// // Most of this code has been taken from the wonderful XDOTOOL: https://github.com/jordansissel/xdotool/blob/master/COPYRIGHT // and modified to use XSendEvent instead of XTestFakeKeyEvent. #include #include #include #include "fast_xdo.h" extern "C" { // Needed to avoid C++ compiler name mangling #include } void fast_init_xkeyevent(const xdo_t *xdo, XKeyEvent *xk) { xk->display = xdo->xdpy; xk->subwindow = None; xk->time = CurrentTime; xk->same_screen = True; /* Should we set these at all? */ xk->x = xk->y = xk->x_root = xk->y_root = 1; } void fast_send_key(const xdo_t *xdo, Window window, charcodemap_t *key, int modstate, int is_press, useconds_t delay) { /* Properly ensure the modstate is set by finding a key * that activates each bit in the modifier state */ int mask = modstate | key->modmask; /* Since key events have 'state' (shift, etc) in the event, we don't * need to worry about key press ordering. */ XKeyEvent xk; fast_init_xkeyevent(xdo, &xk); xk.window = window; xk.keycode = key->code; xk.state = mask | (key->group << 13); xk.type = (is_press ? KeyPress : KeyRelease); XSendEvent(xdo->xdpy, xk.window, True, 0, (XEvent *)&xk); /* Skipping the usleep if delay is 0 is much faster than calling usleep(0) */ XFlush(xdo->xdpy); if (delay > 0) { usleep(delay); } } int fast_send_keysequence_window_list_do(const xdo_t *xdo, Window window, charcodemap_t *keys, int nkeys, int pressed, int *modifier, useconds_t delay) { int i = 0; int modstate = 0; int keymapchanged = 0; /* Find an unused keycode in case we need to bind unmapped keysyms */ KeySym *keysyms = NULL; int keysyms_per_keycode = 0; int scratch_keycode = 0; /* Scratch space for temporary keycode bindings */ keysyms = XGetKeyboardMapping(xdo->xdpy, xdo->keycode_low, xdo->keycode_high - xdo->keycode_low, &keysyms_per_keycode); /* Find a keycode that is unused for scratchspace */ for (i = xdo->keycode_low; i <= xdo->keycode_high; i++) { int j = 0; int key_is_empty = 1; for (j = 0; j < keysyms_per_keycode; j++) { /*char *symname;*/ int symindex = (i - xdo->keycode_low) * keysyms_per_keycode + j; /*symname = XKeysymToString(keysyms[symindex]);*/ if (keysyms[symindex] != 0) { key_is_empty = 0; } else { break; } } if (key_is_empty) { scratch_keycode = i; break; } } XFree(keysyms); /* Allow passing NULL for modifier in case we don't care about knowing * the modifier map state after we finish */ if (modifier == NULL) modifier = &modstate; for (i = 0; i < nkeys; i++) { if (keys[i].needs_binding == 1) { KeySym keysym_list[] = { keys[i].symbol }; //_xdo_debug(xdo, "Mapping sym %lu to %d", keys[i].symbol, scratch_keycode); XChangeKeyboardMapping(xdo->xdpy, scratch_keycode, 1, keysym_list, 1); XSync(xdo->xdpy, False); /* override the code in our current key to use the scratch_keycode */ keys[i].code = scratch_keycode; keymapchanged = 1; } //fprintf(stderr, "keyseqlist_do: Sending %lc %s (%d, mods %x)\n", //keys[i].key, (pressed ? "down" : "up"), keys[i].code, *modifier); fast_send_key(xdo, window, &(keys[i]), *modifier, pressed, delay); if (keys[i].needs_binding == 1) { /* If we needed to make a new keymapping for this keystroke, we * should sync with the server now, after the keypress, so that * the next mapping or removal doesn't conflict. */ XSync(xdo->xdpy, False); } if (pressed) { *modifier |= keys[i].modmask; } else { *modifier &= ~(keys[i].modmask); } } if (keymapchanged) { KeySym keysym_list[] = { 0 }; //printf(xdo, "Reverting scratch keycode (sym %lu to %d)", // keys[i].symbol, scratch_keycode); XChangeKeyboardMapping(xdo->xdpy, scratch_keycode, 1, keysym_list, 1); } /* Necessary? */ XFlush(xdo->xdpy); return XDO_SUCCESS; } KeySym fast_keysym_from_char(const xdo_t *xdo, wchar_t key) { int i = 0; int len = xdo->charcodes_len; //printf("Finding symbol for key '%c'\n", key); for (i = 0; i < len; i++) { //printf(" => %c vs %c (%d)\n", //key, xdo->charcodes[i].key, (xdo->charcodes[i].key == key)); if (xdo->charcodes[i].key == key) { //printf(" => MATCH to symbol: %lu\n", xdo->charcodes[i].symbol); return xdo->charcodes[i].symbol; } } if (key >= 0x100) key += 0x01000000; if (XKeysymToString(key)) return key; return NoSymbol; } void fast_charcodemap_from_keysym(const xdo_t *xdo, charcodemap_t *key, KeySym keysym) { int i = 0; int len = xdo->charcodes_len; key->code = 0; key->symbol = keysym; key->group = 0; key->modmask = 0; key->needs_binding = 1; for (i = 0; i < len; i++) { if (xdo->charcodes[i].symbol == keysym) { key->code = xdo->charcodes[i].code; key->group = xdo->charcodes[i].group; key->modmask = xdo->charcodes[i].modmask; key->needs_binding = 0; return; } } } void fast_charcodemap_from_char(const xdo_t *xdo, charcodemap_t *key) { KeySym keysym = fast_keysym_from_char(xdo, key->key); fast_charcodemap_from_keysym(xdo, key, keysym); } /* XXX: Return proper code if errors found */ int fast_enter_text_window(const xdo_t *xdo, Window window, const char *string, useconds_t delay) { /* Since we're doing down/up, the delay should be based on the number * of keys pressed (including shift). Since up/down is two calls, * divide by two. */ delay /= 2; /* XXX: Add error handling */ //int nkeys = strlen(string); //charcodemap_t *keys = calloc(nkeys, sizeof(charcodemap_t)); charcodemap_t key; //int modifier = 0; setlocale(LC_CTYPE,""); mbstate_t ps = { 0 }; ssize_t len; while ( (len = mbsrtowcs(&key.key, &string, 1, &ps)) ) { if (len == -1) { fprintf(stderr, "Invalid multi-byte sequence encountered\n"); return XDO_ERROR; } fast_charcodemap_from_char(xdo, &key); if (key.code == 0 && key.symbol == NoSymbol) { fprintf(stderr, "I don't what key produces '%lc', skipping.\n", key.key); continue; } else { //printf("Found key for %c\n", key.key); //printf("code: %d\n", key.code); //printf("sym: %s\n", XKeysymToString(key.symbol)); } //printf(stderr, //"Key '%c' maps to code %d / sym %lu in group %d / mods %d (%s)\n", //key.key, key.code, key.symbol, key.group, key.modmask, //(key.needs_binding == 1) ? "needs binding" : "ok"); //_xdo_send_key(xdo, window, keycode, modstate, True, delay); //_xdo_send_key(xdo, window, keycode, modstate, False, delay); fast_send_keysequence_window_list_do(xdo, window, &key, 1, True, NULL, delay / 2); key.needs_binding = 0; fast_send_keysequence_window_list_do(xdo, window, &key, 1, False, NULL, delay / 2); XFlush(xdo->xdpy); } /* walk string generating a keysequence */ //free(keys); return XDO_SUCCESS; } void fast_send_event(const xdo_t *xdo, Window window, int keycode, int pressed) { XKeyEvent xk; xk.display = xdo->xdpy; xk.window = window; xk.root = XDefaultRootWindow(xdo->xdpy); xk.subwindow = None; xk.time = CurrentTime; xk.x = 1; xk.y = 1; xk.x_root = 1; xk.y_root = 1; xk.same_screen = True; xk.keycode = keycode; xk.state = 0; xk.type = (pressed ? KeyPress : KeyRelease); XEvent event; event.xkey =xk; XSendEvent(xdo->xdpy, window, True, 0, &event); }