/* Support for keyboard interface */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #include #ifdef HAVE_TERMIOS_H #include #endif #ifdef HAVE_UNISTD_H #include #endif #ifdef __hpux__ #include #define HPUX_PIPE (len > PIPE_BUF || errno != EAGAIN) #else #define HPUX_PIPE 1 #endif #include "elinks.h" #include "config/options.h" #include "intl/gettext/libintl.h" #include "main/select.h" #include "main/timer.h" #include "osdep/ascii.h" #include "osdep/osdep.h" #include "terminal/hardio.h" #include "terminal/itrm.h" #include "terminal/kbd.h" #include "terminal/mouse.h" #include "terminal/terminal.h" #include "util/error.h" #include "util/memory.h" #include "util/string.h" #include "util/time.h" /* TODO: move stuff from here to itrm.{c,h} and mouse.{c,h} */ struct itrm *ditrm = NULL; static void free_itrm(struct itrm *); static void in_kbd(struct itrm *); static void in_sock(struct itrm *); static int process_queue(struct itrm *); static void handle_itrm_stdin(struct itrm *); static void unhandle_itrm_stdin(struct itrm *); int is_blocked(void) { return ditrm && ditrm->blocked; } void free_all_itrms(void) { if (ditrm) free_itrm(ditrm); } /* A select_handler_T write_func for itrm->out.sock. This is called * when there is data in itrm->out.queue and it is possible to write * it to itrm->out.sock. When itrm->out.queue becomes empty, this * handler is temporarily removed. */ static void itrm_queue_write(struct itrm *itrm) { int written; int qlen = int_min(itrm->out.queue.len, 128); assertm(qlen, "event queue empty"); if_assert_failed return; written = safe_write(itrm->out.sock, itrm->out.queue.data, qlen); if (written <= 0) { if (written < 0) free_itrm(itrm); /* write error */ return; } itrm->out.queue.len -= written; if (itrm->out.queue.len == 0) { set_handlers(itrm->out.sock, get_handler(itrm->out.sock, SELECT_HANDLER_READ), NULL, get_handler(itrm->out.sock, SELECT_HANDLER_ERROR), get_handler(itrm->out.sock, SELECT_HANDLER_DATA)); } else { assert(itrm->out.queue.len > 0); memmove(itrm->out.queue.data, itrm->out.queue.data + written, itrm->out.queue.len); } } void itrm_queue_event(struct itrm *itrm, unsigned char *data, int len) { int w = 0; if (!len) return; if (!itrm->out.queue.len && can_write(itrm->out.sock)) { w = safe_write(itrm->out.sock, data, len); if (w <= 0 && HPUX_PIPE) { register_bottom_half(free_itrm, itrm); return; } } if (w < len) { int left = len - w; unsigned char *c = mem_realloc(itrm->out.queue.data, itrm->out.queue.len + left); if (!c) { free_itrm(itrm); return; } itrm->out.queue.data = c; memcpy(itrm->out.queue.data + itrm->out.queue.len, data + w, left); itrm->out.queue.len += left; set_handlers(itrm->out.sock, get_handler(itrm->out.sock, SELECT_HANDLER_READ), (select_handler_T) itrm_queue_write, (select_handler_T) free_itrm, itrm); } } void kbd_ctrl_c(void) { struct term_event ev; if (!ditrm) return; set_kbd_term_event(&ev, KBD_CTRL_C, KBD_MOD_NONE); itrm_queue_event(ditrm, (unsigned char *) &ev, sizeof(ev)); } #define write_sequence(fd, seq) \ hard_write(fd, seq, sizeof(seq) - 1) #define INIT_TERMINAL_SEQ "\033)0\0337" /* Special Character and Line Drawing Set, Save Cursor */ #define INIT_ALT_SCREEN_SEQ "\033[?47h" /* Use Alternate Screen Buffer */ static void send_init_sequence(int h, int altscreen) { write_sequence(h, INIT_TERMINAL_SEQ); /* If alternate screen is supported switch to it. */ if (altscreen) { write_sequence(h, INIT_ALT_SCREEN_SEQ); } #ifdef CONFIG_MOUSE send_mouse_init_sequence(h); #endif } #define DONE_CLS_SEQ "\033[2J" /* Erase in Display, Clear All */ #define DONE_TERMINAL_SEQ "\0338\r \b" /* Restore Cursor (DECRC) + ??? */ #define DONE_ALT_SCREEN_SEQ "\033[?47l" /* Use Normal Screen Buffer */ static void send_done_sequence(int h, int altscreen) { write_sequence(h, DONE_CLS_SEQ); #ifdef CONFIG_MOUSE send_mouse_done_sequence(h); #endif /* Switch from alternate screen. */ if (altscreen) { write_sequence(h, DONE_ALT_SCREEN_SEQ); } write_sequence(h, DONE_TERMINAL_SEQ); } #undef write_sequence void resize_terminal(void) { struct term_event ev; int width, height; get_terminal_size(ditrm->out.std, &width, &height); set_resize_term_event(&ev, width, height); itrm_queue_event(ditrm, (char *) &ev, sizeof(ev)); } static void get_terminal_name(unsigned char name[MAX_TERM_LEN]) { unsigned char *term = getenv("TERM"); int i; memset(name, 0, MAX_TERM_LEN); if (!term) return; for (i = 0; term[i] != 0 && i < MAX_TERM_LEN - 1; i++) name[i] = isident(term[i]) ? term[i] : '-'; } static int setraw(int fd, struct termios *p) { struct termios t; memset(&t, 0, sizeof(t)); if (tcgetattr(fd, &t)) return -1; if (p) copy_struct(p, &t); elinks_cfmakeraw(&t); t.c_lflag |= ISIG; #ifdef TOSTOP t.c_lflag |= TOSTOP; #endif t.c_oflag |= OPOST; if (tcsetattr(fd, TCSANOW, &t)) return -1; return 0; } /* Construct the struct itrm of this process, make ditrm point to it, * set up select() handlers, and send the initial interlink packet. * * The first five parameters are file descriptors that this function * saves in submembers of struct itrm, and for which this function may * set select() handlers. Please see the definitions of struct * itrm_in and struct itrm_out for further explanations. * * param member file if process is master file if process is slave * ------ ------ ------------------------- ------------------------ * std_in in.std read tty device (or pipe) read tty device (or pipe) * std_out out.std write tty device (or pipe) write tty device (or pipe) * sock_in in.sock ==std_out (masterhood flag) read socket from master * sock_out out.sock write pipe to same process write socket to master * ctl_in in.ctl control tty device control tty device * * The remaining three parameters control the initial interlink packet. * * init_string = A string to be passed to the master process. Need * not be null-terminated. If remote==0, this is a URI. * Otherwise, this is a remote command. * init_len = The length of init_string, in bytes. * remote = 0 if asking the master to start a new session * and display it via this process. Otherwise, * enum remote_session_flags. */ void handle_trm(int std_in, int std_out, int sock_in, int sock_out, int ctl_in, void *init_string, int init_len, int remote) { struct itrm *itrm; struct terminal_info info; struct term_event_size *size = &info.event.info.size; unsigned char *ts; memset(&info, 0, sizeof(info)); get_terminal_size(ctl_in, &size->width, &size->height); info.event.ev = EVENT_INIT; info.system_env = get_system_env(); info.length = init_len; if (remote) { info.session_info = remote; info.magic = INTERLINK_REMOTE_MAGIC; } else { info.session_info = get_cmd_opt_int("base-session"); info.magic = INTERLINK_NORMAL_MAGIC; } itrm = mem_calloc(1, sizeof(*itrm)); if (!itrm) return; itrm->in.queue.data = mem_calloc(1, ITRM_IN_QUEUE_SIZE); if (!itrm->in.queue.data) { mem_free(itrm); return; } ditrm = itrm; itrm->in.std = std_in; itrm->out.std = std_out; itrm->in.sock = sock_in; itrm->out.sock = sock_out; itrm->in.ctl = ctl_in; itrm->timer = TIMER_ID_UNDEF; itrm->remote = !!remote; /* FIXME: Combination altscreen + xwin does not work as it should, * mouse clicks are reportedly partially ignored. */ if (info.system_env & (ENV_SCREEN | ENV_XWIN)) itrm->altscreen = 1; if (!remote) { if (ctl_in >= 0) setraw(ctl_in, &itrm->t); send_init_sequence(std_out, itrm->altscreen); handle_terminal_resize(ctl_in, resize_terminal); #ifdef CONFIG_MOUSE enable_mouse(); #endif } handle_itrm_stdin(itrm); if (sock_in != std_out) set_handlers(sock_in, (select_handler_T) in_sock, NULL, (select_handler_T) free_itrm, itrm); get_terminal_name(info.name); ts = get_cwd(); if (ts) { memcpy(info.cwd, ts, int_min(strlen(ts), MAX_CWD_LEN)); mem_free(ts); } itrm_queue_event(itrm, (char *) &info, TERMINAL_INFO_SIZE); itrm_queue_event(itrm, (char *) init_string, init_len); } /* A select_handler_T read_func and error_func for the pipe (long) h. * This is called when the subprocess started on the terminal of this * ELinks process exits. ELinks then resumes using the terminal. */ static void unblock_itrm_x(void *h) { close_handle(h); if (!ditrm) return; unblock_itrm(0); resize_terminal(); } int unblock_itrm(int fd) { if (!ditrm) return -1; if (ditrm->in.ctl >= 0 && setraw(ditrm->in.ctl, NULL)) return -1; ditrm->blocked = 0; send_init_sequence(ditrm->out.std, ditrm->altscreen); handle_itrm_stdin(ditrm); resume_mouse(ditrm->mouse_h); handle_terminal_resize(ditrm->in.ctl, resize_terminal); unblock_stdin(); return 0; } void block_itrm(int fd) { if (!ditrm) return; ditrm->blocked = 1; block_stdin(); kill_timer(&ditrm->timer); ditrm->in.queue.len = 0; unhandle_terminal_resize(ditrm->in.ctl); send_done_sequence(ditrm->out.std, ditrm->altscreen); tcsetattr(ditrm->in.ctl, TCSANOW, &ditrm->t); unhandle_itrm_stdin(ditrm); suspend_mouse(ditrm->mouse_h); } static void free_itrm(struct itrm *itrm) { if (!itrm) return; if (!itrm->remote) { if (itrm->orig_title && *itrm->orig_title) { set_window_title(itrm->orig_title); } else if (itrm->touched_title) { /* Set the window title to the value of $TERM if X11 * wasn't compiled in. Should hopefully make at least * half the users happy. (debian bug #312955) */ unsigned char title[MAX_TERM_LEN]; get_terminal_name(title); if (*title) set_window_title(title); } unhandle_terminal_resize(itrm->in.ctl); #ifdef CONFIG_MOUSE disable_mouse(); #endif send_done_sequence(itrm->out.std, itrm->altscreen); tcsetattr(itrm->in.ctl, TCSANOW, &itrm->t); } mem_free_set(&itrm->orig_title, NULL); clear_handlers(itrm->in.std); clear_handlers(itrm->in.sock); clear_handlers(itrm->out.std); clear_handlers(itrm->out.sock); kill_timer(&itrm->timer); if (itrm == ditrm) ditrm = NULL; mem_free_if(itrm->out.queue.data); mem_free_if(itrm->in.queue.data); mem_free(itrm); } /* Resize terminal to dimensions specified by @text string. * @text should look like "width,height,old-width,old-height" where width and * height are integers. */ static inline void resize_terminal_from_str(unsigned char *text) { enum { NEW_WIDTH = 0, NEW_HEIGHT, OLD_WIDTH, OLD_HEIGHT, NUMBERS } i; int numbers[NUMBERS]; assert(text && *text); if_assert_failed return; for (i = 0; i < NUMBERS; i++) { unsigned char *p = strchr(text, ','); if (p) { *p++ = '\0'; } else if (i < OLD_HEIGHT) { return; } numbers[i] = atoi(text); if (p) text = p; } resize_window(numbers[NEW_WIDTH], numbers[NEW_HEIGHT], numbers[OLD_WIDTH], numbers[OLD_HEIGHT]); resize_terminal(); } void dispatch_special(unsigned char *text) { switch (text[0]) { case TERM_FN_TITLE: if (ditrm) { if (ditrm->remote) break; if (!ditrm->orig_title) ditrm->orig_title = get_window_title(); ditrm->touched_title = 1; } set_window_title(text + 1); break; case TERM_FN_RESIZE: if (ditrm && ditrm->remote) break; resize_terminal_from_str(text + 1); break; } } static void inline safe_hard_write(int fd, unsigned char *buf, int len) { if (is_blocked()) return; want_draw(); hard_write(fd, buf, len); done_draw(); } /* A select_handler_T read_func for itrm->in.sock. A slave process * calls this when the master sends it data to be displayed. The * master process never calls this. */ static void in_sock(struct itrm *itrm) { struct string path; struct string delete; char ch; int fg; ssize_t bytes_read, i, p; unsigned char buf[ITRM_OUT_QUEUE_SIZE]; bytes_read = safe_read(itrm->in.sock, buf, ITRM_OUT_QUEUE_SIZE); if (bytes_read <= 0) goto free_and_return; qwerty: for (i = 0; i < bytes_read; i++) if (!buf[i]) goto has_nul_byte; safe_hard_write(itrm->out.std, buf, bytes_read); return; has_nul_byte: if (i) safe_hard_write(itrm->out.std, buf, i); i++; assert(ITRM_OUT_QUEUE_SIZE - i > 0); memmove(buf, buf + i, ITRM_OUT_QUEUE_SIZE - i); bytes_read -= i; p = 0; #define RD(xx) { \ unsigned char cc; \ \ if (p < bytes_read) \ cc = buf[p++]; \ else if ((hard_read(itrm->in.sock, &cc, 1)) <= 0) \ goto free_and_return; \ xx = cc; \ } RD(fg); if (!init_string(&path)) goto free_and_return; while (1) { RD(ch); if (!ch) break; add_char_to_string(&path, ch); } if (!init_string(&delete)) { done_string(&path); goto free_and_return; } while (1) { RD(ch); if (!ch) break; add_char_to_string(&delete, ch); } #undef RD if (!*path.source) { dispatch_special(delete.source); } else { int blockh; unsigned char *param; int path_len, del_len, param_len; if (is_blocked() && fg) { if (*delete.source) unlink(delete.source); goto nasty_thing; } path_len = path.length; del_len = delete.length; param_len = path_len + del_len + 3; param = mem_alloc(param_len); if (!param) goto nasty_thing; param[0] = fg; memcpy(param + 1, path.source, path_len + 1); memcpy(param + 1 + path_len + 1, delete.source, del_len + 1); if (fg == 1) block_itrm(itrm->in.ctl); blockh = start_thread((void (*)(void *, int)) exec_thread, param, param_len); mem_free(param); if (blockh == -1) { if (fg == 1) unblock_itrm(itrm->in.ctl); goto nasty_thing; } if (fg == 1) { set_handlers(blockh, (select_handler_T) unblock_itrm_x, NULL, (select_handler_T) unblock_itrm_x, (void *) (long) blockh); } else { set_handlers(blockh, close_handle, NULL, close_handle, (void *) (long) blockh); } } nasty_thing: done_string(&path); done_string(&delete); assert(ITRM_OUT_QUEUE_SIZE - p > 0); memmove(buf, buf + p, ITRM_OUT_QUEUE_SIZE - p); bytes_read -= p; goto qwerty; free_and_return: free_itrm(itrm); } /* Returns the length of the escape sequence */ static inline int get_esc_code(unsigned char *str, int len, unsigned char *code, int *num) { int pos; *num = 0; *code = '\0'; for (pos = 2; pos < len; pos++) { if (!isdigit(str[pos]) || pos > 7) { *code = str[pos]; return pos + 1; } *num = *num * 10 + str[pos] - '0'; } return 0; } /* Define it to dump queue content in a readable form, * it may help to determine terminal sequences, and see what goes on. --Zas */ /* #define DEBUG_ITRM_QUEUE */ #ifdef DEBUG_ITRM_QUEUE #include #include /* isprint() isspace() */ #endif /* Returns length of the escape sequence or -1 if the caller needs to set up * the ESC delay timer. */ static int decode_terminal_escape_sequence(struct itrm *itrm, struct term_event *ev) { struct term_event_keyboard kbd = { KBD_UNDEF, KBD_MOD_NONE }; unsigned char c; int v; int el; if (itrm->in.queue.len < 3) return -1; if (itrm->in.queue.data[2] == '[') { if (itrm->in.queue.len >= 4 && itrm->in.queue.data[3] >= 'A' && itrm->in.queue.data[3] <= 'L') { kbd.key = KBD_F1 + itrm->in.queue.data[3] - 'A'; copy_struct(&ev->info.keyboard, &kbd); return 4; } return -1; } el = get_esc_code(itrm->in.queue.data, itrm->in.queue.len, &c, &v); #ifdef DEBUG_ITRM_QUEUE fprintf(stderr, "esc code: %c v=%d c=%c el=%d\n", itrm->in.queue.data[1], v, c, el); fflush(stderr); #endif switch (c) { case 0: return -1; case 'A': kbd.key = KBD_UP; break; case 'B': kbd.key = KBD_DOWN; break; case 'C': kbd.key = KBD_RIGHT; break; case 'D': kbd.key = KBD_LEFT; break; case 'F': case 'e': kbd.key = KBD_END; break; case 'H': kbd.key = KBD_HOME; break; case 'I': kbd.key = KBD_PAGE_UP; break; case 'G': kbd.key = KBD_PAGE_DOWN; break; /* Free BSD */ /* case 'M': kbd.key = KBD_F1; break;*/ case 'N': kbd.key = KBD_F2; break; case 'O': kbd.key = KBD_F3; break; case 'P': kbd.key = KBD_F4; break; case 'Q': kbd.key = KBD_F5; break; /* case 'R': kbd.key = KBD_F6; break;*/ case 'S': kbd.key = KBD_F7; break; case 'T': kbd.key = KBD_F8; break; case 'U': kbd.key = KBD_F9; break; case 'V': kbd.key = KBD_F10; break; case 'W': kbd.key = KBD_F11; break; case 'X': kbd.key = KBD_F12; break; case 'z': switch (v) { case 247: kbd.key = KBD_INS; break; case 214: kbd.key = KBD_HOME; break; case 220: kbd.key = KBD_END; break; case 216: kbd.key = KBD_PAGE_UP; break; case 222: kbd.key = KBD_PAGE_DOWN; break; case 249: kbd.key = KBD_DEL; break; } break; case '~': switch (v) { case 1: kbd.key = KBD_HOME; break; case 2: kbd.key = KBD_INS; break; case 3: kbd.key = KBD_DEL; break; case 4: kbd.key = KBD_END; break; case 5: kbd.key = KBD_PAGE_UP; break; case 6: kbd.key = KBD_PAGE_DOWN; break; case 7: kbd.key = KBD_HOME; break; case 8: kbd.key = KBD_END; break; case 11: kbd.key = KBD_F1; break; case 12: kbd.key = KBD_F2; break; case 13: kbd.key = KBD_F3; break; case 14: kbd.key = KBD_F4; break; case 15: kbd.key = KBD_F5; break; case 17: kbd.key = KBD_F6; break; case 18: kbd.key = KBD_F7; break; case 19: kbd.key = KBD_F8; break; case 20: kbd.key = KBD_F9; break; case 21: kbd.key = KBD_F10; break; case 23: kbd.key = KBD_F11; break; case 24: kbd.key = KBD_F12; break; /* Give preference to F11 and F12 over shifted F1 and F2. */ /* case 23: kbd.key = KBD_F1; kbd.modifier = KBD_MOD_SHIFT; break; case 24: kbd.key = KBD_F2; kbd.modifier = KBD_MOD_SHIFT; break; */ case 25: kbd.key = KBD_F3; kbd.modifier = KBD_MOD_SHIFT; break; case 26: kbd.key = KBD_F4; kbd.modifier = KBD_MOD_SHIFT; break; case 28: kbd.key = KBD_F5; kbd.modifier = KBD_MOD_SHIFT; break; case 29: kbd.key = KBD_F6; kbd.modifier = KBD_MOD_SHIFT; break; case 31: kbd.key = KBD_F7; kbd.modifier = KBD_MOD_SHIFT; break; case 32: kbd.key = KBD_F8; kbd.modifier = KBD_MOD_SHIFT; break; case 33: kbd.key = KBD_F9; kbd.modifier = KBD_MOD_SHIFT; break; case 34: kbd.key = KBD_F10; kbd.modifier = KBD_MOD_SHIFT; break; } break; case 'R': resize_terminal(); break; case 'M': #ifdef CONFIG_MOUSE el = decode_terminal_mouse_escape_sequence(itrm, ev, el, v); #endif /* CONFIG_MOUSE */ break; } /* The event might have been changed to a mouse event */ if (ev->ev == EVENT_KBD && kbd.key != KBD_UNDEF) { copy_struct(&ev->info.keyboard, &kbd); } return el; } static void set_kbd_event(struct term_event *ev, int key, int modifier) { switch (key) { case ASCII_TAB: key = KBD_TAB; break; #if defined(HAVE_SYS_CONSIO_H) || defined(HAVE_MACHINE_CONSOLE_H) /* BSD */ case ASCII_BS: key = KBD_BS; break; case ASCII_DEL: key = KBD_DEL; break; #else case ASCII_BS: case ASCII_DEL: key = KBD_BS; break; #endif case ASCII_LF: case ASCII_CR: key = KBD_ENTER; break; case ASCII_ESC: key = KBD_ESC; break; default: if (key < ' ') { key += 'A' - 1; modifier = KBD_MOD_CTRL; } } set_kbd_term_event(ev, key, modifier); } static void kbd_timeout(struct itrm *itrm) { struct term_event ev; int el; itrm->timer = TIMER_ID_UNDEF; assertm(itrm->in.queue.len, "timeout on empty queue"); assert(!itrm->blocked); /* block_itrm should have killed itrm->timer */ if_assert_failed return; if (can_read(itrm->in.std)) { in_kbd(itrm); return; } if (itrm->in.queue.len >= 2 && itrm->in.queue.data[0] == ASCII_ESC) { /* This is used for ESC [ and ESC O. */ set_kbd_event(&ev, itrm->in.queue.data[1], KBD_MOD_ALT); el = 2; } else { set_kbd_event(&ev, itrm->in.queue.data[0], KBD_MOD_NONE); el = 1; } itrm_queue_event(itrm, (char *) &ev, sizeof(ev)); itrm->in.queue.len -= el; if (itrm->in.queue.len) memmove(itrm->in.queue.data, itrm->in.queue.data + el, itrm->in.queue.len); while (process_queue(itrm)); } /* I feeeeeel the neeeed ... to rewrite this ... --pasky */ /* Just Do it ! --Zas */ /* Parse one event from itrm->in.queue and append to itrm->out.queue. * Return the number of bytes removed from itrm->in.queue; at least 0. * If this function leaves the queue not full, it also reenables reading * from itrm->in.std. (Because it does not add to the queue, it never * need disable reading.) On entry, the itrm must not be blocked. */ static int process_queue(struct itrm *itrm) { struct term_event ev; int el = 0; if (!itrm->in.queue.len) goto end; assert(!itrm->blocked); if_assert_failed return 0; /* unlike goto, don't enable reading */ set_kbd_term_event(&ev, KBD_UNDEF, KBD_MOD_NONE); #ifdef DEBUG_ITRM_QUEUE { int i; /* Dump current queue in a readable form to stderr. */ for (i = 0; i < itrm->in.queue.len; i++) if (itrm->in.queue.data[i] == ASCII_ESC) fprintf(stderr, "ESC "); else if (isprint(itrm->in.queue.data[i]) && !isspace(itrm->in.queue.data[i])) fprintf(stderr, "%c ", itrm->in.queue.data[i]); else fprintf(stderr, "0x%02x ", itrm->in.queue.data[i]); fprintf(stderr, "\n"); fflush(stderr); } #endif /* DEBUG_ITRM_QUEUE */ /* ELinks should also recognize U+009B CONTROL SEQUENCE INTRODUCER * as meaning the same as ESC 0x5B, and U+008F SINGLE SHIFT THREE as * meaning the same as ESC 0x4F, but those cannot yet be implemented * because of bug 777: the UTF-8 decoder is run too late. */ if (itrm->in.queue.data[0] == ASCII_ESC) { if (itrm->in.queue.len < 2) goto ret; if (itrm->in.queue.data[1] == '[' || itrm->in.queue.data[1] == 'O') { el = decode_terminal_escape_sequence(itrm, &ev); if (el == -1) goto ret; } else { el = 2; if (itrm->in.queue.data[1] == ASCII_ESC) { if (itrm->in.queue.len >= 3 && (itrm->in.queue.data[2] == '[' || itrm->in.queue.data[2] == 'O')) { el = 1; } set_kbd_event(&ev, KBD_ESC, KBD_MOD_NONE); } else { set_kbd_event(&ev, itrm->in.queue.data[1], KBD_MOD_ALT); } } } else if (itrm->in.queue.data[0] == 0) { static const struct term_event_keyboard os2xtd[256] = { #include "terminal/key.inc" }; if (itrm->in.queue.len < 2) goto ret; copy_struct(&ev.info.keyboard, &os2xtd[itrm->in.queue.data[1]]); el = 2; } else { el = 1; set_kbd_event(&ev, itrm->in.queue.data[0], 0); } assertm(itrm->in.queue.len >= el, "event queue underflow"); if_assert_failed { itrm->in.queue.len = el; } itrm->in.queue.len -= el; /* The call to decode_terminal_escape_sequence() might have changed the * keyboard event to a mouse event. */ if (ev.ev == EVENT_MOUSE || ev.info.keyboard.key != KBD_UNDEF) itrm_queue_event(itrm, (char *) &ev, sizeof(ev)); if (itrm->in.queue.len) memmove(itrm->in.queue.data, itrm->in.queue.data + el, itrm->in.queue.len); end: if (itrm->in.queue.len < ITRM_IN_QUEUE_SIZE) handle_itrm_stdin(itrm); return el; ret: install_timer(&itrm->timer, ESC_TIMEOUT, (void (*)(void *)) kbd_timeout, itrm); return 0; } /* A select_handler_T read_func for itrm->in.std. This is called when * characters typed by the user arrive from the terminal. */ static void in_kbd(struct itrm *itrm) { int r; if (!can_read(itrm->in.std)) return; kill_timer(&itrm->timer); if (itrm->in.queue.len >= ITRM_IN_QUEUE_SIZE) { unhandle_itrm_stdin(itrm); while (process_queue(itrm)); return; } r = safe_read(itrm->in.std, itrm->in.queue.data + itrm->in.queue.len, ITRM_IN_QUEUE_SIZE - itrm->in.queue.len); if (r <= 0) { free_itrm(itrm); return; } itrm->in.queue.len += r; if (itrm->in.queue.len > ITRM_IN_QUEUE_SIZE) { ERROR(gettext("Too many bytes read from the itrm!")); itrm->in.queue.len = ITRM_IN_QUEUE_SIZE; } while (process_queue(itrm)); } /* Enable reading from itrm->in.std. ELinks will read any available * bytes from the tty into itrm->in.queue and then parse them. * Reading should be enabled whenever itrm->in.queue is not full and * itrm->blocked is 0. */ static void handle_itrm_stdin(struct itrm *itrm) { set_handlers(itrm->in.std, (select_handler_T) in_kbd, NULL, (select_handler_T) free_itrm, itrm); } /* Disable reading from itrm->in.std. Reading should be disabled * whenever itrm->in.queue is full (there is no room for the data) * or itrm->blocked is 1 (other processes may read the data). */ static void unhandle_itrm_stdin(struct itrm *itrm) { set_handlers(itrm->in.std, (select_handler_T) NULL, NULL, (select_handler_T) free_itrm, itrm); }