1 /* $OpenBSD: input-keys.c,v 1.93 2022/11/08 10:04:31 nicm Exp $ */ 2 3 /* 4 * Copyright (c) 2007 Nicholas Marriott <nicholas.marriott@gmail.com> 5 * 6 * Permission to use, copy, modify, and distribute this software for any 7 * purpose with or without fee is hereby granted, provided that the above 8 * copyright notice and this permission notice appear in all copies. 9 * 10 * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES 11 * WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF 12 * MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR 13 * ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES 14 * WHATSOEVER RESULTING FROM LOSS OF MIND, USE, DATA OR PROFITS, WHETHER 15 * IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING 16 * OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. 17 */ 18 19 #include <sys/types.h> 20 21 #include <stdint.h> 22 #include <stdlib.h> 23 #include <string.h> 24 25 #include "tmux.h" 26 27 /* 28 * This file is rather misleadingly named, it contains the code which takes a 29 * key code and translates it into something suitable to be sent to the 30 * application running in a pane (similar to input.c does in the other 31 * direction with output). 32 */ 33 34 static void input_key_mouse(struct window_pane *, struct mouse_event *); 35 36 /* Entry in the key tree. */ 37 struct input_key_entry { 38 key_code key; 39 const char *data; 40 41 RB_ENTRY(input_key_entry) entry; 42 }; 43 RB_HEAD(input_key_tree, input_key_entry); 44 45 /* Tree of input keys. */ 46 static int input_key_cmp(struct input_key_entry *, 47 struct input_key_entry *); 48 RB_GENERATE_STATIC(input_key_tree, input_key_entry, entry, input_key_cmp); 49 struct input_key_tree input_key_tree = RB_INITIALIZER(&input_key_tree); 50 51 /* List of default keys, the tree is built from this. */ 52 static struct input_key_entry input_key_defaults[] = { 53 /* Paste keys. */ 54 { .key = KEYC_PASTE_START, 55 .data = "\033[200~" 56 }, 57 { .key = KEYC_PASTE_END, 58 .data = "\033[201~" 59 }, 60 61 /* Function keys. */ 62 { .key = KEYC_F1, 63 .data = "\033OP" 64 }, 65 { .key = KEYC_F2, 66 .data = "\033OQ" 67 }, 68 { .key = KEYC_F3, 69 .data = "\033OR" 70 }, 71 { .key = KEYC_F4, 72 .data = "\033OS" 73 }, 74 { .key = KEYC_F5, 75 .data = "\033[15~" 76 }, 77 { .key = KEYC_F6, 78 .data = "\033[17~" 79 }, 80 { .key = KEYC_F7, 81 .data = "\033[18~" 82 }, 83 { .key = KEYC_F8, 84 .data = "\033[19~" 85 }, 86 { .key = KEYC_F9, 87 .data = "\033[20~" 88 }, 89 { .key = KEYC_F10, 90 .data = "\033[21~" 91 }, 92 { .key = KEYC_F11, 93 .data = "\033[23~" 94 }, 95 { .key = KEYC_F12, 96 .data = "\033[24~" 97 }, 98 { .key = KEYC_IC, 99 .data = "\033[2~" 100 }, 101 { .key = KEYC_DC, 102 .data = "\033[3~" 103 }, 104 { .key = KEYC_HOME, 105 .data = "\033[1~" 106 }, 107 { .key = KEYC_END, 108 .data = "\033[4~" 109 }, 110 { .key = KEYC_NPAGE, 111 .data = "\033[6~" 112 }, 113 { .key = KEYC_PPAGE, 114 .data = "\033[5~" 115 }, 116 { .key = KEYC_BTAB, 117 .data = "\033[Z" 118 }, 119 120 /* Arrow keys. */ 121 { .key = KEYC_UP|KEYC_CURSOR, 122 .data = "\033OA" 123 }, 124 { .key = KEYC_DOWN|KEYC_CURSOR, 125 .data = "\033OB" 126 }, 127 { .key = KEYC_RIGHT|KEYC_CURSOR, 128 .data = "\033OC" 129 }, 130 { .key = KEYC_LEFT|KEYC_CURSOR, 131 .data = "\033OD" 132 }, 133 { .key = KEYC_UP, 134 .data = "\033[A" 135 }, 136 { .key = KEYC_DOWN, 137 .data = "\033[B" 138 }, 139 { .key = KEYC_RIGHT, 140 .data = "\033[C" 141 }, 142 { .key = KEYC_LEFT, 143 .data = "\033[D" 144 }, 145 146 /* Keypad keys. */ 147 { .key = KEYC_KP_SLASH|KEYC_KEYPAD, 148 .data = "\033Oo" 149 }, 150 { .key = KEYC_KP_STAR|KEYC_KEYPAD, 151 .data = "\033Oj" 152 }, 153 { .key = KEYC_KP_MINUS|KEYC_KEYPAD, 154 .data = "\033Om" 155 }, 156 { .key = KEYC_KP_SEVEN|KEYC_KEYPAD, 157 .data = "\033Ow" 158 }, 159 { .key = KEYC_KP_EIGHT|KEYC_KEYPAD, 160 .data = "\033Ox" 161 }, 162 { .key = KEYC_KP_NINE|KEYC_KEYPAD, 163 .data = "\033Oy" 164 }, 165 { .key = KEYC_KP_PLUS|KEYC_KEYPAD, 166 .data = "\033Ok" 167 }, 168 { .key = KEYC_KP_FOUR|KEYC_KEYPAD, 169 .data = "\033Ot" 170 }, 171 { .key = KEYC_KP_FIVE|KEYC_KEYPAD, 172 .data = "\033Ou" 173 }, 174 { .key = KEYC_KP_SIX|KEYC_KEYPAD, 175 .data = "\033Ov" 176 }, 177 { .key = KEYC_KP_ONE|KEYC_KEYPAD, 178 .data = "\033Oq" 179 }, 180 { .key = KEYC_KP_TWO|KEYC_KEYPAD, 181 .data = "\033Or" 182 }, 183 { .key = KEYC_KP_THREE|KEYC_KEYPAD, 184 .data = "\033Os" 185 }, 186 { .key = KEYC_KP_ENTER|KEYC_KEYPAD, 187 .data = "\033OM" 188 }, 189 { .key = KEYC_KP_ZERO|KEYC_KEYPAD, 190 .data = "\033Op" 191 }, 192 { .key = KEYC_KP_PERIOD|KEYC_KEYPAD, 193 .data = "\033On" 194 }, 195 { .key = KEYC_KP_SLASH, 196 .data = "/" 197 }, 198 { .key = KEYC_KP_STAR, 199 .data = "*" 200 }, 201 { .key = KEYC_KP_MINUS, 202 .data = "-" 203 }, 204 { .key = KEYC_KP_SEVEN, 205 .data = "7" 206 }, 207 { .key = KEYC_KP_EIGHT, 208 .data = "8" 209 }, 210 { .key = KEYC_KP_NINE, 211 .data = "9" 212 }, 213 { .key = KEYC_KP_PLUS, 214 .data = "+" 215 }, 216 { .key = KEYC_KP_FOUR, 217 .data = "4" 218 }, 219 { .key = KEYC_KP_FIVE, 220 .data = "5" 221 }, 222 { .key = KEYC_KP_SIX, 223 .data = "6" 224 }, 225 { .key = KEYC_KP_ONE, 226 .data = "1" 227 }, 228 { .key = KEYC_KP_TWO, 229 .data = "2" 230 }, 231 { .key = KEYC_KP_THREE, 232 .data = "3" 233 }, 234 { .key = KEYC_KP_ENTER, 235 .data = "\n" 236 }, 237 { .key = KEYC_KP_ZERO, 238 .data = "0" 239 }, 240 { .key = KEYC_KP_PERIOD, 241 .data = "." 242 }, 243 244 /* Keys with an embedded modifier. */ 245 { .key = KEYC_F1|KEYC_BUILD_MODIFIERS, 246 .data = "\033[1;_P" 247 }, 248 { .key = KEYC_F2|KEYC_BUILD_MODIFIERS, 249 .data = "\033[1;_Q" 250 }, 251 { .key = KEYC_F3|KEYC_BUILD_MODIFIERS, 252 .data = "\033[1;_R" 253 }, 254 { .key = KEYC_F4|KEYC_BUILD_MODIFIERS, 255 .data = "\033[1;_S" 256 }, 257 { .key = KEYC_F5|KEYC_BUILD_MODIFIERS, 258 .data = "\033[15;_~" 259 }, 260 { .key = KEYC_F6|KEYC_BUILD_MODIFIERS, 261 .data = "\033[17;_~" 262 }, 263 { .key = KEYC_F7|KEYC_BUILD_MODIFIERS, 264 .data = "\033[18;_~" 265 }, 266 { .key = KEYC_F8|KEYC_BUILD_MODIFIERS, 267 .data = "\033[19;_~" 268 }, 269 { .key = KEYC_F9|KEYC_BUILD_MODIFIERS, 270 .data = "\033[20;_~" 271 }, 272 { .key = KEYC_F10|KEYC_BUILD_MODIFIERS, 273 .data = "\033[21;_~" 274 }, 275 { .key = KEYC_F11|KEYC_BUILD_MODIFIERS, 276 .data = "\033[23;_~" 277 }, 278 { .key = KEYC_F12|KEYC_BUILD_MODIFIERS, 279 .data = "\033[24;_~" 280 }, 281 { .key = KEYC_UP|KEYC_BUILD_MODIFIERS, 282 .data = "\033[1;_A" 283 }, 284 { .key = KEYC_DOWN|KEYC_BUILD_MODIFIERS, 285 .data = "\033[1;_B" 286 }, 287 { .key = KEYC_RIGHT|KEYC_BUILD_MODIFIERS, 288 .data = "\033[1;_C" 289 }, 290 { .key = KEYC_LEFT|KEYC_BUILD_MODIFIERS, 291 .data = "\033[1;_D" 292 }, 293 { .key = KEYC_HOME|KEYC_BUILD_MODIFIERS, 294 .data = "\033[1;_H" 295 }, 296 { .key = KEYC_END|KEYC_BUILD_MODIFIERS, 297 .data = "\033[1;_F" 298 }, 299 { .key = KEYC_PPAGE|KEYC_BUILD_MODIFIERS, 300 .data = "\033[5;_~" 301 }, 302 { .key = KEYC_NPAGE|KEYC_BUILD_MODIFIERS, 303 .data = "\033[6;_~" 304 }, 305 { .key = KEYC_IC|KEYC_BUILD_MODIFIERS, 306 .data = "\033[2;_~" 307 }, 308 { .key = KEYC_DC|KEYC_BUILD_MODIFIERS, 309 .data = "\033[3;_~" 310 }, 311 312 /* Tab and modifiers. */ 313 { .key = '\011'|KEYC_CTRL, 314 .data = "\011" 315 }, 316 { .key = '\011'|KEYC_CTRL|KEYC_EXTENDED, 317 .data = "\033[9;5u" 318 }, 319 { .key = '\011'|KEYC_CTRL|KEYC_SHIFT, 320 .data = "\033[Z" 321 }, 322 { .key = '\011'|KEYC_CTRL|KEYC_SHIFT|KEYC_EXTENDED, 323 .data = "\033[1;5Z" 324 } 325 }; 326 static const key_code input_key_modifiers[] = { 327 0, 328 0, 329 KEYC_SHIFT, 330 KEYC_META|KEYC_IMPLIED_META, 331 KEYC_SHIFT|KEYC_META|KEYC_IMPLIED_META, 332 KEYC_CTRL, 333 KEYC_SHIFT|KEYC_CTRL, 334 KEYC_META|KEYC_IMPLIED_META|KEYC_CTRL, 335 KEYC_SHIFT|KEYC_META|KEYC_IMPLIED_META|KEYC_CTRL 336 }; 337 338 /* Input key comparison function. */ 339 static int 340 input_key_cmp(struct input_key_entry *ike1, struct input_key_entry *ike2) 341 { 342 if (ike1->key < ike2->key) 343 return (-1); 344 if (ike1->key > ike2->key) 345 return (1); 346 return (0); 347 } 348 349 /* Look for key in tree. */ 350 static struct input_key_entry * 351 input_key_get(key_code key) 352 { 353 struct input_key_entry entry = { .key = key }; 354 355 return (RB_FIND(input_key_tree, &input_key_tree, &entry)); 356 } 357 358 /* Split a character into two UTF-8 bytes. */ 359 static size_t 360 input_key_split2(u_int c, u_char *dst) 361 { 362 if (c > 0x7f) { 363 dst[0] = (c >> 6) | 0xc0; 364 dst[1] = (c & 0x3f) | 0x80; 365 return (2); 366 } 367 dst[0] = c; 368 return (1); 369 } 370 371 /* Build input key tree. */ 372 void 373 input_key_build(void) 374 { 375 struct input_key_entry *ike, *new; 376 u_int i, j; 377 char *data; 378 key_code key; 379 380 for (i = 0; i < nitems(input_key_defaults); i++) { 381 ike = &input_key_defaults[i]; 382 if (~ike->key & KEYC_BUILD_MODIFIERS) { 383 RB_INSERT(input_key_tree, &input_key_tree, ike); 384 continue; 385 } 386 387 for (j = 2; j < nitems(input_key_modifiers); j++) { 388 key = (ike->key & ~KEYC_BUILD_MODIFIERS); 389 data = xstrdup(ike->data); 390 data[strcspn(data, "_")] = '0' + j; 391 392 new = xcalloc(1, sizeof *new); 393 new->key = key|input_key_modifiers[j]; 394 new->data = data; 395 RB_INSERT(input_key_tree, &input_key_tree, new); 396 } 397 } 398 399 RB_FOREACH(ike, input_key_tree, &input_key_tree) { 400 log_debug("%s: 0x%llx (%s) is %s", __func__, ike->key, 401 key_string_lookup_key(ike->key, 1), ike->data); 402 } 403 } 404 405 /* Translate a key code into an output key sequence for a pane. */ 406 int 407 input_key_pane(struct window_pane *wp, key_code key, struct mouse_event *m) 408 { 409 if (log_get_level() != 0) { 410 log_debug("writing key 0x%llx (%s) to %%%u", key, 411 key_string_lookup_key(key, 1), wp->id); 412 } 413 414 if (KEYC_IS_MOUSE(key)) { 415 if (m != NULL && m->wp != -1 && (u_int)m->wp == wp->id) 416 input_key_mouse(wp, m); 417 return (0); 418 } 419 return (input_key(wp->screen, wp->event, key)); 420 } 421 422 static void 423 input_key_write(const char *from, struct bufferevent *bev, const char *data, 424 size_t size) 425 { 426 log_debug("%s: %.*s", from, (int)size, data); 427 bufferevent_write(bev, data, size); 428 } 429 430 /* Translate a key code into an output key sequence. */ 431 int 432 input_key(struct screen *s, struct bufferevent *bev, key_code key) 433 { 434 struct input_key_entry *ike = NULL; 435 key_code justkey, newkey, outkey, modifiers; 436 struct utf8_data ud; 437 char tmp[64], modifier; 438 439 /* Mouse keys need a pane. */ 440 if (KEYC_IS_MOUSE(key)) 441 return (0); 442 443 /* Literal keys go as themselves (can't be more than eight bits). */ 444 if (key & KEYC_LITERAL) { 445 ud.data[0] = (u_char)key; 446 input_key_write(__func__, bev, &ud.data[0], 1); 447 return (0); 448 } 449 450 /* Is this backspace? */ 451 if ((key & KEYC_MASK_KEY) == KEYC_BSPACE) { 452 newkey = options_get_number(global_options, "backspace"); 453 if (newkey >= 0x7f) 454 newkey = '\177'; 455 key = newkey|(key & (KEYC_MASK_MODIFIERS|KEYC_MASK_FLAGS)); 456 } 457 458 /* 459 * If this is a normal 7-bit key, just send it, with a leading escape 460 * if necessary. If it is a UTF-8 key, split it and send it. 461 */ 462 justkey = (key & ~(KEYC_META|KEYC_IMPLIED_META)); 463 if (justkey <= 0x7f) { 464 if (key & KEYC_META) 465 input_key_write(__func__, bev, "\033", 1); 466 ud.data[0] = justkey; 467 input_key_write(__func__, bev, &ud.data[0], 1); 468 return (0); 469 } 470 if (KEYC_IS_UNICODE(justkey)) { 471 if (key & KEYC_META) 472 input_key_write(__func__, bev, "\033", 1); 473 utf8_to_data(justkey, &ud); 474 input_key_write(__func__, bev, ud.data, ud.size); 475 return (0); 476 } 477 478 /* 479 * Look up in the tree. If not in application keypad or cursor mode, 480 * remove the flags from the key. 481 */ 482 if (~s->mode & MODE_KKEYPAD) 483 key &= ~KEYC_KEYPAD; 484 if (~s->mode & MODE_KCURSOR) 485 key &= ~KEYC_CURSOR; 486 if (s->mode & MODE_KEXTENDED) 487 ike = input_key_get(key|KEYC_EXTENDED); 488 if (ike == NULL) 489 ike = input_key_get(key); 490 if (ike == NULL && (key & KEYC_META) && (~key & KEYC_IMPLIED_META)) 491 ike = input_key_get(key & ~KEYC_META); 492 if (ike == NULL && (key & KEYC_CURSOR)) 493 ike = input_key_get(key & ~KEYC_CURSOR); 494 if (ike == NULL && (key & KEYC_KEYPAD)) 495 ike = input_key_get(key & ~KEYC_KEYPAD); 496 if (ike == NULL && (key & KEYC_EXTENDED)) 497 ike = input_key_get(key & ~KEYC_EXTENDED); 498 if (ike != NULL) { 499 log_debug("found key 0x%llx: \"%s\"", key, ike->data); 500 if ((key & KEYC_META) && (~key & KEYC_IMPLIED_META)) 501 input_key_write(__func__, bev, "\033", 1); 502 input_key_write(__func__, bev, ike->data, strlen(ike->data)); 503 return (0); 504 } 505 506 /* No builtin key sequence; construct an extended key sequence. */ 507 if (~s->mode & MODE_KEXTENDED) { 508 if ((key & KEYC_MASK_MODIFIERS) != KEYC_CTRL) 509 goto missing; 510 justkey = (key & KEYC_MASK_KEY); 511 switch (justkey) { 512 case ' ': 513 case '2': 514 key = 0|(key & ~KEYC_MASK_KEY); 515 break; 516 case '|': 517 key = 28|(key & ~KEYC_MASK_KEY); 518 break; 519 case '6': 520 key = 30|(key & ~KEYC_MASK_KEY); 521 break; 522 case '-': 523 case '/': 524 key = 31|(key & ~KEYC_MASK_KEY); 525 break; 526 case '?': 527 key = 127|(key & ~KEYC_MASK_KEY); 528 break; 529 default: 530 if (justkey >= 'A' && justkey <= '_') 531 key = (justkey - 'A')|(key & ~KEYC_MASK_KEY); 532 else if (justkey >= 'a' && justkey <= '~') 533 key = (justkey - 96)|(key & ~KEYC_MASK_KEY); 534 else 535 return (0); 536 break; 537 } 538 return (input_key(s, bev, key & ~KEYC_CTRL)); 539 } 540 outkey = (key & KEYC_MASK_KEY); 541 modifiers = (key & KEYC_MASK_MODIFIERS); 542 if (outkey < 32 && outkey != 9 && outkey != 13 && outkey != 27) { 543 outkey = 64 + outkey; 544 modifiers |= KEYC_CTRL; 545 } 546 switch (modifiers) { 547 case KEYC_SHIFT: 548 modifier = '2'; 549 break; 550 case KEYC_META: 551 modifier = '3'; 552 break; 553 case KEYC_SHIFT|KEYC_META: 554 modifier = '4'; 555 break; 556 case KEYC_CTRL: 557 modifier = '5'; 558 break; 559 case KEYC_SHIFT|KEYC_CTRL: 560 modifier = '6'; 561 break; 562 case KEYC_META|KEYC_CTRL: 563 modifier = '7'; 564 break; 565 case KEYC_SHIFT|KEYC_META|KEYC_CTRL: 566 modifier = '8'; 567 break; 568 default: 569 goto missing; 570 } 571 xsnprintf(tmp, sizeof tmp, "\033[%llu;%cu", outkey, modifier); 572 input_key_write(__func__, bev, tmp, strlen(tmp)); 573 return (0); 574 575 missing: 576 log_debug("key 0x%llx missing", key); 577 return (-1); 578 } 579 580 /* Get mouse event string. */ 581 int 582 input_key_get_mouse(struct screen *s, struct mouse_event *m, u_int x, u_int y, 583 const char **rbuf, size_t *rlen) 584 { 585 static char buf[40]; 586 size_t len; 587 588 *rbuf = NULL; 589 *rlen = 0; 590 591 /* If this pane is not in button or all mode, discard motion events. */ 592 if (MOUSE_DRAG(m->b) && (s->mode & MOTION_MOUSE_MODES) == 0) 593 return (0); 594 if ((s->mode & ALL_MOUSE_MODES) == 0) 595 return (0); 596 597 /* 598 * If this event is a release event and not in all mode, discard it. 599 * In SGR mode we can tell absolutely because a release is normally 600 * shown by the last character. Without SGR, we check if the last 601 * buttons was also a release. 602 */ 603 if (m->sgr_type != ' ') { 604 if (MOUSE_DRAG(m->sgr_b) && 605 MOUSE_RELEASE(m->sgr_b) && 606 (~s->mode & MODE_MOUSE_ALL)) 607 return (0); 608 } else { 609 if (MOUSE_DRAG(m->b) && 610 MOUSE_RELEASE(m->b) && 611 MOUSE_RELEASE(m->lb) && 612 (~s->mode & MODE_MOUSE_ALL)) 613 return (0); 614 } 615 616 /* 617 * Use the SGR (1006) extension only if the application requested it 618 * and the underlying terminal also sent the event in this format (this 619 * is because an old style mouse release event cannot be converted into 620 * the new SGR format, since the released button is unknown). Otherwise 621 * pretend that tmux doesn't speak this extension, and fall back to the 622 * UTF-8 (1005) extension if the application requested, or to the 623 * legacy format. 624 */ 625 if (m->sgr_type != ' ' && (s->mode & MODE_MOUSE_SGR)) { 626 len = xsnprintf(buf, sizeof buf, "\033[<%u;%u;%u%c", 627 m->sgr_b, x + 1, y + 1, m->sgr_type); 628 } else if (s->mode & MODE_MOUSE_UTF8) { 629 if (m->b > MOUSE_PARAM_UTF8_MAX - MOUSE_PARAM_BTN_OFF || 630 x > MOUSE_PARAM_UTF8_MAX - MOUSE_PARAM_POS_OFF || 631 y > MOUSE_PARAM_UTF8_MAX - MOUSE_PARAM_POS_OFF) 632 return (0); 633 len = xsnprintf(buf, sizeof buf, "\033[M"); 634 len += input_key_split2(m->b + MOUSE_PARAM_BTN_OFF, &buf[len]); 635 len += input_key_split2(x + MOUSE_PARAM_POS_OFF, &buf[len]); 636 len += input_key_split2(y + MOUSE_PARAM_POS_OFF, &buf[len]); 637 } else { 638 if (m->b + MOUSE_PARAM_BTN_OFF > MOUSE_PARAM_MAX) 639 return (0); 640 641 len = xsnprintf(buf, sizeof buf, "\033[M"); 642 buf[len++] = m->b + MOUSE_PARAM_BTN_OFF; 643 644 /* 645 * The incoming x and y may be out of the range which can be 646 * supported by the "normal" mouse protocol. Clamp the 647 * coordinates to the supported range. 648 */ 649 if (x + MOUSE_PARAM_POS_OFF > MOUSE_PARAM_MAX) 650 buf[len++] = MOUSE_PARAM_MAX; 651 else 652 buf[len++] = x + MOUSE_PARAM_POS_OFF; 653 if (y + MOUSE_PARAM_POS_OFF > MOUSE_PARAM_MAX) 654 buf[len++] = MOUSE_PARAM_MAX; 655 else 656 buf[len++] = y + MOUSE_PARAM_POS_OFF; 657 } 658 659 *rbuf = buf; 660 *rlen = len; 661 return (1); 662 } 663 664 /* Translate mouse and output. */ 665 static void 666 input_key_mouse(struct window_pane *wp, struct mouse_event *m) 667 { 668 struct screen *s = wp->screen; 669 u_int x, y; 670 const char *buf; 671 size_t len; 672 673 /* Ignore events if no mouse mode or the pane is not visible. */ 674 if (m->ignore || (s->mode & ALL_MOUSE_MODES) == 0) 675 return; 676 if (cmd_mouse_at(wp, m, &x, &y, 0) != 0) 677 return; 678 if (!window_pane_visible(wp)) 679 return; 680 if (!input_key_get_mouse(s, m, x, y, &buf, &len)) 681 return; 682 log_debug("writing mouse %.*s to %%%u", (int)len, buf, wp->id); 683 input_key_write(__func__, wp->event, buf, len); 684 } 685