/* * BRLTTY - A background process providing access to the console screen (when in * text mode) for a blind person using a refreshable braille display. * * Copyright (C) 1995-2019 by The BRLTTY Developers. * * BRLTTY comes with ABSOLUTELY NO WARRANTY. * * This is free software, placed under the terms of the * GNU Lesser General Public License, as published by the Free Software * Foundation; either version 2.1 of the License, or (at your option) any * later version. Please see the file LICENSE-LGPL for details. * * Web Page: http://brltty.app/ * * This software is maintained by Dave Mielke . */ #include "prologue.h" #include #include "log.h" #include "report.h" #include "alert.h" #include "parameters.h" #include "cmd_queue.h" #include "cmd_input.h" #include "cmd_utils.h" #include "brl_cmds.h" #include "unicode.h" #include "ttb.h" #include "scr.h" #include "async_alarm.h" #include "core.h" typedef struct { ReportListenerInstance *resetListener; struct { AsyncHandle timeout; int on; int next; } modifiers; } InputCommandData; static void initializeModifierTimeout (InputCommandData *icd) { icd->modifiers.timeout = NULL; } static void cancelModifierTimeout (InputCommandData *icd) { if (icd->modifiers.timeout) { asyncCancelRequest(icd->modifiers.timeout); initializeModifierTimeout(icd); } } static void initializeModifierFlags (InputCommandData *icd) { icd->modifiers.on = 0; icd->modifiers.next = 0; } static void clearModifierFlags (InputCommandData *icd) { initializeModifierFlags(icd); alert(ALERT_MODIFIER_OFF); } ASYNC_ALARM_CALLBACK(handleStickyModifiersTimeout) { InputCommandData *icd = parameters->data; asyncDiscardHandle(icd->modifiers.timeout); initializeModifierTimeout(icd); clearModifierFlags(icd); } static int haveModifierFlags (InputCommandData *icd) { return icd->modifiers.on || icd->modifiers.next; } static int setModifierTimeout (InputCommandData *icd) { if (!haveModifierFlags(icd)) { cancelModifierTimeout(icd); return 1; } return icd->modifiers.timeout? asyncResetAlarmIn(icd->modifiers.timeout, INPUT_STICKY_MODIFIERS_TIMEOUT): asyncNewRelativeAlarm(&icd->modifiers.timeout, INPUT_STICKY_MODIFIERS_TIMEOUT, handleStickyModifiersTimeout, icd); } static void applyModifierFlags (InputCommandData *icd, int *flags) { *flags |= icd->modifiers.on; *flags |= icd->modifiers.next; icd->modifiers.next = 0; setModifierTimeout(icd); } static int insertKey (ScreenKey key, int flags) { if (flags & BRL_FLG_INPUT_SHIFT) key |= SCR_KEY_SHIFT; if (flags & BRL_FLG_INPUT_UPPER) key |= SCR_KEY_UPPER; if (flags & BRL_FLG_INPUT_CONTROL) key |= SCR_KEY_CONTROL; if (flags & BRL_FLG_INPUT_META) key |= SCR_KEY_ALT_LEFT; if (flags & BRL_FLG_INPUT_ALTGR) key |= SCR_KEY_ALT_RIGHT; if (flags & BRL_FLG_INPUT_GUI) key |= SCR_KEY_GUI; return insertScreenKey(key); } static void handleVirtualTerminalSwitched (int switched) { if (switched) { updateSessionAttributes(); } else { alert(ALERT_COMMAND_REJECTED); } } static int selectVirtualTerminal (int vt) { int selected = selectScreenVirtualTerminal(vt); if (selected) { updateSessionAttributes(); } else { alert(ALERT_COMMAND_REJECTED); } return selected; } static int handleInputCommands (int command, void *data) { InputCommandData *icd = data; switch (command & BRL_MSK_CMD) { case BRL_CMD_UNSTICK: { cancelModifierTimeout(icd); if (haveModifierFlags(icd)) { clearModifierFlags(icd); } else { alert(ALERT_COMMAND_REJECTED); } break; } { int flag; case BRL_CMD_SHIFT: flag = BRL_FLG_INPUT_SHIFT; goto doModifier; case BRL_CMD_UPPER: flag = BRL_FLG_INPUT_UPPER; goto doModifier; case BRL_CMD_CONTROL: flag = BRL_FLG_INPUT_CONTROL; goto doModifier; case BRL_CMD_META: flag = BRL_FLG_INPUT_META; goto doModifier; case BRL_CMD_ALTGR: flag = BRL_FLG_INPUT_ALTGR; goto doModifier; case BRL_CMD_GUI: flag = BRL_FLG_INPUT_GUI; goto doModifier; doModifier: cancelModifierTimeout(icd); if (icd->modifiers.on & flag) { icd->modifiers.on &= ~flag; icd->modifiers.next &= ~flag; alert(ALERT_MODIFIER_OFF); } else if (icd->modifiers.next & flag) { icd->modifiers.on |= flag; icd->modifiers.next &= ~flag; alert(ALERT_MODIFIER_ON); } else { icd->modifiers.next |= flag; alert(ALERT_MODIFIER_NEXT); } setModifierTimeout(icd); break; } case BRL_CMD_SWITCHVT_PREV: handleVirtualTerminalSwitched(previousScreenVirtualTerminal()); break; case BRL_CMD_SWITCHVT_NEXT: handleVirtualTerminalSwitched(nextScreenVirtualTerminal()); break; case BRL_CMD_SELECTVT_PREV: selectVirtualTerminal(scr.number-1); break; case BRL_CMD_SELECTVT_NEXT: selectVirtualTerminal(scr.number+1); break; default: { int arg = command & BRL_MSK_ARG; int flags = command & BRL_MSK_FLG; switch (command & BRL_MSK_BLK) { case BRL_CMD_BLK(PASSKEY): { ScreenKey key; switch (arg) { case BRL_KEY_ENTER: key = SCR_KEY_ENTER; break; case BRL_KEY_TAB: key = SCR_KEY_TAB; break; case BRL_KEY_BACKSPACE: key = SCR_KEY_BACKSPACE; break; case BRL_KEY_ESCAPE: key = SCR_KEY_ESCAPE; break; case BRL_KEY_CURSOR_LEFT: key = SCR_KEY_CURSOR_LEFT; break; case BRL_KEY_CURSOR_RIGHT: key = SCR_KEY_CURSOR_RIGHT; break; case BRL_KEY_CURSOR_UP: key = SCR_KEY_CURSOR_UP; break; case BRL_KEY_CURSOR_DOWN: key = SCR_KEY_CURSOR_DOWN; break; case BRL_KEY_PAGE_UP: key = SCR_KEY_PAGE_UP; break; case BRL_KEY_PAGE_DOWN: key = SCR_KEY_PAGE_DOWN; break; case BRL_KEY_HOME: key = SCR_KEY_HOME; break; case BRL_KEY_END: key = SCR_KEY_END; break; case BRL_KEY_INSERT: key = SCR_KEY_INSERT; break; case BRL_KEY_DELETE: key = SCR_KEY_DELETE; break; default: if (arg < BRL_KEY_FUNCTION) goto badKey; key = SCR_KEY_FUNCTION + (arg - BRL_KEY_FUNCTION); break; } applyModifierFlags(icd, &flags); if (!insertKey(key, flags)) { badKey: alert(ALERT_COMMAND_REJECTED); } break; } case BRL_CMD_BLK(PASSCHAR): { applyModifierFlags(icd, &flags); if (!insertKey(BRL_ARG_GET(command), flags)) alert(ALERT_COMMAND_REJECTED); break; } case BRL_CMD_BLK(PASSDOTS): { applyModifierFlags(icd, &flags); wchar_t character; switch (prefs.brailleInputMode) { case BRL_INPUT_TEXT: character = convertDotsToCharacter(textTable, arg); break; default: logMessage(LOG_WARNING, "unknown braille input mode: %u", prefs.brailleInputMode); /* fall through */ case BRL_INPUT_DOTS: character = UNICODE_BRAILLE_ROW | arg; break; } if (!insertKey(character, flags)) { alert(ALERT_COMMAND_REJECTED); } else if ((command & BRL_DOTC) && arg) { if (!insertKey(WC_C(' '), flags)) alert(ALERT_COMMAND_REJECTED); } break; } case BRL_CMD_BLK(SWITCHVT): handleVirtualTerminalSwitched(switchScreenVirtualTerminal(arg+1)); break; case BRL_CMD_BLK(SELECTVT): selectVirtualTerminal(arg+1); break; default: return 0; } break; } } return 1; } static void resetInputCommandData (InputCommandData *icd) { cancelModifierTimeout(icd); initializeModifierFlags(icd); } REPORT_LISTENER(inputCommandDataResetListener) { InputCommandData *icd = parameters->listenerData; resetInputCommandData(icd); } static void destroyInputCommandData (void *data) { InputCommandData *icd = data; unregisterReportListener(icd->resetListener); cancelModifierTimeout(icd); free(icd); } int addInputCommands (void) { InputCommandData *icd; if ((icd = malloc(sizeof(*icd)))) { memset(icd, 0, sizeof(*icd)); initializeModifierTimeout(icd); initializeModifierFlags(icd); if ((icd->resetListener = registerReportListener(REPORT_BRAILLE_DEVICE_ONLINE, inputCommandDataResetListener, icd))) { if (pushCommandHandler("input", KTB_CTX_DEFAULT, handleInputCommands, destroyInputCommandData, icd)) { return 1; } unregisterReportListener(icd->resetListener); } free(icd); } else { logMallocError(); } return 0; }