPrinter(xw, '\r'); if (chr && !(p->printer_newline)) { if (LineTstWrapped(ld)) chr = '\0'; } if (chr) charToPrinter(xw, chr); return; } #define PrintNewLine() (unsigned) (((top < bot) || p->printer_newline) ? '\n' : '\0') static void printLines(XtermWidget xw, int top, int bot, PrinterFlags * p) { TRACE(("printLines, rows %d..%d\n", top, bot)); while (top <= bot) { printLine(xw, top, PrintNewLine(), p); ++top; } } void xtermPrintScreen(XtermWidget xw, Bool use_DECPEX, PrinterFlags * p) { if (XtIsRealized((Widget) xw)) { TScreen *screen = TScreenOf(xw); Bool extent = (use_DECPEX && p->printer_extent); Boolean was_open = SPS.isOpen; printLines(xw, extent ? 0 : screen->top_marg, extent ? screen->max_row : screen->bot_marg, p); if (p->printer_formfeed) charToPrinter(xw, '\f'); if (!was_open || SPS.printer_autoclose) { closePrinter(xw); } } else { Bell(xw, XkbBI_MinorError, 0); } } /* * If p->print_everything is zero, use this behavior: * If the alternate screen is active, we'll print only that. Otherwise, print * the normal screen plus all scrolled-back lines. The distinction is made * because the normal screen's buffer is part of the overall scrollback buffer. * * Otherwise, decode bits: * 1 = current screen * 2 = normal screen * 4 = alternate screen * 8 = saved lines */ void xtermPrintEverything(XtermWidget xw, PrinterFlags * p) { TScreen *screen = TScreenOf(xw); Boolean was_open = SPS.isOpen; int save_which = screen->whichBuf; int done_which = 0; DEBUG_MSG("xtermPrintEverything\n"); if (p->print_everything) { if (p->print_everything & 8) { printLines(xw, -screen->savedlines, -(screen->topline + 1), p); } if (p->print_everything & 4) { screen->whichBuf = 1; done_which |= 2; printLines(xw, 0, screen->max_row, p); screen->whichBuf = save_which; } if (p->print_everything & 2) { screen->whichBuf = 0; done_which |= 1; printLines(xw, 0, screen->max_row, p); screen->whichBuf = save_which; } if (p->print_everything & 1) { if (!(done_which & (1 << screen->whichBuf))) { printLines(xw, 0, screen->max_row, p); } } } else { int top = 0; int bot = screen->max_row; if (!screen->whichBuf) { top = -screen->savedlines - screen->topline; bot -= screen->topline; } printLines(xw, top, bot, p); } if (p->printer_formfeed) charToPrinter(xw, '\f'); if (!was_open || SPS.printer_autoclose) { closePrinter(xw); } } static void send_CharSet(XtermWidget xw, LineData * ld) { #if OPT_DEC_CHRSET const char *msg = 0; switch (GetLineDblCS(ld)) { case CSET_SWL: msg = "\033#5"; break; case CSET_DHL_TOP: msg = "\033#3"; break; case CSET_DHL_BOT: msg = "\033#4"; break; case CSET_DWL: msg = "\033#6"; break; } if (msg != 0) stringToPrinter(xw, msg); #else (void) xw; (void) ld; #endif /* OPT_DEC_CHRSET */ } static void send_SGR(XtermWidget xw, unsigned attr, unsigned fg, unsigned bg) { char msg[80]; strcpy(msg, "\033[0"); if (attr & BOLD) strcat(msg, ";1"); if (attr & UNDERLINE) strcat(msg, ";4"); /* typo? DEC documents this as '2' */ if (attr & BLINK) strcat(msg, ";5"); if (attr & INVERSE) /* typo? DEC documents this as invisible */ strcat(msg, ";7"); #if OPT_PRINT_COLORS if (bg != NO_COLOR) { sprintf(msg + strlen(msg), ";%u", (bg < 8) ? (40 + bg) : (92 + bg)); } if (fg != NO_COLOR) { #if OPT_PC_COLORS if (TScreenOf(xw)->boldColors && fg > 8 && (attr & BOLD) != 0) fg -= 8; #endif sprintf(msg + strlen(msg), ";%u", (fg < 8) ? (30 + fg) : (82 + fg)); } #else (void) bg; (void) fg; #endif strcat(msg, "m"); stringToPrinter(xw, msg); } /* * This implementation only knows how to write to a pipe. */ static void charToPrinter(XtermWidget xw, unsigned chr) { TScreen *screen = TScreenOf(xw); if (!SPS.isOpen && xtermHasPrinter(xw)) { switch (SPS.toFile) { /* * write to a pipe. */ case False: #ifdef VMS /* * This implementation only knows how to write to a file. When the * file is closed the print command executes. Print command must * be of the form: * print/que=name/delete [/otherflags]. */ SPS.fp = fopen(VMS_TEMP_PRINT_FILE, "w"); #else { FILE *input; int my_pipe[2]; int c; pid_t my_pid; if (pipe(my_pipe)) SysError(ERROR_FORK); if ((my_pid = fork()) < 0) SysError(ERROR_FORK); if (my_pid == 0) { DEBUG_MSG("charToPrinter: subprocess for printer\n"); TRACE_CLOSE(); close(my_pipe[1]); /* printer is silent */ close(screen->respond); close(fileno(stdout)); dup2(fileno(stderr), 1); if (fileno(stderr) != 2) { dup2(fileno(stderr), 2); close(fileno(stderr)); } /* don't want privileges! */ if (xtermResetIds(screen) < 0) exit(1); SPS.fp = popen(SPS.printer_command, "w"); if (SPS.fp != 0) { DEBUG_MSG("charToPrinter: opened pipe to printer\n"); input = fdopen(my_pipe[0], "r"); clearerr(input); for (;;) { if (ferror(input)) { DEBUG_MSG("charToPrinter: break on ferror\n"); break; } else if (feof(input)) { DEBUG_MSG("charToPrinter: break on feof\n"); break; } else if ((c = fgetc(input)) == EOF) { DEBUG_MSG("charToPrinter: break on EOF\n"); break; } fputc(c, SPS.fp); if (isForm(c)) fflush(SPS.fp); } DEBUG_MSG("charToPrinter: calling pclose\n"); pclose(SPS.fp); } exit(0); } else { close(my_pipe[0]); /* won't read from printer */ if ((SPS.fp = fdopen(my_pipe[1], "w")) != 0) { DEBUG_MSG("charToPrinter: opened printer in parent\n"); TRACE(("opened printer from pid %d/%d\n", (int) getpid(), (int) my_pid)); } else { TRACE(("failed to open printer:%s\n", strerror(errno))); DEBUG_MSG("charToPrinter: could not open in parent\n"); } } } #endif break; case True: TRACE(("opening \"%s\" as printer output\n", SPS.printer_command)); SPS.fp = fopen(SPS.printer_command, "w"); break; } SPS.isOpen = True; } if (SPS.fp != 0) { #if OPT_WIDE_CHARS if (chr > 127) { Char temp[10]; *convertToUTF8(temp, chr) = 0; fputs((char *) temp, SPS.fp); } else #endif fputc((int) chr, SPS.fp); if (isForm(chr)) fflush(SPS.fp); } } static void stringToPrinter(XtermWidget xw, const char *str) { while (*str) charToPrinter(xw, CharOf(*str++)); } /* * This module implements the MC (Media Copy) and related printing control * sequences for VTxxx emulation. This is based on the description in the * VT330/VT340 Programmer Reference Manual EK-VT3XX-TP-001 (Digital Equipment * Corp., March 1987). */ void xtermMediaControl(XtermWidget xw, int param, int private_seq) { TRACE(("MediaCopy param=%d, private=%d\n", param, private_seq)); if (private_seq) { switch (param) { case 1: printCursorLine(xw); break; case 4: setPrinterControlMode(xw, 0); break; case 5: setPrinterControlMode(xw, 1); break; case 10: /* VT320 */ xtermPrintScreen(xw, False, getPrinterFlags(xw, NULL, 0)); break; case 11: /* VT320 */ xtermPrintEverything(xw, getPrinterFlags(xw, NULL, 0)); break; } } else { switch (param) { case -1: case 0: xtermPrintScreen(xw, True, getPrinterFlags(xw, NULL, 0)); break; case 4: setPrinterControlMode(xw, 0); break; case 5: setPrinterControlMode(xw, 2); break; } } } /* * When in autoprint mode, the printer prints a line from the screen when you * move the cursor off that line with an LF, FF, or VT character, or an * autowrap occurs. The printed line ends with a CR and the character (LF, FF * or VT) that moved the cursor off the previous line. */ void xtermAutoPrint(XtermWidget xw, unsigned chr) { TScreen *screen = TScreenOf(xw); if (SPS.printer_controlmode == 1) { TRACE(("AutoPrint %d\n", chr)); printLine(xw, screen->cursorp.row, chr, getPrinterFlags(xw, NULL, 0)); if (SPS.fp != 0) fflush(SPS.fp); } } /* * When in printer controller mode, the terminal sends received characters to * the printer without displaying them on the screen. The terminal sends all * characters and control sequences to the printer, except NUL, XON, XOFF, and * the printer controller sequences. * * This function eats characters, returning 0 as long as it must buffer or * divert to the printer. We're only invoked here when in printer controller * mode, and handle the exit from that mode. */ #define LB '[' int xtermPrinterControl(XtermWidget xw, int chr) { TScreen *screen = TScreenOf(xw); /* *INDENT-OFF* */ static const struct { const Char seq[5]; int active; } tbl[] = { { { ANSI_CSI, '5', 'i' }, 2 }, { { ANSI_CSI, '4', 'i' }, 0 }, { { ANSI_ESC, LB, '5', 'i' }, 2 }, { { ANSI_ESC, LB, '4', 'i' }, 0 }, }; /* *INDENT-ON* */ static Char bfr[10]; static size_t length; size_t n; TRACE(("In printer:%04X\n", chr)); switch (chr) { case 0: case CTRL('Q'): case CTRL('S'): return 0; /* ignored by application */ case ANSI_CSI: case ANSI_ESC: case '[': case '4': case '5': case 'i': bfr[length++] = CharOf(chr); for (n = 0; n < sizeof(tbl) / sizeof(tbl[0]); n++) { size_t len = Strlen(tbl[n].seq); if (length == len && Strcmp(bfr, tbl[n].seq) == 0) { setPrinterControlMode(xw, tbl[n].active); if (SPS.printer_autoclose && SPS.printer_controlmode == 0) closePrinter(xw); length = 0; return 0; } else if (len > length && Strncmp(bfr, tbl[n].seq, length) == 0) { return 0; } } length--; /* FALLTHRU */ default: for (n = 0; n < length; n++) charToPrinter(xw, bfr[n]); bfr[0] = CharOf(chr); length = 1; return 0; } } /* * If there is no printer command, we will ignore printer controls. * * If we do have a printer command, we still have to verify that it will * (perhaps) work if we pass it to popen(). At a minimum, the program * must exist and be executable. If not, warn and disable the feature. */ Bool xtermHasPrinter(XtermWidget xw) { TScreen *screen = TScreenOf(xw); Bool result = SPS.printer_checked; if (strlen(SPS.printer_command) != 0 && !result) { char **argv = x_splitargs(SPS.printer_command); if (argv) { if (argv[0]) { char *myShell = xtermFindShell(argv[0], False); if (myShell == 0) { xtermWarning("No program found for printerCommand: %s\n", SPS.printer_command); SPS.printer_command = x_strdup(""); } else { free(myShell); SPS.printer_checked = True; result = True; } } x_freeargs(argv); } TRACE(("xtermHasPrinter:%d\n", result)); } return result; } #define showPrinterControlMode(mode) \ (((mode) == 0) \ ? "normal" \ : ((mode) == 1 \ ? "autoprint" \ : "printer controller")) void setPrinterControlMode(XtermWidget xw, int mode) { TScreen *screen = TScreenOf(xw); if (xtermHasPrinter(xw) && SPS.printer_controlmode != mode) { TRACE(("%s %s mode\n", (mode ? "set" : "reset"), (mode ? showPrinterControlMode(mode) : showPrinterControlMode(SPS.printer_controlmode)))); SPS.printer_controlmode = mode; update_print_redir(); } } PrinterFlags * getPrinterFlags(XtermWidget xw, String * params, Cardinal *param_count) { /* *INDENT-OFF* */ static const struct { const char *name; unsigned offset; int value; } table[] = { { "noFormFeed", XtOffsetOf(PrinterFlags, printer_formfeed), 0 }, { "FormFeed", XtOffsetOf(PrinterFlags, printer_formfeed), 1 }, { "noNewLine", XtOffsetOf(PrinterFlags, printer_newline), 0 }, { "NewLine", XtOffsetOf(PrinterFlags, printer_newline), 1 }, { "noAttrs", XtOffsetOf(PrinterFlags, print_attributes), 0 }, { "monoAttrs", XtOffsetOf(PrinterFlags, print_attributes), 1 }, { "colorAttrs", XtOffsetOf(PrinterFlags, print_attributes), 2 }, }; /* *INDENT-ON* */ TScreen *screen = TScreenOf(xw); PrinterFlags *result = &(screen->printer_flags); TRACE(("getPrinterFlags %d params\n", param_count ? *param_count : 0)); result->printer_extent = SPS.printer_extent; result->printer_formfeed = SPS.printer_formfeed; result->printer_newline = SPS.printer_newline; result->print_attributes = SPS.print_attributes; result->print_everything = SPS.print_everything; if (param_count != 0 && *param_count != 0) { Cardinal j; unsigned k; for (j = 0; j < *param_count; ++j) { TRACE(("param%d:%s\n", j, params[j])); for (k = 0; k < XtNumber(table); ++k) { if (!x_strcasecmp(params[j], table[k].name)) { int *ptr = (int *) (void *) ((char *) result + table[k].offset); TRACE(("...PrinterFlags(%s) %d->%d\n", table[k].name, *ptr, table[k].value)); *ptr = table[k].value; break; } } } } return result; } /* * Print a timestamped copy of everything. */ void xtermPrintImmediately(XtermWidget xw, String filename, int opts, int attrs) { TScreen *screen = TScreenOf(xw); PrinterState save_state = screen->printer_state; char *my_filename = malloc(TIMESTAMP_LEN + strlen(filename)); if (my_filename != 0) { unsigned save_umask = umask(0177); timestamp_filename(my_filename, filename); SPS.fp = 0; SPS.isOpen = False; SPS.toFile = True; SPS.printer_command = my_filename; SPS.printer_autoclose = True; SPS.printer_formfeed = False; SPS.printer_newline = True; SPS.print_attributes = attrs; SPS.print_everything = opts; xtermPrintEverything(xw, getPrinterFlags(xw, NULL, 0)); umask(save_umask); screen->printer_state = save_state; } } void xtermPrintOnXError(XtermWidget xw, int n) { #if OPT_PRINT_ON_EXIT /* * The user may have requested that the contents of the screen will be * written to a file if an X error occurs. */ if (TScreenOf(xw)->write_error && !IsEmpty(resource.printFileOnXError)) { Boolean printIt = False; switch (n) { case ERROR_XERROR: /* FALLTHRU */ case ERROR_XIOERROR: /* FALLTHRU */ case ERROR_ICEERROR: printIt = True; break; } if (printIt) { xtermPrintImmediately(xw, resource.printFileOnXError, resource.printOptsOnXError, resource.printModeOnXError); } } #else (void) xw; (void) n; #endif }