/* interestingtimes.c - cursor control * * Copyright 2015 Rob Landley */ #include "toys.h" int tty_fd(void) { int i, j; for (i = 0; i<3; i++) if (isatty(j = (i+1)%3)) return j; return notstdio(open("/dev/tty", O_RDWR)); } // Quick and dirty query size of terminal, doesn't do ANSI probe fallback. // set x=80 y=25 before calling to provide defaults. Returns 0 if couldn't // determine size. int terminal_size(unsigned *xx, unsigned *yy) { struct winsize ws; unsigned i, x = 0, y = 0; char *s; // stdin, stdout, stderr for (i=0; i<3; i++) { memset(&ws, 0, sizeof(ws)); if (isatty(i) && !ioctl(i, TIOCGWINSZ, &ws)) { if (ws.ws_col) x = ws.ws_col; if (ws.ws_row) y = ws.ws_row; break; } } s = getenv("COLUMNS"); if (s) sscanf(s, "%u", &x); s = getenv("LINES"); if (s) sscanf(s, "%u", &y); // Never return 0 for either value, leave it at default instead. if (xx && x) *xx = x; if (yy && y) *yy = y; return x || y; } // Query terminal size, sending ANSI probe if necesary. (Probe queries xterm // size through serial connection, when local TTY doesn't know but remote does.) // Returns 0 if ANSI probe sent, 1 if size determined from tty or environment int terminal_probesize(unsigned *xx, unsigned *yy) { if (terminal_size(xx, yy) && (!xx || *xx) && (!yy || *yy)) return 1; // Send probe: bookmark cursor position, jump to bottom right, // query position, return cursor to bookmarked position. xprintf("\033[s\033[999C\033[999B\033[6n\033[u"); return 0; } void xsetspeed(struct termios *tio, int speed) { int i, speeds[] = {50, 75, 110, 134, 150, 200, 300, 600, 1200, 1800, 2400, 4800, 9600, 19200, 38400, 57600, 115200, 230400, 460800, 500000, 576000, 921600, 1000000, 1152000, 1500000, 2000000, 2500000, 3000000, 3500000, 4000000}; // Find speed in table, adjust to constant for (i = 0; i < ARRAY_LEN(speeds); i++) if (speeds[i] == speed) break; if (i == ARRAY_LEN(speeds)) error_exit("unknown speed: %d", speed); cfsetspeed(tio, i+1+4081*(i>15)); } // Reset terminal to known state, saving copy of old state if old != NULL. int set_terminal(int fd, int raw, int speed, struct termios *old) { struct termios termio; int i = tcgetattr(fd, &termio); // Fetch local copy of old terminfo, and copy struct contents to *old if set if (i) return i; if (old) *old = termio; // the following are the bits set for an xterm. Linux text mode TTYs by // default add two additional bits that only matter for serial processing // (turn serial line break into an interrupt, and XON/XOFF flow control) // Any key unblocks output, swap CR and NL on input termio.c_iflag = IXANY|ICRNL|INLCR; if (toys.which->flags & TOYFLAG_LOCALE) termio.c_iflag |= IUTF8; // Output appends CR to NL, does magic undocumented postprocessing termio.c_oflag = ONLCR|OPOST; // Leave serial port speed alone // termio.c_cflag = C_READ|CS8|EXTB; // Generate signals, input entire line at once, echo output // erase, line kill, escape control characters with ^ // erase line char at a time // "extended" behavior: ctrl-V quotes next char, ctrl-R reprints unread chars, // ctrl-W erases word termio.c_lflag = ISIG|ICANON|ECHO|ECHOE|ECHOK|ECHOCTL|ECHOKE|IEXTEN; if (raw) cfmakeraw(&termio); if (speed) { int i, speeds[] = {50, 75, 110, 134, 150, 200, 300, 600, 1200, 1800, 2400, 4800, 9600, 19200, 38400, 57600, 115200, 230400, 460800, 500000, 576000, 921600, 1000000, 1152000, 1500000, 2000000, 2500000, 3000000, 3500000, 4000000}; // Find speed in table, adjust to constant for (i = 0; i < ARRAY_LEN(speeds); i++) if (speeds[i] == speed) break; if (i == ARRAY_LEN(speeds)) error_exit("unknown speed: %d", speed); cfsetspeed(&termio, i+1+4081*(i>15)); } return tcsetattr(fd, TCSAFLUSH, &termio); } void xset_terminal(int fd, int raw, int speed, struct termios *old) { if (-1 != set_terminal(fd, raw, speed, old)) return; sprintf(libbuf, "/proc/self/fd/%d", fd); libbuf[readlink0(libbuf, libbuf, sizeof(libbuf))] = 0; perror_exit("tcsetattr %s", libbuf); } struct scan_key_list { int key; char *seq; } static const scan_key_list[] = { {KEY_UP, "\033[A"}, {KEY_DOWN, "\033[B"}, {KEY_RIGHT, "\033[C"}, {KEY_LEFT, "\033[D"}, {KEY_UP|KEY_SHIFT, "\033[1;2A"}, {KEY_DOWN|KEY_SHIFT, "\033[1;2B"}, {KEY_RIGHT|KEY_SHIFT, "\033[1;2C"}, {KEY_LEFT|KEY_SHIFT, "\033[1;2D"}, {KEY_UP|KEY_ALT, "\033[1;3A"}, {KEY_DOWN|KEY_ALT, "\033[1;3B"}, {KEY_RIGHT|KEY_ALT, "\033[1;3C"}, {KEY_LEFT|KEY_ALT, "\033[1;3D"}, {KEY_UP|KEY_CTRL, "\033[1;5A"}, {KEY_DOWN|KEY_CTRL, "\033[1;5B"}, {KEY_RIGHT|KEY_CTRL, "\033[1;5C"}, {KEY_LEFT|KEY_CTRL, "\033[1;5D"}, // VT102/VT220 escapes. {KEY_HOME, "\033[1~"}, {KEY_HOME|KEY_CTRL, "\033[1;5~"}, {KEY_INSERT, "\033[2~"}, {KEY_DELETE, "\033[3~"}, {KEY_END, "\033[4~"}, {KEY_END|KEY_CTRL, "\033[4;5~"}, {KEY_PGUP, "\033[5~"}, {KEY_PGDN, "\033[6~"}, // "Normal" "PC" escapes (xterm). {KEY_HOME, "\033OH"}, {KEY_END, "\033OF"}, // "Application" "PC" escapes (gnome-terminal). {KEY_HOME, "\033[H"}, {KEY_END, "\033[F"}, {KEY_HOME|KEY_CTRL, "\033[1;5H"}, {KEY_END|KEY_CTRL, "\033[1;5F"}, {KEY_FN+1, "\033OP"}, {KEY_FN+2, "\033OQ"}, {KEY_FN+3, "\033OR"}, {KEY_FN+4, "\033OS"}, {KEY_FN+5, "\033[15~"}, {KEY_FN+6, "\033[17~"}, {KEY_FN+7, "\033[18~"}, {KEY_FN+8, "\033[19~"}, {KEY_FN+9, "\033[20~"}, }; // Scan stdin for a keypress, parsing known escape sequences, including // responses to screen size queries. // Blocks for timeout_ms milliseconds, 0=return immediately, -1=wait forever. // Returns 0-255=literal, -1=EOF, -2=TIMEOUT, -3=RESIZE, 256+= a KEY_ constant. // Scratch space is necessary because last char of !seq could start new seq. // Zero out first byte of scratch before first call to scan_key. int scan_key_getsize(char *scratch, int timeout_ms, unsigned *xx, unsigned *yy) { struct pollfd pfd; int maybe, i, j; char *test; for (;;) { pfd.fd = 0; pfd.events = POLLIN; pfd.revents = 0; maybe = 0; if (*scratch) { int pos[6]; unsigned x, y; // Check for return from terminal size probe memset(pos, 0, 6*sizeof(int)); scratch[(1+*scratch)&15] = 0; sscanf(scratch+1, "\033%n[%n%3u%n;%n%3u%nR%n", pos, pos+1, &y, pos+2, pos+3, &x, pos+4, pos+5); if (pos[5]) { // Recognized X/Y position, consume and return *scratch = 0; if (xx) *xx = x; if (yy) *yy = y; return -3; } else for (i=0; i<6; i++) if (pos[i]==*scratch) maybe = 1; // Check sequences for (i = 0; i0 || 1 != read(0, scratch+1+*scratch, 1)) return (toys.signal>0) ? -3 : -1; ++*scratch; } // Was not a sequence if (!*scratch) return -2; i = scratch[1]; if (--*scratch) memmove(scratch+1, scratch+2, *scratch); return i; } // Wrapper that ignores results from ANSI probe to update screensize. // Otherwise acts like scan_key_getsize(). int scan_key(char *scratch, int timeout_ms) { return scan_key_getsize(scratch, timeout_ms, NULL, NULL); } void tty_esc(char *s) { printf("\033[%s", s); } void tty_jump(int x, int y) { char s[32]; sprintf(s, "%d;%dH", y+1, x+1); tty_esc(s); } void tty_reset(void) { set_terminal(0, 0, 0, 0); tty_esc("?25h"); tty_esc("0m"); tty_jump(0, 999); tty_esc("K"); fflush(0); } // If you call set_terminal(), use sigatexit(tty_sigreset); void tty_sigreset(int i) { tty_reset(); _exit(i ? 128+i : 0); } void start_redraw(unsigned *width, unsigned *height) { // If never signaled, do raw mode setup. if (!toys.signal) { *width = 80; *height = 25; set_terminal(0, 1, 0, 0); sigatexit(tty_sigreset); xsignal(SIGWINCH, generic_signal); } if (toys.signal != -1) { toys.signal = -1; terminal_probesize(width, height); } xprintf("\033[H\033[J"); }