/* This file is part of Konsole, an X terminal. SPDX-FileCopyrightText: 2007-2008 Robert Knight SPDX-FileCopyrightText: 1997, 1998 Lars Doelle SPDX-License-Identifier: GPL-2.0-or-later This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ // Own #include "Vt102Emulation.h" #include "tools.h" // XKB // #include // this allows konsole to be compiled without XKB and XTEST extensions // even though it might be available on a particular system. #if defined(AVOID_XKB) #undef HAVE_XKB #endif #if defined(HAVE_XKB) void scrolllock_set_off(); void scrolllock_set_on(); #endif // Standard #include #include // Qt #include #include #include // KDE // #include // #include // Konsole #include "KeyboardTranslator.h" #include "Screen.h" using namespace Konsole; Vt102Emulation::Vt102Emulation() : Emulation() , prevCC(0) , _titleUpdateTimer(new QTimer(this)) , _reportFocusEvents(false) { _titleUpdateTimer->setSingleShot(true); QObject::connect(_titleUpdateTimer, &QTimer::timeout, this, &Vt102Emulation::updateTitle); initTokenizer(); reset(); } Vt102Emulation::~Vt102Emulation() { } void Vt102Emulation::clearEntireScreen() { _currentScreen->clearEntireScreen(); bufferedUpdate(); } void Vt102Emulation::reset() { resetTokenizer(); resetModes(); resetCharset(0); _primaryScreen->reset(); resetCharset(1); _alternateScreen->reset(); setCodec(LocaleCodec); bufferedUpdate(); } /* ------------------------------------------------------------------------- */ /* */ /* Processing the incoming byte stream */ /* */ /* ------------------------------------------------------------------------- */ /* Incoming Bytes Event pipeline This section deals with decoding the incoming character stream. Decoding means here, that the stream is first separated into `tokens' which are then mapped to a `meaning' provided as operations by the `Screen' class or by the emulation class itself. The pipeline proceeds as follows: - Tokenizing the ESC codes (onReceiveChar) - VT100 code page translation of plain characters (applyCharset) - Interpretation of ESC codes (processToken) The escape codes and their meaning are described in the technical reference of this program. */ // Tokens ------------------------------------------------------------------ -- /* Since the tokens are the central notion if this section, we've put them in front. They provide the syntactical elements used to represent the terminals operations as byte sequences. They are encodes here into a single machine word, so that we can later switch over them easily. Depending on the token itself, additional argument variables are filled with parameter values. The tokens are defined below: - CHR - Printable characters (32..255 but DEL (=127)) - CTL - Control characters (0..31 but ESC (= 27), DEL) - ESC - Escape codes of the form - ESC_DE - Escape codes of the form C - CSI_PN - Escape codes of the form '[' {Pn} ';' {Pn} C - CSI_PS - Escape codes of the form '[' {Pn} ';' ... C - CSI_PS_SP - Escape codes of the form '[' {Pn} ';' ... {Space} C - CSI_PR - Escape codes of the form '[' '?' {Pn} ';' ... C - CSI_PE - Escape codes of the form '[' '!' {Pn} ';' ... C - VT52 - VT52 escape codes - - 'Y'{Pc}{Pc} - XTE_HA - Xterm window/terminal attribute commands of the form `]' {Pn} `;' {Text} (Note that these are handled differently to the other formats) The last two forms allow list of arguments. Since the elements of the lists are treated individually the same way, they are passed as individual tokens to the interpretation. Further, because the meaning of the parameters are names (althought represented as numbers), they are includes within the token ('N'). */ #define TY_CONSTRUCT(T, A, N) (((((int)N) & 0xffff) << 16) | ((((int)A) & 0xff) << 8) | (((int)T) & 0xff)) #define TY_CHR() TY_CONSTRUCT(0, 0, 0) #define TY_CTL(A) TY_CONSTRUCT(1, A, 0) #define TY_ESC(A) TY_CONSTRUCT(2, A, 0) #define TY_ESC_CS(A, B) TY_CONSTRUCT(3, A, B) #define TY_ESC_DE(A) TY_CONSTRUCT(4, A, 0) #define TY_CSI_PS(A, N) TY_CONSTRUCT(5, A, N) #define TY_CSI_PN(A) TY_CONSTRUCT(6, A, 0) #define TY_CSI_PR(A, N) TY_CONSTRUCT(7, A, N) #define TY_CSI_PS_SP(A, N) TY_CONSTRUCT(11, A, N) #define TY_VT52(A) TY_CONSTRUCT(8, A, 0) #define TY_CSI_PG(A) TY_CONSTRUCT(9, A, 0) #define TY_CSI_PE(A) TY_CONSTRUCT(10, A, 0) #define MAX_ARGUMENT 4096 // Tokenizer --------------------------------------------------------------- -- /* The tokenizer's state The state is represented by the buffer (tokenBuffer, tokenBufferPos), and accompanied by decoded arguments kept in (argv,argc). Note that they are kept internal in the tokenizer. */ void Vt102Emulation::resetTokenizer() { tokenBufferPos = 0; argc = 0; argv[0] = 0; argv[1] = 0; prevCC = 0; } void Vt102Emulation::addDigit(int digit) { if (argv[argc] < MAX_ARGUMENT) argv[argc] = 10 * argv[argc] + digit; } void Vt102Emulation::addArgument() { argc = qMin(argc + 1, MAXARGS - 1); argv[argc] = 0; } void Vt102Emulation::addToCurrentToken(char16_t cc) { tokenBuffer[tokenBufferPos] = cc; tokenBufferPos = qMin(tokenBufferPos + 1, MAX_TOKEN_LENGTH - 1); } // Character Class flags used while decoding #define CTL 1 // Control character #define CHR 2 // Printable character #define CPN 4 // TODO: Document me #define DIG 8 // Digit #define SCS 16 // TODO: Document me #define GRP 32 // TODO: Document me #define CPS \ 64 // Character which indicates end of window resize // escape sequence '\e[8;;t' void Vt102Emulation::initTokenizer() { int i; quint8 *s; for (i = 0; i < 256; ++i) charClass[i] = 0; for (i = 0; i < 32; ++i) charClass[i] |= CTL; for (i = 32; i < 256; ++i) charClass[i] |= CHR; for (s = (quint8 *)"@ABCDGHILMPSTXZbcdfry"; *s; ++s) charClass[*s] |= CPN; // resize = \e[8;;t for (s = (quint8 *)"t"; *s; ++s) charClass[*s] |= CPS; for (s = (quint8 *)"0123456789"; *s; ++s) charClass[*s] |= DIG; for (s = (quint8 *)"()+*%"; *s; ++s) charClass[*s] |= SCS; for (s = (quint8 *)"()+*#[]%"; *s; ++s) charClass[*s] |= GRP; resetTokenizer(); } /* Ok, here comes the nasty part of the decoder. Instead of keeping an explicit state, we deduce it from the token scanned so far. It is then immediately combined with the current character to form a scanning decision. This is done by the following defines. - P is the length of the token scanned so far. - L (often P-1) is the position on which contents we base a decision. - C is a character or a group of characters (taken from 'charClass'). - 'cc' is the current character - 's' is a pointer to the start of the token buffer - 'p' is the current position within the token buffer Note that they need to applied in proper order. */ #define lec(P, L, C) (p == (P) && s[(L)] == (C)) #define lun() (p == 1 && cc >= 32) #define les(P, L, C) (p == (P) && s[L] < 256 && (charClass[s[(L)]] & (C)) == (C)) #define eec(C) (p >= 3 && cc == (C)) #define ees(C) (p >= 3 && cc < 256 && (charClass[cc] & (C)) == (C)) #define eps(C) (p >= 3 && s[2] != '?' && s[2] != '!' && s[2] != '>' && cc < 256 && (charClass[cc] & (C)) == (C)) #define epp() (p >= 3 && s[2] == '?') #define epe() (p >= 3 && s[2] == '!') #define egt() (p >= 3 && s[2] == '>') #define esp() (p == 4 && s[3] == ' ') #define Xpe (tokenBufferPos >= 2 && tokenBuffer[1] == ']') #define Xte (Xpe && (cc == 7 || (prevCC == 27 && cc == 92))) // 27, 92 => "\e\\" (ST, String Terminator) #define ces(C) (cc < 256 && (charClass[cc] & (C)) == (C) && !Xte) #define CNTL(c) ((c) - '@') #define ESC 27 #define DEL 127 // process an incoming unicode character void Vt102Emulation::receiveChar(QChar character) { char16_t cc = character.unicode(); if (cc == DEL) return; // VT100: ignore. if (ces(CTL)) { // ignore control characters in the text part of Xpe (aka OSC) "ESC]" // escape sequences; this matches what XTERM docs say if (Xpe) { prevCC = cc; return; } // DEC HACK ALERT! Control Characters are allowed *within* esc sequences in VT100 // This means, they do neither a resetTokenizer() nor a pushToToken(). Some of them, do // of course. Guess this originates from a weakly layered handling of the X-on // X-off protocol, which comes really below this level. if (cc == CNTL('X') || cc == CNTL('Z') || cc == ESC) resetTokenizer(); // VT100: CAN or SUB if (cc != ESC) { processToken(TY_CTL(cc + '@'), 0, 0); return; } } // advance the state addToCurrentToken(cc); char16_t *s = tokenBuffer; int p = tokenBufferPos; if (getMode(MODE_Ansi)) { if (lec(1, 0, ESC)) { return; } if (lec(1, 0, ESC + 128)) { s[0] = ESC; receiveChar(u'['); return; } if (les(2, 1, GRP)) { return; } if (Xte) { processWindowAttributeChange(); resetTokenizer(); return; } if (Xpe) { prevCC = cc; return; } if (lec(3, 2, '?')) { return; } if (lec(3, 2, '>')) { return; } if (lec(3, 2, '!')) { return; } if (lun()) { processToken(TY_CHR(), applyCharset(cc), 0); resetTokenizer(); return; } if (lec(2, 0, ESC)) { processToken(TY_ESC(s[1]), 0, 0); resetTokenizer(); return; } if (les(3, 1, SCS)) { processToken(TY_ESC_CS(s[1], s[2]), 0, 0); resetTokenizer(); return; } if (lec(3, 1, '#')) { processToken(TY_ESC_DE(s[2]), 0, 0); resetTokenizer(); return; } if (eps(CPN)) { processToken(TY_CSI_PN(cc), argv[0], argv[1]); resetTokenizer(); return; } if (esp()) { return; } if (lec(5, 4, 'q') && s[3] == ' ') { processToken(TY_CSI_PS_SP(cc, argv[0]), argv[0], 0); resetTokenizer(); return; } // resize = \e[8;;t if (eps(CPS)) { processToken(TY_CSI_PS(cc, argv[0]), argv[1], argv[2]); resetTokenizer(); return; } if (epe()) { processToken(TY_CSI_PE(cc), 0, 0); resetTokenizer(); return; } if (ees(DIG)) { addDigit(cc - '0'); return; } if (eec(';') || eec(':')) { addArgument(); return; } for (int i = 0; i <= argc; i++) { if (epp()) processToken(TY_CSI_PR(cc, argv[i]), 0, 0); else if (egt()) processToken(TY_CSI_PG(cc), 0, 0); // spec. case for ESC]>0c or ESC]>c else if (cc == 'm' && argc - i >= 4 && (argv[i] == 38 || argv[i] == 48) && argv[i + 1] == 2) { // ESC[ ... 48;2;;; ... m -or- ESC[ ... 38;2;;; ... m i += 2; processToken(TY_CSI_PS(cc, argv[i - 2]), COLOR_SPACE_RGB, (argv[i] << 16) | (argv[i + 1] << 8) | argv[i + 2]); i += 2; } else if (cc == 'm' && argc - i >= 2 && (argv[i] == 38 || argv[i] == 48) && argv[i + 1] == 5) { // ESC[ ... 48;5; ... m -or- ESC[ ... 38;5; ... m i += 2; processToken(TY_CSI_PS(cc, argv[i - 2]), COLOR_SPACE_256, argv[i]); } else processToken(TY_CSI_PS(cc, argv[i]), 0, 0); } resetTokenizer(); } else { // VT52 Mode if (lec(1, 0, ESC)) return; if (les(1, 0, CHR)) { processToken(TY_CHR(), s[0], 0); resetTokenizer(); return; } if (lec(2, 1, 'Y')) return; if (lec(3, 1, 'Y')) return; if (p < 4) { processToken(TY_VT52(s[1]), 0, 0); resetTokenizer(); return; } processToken(TY_VT52(s[1]), s[2], s[3]); resetTokenizer(); return; } } void Vt102Emulation::processWindowAttributeChange() { // Describes the window or terminal session attribute to change // See Session::UserTitleChange for possible values int attributeToChange = 0; int i; for (i = 2; i < tokenBufferPos && tokenBuffer[i] >= '0' && tokenBuffer[i] <= '9'; i++) { attributeToChange = 10 * attributeToChange + (tokenBuffer[i] - '0'); } if (tokenBuffer[i] != ';') { reportDecodingError(); return; } // copy from the first char after ';', and skipping the ending delimiter // 0x07 or 0x92. Note that as control characters in OSC text parts are // ignored, only the second char in ST ("\e\\") is appended to tokenBuffer. QString newValue = QString::fromUtf16(tokenBuffer + i + 1, tokenBufferPos - i - 2); _pendingTitleUpdates[attributeToChange] = newValue; _titleUpdateTimer->start(20); } void Vt102Emulation::updateTitle() { QListIterator iter(_pendingTitleUpdates.keys()); while (iter.hasNext()) { int arg = iter.next(); Q_EMIT titleChanged(arg, _pendingTitleUpdates[arg]); } _pendingTitleUpdates.clear(); } // Interpreting Codes --------------------------------------------------------- /* Now that the incoming character stream is properly tokenized, meaning is assigned to them. These are either operations of the current _screen, or of the emulation class itself. The token to be interpreteted comes in as a machine word possibly accompanied by two parameters. Likewise, the operations assigned to, come with up to two arguments. One could consider to make up a proper table from the function below. The technical reference manual provides more information about this mapping. */ void Vt102Emulation::processToken(int token, char16_t p, int q) { switch (token) { case TY_CHR(): _currentScreen->displayCharacter(p); break; // UTF16 // 127 DEL : ignored on input case TY_CTL('@'): /* NUL: ignored */ break; case TY_CTL('A'): /* SOH: ignored */ break; case TY_CTL('B'): /* STX: ignored */ break; case TY_CTL('C'): /* ETX: ignored */ break; case TY_CTL('D'): /* EOT: ignored */ break; case TY_CTL('E'): reportAnswerBack(); break; // VT100 case TY_CTL('F'): /* ACK: ignored */ break; case TY_CTL('G'): Q_EMIT stateSet(NOTIFYBELL); break; // VT100 case TY_CTL('H'): _currentScreen->backspace(); break; // VT100 case TY_CTL('I'): _currentScreen->tab(); break; // VT100 case TY_CTL('J'): _currentScreen->newLine(); break; // VT100 case TY_CTL('K'): _currentScreen->newLine(); break; // VT100 case TY_CTL('L'): _currentScreen->newLine(); break; // VT100 case TY_CTL('M'): _currentScreen->toStartOfLine(); break; // VT100 case TY_CTL('N'): useCharset(1); break; // VT100 case TY_CTL('O'): useCharset(0); break; // VT100 case TY_CTL('P'): /* DLE: ignored */ break; case TY_CTL('Q'): /* DC1: XON continue */ break; // VT100 case TY_CTL('R'): /* DC2: ignored */ break; case TY_CTL('S'): /* DC3: XOFF halt */ break; // VT100 case TY_CTL('T'): /* DC4: ignored */ break; case TY_CTL('U'): /* NAK: ignored */ break; case TY_CTL('V'): /* SYN: ignored */ break; case TY_CTL('W'): /* ETB: ignored */ break; case TY_CTL('X'): _currentScreen->displayCharacter(QChar(0x2592)); break; // VT100 case TY_CTL('Y'): /* EM : ignored */ break; case TY_CTL('Z'): _currentScreen->displayCharacter(QChar(0x2592)); break; // VT100 case TY_CTL('['): /* ESC: cannot be seen here. */ break; case TY_CTL('\\'): /* FS : ignored */ break; case TY_CTL(']'): /* GS : ignored */ break; case TY_CTL('^'): /* RS : ignored */ break; case TY_CTL('_'): /* US : ignored */ break; case TY_ESC('D'): _currentScreen->index(); break; // VT100 case TY_ESC('E'): _currentScreen->nextLine(); break; // VT100 case TY_ESC('H'): _currentScreen->changeTabStop(true); break; // VT100 case TY_ESC('M'): _currentScreen->reverseIndex(); break; // VT100 case TY_ESC('Z'): reportTerminalType(); break; case TY_ESC('c'): reset(); break; case TY_ESC('n'): useCharset(2); break; case TY_ESC('o'): useCharset(3); break; case TY_ESC('7'): saveCursor(); break; case TY_ESC('8'): restoreCursor(); break; case TY_ESC('='): setMode(MODE_AppKeyPad); break; case TY_ESC('>'): resetMode(MODE_AppKeyPad); break; case TY_ESC('<'): setMode(MODE_Ansi); break; // VT100 case TY_ESC_CS('(', '0'): setCharset(0, '0'); break; // VT100 case TY_ESC_CS('(', 'A'): setCharset(0, 'A'); break; // VT100 case TY_ESC_CS('(', 'B'): setCharset(0, 'B'); break; // VT100 case TY_ESC_CS(')', '0'): setCharset(1, '0'); break; // VT100 case TY_ESC_CS(')', 'A'): setCharset(1, 'A'); break; // VT100 case TY_ESC_CS(')', 'B'): setCharset(1, 'B'); break; // VT100 case TY_ESC_CS('*', '0'): setCharset(2, '0'); break; // VT100 case TY_ESC_CS('*', 'A'): setCharset(2, 'A'); break; // VT100 case TY_ESC_CS('*', 'B'): setCharset(2, 'B'); break; // VT100 case TY_ESC_CS('+', '0'): setCharset(3, '0'); break; // VT100 case TY_ESC_CS('+', 'A'): setCharset(3, 'A'); break; // VT100 case TY_ESC_CS('+', 'B'): setCharset(3, 'B'); break; // VT100 case TY_ESC_CS('%', 'G'): setCodec(Utf8Codec); break; // LINUX case TY_ESC_CS('%', '@'): setCodec(LocaleCodec); break; // LINUX case TY_ESC_DE('3'): /* Double height line, top half */ _currentScreen->setLineProperty(LINE_DOUBLEWIDTH, true); _currentScreen->setLineProperty(LINE_DOUBLEHEIGHT, true); break; case TY_ESC_DE('4'): /* Double height line, bottom half */ _currentScreen->setLineProperty(LINE_DOUBLEWIDTH, true); _currentScreen->setLineProperty(LINE_DOUBLEHEIGHT, true); break; case TY_ESC_DE('5'): /* Single width, single height line*/ _currentScreen->setLineProperty(LINE_DOUBLEWIDTH, false); _currentScreen->setLineProperty(LINE_DOUBLEHEIGHT, false); break; case TY_ESC_DE('6'): /* Double width, single height line*/ _currentScreen->setLineProperty(LINE_DOUBLEWIDTH, true); _currentScreen->setLineProperty(LINE_DOUBLEHEIGHT, false); break; case TY_ESC_DE('8'): _currentScreen->helpAlign(); break; // resize = \e[8;;t case TY_CSI_PS('t', 8): setImageSize(p /*lines */, q /* columns */); Q_EMIT imageResizeRequest(QSize(q, p)); break; // change tab text color : \e[28;t color: 0-16,777,215 case TY_CSI_PS('t', 28): Q_EMIT changeTabTextColorRequest(p); break; case TY_CSI_PS('K', 0): _currentScreen->clearToEndOfLine(); break; case TY_CSI_PS('K', 1): _currentScreen->clearToBeginOfLine(); break; case TY_CSI_PS('K', 2): _currentScreen->clearEntireLine(); break; case TY_CSI_PS('J', 0): _currentScreen->clearToEndOfScreen(); break; case TY_CSI_PS('J', 1): _currentScreen->clearToBeginOfScreen(); break; case TY_CSI_PS('J', 2): _currentScreen->clearEntireScreen(); break; case TY_CSI_PS('J', 3): clearHistory(); break; case TY_CSI_PS('g', 0): _currentScreen->changeTabStop(false); break; // VT100 case TY_CSI_PS('g', 3): _currentScreen->clearTabStops(); break; // VT100 case TY_CSI_PS('h', 4): _currentScreen->setMode(MODE_Insert); break; case TY_CSI_PS('h', 20): setMode(MODE_NewLine); break; case TY_CSI_PS('i', 0): /* IGNORE: attached printer */ break; // VT100 case TY_CSI_PS('l', 4): _currentScreen->resetMode(MODE_Insert); break; case TY_CSI_PS('l', 20): resetMode(MODE_NewLine); break; case TY_CSI_PS('s', 0): saveCursor(); break; case TY_CSI_PS('u', 0): restoreCursor(); break; case TY_CSI_PS('m', 0): _currentScreen->setDefaultRendition(); break; case TY_CSI_PS('m', 1): _currentScreen->setRendition(RE_BOLD); break; // VT100 case TY_CSI_PS('m', 2): _currentScreen->setRendition(RE_FAINT); break; case TY_CSI_PS('m', 3): _currentScreen->setRendition(RE_ITALIC); break; // VT100 case TY_CSI_PS('m', 4): _currentScreen->setRendition(RE_UNDERLINE); break; // VT100 case TY_CSI_PS('m', 5): _currentScreen->setRendition(RE_BLINK); break; // VT100 case TY_CSI_PS('m', 7): _currentScreen->setRendition(RE_REVERSE); break; case TY_CSI_PS('m', 8): _currentScreen->setRendition(RE_CONCEAL); break; case TY_CSI_PS('m', 9): _currentScreen->setRendition(RE_STRIKEOUT); break; case TY_CSI_PS('m', 53): _currentScreen->setRendition(RE_OVERLINE); break; case TY_CSI_PS('m', 10): /* IGNORED: mapping related */ break; // LINUX case TY_CSI_PS('m', 11): /* IGNORED: mapping related */ break; // LINUX case TY_CSI_PS('m', 12): /* IGNORED: mapping related */ break; // LINUX case TY_CSI_PS('m', 21): _currentScreen->resetRendition(RE_BOLD); break; case TY_CSI_PS('m', 22): _currentScreen->resetRendition(RE_BOLD); _currentScreen->resetRendition(RE_FAINT); break; case TY_CSI_PS('m', 23): _currentScreen->resetRendition(RE_ITALIC); break; // VT100 case TY_CSI_PS('m', 24): _currentScreen->resetRendition(RE_UNDERLINE); break; case TY_CSI_PS('m', 25): _currentScreen->resetRendition(RE_BLINK); break; case TY_CSI_PS('m', 27): _currentScreen->resetRendition(RE_REVERSE); break; case TY_CSI_PS('m', 28): _currentScreen->resetRendition(RE_CONCEAL); break; case TY_CSI_PS('m', 29): _currentScreen->resetRendition(RE_STRIKEOUT); break; case TY_CSI_PS('m', 55): _currentScreen->resetRendition(RE_OVERLINE); break; case TY_CSI_PS('m', 30): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 0); break; case TY_CSI_PS('m', 31): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 1); break; case TY_CSI_PS('m', 32): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 2); break; case TY_CSI_PS('m', 33): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 3); break; case TY_CSI_PS('m', 34): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 4); break; case TY_CSI_PS('m', 35): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 5); break; case TY_CSI_PS('m', 36): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 6); break; case TY_CSI_PS('m', 37): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 7); break; case TY_CSI_PS('m', 38): _currentScreen->setForeColor(p, q); break; case TY_CSI_PS('m', 39): _currentScreen->setForeColor(COLOR_SPACE_DEFAULT, 0); break; case TY_CSI_PS('m', 40): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 0); break; case TY_CSI_PS('m', 41): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 1); break; case TY_CSI_PS('m', 42): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 2); break; case TY_CSI_PS('m', 43): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 3); break; case TY_CSI_PS('m', 44): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 4); break; case TY_CSI_PS('m', 45): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 5); break; case TY_CSI_PS('m', 46): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 6); break; case TY_CSI_PS('m', 47): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 7); break; case TY_CSI_PS('m', 48): _currentScreen->setBackColor(p, q); break; case TY_CSI_PS('m', 49): _currentScreen->setBackColor(COLOR_SPACE_DEFAULT, 1); break; case TY_CSI_PS('m', 90): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 8); break; case TY_CSI_PS('m', 91): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 9); break; case TY_CSI_PS('m', 92): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 10); break; case TY_CSI_PS('m', 93): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 11); break; case TY_CSI_PS('m', 94): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 12); break; case TY_CSI_PS('m', 95): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 13); break; case TY_CSI_PS('m', 96): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 14); break; case TY_CSI_PS('m', 97): _currentScreen->setForeColor(COLOR_SPACE_SYSTEM, 15); break; case TY_CSI_PS('m', 100): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 8); break; case TY_CSI_PS('m', 101): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 9); break; case TY_CSI_PS('m', 102): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 10); break; case TY_CSI_PS('m', 103): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 11); break; case TY_CSI_PS('m', 104): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 12); break; case TY_CSI_PS('m', 105): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 13); break; case TY_CSI_PS('m', 106): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 14); break; case TY_CSI_PS('m', 107): _currentScreen->setBackColor(COLOR_SPACE_SYSTEM, 15); break; case TY_CSI_PS('n', 5): reportStatus(); break; case TY_CSI_PS('n', 6): reportCursorPosition(); break; case TY_CSI_PS('q', 0): /* IGNORED: LEDs off */ break; // VT100 case TY_CSI_PS('q', 1): /* IGNORED: LED1 on */ break; // VT100 case TY_CSI_PS('q', 2): /* IGNORED: LED2 on */ break; // VT100 case TY_CSI_PS('q', 3): /* IGNORED: LED3 on */ break; // VT100 case TY_CSI_PS('q', 4): /* IGNORED: LED4 on */ break; // VT100 case TY_CSI_PS('x', 0): reportTerminalParms(2); break; // VT100 case TY_CSI_PS('x', 1): reportTerminalParms(3); break; // VT100 case TY_CSI_PS_SP('q', 0): /* fall through */ case TY_CSI_PS_SP('q', 1): Q_EMIT cursorChanged(KeyboardCursorShape::BlockCursor, true); break; case TY_CSI_PS_SP('q', 2): Q_EMIT cursorChanged(KeyboardCursorShape::BlockCursor, false); break; case TY_CSI_PS_SP('q', 3): Q_EMIT cursorChanged(KeyboardCursorShape::UnderlineCursor, true); break; case TY_CSI_PS_SP('q', 4): Q_EMIT cursorChanged(KeyboardCursorShape::UnderlineCursor, false); break; case TY_CSI_PS_SP('q', 5): Q_EMIT cursorChanged(KeyboardCursorShape::IBeamCursor, true); break; case TY_CSI_PS_SP('q', 6): Q_EMIT cursorChanged(KeyboardCursorShape::IBeamCursor, false); break; case TY_CSI_PN('@'): _currentScreen->insertChars(p); break; case TY_CSI_PN('A'): _currentScreen->cursorUp(p); break; // VT100 case TY_CSI_PN('B'): _currentScreen->cursorDown(p); break; // VT100 case TY_CSI_PN('C'): _currentScreen->cursorRight(p); break; // VT100 case TY_CSI_PN('D'): _currentScreen->cursorLeft(p); break; // VT100 case TY_CSI_PN('E'): /* Not implemented: cursor next p lines */ break; // VT100 case TY_CSI_PN('F'): /* Not implemented: cursor preceding p lines */ break; // VT100 case TY_CSI_PN('G'): _currentScreen->setCursorX(p); break; // LINUX case TY_CSI_PN('H'): _currentScreen->setCursorYX(p, q); break; // VT100 case TY_CSI_PN('I'): _currentScreen->tab(p); break; case TY_CSI_PN('L'): _currentScreen->insertLines(p); break; case TY_CSI_PN('M'): _currentScreen->deleteLines(p); break; case TY_CSI_PN('P'): _currentScreen->deleteChars(p); break; case TY_CSI_PN('S'): _currentScreen->scrollUp(p); break; case TY_CSI_PN('T'): _currentScreen->scrollDown(p); break; case TY_CSI_PN('X'): _currentScreen->eraseChars(p); break; case TY_CSI_PN('Z'): _currentScreen->backtab(p); break; case TY_CSI_PN('b'): _currentScreen->repeatChars(p); break; case TY_CSI_PN('c'): reportTerminalType(); break; // VT100 case TY_CSI_PN('d'): _currentScreen->setCursorY(p); break; // LINUX case TY_CSI_PN('f'): _currentScreen->setCursorYX(p, q); break; // VT100 case TY_CSI_PN('r'): setMargins(p, q); break; // VT100 case TY_CSI_PN('y'): /* IGNORED: Confidence test */ break; // VT100 case TY_CSI_PR('h', 1): setMode(MODE_AppCuKeys); break; // VT100 case TY_CSI_PR('l', 1): resetMode(MODE_AppCuKeys); break; // VT100 case TY_CSI_PR('s', 1): saveMode(MODE_AppCuKeys); break; // FIXME case TY_CSI_PR('r', 1): restoreMode(MODE_AppCuKeys); break; // FIXME case TY_CSI_PR('l', 2): resetMode(MODE_Ansi); break; // VT100 case TY_CSI_PR('h', 3): setMode(MODE_132Columns); break; // VT100 case TY_CSI_PR('l', 3): resetMode(MODE_132Columns); break; // VT100 case TY_CSI_PR('h', 4): /* IGNORED: soft scrolling */ break; // VT100 case TY_CSI_PR('l', 4): /* IGNORED: soft scrolling */ break; // VT100 case TY_CSI_PR('h', 5): _currentScreen->setMode(MODE_Screen); break; // VT100 case TY_CSI_PR('l', 5): _currentScreen->resetMode(MODE_Screen); break; // VT100 case TY_CSI_PR('h', 6): _currentScreen->setMode(MODE_Origin); break; // VT100 case TY_CSI_PR('l', 6): _currentScreen->resetMode(MODE_Origin); break; // VT100 case TY_CSI_PR('s', 6): _currentScreen->saveMode(MODE_Origin); break; // FIXME case TY_CSI_PR('r', 6): _currentScreen->restoreMode(MODE_Origin); break; // FIXME case TY_CSI_PR('h', 7): _currentScreen->setMode(MODE_Wrap); break; // VT100 case TY_CSI_PR('l', 7): _currentScreen->resetMode(MODE_Wrap); break; // VT100 case TY_CSI_PR('s', 7): _currentScreen->saveMode(MODE_Wrap); break; // FIXME case TY_CSI_PR('r', 7): _currentScreen->restoreMode(MODE_Wrap); break; // FIXME case TY_CSI_PR('h', 8): /* IGNORED: autorepeat on */ break; // VT100 case TY_CSI_PR('l', 8): /* IGNORED: autorepeat off */ break; // VT100 case TY_CSI_PR('s', 8): /* IGNORED: autorepeat on */ break; // VT100 case TY_CSI_PR('r', 8): /* IGNORED: autorepeat off */ break; // VT100 case TY_CSI_PR('h', 9): /* IGNORED: interlace */ break; // VT100 case TY_CSI_PR('l', 9): /* IGNORED: interlace */ break; // VT100 case TY_CSI_PR('s', 9): /* IGNORED: interlace */ break; // VT100 case TY_CSI_PR('r', 9): /* IGNORED: interlace */ break; // VT100 case TY_CSI_PR('h', 12): /* IGNORED: Cursor blink */ break; // att610 case TY_CSI_PR('l', 12): /* IGNORED: Cursor blink */ break; // att610 case TY_CSI_PR('s', 12): /* IGNORED: Cursor blink */ break; // att610 case TY_CSI_PR('r', 12): /* IGNORED: Cursor blink */ break; // att610 case TY_CSI_PR('h', 25): setMode(MODE_Cursor); break; // VT100 case TY_CSI_PR('l', 25): resetMode(MODE_Cursor); break; // VT100 case TY_CSI_PR('s', 25): saveMode(MODE_Cursor); break; // VT100 case TY_CSI_PR('r', 25): restoreMode(MODE_Cursor); break; // VT100 case TY_CSI_PR('h', 40): setMode(MODE_Allow132Columns); break; // XTERM case TY_CSI_PR('l', 40): resetMode(MODE_Allow132Columns); break; // XTERM case TY_CSI_PR('h', 41): /* IGNORED: obsolete more(1) fix */ break; // XTERM case TY_CSI_PR('l', 41): /* IGNORED: obsolete more(1) fix */ break; // XTERM case TY_CSI_PR('s', 41): /* IGNORED: obsolete more(1) fix */ break; // XTERM case TY_CSI_PR('r', 41): /* IGNORED: obsolete more(1) fix */ break; // XTERM case TY_CSI_PR('h', 47): setMode(MODE_AppScreen); break; // VT100 case TY_CSI_PR('l', 47): resetMode(MODE_AppScreen); break; // VT100 case TY_CSI_PR('s', 47): saveMode(MODE_AppScreen); break; // XTERM case TY_CSI_PR('r', 47): restoreMode(MODE_AppScreen); break; // XTERM case TY_CSI_PR('h', 67): /* IGNORED: DECBKM */ break; // XTERM case TY_CSI_PR('l', 67): /* IGNORED: DECBKM */ break; // XTERM case TY_CSI_PR('s', 67): /* IGNORED: DECBKM */ break; // XTERM case TY_CSI_PR('r', 67): /* IGNORED: DECBKM */ break; // XTERM // XTerm defines the following modes: // SET_VT200_MOUSE 1000 // SET_VT200_HIGHLIGHT_MOUSE 1001 // SET_BTN_EVENT_MOUSE 1002 // SET_ANY_EVENT_MOUSE 1003 // // Note about mouse modes: // There are four mouse modes which xterm-compatible terminals can support - 1000,1001,1002,1003 // Konsole currently supports mode 1000 (basic mouse press and release) and mode 1002 (dragging the mouse). // TODO: Implementation of mouse modes 1001 (something called hilight tracking) and // 1003 (a slight variation on dragging the mouse) // case TY_CSI_PR('h', 1000): setMode(MODE_Mouse1000); break; // XTERM case TY_CSI_PR('l', 1000): resetMode(MODE_Mouse1000); break; // XTERM case TY_CSI_PR('s', 1000): saveMode(MODE_Mouse1000); break; // XTERM case TY_CSI_PR('r', 1000): restoreMode(MODE_Mouse1000); break; // XTERM case TY_CSI_PR('h', 1001): /* IGNORED: hilite mouse tracking */ break; // XTERM case TY_CSI_PR('l', 1001): resetMode(MODE_Mouse1001); break; // XTERM case TY_CSI_PR('s', 1001): /* IGNORED: hilite mouse tracking */ break; // XTERM case TY_CSI_PR('r', 1001): /* IGNORED: hilite mouse tracking */ break; // XTERM case TY_CSI_PR('h', 1002): setMode(MODE_Mouse1002); break; // XTERM case TY_CSI_PR('l', 1002): resetMode(MODE_Mouse1002); break; // XTERM case TY_CSI_PR('s', 1002): saveMode(MODE_Mouse1002); break; // XTERM case TY_CSI_PR('r', 1002): restoreMode(MODE_Mouse1002); break; // XTERM case TY_CSI_PR('h', 1003): setMode(MODE_Mouse1003); break; // XTERM case TY_CSI_PR('l', 1003): resetMode(MODE_Mouse1003); break; // XTERM case TY_CSI_PR('s', 1003): saveMode(MODE_Mouse1003); break; // XTERM case TY_CSI_PR('r', 1003): restoreMode(MODE_Mouse1003); break; // XTERM case TY_CSI_PR('h', 1004): _reportFocusEvents = true; break; case TY_CSI_PR('l', 1004): _reportFocusEvents = false; break; case TY_CSI_PR('h', 1005): setMode(MODE_Mouse1005); break; // XTERM case TY_CSI_PR('l', 1005): resetMode(MODE_Mouse1005); break; // XTERM case TY_CSI_PR('s', 1005): saveMode(MODE_Mouse1005); break; // XTERM case TY_CSI_PR('r', 1005): restoreMode(MODE_Mouse1005); break; // XTERM case TY_CSI_PR('h', 1006): setMode(MODE_Mouse1006); break; // XTERM case TY_CSI_PR('l', 1006): resetMode(MODE_Mouse1006); break; // XTERM case TY_CSI_PR('s', 1006): saveMode(MODE_Mouse1006); break; // XTERM case TY_CSI_PR('r', 1006): restoreMode(MODE_Mouse1006); break; // XTERM case TY_CSI_PR('h', 1015): setMode(MODE_Mouse1015); break; // URXVT case TY_CSI_PR('l', 1015): resetMode(MODE_Mouse1015); break; // URXVT case TY_CSI_PR('s', 1015): saveMode(MODE_Mouse1015); break; // URXVT case TY_CSI_PR('r', 1015): restoreMode(MODE_Mouse1015); break; // URXVT case TY_CSI_PR('h', 1034): /* IGNORED: 8bitinput activation */ break; // XTERM case TY_CSI_PR('h', 1047): setMode(MODE_AppScreen); break; // XTERM case TY_CSI_PR('l', 1047): _alternateScreen->clearEntireScreen(); resetMode(MODE_AppScreen); break; // XTERM case TY_CSI_PR('s', 1047): saveMode(MODE_AppScreen); break; // XTERM case TY_CSI_PR('r', 1047): restoreMode(MODE_AppScreen); break; // XTERM // FIXME: Unitoken: save translations case TY_CSI_PR('h', 1048): saveCursor(); break; // XTERM case TY_CSI_PR('l', 1048): restoreCursor(); break; // XTERM case TY_CSI_PR('s', 1048): saveCursor(); break; // XTERM case TY_CSI_PR('r', 1048): restoreCursor(); break; // XTERM // FIXME: every once new sequences like this pop up in xterm. // Here's a guess of what they could mean. case TY_CSI_PR('h', 1049): saveCursor(); _alternateScreen->clearEntireScreen(); setMode(MODE_AppScreen); break; // XTERM case TY_CSI_PR('l', 1049): resetMode(MODE_AppScreen); restoreCursor(); break; // XTERM case TY_CSI_PR('h', 2004): setMode(MODE_BracketedPaste); break; // XTERM case TY_CSI_PR('l', 2004): resetMode(MODE_BracketedPaste); break; // XTERM case TY_CSI_PR('s', 2004): saveMode(MODE_BracketedPaste); break; // XTERM case TY_CSI_PR('r', 2004): restoreMode(MODE_BracketedPaste); break; // XTERM // FIXME: weird DEC reset sequence case TY_CSI_PE('p'): /* IGNORED: reset ( ) */ break; // FIXME: when changing between vt52 and ansi mode evtl do some resetting. case TY_VT52('A'): _currentScreen->cursorUp(1); break; // VT52 case TY_VT52('B'): _currentScreen->cursorDown(1); break; // VT52 case TY_VT52('C'): _currentScreen->cursorRight(1); break; // VT52 case TY_VT52('D'): _currentScreen->cursorLeft(1); break; // VT52 case TY_VT52('F'): setAndUseCharset(0, '0'); break; // VT52 case TY_VT52('G'): setAndUseCharset(0, 'B'); break; // VT52 case TY_VT52('H'): _currentScreen->setCursorYX(1, 1); break; // VT52 case TY_VT52('I'): _currentScreen->reverseIndex(); break; // VT52 case TY_VT52('J'): _currentScreen->clearToEndOfScreen(); break; // VT52 case TY_VT52('K'): _currentScreen->clearToEndOfLine(); break; // VT52 case TY_VT52('Y'): _currentScreen->setCursorYX(p - 31, q - 31); break; // VT52 case TY_VT52('Z'): reportTerminalType(); break; // VT52 case TY_VT52('<'): setMode(MODE_Ansi); break; // VT52 case TY_VT52('='): setMode(MODE_AppKeyPad); break; // VT52 case TY_VT52('>'): resetMode(MODE_AppKeyPad); break; // VT52 case TY_CSI_PG('c'): reportSecondaryAttributes(); break; // VT100 default: reportDecodingError(); break; }; } void Vt102Emulation::clearScreenAndSetColumns(int columnCount) { setImageSize(_currentScreen->getLines(), columnCount); clearEntireScreen(); setDefaultMargins(); _currentScreen->setCursorYX(0, 0); } void Vt102Emulation::sendString(const char *s, int length) { if (length >= 0) Q_EMIT sendData(s, length); else Q_EMIT sendData(s, strlen(s)); } void Vt102Emulation::reportCursorPosition() { const size_t sz = 20; char tmp[sz]; const size_t r = snprintf(tmp, sz, "\033[%d;%dR", _currentScreen->getCursorY() + 1, _currentScreen->getCursorX() + 1); if (sz <= r) { qWarning("Vt102Emulation::reportCursorPosition: Buffer too small\n"); } sendString(tmp); } void Vt102Emulation::reportTerminalType() { // Primary device attribute response (Request was: ^[[0c or ^[[c (from TT321 Users Guide)) // VT220: ^[[?63;1;2;3;6;7;8c (list deps on emul. capabilities) // VT100: ^[[?1;2c // VT101: ^[[?1;0c // VT102: ^[[?6v if (getMode(MODE_Ansi)) sendString("\033[?1;2c"); // I'm a VT100 else sendString("\033/Z"); // I'm a VT52 } void Vt102Emulation::reportSecondaryAttributes() { // Seconday device attribute response (Request was: ^[[>0c or ^[[>c) if (getMode(MODE_Ansi)) sendString("\033[>0;115;0c"); // Why 115? ;) else sendString("\033/Z"); // FIXME I don't think VT52 knows about it but kept for // konsoles backward compatibility. } void Vt102Emulation::reportTerminalParms(int p) // DECREPTPARM { const size_t sz = 100; char tmp[sz]; const size_t r = snprintf(tmp, sz, "\033[%d;1;1;112;112;1;0x", p); // not really true. if (sz <= r) { qWarning("Vt102Emulation::reportTerminalParms: Buffer too small\n"); } sendString(tmp); } void Vt102Emulation::reportStatus() { sendString("\033[0n"); // VT100. Device status report. 0 = Ready. } void Vt102Emulation::reportAnswerBack() { // FIXME - Test this with VTTEST // This is really obsolete VT100 stuff. const char *ANSWER_BACK = ""; sendString(ANSWER_BACK); } /*! `cx',`cy' are 1-based. `cb' indicates the button pressed or released (0-2) or scroll event (4-5). eventType represents the kind of mouse action that occurred: 0 = Mouse button press 1 = Mouse drag 2 = Mouse button release */ void Vt102Emulation::sendMouseEvent(int cb, int cx, int cy, int eventType) { if (cx < 1 || cy < 1) return; // With the exception of the 1006 mode, button release is encoded in cb. // Note that if multiple extensions are enabled, the 1006 is used, so it's okay to check for only that. if (eventType == 2 && !getMode(MODE_Mouse1006)) cb = 3; // normal buttons are passed as 0x20 + button, // mouse wheel (buttons 4,5) as 0x5c + button if (cb >= 4) cb += 0x3c; // Mouse motion handling if ((getMode(MODE_Mouse1002) || getMode(MODE_Mouse1003)) && eventType == 1) cb += 0x20; // add 32 to signify motion event char command[32]; command[0] = '\0'; // Check the extensions in decreasing order of preference. Encoding the release event above assumes that 1006 comes first. if (getMode(MODE_Mouse1006)) { snprintf(command, sizeof(command), "\033[<%d;%d;%d%c", cb, cx, cy, eventType == 2 ? 'm' : 'M'); } else if (getMode(MODE_Mouse1015)) { snprintf(command, sizeof(command), "\033[%d;%d;%dM", cb + 0x20, cx, cy); } else if (getMode(MODE_Mouse1005)) { if (cx <= 2015 && cy <= 2015) { // The xterm extension uses UTF-8 (up to 2 bytes) to encode // coordinate+32, no matter what the locale is. We could easily // convert manually, but QString can also do it for us. QChar coords[2]; coords[0] = QChar(cx + 0x20); coords[1] = QChar(cy + 0x20); QString coordsStr = QString(coords, 2); QByteArray utf8 = coordsStr.toUtf8(); snprintf(command, sizeof(command), "\033[M%c%s", cb + 0x20, utf8.constData()); } } else if (cx <= 223 && cy <= 223) { snprintf(command, sizeof(command), "\033[M%c%c%c", cb + 0x20, cx + 0x20, cy + 0x20); } sendString(command); } /** * The focus lost event can be used by Vim (or other terminal applications) * to recognize that the konsole window has lost focus. * The escape sequence is also used by iTerm2. * Vim needs the following plugin to be installed to convert the escape * sequence into the FocusLost autocmd: https://github.com/sjl/vitality.vim */ void Vt102Emulation::focusLost(void) { if (_reportFocusEvents) sendString("\033[O"); } /** * The focus gained event can be used by Vim (or other terminal applications) * to recognize that the konsole window has gained focus again. * The escape sequence is also used by iTerm2. * Vim needs the following plugin to be installed to convert the escape * sequence into the FocusGained autocmd: https://github.com/sjl/vitality.vim */ void Vt102Emulation::focusGained(void) { if (_reportFocusEvents) sendString("\033[I"); } void Vt102Emulation::sendText(const QString &text) { if (!text.isEmpty()) { QKeyEvent event(QEvent::KeyPress, 0, Qt::NoModifier, text); sendKeyEvent(&event, false); // expose as a big fat keypress event } } //<<<<<<< HEAD QKeyEvent *Vt102Emulation::remapKeyModifiersForMac(QKeyEvent *event) { Qt::KeyboardModifiers modifiers = event->modifiers(); QFlags isTheLabeledKeyCommandPressed = modifiers & Qt::ControlModifier; QFlags isTheLabeledKeyControlPressed = modifiers & Qt::MetaModifier; if (isTheLabeledKeyCommandPressed) { qDebug("Command is pressed."); modifiers &= ~Qt::ControlModifier; modifiers |= Qt::MetaModifier; } else { modifiers &= ~Qt::MetaModifier; } if (isTheLabeledKeyControlPressed) { qDebug("Control is pressed."); modifiers &= ~Qt::MetaModifier; modifiers |= Qt::ControlModifier; } else { modifiers &= ~Qt::ControlModifier; } return new QKeyEvent(QEvent::None, event->key(), modifiers, event->nativeScanCode(), event->nativeVirtualKey(), event->nativeModifiers(), event->text(), event->isAutoRepeat(), event->count()); } void Vt102Emulation::sendKeyEvent(QKeyEvent *origEvent, bool fromPaste) { #if defined(Q_OS_MAC) QScopedPointer event(remapKeyModifiersForMac(origEvent)); #else QKeyEvent *event = origEvent; #endif Qt::KeyboardModifiers modifiers = event->modifiers(); KeyboardTranslator::States states = KeyboardTranslator::NoState; // get current states if (getMode(MODE_NewLine)) states |= KeyboardTranslator::NewLineState; if (getMode(MODE_Ansi)) states |= KeyboardTranslator::AnsiState; if (getMode(MODE_AppCuKeys)) states |= KeyboardTranslator::CursorKeysState; if (getMode(MODE_AppScreen)) states |= KeyboardTranslator::AlternateScreenState; if (getMode(MODE_AppKeyPad) && (modifiers & Qt::KeypadModifier)) states |= KeyboardTranslator::ApplicationKeypadState; // check flow control state if (modifiers & KeyboardTranslator::CTRL_MOD) { switch (event->key()) { case Qt::Key_S: Q_EMIT flowControlKeyPressed(true); break; case Qt::Key_Q: case Qt::Key_C: // cancel flow control Q_EMIT flowControlKeyPressed(false); break; } } // lookup key binding if (_keyTranslator) { KeyboardTranslator::Entry entry = _keyTranslator->findEntry(event->key(), modifiers, states); // send result to terminal QByteArray textToSend; // special handling for the Alt (aka. Meta) modifier. pressing // Alt+[Character] results in Esc+[Character] being sent // (unless there is an entry defined for this particular combination // in the keyboard modifier) bool wantsAltModifier = entry.modifiers() & entry.modifierMask() & Qt::AltModifier; bool wantsMetaModifier = entry.modifiers() & entry.modifierMask() & Qt::MetaModifier; bool wantsAnyModifier = entry.state() & entry.stateMask() & KeyboardTranslator::AnyModifierState; if (modifiers & Qt::AltModifier && !(wantsAltModifier || wantsAnyModifier) && !event->text().isEmpty()) { textToSend.prepend("\033"); } if (modifiers & Qt::MetaModifier && !(wantsMetaModifier || wantsAnyModifier) && !event->text().isEmpty()) { textToSend.prepend("\030@s"); } if (entry.command() != KeyboardTranslator::NoCommand) { if (entry.command() & KeyboardTranslator::EraseCommand) { textToSend += eraseChar(); } else { Q_EMIT handleCommandFromKeyboard(entry.command()); } // TODO command handling } else if (!entry.text().isEmpty()) { textToSend += entry.text(true, modifiers); } else if ((modifiers & KeyboardTranslator::CTRL_MOD) && event->key() >= 0x40 && event->key() < 0x5f) { textToSend += (event->key() & 0x1f); } else if (event->key() == Qt::Key_Tab) { textToSend += 0x09; } else if (event->key() == Qt::Key_PageUp) { textToSend += "\033[5~"; } else if (event->key() == Qt::Key_PageDown) { textToSend += "\033[6~"; } else { textToSend += _codec->fromUnicode(event->text()); } if (!fromPaste && textToSend.length()) { Q_EMIT outputFromKeypressEvent(); } Q_EMIT sendData(textToSend.constData(), textToSend.length()); } else { // print an error message to the terminal if no key translator has been // set QString translatorError = tr("No keyboard translator available. " "The information needed to convert key presses " "into characters to send to the terminal " "is missing."); reset(); receiveData(translatorError.toUtf8().constData(), translatorError.size()); } } /* ------------------------------------------------------------------------- */ /* */ /* VT100 Charsets */ /* */ /* ------------------------------------------------------------------------- */ // Character Set Conversion ------------------------------------------------ -- /* The processing contains a VT100 specific code translation layer. It's still in use and mainly responsible for the line drawing graphics. These and some other glyphs are assigned to codes (0x5f-0xfe) normally occupied by the latin letters. Since this codes also appear within control sequences, the extra code conversion does not permute with the tokenizer and is placed behind it in the pipeline. It only applies to tokens, which represent plain characters. This conversion it eventually continued in TerminalDisplay.C, since it might involve VT100 enhanced fonts, which have these particular glyphs allocated in (0x00-0x1f) in their code page. */ #define CHARSET _charset[_currentScreen == _alternateScreen.get()] // assert for i in [0..31] : vt100extended(vt100_graphics[i]) == i. constexpr std::array vt100_graphics = { // 0/8 1/9 2/10 3/11 4/12 5/13 6/14 7/15 0x0020, 0x25C6, 0x2592, 0x2409, 0x240c, 0x240d, 0x240a, 0x00b0, 0x00b1, 0x2424, 0x240b, 0x2518, 0x2510, 0x250c, 0x2514, 0x253c, 0xF800, 0xF801, 0x2500, 0xF803, 0xF804, 0x251c, 0x2524, 0x2534, 0x252c, 0x2502, 0x2264, 0x2265, 0x03C0, 0x2260, 0x00A3, 0x00b7}; // Apply current character map. wchar_t Vt102Emulation::applyCharset(char16_t c) { if (CHARSET.graphic && 0x5f <= c && c <= 0x7e) return vt100_graphics[c - 0x5f]; if (CHARSET.pound && c == '#') return 0xa3; // This mode is obsolete return c; } /* "Charset" related part of the emulation state. This configures the VT100 charset filter. While most operation work on the current _screen, the following two are different. */ void Vt102Emulation::resetCharset(int scrno) { _charset[scrno].cu_cs = 0; qstrncpy(_charset[scrno].charset, "BBBB", 4); _charset[scrno].sa_graphic = false; _charset[scrno].sa_pound = false; _charset[scrno].graphic = false; _charset[scrno].pound = false; } void Vt102Emulation::setCharset(int n, int cs) // on both screens. { _charset[0].charset[n & 3] = cs; useCharset(_charset[0].cu_cs); _charset[1].charset[n & 3] = cs; useCharset(_charset[1].cu_cs); } void Vt102Emulation::setAndUseCharset(int n, int cs) { CHARSET.charset[n & 3] = cs; useCharset(n & 3); } void Vt102Emulation::useCharset(int n) { CHARSET.cu_cs = n & 3; CHARSET.graphic = (CHARSET.charset[n & 3] == '0'); CHARSET.pound = (CHARSET.charset[n & 3] == 'A'); // This mode is obsolete } void Vt102Emulation::setDefaultMargins() { _primaryScreen->setDefaultMargins(); _alternateScreen->setDefaultMargins(); } void Vt102Emulation::setMargins(int t, int b) { _primaryScreen->setMargins(t, b); _alternateScreen->setMargins(t, b); } void Vt102Emulation::saveCursor() { CHARSET.sa_graphic = CHARSET.graphic; CHARSET.sa_pound = CHARSET.pound; // This mode is obsolete // we are not clear about these // sa_charset = charsets[cScreen->_charset]; // sa_charset_num = cScreen->_charset; _currentScreen->saveCursor(); } void Vt102Emulation::restoreCursor() { CHARSET.graphic = CHARSET.sa_graphic; CHARSET.pound = CHARSET.sa_pound; // This mode is obsolete _currentScreen->restoreCursor(); } /* ------------------------------------------------------------------------- */ /* */ /* Mode Operations */ /* */ /* ------------------------------------------------------------------------- */ /* Some of the emulations state is either added to the state of the screens. This causes some scoping problems, since different emulations choose to located the mode either to the current _screen or to both. For strange reasons, the extend of the rendition attributes ranges over all screens and not over the actual _screen. We decided on the precise precise extend, somehow. */ // "Mode" related part of the state. These are all booleans. void Vt102Emulation::resetModes() { // MODE_Allow132Columns is not reset here // to match Xterm's behaviour (see Xterm's VTReset() function) resetMode(MODE_132Columns); saveMode(MODE_132Columns); resetMode(MODE_Mouse1000); saveMode(MODE_Mouse1000); resetMode(MODE_Mouse1001); saveMode(MODE_Mouse1001); resetMode(MODE_Mouse1002); saveMode(MODE_Mouse1002); resetMode(MODE_Mouse1003); saveMode(MODE_Mouse1003); resetMode(MODE_Mouse1005); saveMode(MODE_Mouse1005); resetMode(MODE_Mouse1006); saveMode(MODE_Mouse1006); resetMode(MODE_Mouse1015); saveMode(MODE_Mouse1015); resetMode(MODE_BracketedPaste); saveMode(MODE_BracketedPaste); resetMode(MODE_AppScreen); saveMode(MODE_AppScreen); resetMode(MODE_AppCuKeys); saveMode(MODE_AppCuKeys); resetMode(MODE_AppKeyPad); saveMode(MODE_AppKeyPad); resetMode(MODE_NewLine); setMode(MODE_Ansi); } void Vt102Emulation::setMode(int m) { _currentModes.mode[m] = true; switch (m) { case MODE_132Columns: if (getMode(MODE_Allow132Columns)) clearScreenAndSetColumns(132); else _currentModes.mode[m] = false; break; case MODE_Mouse1000: case MODE_Mouse1001: case MODE_Mouse1002: case MODE_Mouse1003: Q_EMIT programUsesMouseChanged(false); break; case MODE_BracketedPaste: Q_EMIT programBracketedPasteModeChanged(true); break; case MODE_AppScreen: _alternateScreen->clearSelection(); setScreen(1); break; } if (m < MODES_SCREEN || m == MODE_NewLine) { _primaryScreen->setMode(m); _alternateScreen->setMode(m); } } void Vt102Emulation::resetMode(int m) { _currentModes.mode[m] = false; switch (m) { case MODE_132Columns: if (getMode(MODE_Allow132Columns)) clearScreenAndSetColumns(80); break; case MODE_Mouse1000: case MODE_Mouse1001: case MODE_Mouse1002: case MODE_Mouse1003: Q_EMIT programUsesMouseChanged(true); break; case MODE_BracketedPaste: Q_EMIT programBracketedPasteModeChanged(false); break; case MODE_AppScreen: _primaryScreen->clearSelection(); setScreen(0); break; } if (m < MODES_SCREEN || m == MODE_NewLine) { _primaryScreen->resetMode(m); _alternateScreen->resetMode(m); } } void Vt102Emulation::saveMode(int m) { _savedModes.mode[m] = _currentModes.mode[m]; } void Vt102Emulation::restoreMode(int m) { if (_savedModes.mode[m]) setMode(m); else resetMode(m); } bool Vt102Emulation::getMode(int m) { return _currentModes.mode[m]; } char Vt102Emulation::eraseChar() const { KeyboardTranslator::Entry entry = _keyTranslator->findEntry(Qt::Key_Backspace, Qt::NoModifier, KeyboardTranslator::NoState); if (entry.text().size() > 0) return entry.text().at(0); else return '\b'; } void Vt102Emulation::reportDecodingError() { if (tokenBufferPos == 0 || (tokenBufferPos == 1 && (tokenBuffer[0] & 0xff) >= 32)) return; qCDebug(qtermwidgetLogger) << "Undecodable sequence:" << QString::fromUtf16(tokenBuffer, tokenBufferPos); } // #include "Vt102Emulation.moc"