1 /*
2 * Copyright (C) 2008 The Android Open Source Project
3 *
4 * Licensed under the Apache License, Version 2.0 (the "License");
5 * you may not use this file except in compliance with the License.
6 * You may obtain a copy of the License at
7 *
8 * http://www.apache.org/licenses/LICENSE-2.0
9 *
10 * Unless required by applicable law or agreed to in writing, software
11 * distributed under the License is distributed on an "AS IS" BASIS,
12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13 * See the License for the specific language governing permissions and
14 * limitations under the License.
15 */
16
17 #define LOG_TAG "KeyCharacterMap"
18
19 #include <stdlib.h>
20 #include <string.h>
21
22 #ifdef __ANDROID__
23 #include <binder/Parcel.h>
24 #endif
25
26 #include <android/keycodes.h>
27 #include <input/InputEventLabels.h>
28 #include <input/Keyboard.h>
29 #include <input/KeyCharacterMap.h>
30
31 #include <utils/Log.h>
32 #include <utils/Errors.h>
33 #include <utils/Tokenizer.h>
34 #include <utils/Timers.h>
35
36 // Enables debug output for the parser.
37 #define DEBUG_PARSER 0
38
39 // Enables debug output for parser performance.
40 #define DEBUG_PARSER_PERFORMANCE 0
41
42 // Enables debug output for mapping.
43 #define DEBUG_MAPPING 0
44
45
46 namespace android {
47
48 static const char* WHITESPACE = " \t\r";
49 static const char* WHITESPACE_OR_PROPERTY_DELIMITER = " \t\r,:";
50
51 struct Modifier {
52 const char* label;
53 int32_t metaState;
54 };
55 static const Modifier modifiers[] = {
56 { "shift", AMETA_SHIFT_ON },
57 { "lshift", AMETA_SHIFT_LEFT_ON },
58 { "rshift", AMETA_SHIFT_RIGHT_ON },
59 { "alt", AMETA_ALT_ON },
60 { "lalt", AMETA_ALT_LEFT_ON },
61 { "ralt", AMETA_ALT_RIGHT_ON },
62 { "ctrl", AMETA_CTRL_ON },
63 { "lctrl", AMETA_CTRL_LEFT_ON },
64 { "rctrl", AMETA_CTRL_RIGHT_ON },
65 { "meta", AMETA_META_ON },
66 { "lmeta", AMETA_META_LEFT_ON },
67 { "rmeta", AMETA_META_RIGHT_ON },
68 { "sym", AMETA_SYM_ON },
69 { "fn", AMETA_FUNCTION_ON },
70 { "capslock", AMETA_CAPS_LOCK_ON },
71 { "numlock", AMETA_NUM_LOCK_ON },
72 { "scrolllock", AMETA_SCROLL_LOCK_ON },
73 };
74
75 #if DEBUG_MAPPING
toString(const char16_t * chars,size_t numChars)76 static String8 toString(const char16_t* chars, size_t numChars) {
77 String8 result;
78 for (size_t i = 0; i < numChars; i++) {
79 result.appendFormat(i == 0 ? "%d" : ", %d", chars[i]);
80 }
81 return result;
82 }
83 #endif
84
85
86 // --- KeyCharacterMap ---
87
88 sp<KeyCharacterMap> KeyCharacterMap::sEmpty = new KeyCharacterMap();
89
KeyCharacterMap()90 KeyCharacterMap::KeyCharacterMap() :
91 mType(KEYBOARD_TYPE_UNKNOWN) {
92 }
93
KeyCharacterMap(const KeyCharacterMap & other)94 KeyCharacterMap::KeyCharacterMap(const KeyCharacterMap& other) :
95 RefBase(), mType(other.mType), mKeysByScanCode(other.mKeysByScanCode),
96 mKeysByUsageCode(other.mKeysByUsageCode) {
97 for (size_t i = 0; i < other.mKeys.size(); i++) {
98 mKeys.add(other.mKeys.keyAt(i), new Key(*other.mKeys.valueAt(i)));
99 }
100 }
101
~KeyCharacterMap()102 KeyCharacterMap::~KeyCharacterMap() {
103 for (size_t i = 0; i < mKeys.size(); i++) {
104 Key* key = mKeys.editValueAt(i);
105 delete key;
106 }
107 }
108
load(const std::string & filename,Format format,sp<KeyCharacterMap> * outMap)109 status_t KeyCharacterMap::load(const std::string& filename,
110 Format format, sp<KeyCharacterMap>* outMap) {
111 outMap->clear();
112
113 Tokenizer* tokenizer;
114 status_t status = Tokenizer::open(String8(filename.c_str()), &tokenizer);
115 if (status) {
116 ALOGE("Error %d opening key character map file %s.", status, filename.c_str());
117 } else {
118 status = load(tokenizer, format, outMap);
119 delete tokenizer;
120 }
121 return status;
122 }
123
loadContents(const std::string & filename,const char * contents,Format format,sp<KeyCharacterMap> * outMap)124 status_t KeyCharacterMap::loadContents(const std::string& filename, const char* contents,
125 Format format, sp<KeyCharacterMap>* outMap) {
126 outMap->clear();
127
128 Tokenizer* tokenizer;
129 status_t status = Tokenizer::fromContents(String8(filename.c_str()), contents, &tokenizer);
130 if (status) {
131 ALOGE("Error %d opening key character map.", status);
132 } else {
133 status = load(tokenizer, format, outMap);
134 delete tokenizer;
135 }
136 return status;
137 }
138
load(Tokenizer * tokenizer,Format format,sp<KeyCharacterMap> * outMap)139 status_t KeyCharacterMap::load(Tokenizer* tokenizer,
140 Format format, sp<KeyCharacterMap>* outMap) {
141 status_t status = OK;
142 sp<KeyCharacterMap> map = new KeyCharacterMap();
143 if (!map.get()) {
144 ALOGE("Error allocating key character map.");
145 status = NO_MEMORY;
146 } else {
147 #if DEBUG_PARSER_PERFORMANCE
148 nsecs_t startTime = systemTime(SYSTEM_TIME_MONOTONIC);
149 #endif
150 Parser parser(map.get(), tokenizer, format);
151 status = parser.parse();
152 #if DEBUG_PARSER_PERFORMANCE
153 nsecs_t elapsedTime = systemTime(SYSTEM_TIME_MONOTONIC) - startTime;
154 ALOGD("Parsed key character map file '%s' %d lines in %0.3fms.",
155 tokenizer->getFilename().string(), tokenizer->getLineNumber(),
156 elapsedTime / 1000000.0);
157 #endif
158 if (!status) {
159 *outMap = map;
160 }
161 }
162 return status;
163 }
164
combine(const sp<KeyCharacterMap> & base,const sp<KeyCharacterMap> & overlay)165 sp<KeyCharacterMap> KeyCharacterMap::combine(const sp<KeyCharacterMap>& base,
166 const sp<KeyCharacterMap>& overlay) {
167 if (overlay == nullptr) {
168 return base;
169 }
170 if (base == nullptr) {
171 return overlay;
172 }
173
174 sp<KeyCharacterMap> map = new KeyCharacterMap(*base.get());
175 for (size_t i = 0; i < overlay->mKeys.size(); i++) {
176 int32_t keyCode = overlay->mKeys.keyAt(i);
177 Key* key = overlay->mKeys.valueAt(i);
178 ssize_t oldIndex = map->mKeys.indexOfKey(keyCode);
179 if (oldIndex >= 0) {
180 delete map->mKeys.valueAt(oldIndex);
181 map->mKeys.editValueAt(oldIndex) = new Key(*key);
182 } else {
183 map->mKeys.add(keyCode, new Key(*key));
184 }
185 }
186
187 for (size_t i = 0; i < overlay->mKeysByScanCode.size(); i++) {
188 map->mKeysByScanCode.replaceValueFor(overlay->mKeysByScanCode.keyAt(i),
189 overlay->mKeysByScanCode.valueAt(i));
190 }
191
192 for (size_t i = 0; i < overlay->mKeysByUsageCode.size(); i++) {
193 map->mKeysByUsageCode.replaceValueFor(overlay->mKeysByUsageCode.keyAt(i),
194 overlay->mKeysByUsageCode.valueAt(i));
195 }
196 return map;
197 }
198
empty()199 sp<KeyCharacterMap> KeyCharacterMap::empty() {
200 return sEmpty;
201 }
202
getKeyboardType() const203 int32_t KeyCharacterMap::getKeyboardType() const {
204 return mType;
205 }
206
getDisplayLabel(int32_t keyCode) const207 char16_t KeyCharacterMap::getDisplayLabel(int32_t keyCode) const {
208 char16_t result = 0;
209 const Key* key;
210 if (getKey(keyCode, &key)) {
211 result = key->label;
212 }
213 #if DEBUG_MAPPING
214 ALOGD("getDisplayLabel: keyCode=%d ~ Result %d.", keyCode, result);
215 #endif
216 return result;
217 }
218
getNumber(int32_t keyCode) const219 char16_t KeyCharacterMap::getNumber(int32_t keyCode) const {
220 char16_t result = 0;
221 const Key* key;
222 if (getKey(keyCode, &key)) {
223 result = key->number;
224 }
225 #if DEBUG_MAPPING
226 ALOGD("getNumber: keyCode=%d ~ Result %d.", keyCode, result);
227 #endif
228 return result;
229 }
230
getCharacter(int32_t keyCode,int32_t metaState) const231 char16_t KeyCharacterMap::getCharacter(int32_t keyCode, int32_t metaState) const {
232 char16_t result = 0;
233 const Key* key;
234 const Behavior* behavior;
235 if (getKeyBehavior(keyCode, metaState, &key, &behavior)) {
236 result = behavior->character;
237 }
238 #if DEBUG_MAPPING
239 ALOGD("getCharacter: keyCode=%d, metaState=0x%08x ~ Result %d.", keyCode, metaState, result);
240 #endif
241 return result;
242 }
243
getFallbackAction(int32_t keyCode,int32_t metaState,FallbackAction * outFallbackAction) const244 bool KeyCharacterMap::getFallbackAction(int32_t keyCode, int32_t metaState,
245 FallbackAction* outFallbackAction) const {
246 outFallbackAction->keyCode = 0;
247 outFallbackAction->metaState = 0;
248
249 bool result = false;
250 const Key* key;
251 const Behavior* behavior;
252 if (getKeyBehavior(keyCode, metaState, &key, &behavior)) {
253 if (behavior->fallbackKeyCode) {
254 outFallbackAction->keyCode = behavior->fallbackKeyCode;
255 outFallbackAction->metaState = metaState & ~behavior->metaState;
256 result = true;
257 }
258 }
259 #if DEBUG_MAPPING
260 ALOGD("getFallbackKeyCode: keyCode=%d, metaState=0x%08x ~ Result %s, "
261 "fallback keyCode=%d, fallback metaState=0x%08x.",
262 keyCode, metaState, result ? "true" : "false",
263 outFallbackAction->keyCode, outFallbackAction->metaState);
264 #endif
265 return result;
266 }
267
getMatch(int32_t keyCode,const char16_t * chars,size_t numChars,int32_t metaState) const268 char16_t KeyCharacterMap::getMatch(int32_t keyCode, const char16_t* chars, size_t numChars,
269 int32_t metaState) const {
270 char16_t result = 0;
271 const Key* key;
272 if (getKey(keyCode, &key)) {
273 // Try to find the most general behavior that maps to this character.
274 // For example, the base key behavior will usually be last in the list.
275 // However, if we find a perfect meta state match for one behavior then use that one.
276 for (const Behavior* behavior = key->firstBehavior; behavior; behavior = behavior->next) {
277 if (behavior->character) {
278 for (size_t i = 0; i < numChars; i++) {
279 if (behavior->character == chars[i]) {
280 result = behavior->character;
281 if ((behavior->metaState & metaState) == behavior->metaState) {
282 goto ExactMatch;
283 }
284 break;
285 }
286 }
287 }
288 }
289 ExactMatch: ;
290 }
291 #if DEBUG_MAPPING
292 ALOGD("getMatch: keyCode=%d, chars=[%s], metaState=0x%08x ~ Result %d.",
293 keyCode, toString(chars, numChars).string(), metaState, result);
294 #endif
295 return result;
296 }
297
getEvents(int32_t deviceId,const char16_t * chars,size_t numChars,Vector<KeyEvent> & outEvents) const298 bool KeyCharacterMap::getEvents(int32_t deviceId, const char16_t* chars, size_t numChars,
299 Vector<KeyEvent>& outEvents) const {
300 nsecs_t now = systemTime(SYSTEM_TIME_MONOTONIC);
301
302 for (size_t i = 0; i < numChars; i++) {
303 int32_t keyCode, metaState;
304 char16_t ch = chars[i];
305 if (!findKey(ch, &keyCode, &metaState)) {
306 #if DEBUG_MAPPING
307 ALOGD("getEvents: deviceId=%d, chars=[%s] ~ Failed to find mapping for character %d.",
308 deviceId, toString(chars, numChars).string(), ch);
309 #endif
310 return false;
311 }
312
313 int32_t currentMetaState = 0;
314 addMetaKeys(outEvents, deviceId, metaState, true, now, ¤tMetaState);
315 addKey(outEvents, deviceId, keyCode, currentMetaState, true, now);
316 addKey(outEvents, deviceId, keyCode, currentMetaState, false, now);
317 addMetaKeys(outEvents, deviceId, metaState, false, now, ¤tMetaState);
318 }
319 #if DEBUG_MAPPING
320 ALOGD("getEvents: deviceId=%d, chars=[%s] ~ Generated %d events.",
321 deviceId, toString(chars, numChars).string(), int32_t(outEvents.size()));
322 for (size_t i = 0; i < outEvents.size(); i++) {
323 ALOGD(" Key: keyCode=%d, metaState=0x%08x, %s.",
324 outEvents[i].getKeyCode(), outEvents[i].getMetaState(),
325 outEvents[i].getAction() == AKEY_EVENT_ACTION_DOWN ? "down" : "up");
326 }
327 #endif
328 return true;
329 }
330
mapKey(int32_t scanCode,int32_t usageCode,int32_t * outKeyCode) const331 status_t KeyCharacterMap::mapKey(int32_t scanCode, int32_t usageCode, int32_t* outKeyCode) const {
332 if (usageCode) {
333 ssize_t index = mKeysByUsageCode.indexOfKey(usageCode);
334 if (index >= 0) {
335 *outKeyCode = mKeysByUsageCode.valueAt(index);
336 #if DEBUG_MAPPING
337 ALOGD("mapKey: scanCode=%d, usageCode=0x%08x ~ Result keyCode=%d.",
338 scanCode, usageCode, *outKeyCode);
339 #endif
340 return OK;
341 }
342 }
343 if (scanCode) {
344 ssize_t index = mKeysByScanCode.indexOfKey(scanCode);
345 if (index >= 0) {
346 *outKeyCode = mKeysByScanCode.valueAt(index);
347 #if DEBUG_MAPPING
348 ALOGD("mapKey: scanCode=%d, usageCode=0x%08x ~ Result keyCode=%d.",
349 scanCode, usageCode, *outKeyCode);
350 #endif
351 return OK;
352 }
353 }
354
355 #if DEBUG_MAPPING
356 ALOGD("mapKey: scanCode=%d, usageCode=0x%08x ~ Failed.", scanCode, usageCode);
357 #endif
358 *outKeyCode = AKEYCODE_UNKNOWN;
359 return NAME_NOT_FOUND;
360 }
361
tryRemapKey(int32_t keyCode,int32_t metaState,int32_t * outKeyCode,int32_t * outMetaState) const362 void KeyCharacterMap::tryRemapKey(int32_t keyCode, int32_t metaState,
363 int32_t *outKeyCode, int32_t *outMetaState) const {
364 *outKeyCode = keyCode;
365 *outMetaState = metaState;
366
367 const Key* key;
368 const Behavior* behavior;
369 if (getKeyBehavior(keyCode, metaState, &key, &behavior)) {
370 if (behavior->replacementKeyCode) {
371 *outKeyCode = behavior->replacementKeyCode;
372 int32_t newMetaState = metaState & ~behavior->metaState;
373 // Reset dependent meta states.
374 if (behavior->metaState & AMETA_ALT_ON) {
375 newMetaState &= ~(AMETA_ALT_LEFT_ON | AMETA_ALT_RIGHT_ON);
376 }
377 if (behavior->metaState & (AMETA_ALT_LEFT_ON | AMETA_ALT_RIGHT_ON)) {
378 newMetaState &= ~AMETA_ALT_ON;
379 }
380 if (behavior->metaState & AMETA_CTRL_ON) {
381 newMetaState &= ~(AMETA_CTRL_LEFT_ON | AMETA_CTRL_RIGHT_ON);
382 }
383 if (behavior->metaState & (AMETA_CTRL_LEFT_ON | AMETA_CTRL_RIGHT_ON)) {
384 newMetaState &= ~AMETA_CTRL_ON;
385 }
386 if (behavior->metaState & AMETA_SHIFT_ON) {
387 newMetaState &= ~(AMETA_SHIFT_LEFT_ON | AMETA_SHIFT_RIGHT_ON);
388 }
389 if (behavior->metaState & (AMETA_SHIFT_LEFT_ON | AMETA_SHIFT_RIGHT_ON)) {
390 newMetaState &= ~AMETA_SHIFT_ON;
391 }
392 // ... and put universal bits back if needed
393 *outMetaState = normalizeMetaState(newMetaState);
394 }
395 }
396
397 #if DEBUG_MAPPING
398 ALOGD("tryRemapKey: keyCode=%d, metaState=0x%08x ~ "
399 "replacement keyCode=%d, replacement metaState=0x%08x.",
400 keyCode, metaState, *outKeyCode, *outMetaState);
401 #endif
402 }
403
getKey(int32_t keyCode,const Key ** outKey) const404 bool KeyCharacterMap::getKey(int32_t keyCode, const Key** outKey) const {
405 ssize_t index = mKeys.indexOfKey(keyCode);
406 if (index >= 0) {
407 *outKey = mKeys.valueAt(index);
408 return true;
409 }
410 return false;
411 }
412
getKeyBehavior(int32_t keyCode,int32_t metaState,const Key ** outKey,const Behavior ** outBehavior) const413 bool KeyCharacterMap::getKeyBehavior(int32_t keyCode, int32_t metaState,
414 const Key** outKey, const Behavior** outBehavior) const {
415 const Key* key;
416 if (getKey(keyCode, &key)) {
417 const Behavior* behavior = key->firstBehavior;
418 while (behavior) {
419 if (matchesMetaState(metaState, behavior->metaState)) {
420 *outKey = key;
421 *outBehavior = behavior;
422 return true;
423 }
424 behavior = behavior->next;
425 }
426 }
427 return false;
428 }
429
matchesMetaState(int32_t eventMetaState,int32_t behaviorMetaState)430 bool KeyCharacterMap::matchesMetaState(int32_t eventMetaState, int32_t behaviorMetaState) {
431 // Behavior must have at least the set of meta states specified.
432 // And if the key event has CTRL, ALT or META then the behavior must exactly
433 // match those, taking into account that a behavior can specify that it handles
434 // one, both or either of a left/right modifier pair.
435 if ((eventMetaState & behaviorMetaState) == behaviorMetaState) {
436 const int32_t EXACT_META_STATES =
437 AMETA_CTRL_ON | AMETA_CTRL_LEFT_ON | AMETA_CTRL_RIGHT_ON
438 | AMETA_ALT_ON | AMETA_ALT_LEFT_ON | AMETA_ALT_RIGHT_ON
439 | AMETA_META_ON | AMETA_META_LEFT_ON | AMETA_META_RIGHT_ON;
440 int32_t unmatchedMetaState = eventMetaState & ~behaviorMetaState & EXACT_META_STATES;
441 if (behaviorMetaState & AMETA_CTRL_ON) {
442 unmatchedMetaState &= ~(AMETA_CTRL_LEFT_ON | AMETA_CTRL_RIGHT_ON);
443 } else if (behaviorMetaState & (AMETA_CTRL_LEFT_ON | AMETA_CTRL_RIGHT_ON)) {
444 unmatchedMetaState &= ~AMETA_CTRL_ON;
445 }
446 if (behaviorMetaState & AMETA_ALT_ON) {
447 unmatchedMetaState &= ~(AMETA_ALT_LEFT_ON | AMETA_ALT_RIGHT_ON);
448 } else if (behaviorMetaState & (AMETA_ALT_LEFT_ON | AMETA_ALT_RIGHT_ON)) {
449 unmatchedMetaState &= ~AMETA_ALT_ON;
450 }
451 if (behaviorMetaState & AMETA_META_ON) {
452 unmatchedMetaState &= ~(AMETA_META_LEFT_ON | AMETA_META_RIGHT_ON);
453 } else if (behaviorMetaState & (AMETA_META_LEFT_ON | AMETA_META_RIGHT_ON)) {
454 unmatchedMetaState &= ~AMETA_META_ON;
455 }
456 return !unmatchedMetaState;
457 }
458 return false;
459 }
460
findKey(char16_t ch,int32_t * outKeyCode,int32_t * outMetaState) const461 bool KeyCharacterMap::findKey(char16_t ch, int32_t* outKeyCode, int32_t* outMetaState) const {
462 if (!ch) {
463 return false;
464 }
465
466 for (size_t i = 0; i < mKeys.size(); i++) {
467 const Key* key = mKeys.valueAt(i);
468
469 // Try to find the most general behavior that maps to this character.
470 // For example, the base key behavior will usually be last in the list.
471 const Behavior* found = nullptr;
472 for (const Behavior* behavior = key->firstBehavior; behavior; behavior = behavior->next) {
473 if (behavior->character == ch) {
474 found = behavior;
475 }
476 }
477 if (found) {
478 *outKeyCode = mKeys.keyAt(i);
479 *outMetaState = found->metaState;
480 return true;
481 }
482 }
483 return false;
484 }
485
addKey(Vector<KeyEvent> & outEvents,int32_t deviceId,int32_t keyCode,int32_t metaState,bool down,nsecs_t time)486 void KeyCharacterMap::addKey(Vector<KeyEvent>& outEvents,
487 int32_t deviceId, int32_t keyCode, int32_t metaState, bool down, nsecs_t time) {
488 outEvents.push();
489 KeyEvent& event = outEvents.editTop();
490 event.initialize(InputEvent::nextId(), deviceId, AINPUT_SOURCE_KEYBOARD, ADISPLAY_ID_NONE,
491 INVALID_HMAC, down ? AKEY_EVENT_ACTION_DOWN : AKEY_EVENT_ACTION_UP, 0, keyCode,
492 0, metaState, 0, time, time);
493 }
494
addMetaKeys(Vector<KeyEvent> & outEvents,int32_t deviceId,int32_t metaState,bool down,nsecs_t time,int32_t * currentMetaState)495 void KeyCharacterMap::addMetaKeys(Vector<KeyEvent>& outEvents,
496 int32_t deviceId, int32_t metaState, bool down, nsecs_t time,
497 int32_t* currentMetaState) {
498 // Add and remove meta keys symmetrically.
499 if (down) {
500 addLockedMetaKey(outEvents, deviceId, metaState, time,
501 AKEYCODE_CAPS_LOCK, AMETA_CAPS_LOCK_ON, currentMetaState);
502 addLockedMetaKey(outEvents, deviceId, metaState, time,
503 AKEYCODE_NUM_LOCK, AMETA_NUM_LOCK_ON, currentMetaState);
504 addLockedMetaKey(outEvents, deviceId, metaState, time,
505 AKEYCODE_SCROLL_LOCK, AMETA_SCROLL_LOCK_ON, currentMetaState);
506
507 addDoubleEphemeralMetaKey(outEvents, deviceId, metaState, true, time,
508 AKEYCODE_SHIFT_LEFT, AMETA_SHIFT_LEFT_ON,
509 AKEYCODE_SHIFT_RIGHT, AMETA_SHIFT_RIGHT_ON,
510 AMETA_SHIFT_ON, currentMetaState);
511 addDoubleEphemeralMetaKey(outEvents, deviceId, metaState, true, time,
512 AKEYCODE_ALT_LEFT, AMETA_ALT_LEFT_ON,
513 AKEYCODE_ALT_RIGHT, AMETA_ALT_RIGHT_ON,
514 AMETA_ALT_ON, currentMetaState);
515 addDoubleEphemeralMetaKey(outEvents, deviceId, metaState, true, time,
516 AKEYCODE_CTRL_LEFT, AMETA_CTRL_LEFT_ON,
517 AKEYCODE_CTRL_RIGHT, AMETA_CTRL_RIGHT_ON,
518 AMETA_CTRL_ON, currentMetaState);
519 addDoubleEphemeralMetaKey(outEvents, deviceId, metaState, true, time,
520 AKEYCODE_META_LEFT, AMETA_META_LEFT_ON,
521 AKEYCODE_META_RIGHT, AMETA_META_RIGHT_ON,
522 AMETA_META_ON, currentMetaState);
523
524 addSingleEphemeralMetaKey(outEvents, deviceId, metaState, true, time,
525 AKEYCODE_SYM, AMETA_SYM_ON, currentMetaState);
526 addSingleEphemeralMetaKey(outEvents, deviceId, metaState, true, time,
527 AKEYCODE_FUNCTION, AMETA_FUNCTION_ON, currentMetaState);
528 } else {
529 addSingleEphemeralMetaKey(outEvents, deviceId, metaState, false, time,
530 AKEYCODE_FUNCTION, AMETA_FUNCTION_ON, currentMetaState);
531 addSingleEphemeralMetaKey(outEvents, deviceId, metaState, false, time,
532 AKEYCODE_SYM, AMETA_SYM_ON, currentMetaState);
533
534 addDoubleEphemeralMetaKey(outEvents, deviceId, metaState, false, time,
535 AKEYCODE_META_LEFT, AMETA_META_LEFT_ON,
536 AKEYCODE_META_RIGHT, AMETA_META_RIGHT_ON,
537 AMETA_META_ON, currentMetaState);
538 addDoubleEphemeralMetaKey(outEvents, deviceId, metaState, false, time,
539 AKEYCODE_CTRL_LEFT, AMETA_CTRL_LEFT_ON,
540 AKEYCODE_CTRL_RIGHT, AMETA_CTRL_RIGHT_ON,
541 AMETA_CTRL_ON, currentMetaState);
542 addDoubleEphemeralMetaKey(outEvents, deviceId, metaState, false, time,
543 AKEYCODE_ALT_LEFT, AMETA_ALT_LEFT_ON,
544 AKEYCODE_ALT_RIGHT, AMETA_ALT_RIGHT_ON,
545 AMETA_ALT_ON, currentMetaState);
546 addDoubleEphemeralMetaKey(outEvents, deviceId, metaState, false, time,
547 AKEYCODE_SHIFT_LEFT, AMETA_SHIFT_LEFT_ON,
548 AKEYCODE_SHIFT_RIGHT, AMETA_SHIFT_RIGHT_ON,
549 AMETA_SHIFT_ON, currentMetaState);
550
551 addLockedMetaKey(outEvents, deviceId, metaState, time,
552 AKEYCODE_SCROLL_LOCK, AMETA_SCROLL_LOCK_ON, currentMetaState);
553 addLockedMetaKey(outEvents, deviceId, metaState, time,
554 AKEYCODE_NUM_LOCK, AMETA_NUM_LOCK_ON, currentMetaState);
555 addLockedMetaKey(outEvents, deviceId, metaState, time,
556 AKEYCODE_CAPS_LOCK, AMETA_CAPS_LOCK_ON, currentMetaState);
557 }
558 }
559
addSingleEphemeralMetaKey(Vector<KeyEvent> & outEvents,int32_t deviceId,int32_t metaState,bool down,nsecs_t time,int32_t keyCode,int32_t keyMetaState,int32_t * currentMetaState)560 bool KeyCharacterMap::addSingleEphemeralMetaKey(Vector<KeyEvent>& outEvents,
561 int32_t deviceId, int32_t metaState, bool down, nsecs_t time,
562 int32_t keyCode, int32_t keyMetaState,
563 int32_t* currentMetaState) {
564 if ((metaState & keyMetaState) == keyMetaState) {
565 *currentMetaState = updateMetaState(keyCode, down, *currentMetaState);
566 addKey(outEvents, deviceId, keyCode, *currentMetaState, down, time);
567 return true;
568 }
569 return false;
570 }
571
addDoubleEphemeralMetaKey(Vector<KeyEvent> & outEvents,int32_t deviceId,int32_t metaState,bool down,nsecs_t time,int32_t leftKeyCode,int32_t leftKeyMetaState,int32_t rightKeyCode,int32_t rightKeyMetaState,int32_t eitherKeyMetaState,int32_t * currentMetaState)572 void KeyCharacterMap::addDoubleEphemeralMetaKey(Vector<KeyEvent>& outEvents,
573 int32_t deviceId, int32_t metaState, bool down, nsecs_t time,
574 int32_t leftKeyCode, int32_t leftKeyMetaState,
575 int32_t rightKeyCode, int32_t rightKeyMetaState,
576 int32_t eitherKeyMetaState,
577 int32_t* currentMetaState) {
578 bool specific = false;
579 specific |= addSingleEphemeralMetaKey(outEvents, deviceId, metaState, down, time,
580 leftKeyCode, leftKeyMetaState, currentMetaState);
581 specific |= addSingleEphemeralMetaKey(outEvents, deviceId, metaState, down, time,
582 rightKeyCode, rightKeyMetaState, currentMetaState);
583
584 if (!specific) {
585 addSingleEphemeralMetaKey(outEvents, deviceId, metaState, down, time,
586 leftKeyCode, eitherKeyMetaState, currentMetaState);
587 }
588 }
589
addLockedMetaKey(Vector<KeyEvent> & outEvents,int32_t deviceId,int32_t metaState,nsecs_t time,int32_t keyCode,int32_t keyMetaState,int32_t * currentMetaState)590 void KeyCharacterMap::addLockedMetaKey(Vector<KeyEvent>& outEvents,
591 int32_t deviceId, int32_t metaState, nsecs_t time,
592 int32_t keyCode, int32_t keyMetaState,
593 int32_t* currentMetaState) {
594 if ((metaState & keyMetaState) == keyMetaState) {
595 *currentMetaState = updateMetaState(keyCode, true, *currentMetaState);
596 addKey(outEvents, deviceId, keyCode, *currentMetaState, true, time);
597 *currentMetaState = updateMetaState(keyCode, false, *currentMetaState);
598 addKey(outEvents, deviceId, keyCode, *currentMetaState, false, time);
599 }
600 }
601
602 #ifdef __ANDROID__
readFromParcel(Parcel * parcel)603 sp<KeyCharacterMap> KeyCharacterMap::readFromParcel(Parcel* parcel) {
604 sp<KeyCharacterMap> map = new KeyCharacterMap();
605 map->mType = parcel->readInt32();
606 size_t numKeys = parcel->readInt32();
607 if (parcel->errorCheck()) {
608 return nullptr;
609 }
610 if (numKeys > MAX_KEYS) {
611 ALOGE("Too many keys in KeyCharacterMap (%zu > %d)", numKeys, MAX_KEYS);
612 return nullptr;
613 }
614
615 for (size_t i = 0; i < numKeys; i++) {
616 int32_t keyCode = parcel->readInt32();
617 char16_t label = parcel->readInt32();
618 char16_t number = parcel->readInt32();
619 if (parcel->errorCheck()) {
620 return nullptr;
621 }
622
623 Key* key = new Key();
624 key->label = label;
625 key->number = number;
626 map->mKeys.add(keyCode, key);
627
628 Behavior* lastBehavior = nullptr;
629 while (parcel->readInt32()) {
630 int32_t metaState = parcel->readInt32();
631 char16_t character = parcel->readInt32();
632 int32_t fallbackKeyCode = parcel->readInt32();
633 int32_t replacementKeyCode = parcel->readInt32();
634 if (parcel->errorCheck()) {
635 return nullptr;
636 }
637
638 Behavior* behavior = new Behavior();
639 behavior->metaState = metaState;
640 behavior->character = character;
641 behavior->fallbackKeyCode = fallbackKeyCode;
642 behavior->replacementKeyCode = replacementKeyCode;
643 if (lastBehavior) {
644 lastBehavior->next = behavior;
645 } else {
646 key->firstBehavior = behavior;
647 }
648 lastBehavior = behavior;
649 }
650
651 if (parcel->errorCheck()) {
652 return nullptr;
653 }
654 }
655 return map;
656 }
657
writeToParcel(Parcel * parcel) const658 void KeyCharacterMap::writeToParcel(Parcel* parcel) const {
659 parcel->writeInt32(mType);
660
661 size_t numKeys = mKeys.size();
662 parcel->writeInt32(numKeys);
663 for (size_t i = 0; i < numKeys; i++) {
664 int32_t keyCode = mKeys.keyAt(i);
665 const Key* key = mKeys.valueAt(i);
666 parcel->writeInt32(keyCode);
667 parcel->writeInt32(key->label);
668 parcel->writeInt32(key->number);
669 for (const Behavior* behavior = key->firstBehavior; behavior != nullptr;
670 behavior = behavior->next) {
671 parcel->writeInt32(1);
672 parcel->writeInt32(behavior->metaState);
673 parcel->writeInt32(behavior->character);
674 parcel->writeInt32(behavior->fallbackKeyCode);
675 parcel->writeInt32(behavior->replacementKeyCode);
676 }
677 parcel->writeInt32(0);
678 }
679 }
680 #endif
681
682
683 // --- KeyCharacterMap::Key ---
684
Key()685 KeyCharacterMap::Key::Key() :
686 label(0), number(0), firstBehavior(nullptr) {
687 }
688
Key(const Key & other)689 KeyCharacterMap::Key::Key(const Key& other) :
690 label(other.label), number(other.number),
691 firstBehavior(other.firstBehavior ? new Behavior(*other.firstBehavior) : nullptr) {
692 }
693
~Key()694 KeyCharacterMap::Key::~Key() {
695 Behavior* behavior = firstBehavior;
696 while (behavior) {
697 Behavior* next = behavior->next;
698 delete behavior;
699 behavior = next;
700 }
701 }
702
703
704 // --- KeyCharacterMap::Behavior ---
705
Behavior()706 KeyCharacterMap::Behavior::Behavior() :
707 next(nullptr), metaState(0), character(0), fallbackKeyCode(0), replacementKeyCode(0) {
708 }
709
Behavior(const Behavior & other)710 KeyCharacterMap::Behavior::Behavior(const Behavior& other) :
711 next(other.next ? new Behavior(*other.next) : nullptr),
712 metaState(other.metaState), character(other.character),
713 fallbackKeyCode(other.fallbackKeyCode),
714 replacementKeyCode(other.replacementKeyCode) {
715 }
716
717
718 // --- KeyCharacterMap::Parser ---
719
Parser(KeyCharacterMap * map,Tokenizer * tokenizer,Format format)720 KeyCharacterMap::Parser::Parser(KeyCharacterMap* map, Tokenizer* tokenizer, Format format) :
721 mMap(map), mTokenizer(tokenizer), mFormat(format), mState(STATE_TOP) {
722 }
723
~Parser()724 KeyCharacterMap::Parser::~Parser() {
725 }
726
parse()727 status_t KeyCharacterMap::Parser::parse() {
728 while (!mTokenizer->isEof()) {
729 #if DEBUG_PARSER
730 ALOGD("Parsing %s: '%s'.", mTokenizer->getLocation().string(),
731 mTokenizer->peekRemainderOfLine().string());
732 #endif
733
734 mTokenizer->skipDelimiters(WHITESPACE);
735
736 if (!mTokenizer->isEol() && mTokenizer->peekChar() != '#') {
737 switch (mState) {
738 case STATE_TOP: {
739 String8 keywordToken = mTokenizer->nextToken(WHITESPACE);
740 if (keywordToken == "type") {
741 mTokenizer->skipDelimiters(WHITESPACE);
742 status_t status = parseType();
743 if (status) return status;
744 } else if (keywordToken == "map") {
745 mTokenizer->skipDelimiters(WHITESPACE);
746 status_t status = parseMap();
747 if (status) return status;
748 } else if (keywordToken == "key") {
749 mTokenizer->skipDelimiters(WHITESPACE);
750 status_t status = parseKey();
751 if (status) return status;
752 } else {
753 ALOGE("%s: Expected keyword, got '%s'.", mTokenizer->getLocation().string(),
754 keywordToken.string());
755 return BAD_VALUE;
756 }
757 break;
758 }
759
760 case STATE_KEY: {
761 status_t status = parseKeyProperty();
762 if (status) return status;
763 break;
764 }
765 }
766
767 mTokenizer->skipDelimiters(WHITESPACE);
768 if (!mTokenizer->isEol() && mTokenizer->peekChar() != '#') {
769 ALOGE("%s: Expected end of line or trailing comment, got '%s'.",
770 mTokenizer->getLocation().string(),
771 mTokenizer->peekRemainderOfLine().string());
772 return BAD_VALUE;
773 }
774 }
775
776 mTokenizer->nextLine();
777 }
778
779 if (mState != STATE_TOP) {
780 ALOGE("%s: Unterminated key description at end of file.",
781 mTokenizer->getLocation().string());
782 return BAD_VALUE;
783 }
784
785 if (mMap->mType == KEYBOARD_TYPE_UNKNOWN) {
786 ALOGE("%s: Keyboard layout missing required keyboard 'type' declaration.",
787 mTokenizer->getLocation().string());
788 return BAD_VALUE;
789 }
790
791 if (mFormat == FORMAT_BASE) {
792 if (mMap->mType == KEYBOARD_TYPE_OVERLAY) {
793 ALOGE("%s: Base keyboard layout must specify a keyboard 'type' other than 'OVERLAY'.",
794 mTokenizer->getLocation().string());
795 return BAD_VALUE;
796 }
797 } else if (mFormat == FORMAT_OVERLAY) {
798 if (mMap->mType != KEYBOARD_TYPE_OVERLAY) {
799 ALOGE("%s: Overlay keyboard layout missing required keyboard "
800 "'type OVERLAY' declaration.",
801 mTokenizer->getLocation().string());
802 return BAD_VALUE;
803 }
804 }
805
806 return NO_ERROR;
807 }
808
parseType()809 status_t KeyCharacterMap::Parser::parseType() {
810 if (mMap->mType != KEYBOARD_TYPE_UNKNOWN) {
811 ALOGE("%s: Duplicate keyboard 'type' declaration.",
812 mTokenizer->getLocation().string());
813 return BAD_VALUE;
814 }
815
816 KeyboardType type;
817 String8 typeToken = mTokenizer->nextToken(WHITESPACE);
818 if (typeToken == "NUMERIC") {
819 type = KEYBOARD_TYPE_NUMERIC;
820 } else if (typeToken == "PREDICTIVE") {
821 type = KEYBOARD_TYPE_PREDICTIVE;
822 } else if (typeToken == "ALPHA") {
823 type = KEYBOARD_TYPE_ALPHA;
824 } else if (typeToken == "FULL") {
825 type = KEYBOARD_TYPE_FULL;
826 } else if (typeToken == "SPECIAL_FUNCTION") {
827 ALOGW("The SPECIAL_FUNCTION type is now declared in the device's IDC file, please set "
828 "the property 'keyboard.specialFunction' to '1' there instead.");
829 // TODO: return BAD_VALUE here in Q
830 type = KEYBOARD_TYPE_SPECIAL_FUNCTION;
831 } else if (typeToken == "OVERLAY") {
832 type = KEYBOARD_TYPE_OVERLAY;
833 } else {
834 ALOGE("%s: Expected keyboard type label, got '%s'.", mTokenizer->getLocation().string(),
835 typeToken.string());
836 return BAD_VALUE;
837 }
838
839 #if DEBUG_PARSER
840 ALOGD("Parsed type: type=%d.", type);
841 #endif
842 mMap->mType = type;
843 return NO_ERROR;
844 }
845
parseMap()846 status_t KeyCharacterMap::Parser::parseMap() {
847 String8 keywordToken = mTokenizer->nextToken(WHITESPACE);
848 if (keywordToken == "key") {
849 mTokenizer->skipDelimiters(WHITESPACE);
850 return parseMapKey();
851 }
852 ALOGE("%s: Expected keyword after 'map', got '%s'.", mTokenizer->getLocation().string(),
853 keywordToken.string());
854 return BAD_VALUE;
855 }
856
parseMapKey()857 status_t KeyCharacterMap::Parser::parseMapKey() {
858 String8 codeToken = mTokenizer->nextToken(WHITESPACE);
859 bool mapUsage = false;
860 if (codeToken == "usage") {
861 mapUsage = true;
862 mTokenizer->skipDelimiters(WHITESPACE);
863 codeToken = mTokenizer->nextToken(WHITESPACE);
864 }
865
866 char* end;
867 int32_t code = int32_t(strtol(codeToken.string(), &end, 0));
868 if (*end) {
869 ALOGE("%s: Expected key %s number, got '%s'.", mTokenizer->getLocation().string(),
870 mapUsage ? "usage" : "scan code", codeToken.string());
871 return BAD_VALUE;
872 }
873 KeyedVector<int32_t, int32_t>& map =
874 mapUsage ? mMap->mKeysByUsageCode : mMap->mKeysByScanCode;
875 if (map.indexOfKey(code) >= 0) {
876 ALOGE("%s: Duplicate entry for key %s '%s'.", mTokenizer->getLocation().string(),
877 mapUsage ? "usage" : "scan code", codeToken.string());
878 return BAD_VALUE;
879 }
880
881 mTokenizer->skipDelimiters(WHITESPACE);
882 String8 keyCodeToken = mTokenizer->nextToken(WHITESPACE);
883 int32_t keyCode = getKeyCodeByLabel(keyCodeToken.string());
884 if (!keyCode) {
885 ALOGE("%s: Expected key code label, got '%s'.", mTokenizer->getLocation().string(),
886 keyCodeToken.string());
887 return BAD_VALUE;
888 }
889
890 #if DEBUG_PARSER
891 ALOGD("Parsed map key %s: code=%d, keyCode=%d.",
892 mapUsage ? "usage" : "scan code", code, keyCode);
893 #endif
894 map.add(code, keyCode);
895 return NO_ERROR;
896 }
897
parseKey()898 status_t KeyCharacterMap::Parser::parseKey() {
899 String8 keyCodeToken = mTokenizer->nextToken(WHITESPACE);
900 int32_t keyCode = getKeyCodeByLabel(keyCodeToken.string());
901 if (!keyCode) {
902 ALOGE("%s: Expected key code label, got '%s'.", mTokenizer->getLocation().string(),
903 keyCodeToken.string());
904 return BAD_VALUE;
905 }
906 if (mMap->mKeys.indexOfKey(keyCode) >= 0) {
907 ALOGE("%s: Duplicate entry for key code '%s'.", mTokenizer->getLocation().string(),
908 keyCodeToken.string());
909 return BAD_VALUE;
910 }
911
912 mTokenizer->skipDelimiters(WHITESPACE);
913 String8 openBraceToken = mTokenizer->nextToken(WHITESPACE);
914 if (openBraceToken != "{") {
915 ALOGE("%s: Expected '{' after key code label, got '%s'.",
916 mTokenizer->getLocation().string(), openBraceToken.string());
917 return BAD_VALUE;
918 }
919
920 #if DEBUG_PARSER
921 ALOGD("Parsed beginning of key: keyCode=%d.", keyCode);
922 #endif
923 mKeyCode = keyCode;
924 mMap->mKeys.add(keyCode, new Key());
925 mState = STATE_KEY;
926 return NO_ERROR;
927 }
928
parseKeyProperty()929 status_t KeyCharacterMap::Parser::parseKeyProperty() {
930 Key* key = mMap->mKeys.valueFor(mKeyCode);
931 String8 token = mTokenizer->nextToken(WHITESPACE_OR_PROPERTY_DELIMITER);
932 if (token == "}") {
933 mState = STATE_TOP;
934 return finishKey(key);
935 }
936
937 Vector<Property> properties;
938
939 // Parse all comma-delimited property names up to the first colon.
940 for (;;) {
941 if (token == "label") {
942 properties.add(Property(PROPERTY_LABEL));
943 } else if (token == "number") {
944 properties.add(Property(PROPERTY_NUMBER));
945 } else {
946 int32_t metaState;
947 status_t status = parseModifier(token.string(), &metaState);
948 if (status) {
949 ALOGE("%s: Expected a property name or modifier, got '%s'.",
950 mTokenizer->getLocation().string(), token.string());
951 return status;
952 }
953 properties.add(Property(PROPERTY_META, metaState));
954 }
955
956 mTokenizer->skipDelimiters(WHITESPACE);
957 if (!mTokenizer->isEol()) {
958 char ch = mTokenizer->nextChar();
959 if (ch == ':') {
960 break;
961 } else if (ch == ',') {
962 mTokenizer->skipDelimiters(WHITESPACE);
963 token = mTokenizer->nextToken(WHITESPACE_OR_PROPERTY_DELIMITER);
964 continue;
965 }
966 }
967
968 ALOGE("%s: Expected ',' or ':' after property name.",
969 mTokenizer->getLocation().string());
970 return BAD_VALUE;
971 }
972
973 // Parse behavior after the colon.
974 mTokenizer->skipDelimiters(WHITESPACE);
975
976 Behavior behavior;
977 bool haveCharacter = false;
978 bool haveFallback = false;
979 bool haveReplacement = false;
980
981 do {
982 char ch = mTokenizer->peekChar();
983 if (ch == '\'') {
984 char16_t character;
985 status_t status = parseCharacterLiteral(&character);
986 if (status || !character) {
987 ALOGE("%s: Invalid character literal for key.",
988 mTokenizer->getLocation().string());
989 return BAD_VALUE;
990 }
991 if (haveCharacter) {
992 ALOGE("%s: Cannot combine multiple character literals or 'none'.",
993 mTokenizer->getLocation().string());
994 return BAD_VALUE;
995 }
996 if (haveReplacement) {
997 ALOGE("%s: Cannot combine character literal with replace action.",
998 mTokenizer->getLocation().string());
999 return BAD_VALUE;
1000 }
1001 behavior.character = character;
1002 haveCharacter = true;
1003 } else {
1004 token = mTokenizer->nextToken(WHITESPACE);
1005 if (token == "none") {
1006 if (haveCharacter) {
1007 ALOGE("%s: Cannot combine multiple character literals or 'none'.",
1008 mTokenizer->getLocation().string());
1009 return BAD_VALUE;
1010 }
1011 if (haveReplacement) {
1012 ALOGE("%s: Cannot combine 'none' with replace action.",
1013 mTokenizer->getLocation().string());
1014 return BAD_VALUE;
1015 }
1016 haveCharacter = true;
1017 } else if (token == "fallback") {
1018 mTokenizer->skipDelimiters(WHITESPACE);
1019 token = mTokenizer->nextToken(WHITESPACE);
1020 int32_t keyCode = getKeyCodeByLabel(token.string());
1021 if (!keyCode) {
1022 ALOGE("%s: Invalid key code label for fallback behavior, got '%s'.",
1023 mTokenizer->getLocation().string(),
1024 token.string());
1025 return BAD_VALUE;
1026 }
1027 if (haveFallback || haveReplacement) {
1028 ALOGE("%s: Cannot combine multiple fallback/replacement key codes.",
1029 mTokenizer->getLocation().string());
1030 return BAD_VALUE;
1031 }
1032 behavior.fallbackKeyCode = keyCode;
1033 haveFallback = true;
1034 } else if (token == "replace") {
1035 mTokenizer->skipDelimiters(WHITESPACE);
1036 token = mTokenizer->nextToken(WHITESPACE);
1037 int32_t keyCode = getKeyCodeByLabel(token.string());
1038 if (!keyCode) {
1039 ALOGE("%s: Invalid key code label for replace, got '%s'.",
1040 mTokenizer->getLocation().string(),
1041 token.string());
1042 return BAD_VALUE;
1043 }
1044 if (haveCharacter) {
1045 ALOGE("%s: Cannot combine character literal with replace action.",
1046 mTokenizer->getLocation().string());
1047 return BAD_VALUE;
1048 }
1049 if (haveFallback || haveReplacement) {
1050 ALOGE("%s: Cannot combine multiple fallback/replacement key codes.",
1051 mTokenizer->getLocation().string());
1052 return BAD_VALUE;
1053 }
1054 behavior.replacementKeyCode = keyCode;
1055 haveReplacement = true;
1056
1057 } else {
1058 ALOGE("%s: Expected a key behavior after ':'.",
1059 mTokenizer->getLocation().string());
1060 return BAD_VALUE;
1061 }
1062 }
1063
1064 mTokenizer->skipDelimiters(WHITESPACE);
1065 } while (!mTokenizer->isEol() && mTokenizer->peekChar() != '#');
1066
1067 // Add the behavior.
1068 for (size_t i = 0; i < properties.size(); i++) {
1069 const Property& property = properties.itemAt(i);
1070 switch (property.property) {
1071 case PROPERTY_LABEL:
1072 if (key->label) {
1073 ALOGE("%s: Duplicate label for key.",
1074 mTokenizer->getLocation().string());
1075 return BAD_VALUE;
1076 }
1077 key->label = behavior.character;
1078 #if DEBUG_PARSER
1079 ALOGD("Parsed key label: keyCode=%d, label=%d.", mKeyCode, key->label);
1080 #endif
1081 break;
1082 case PROPERTY_NUMBER:
1083 if (key->number) {
1084 ALOGE("%s: Duplicate number for key.",
1085 mTokenizer->getLocation().string());
1086 return BAD_VALUE;
1087 }
1088 key->number = behavior.character;
1089 #if DEBUG_PARSER
1090 ALOGD("Parsed key number: keyCode=%d, number=%d.", mKeyCode, key->number);
1091 #endif
1092 break;
1093 case PROPERTY_META: {
1094 for (Behavior* b = key->firstBehavior; b; b = b->next) {
1095 if (b->metaState == property.metaState) {
1096 ALOGE("%s: Duplicate key behavior for modifier.",
1097 mTokenizer->getLocation().string());
1098 return BAD_VALUE;
1099 }
1100 }
1101 Behavior* newBehavior = new Behavior(behavior);
1102 newBehavior->metaState = property.metaState;
1103 newBehavior->next = key->firstBehavior;
1104 key->firstBehavior = newBehavior;
1105 #if DEBUG_PARSER
1106 ALOGD("Parsed key meta: keyCode=%d, meta=0x%x, char=%d, fallback=%d replace=%d.",
1107 mKeyCode,
1108 newBehavior->metaState, newBehavior->character,
1109 newBehavior->fallbackKeyCode, newBehavior->replacementKeyCode);
1110 #endif
1111 break;
1112 }
1113 }
1114 }
1115 return NO_ERROR;
1116 }
1117
finishKey(Key * key)1118 status_t KeyCharacterMap::Parser::finishKey(Key* key) {
1119 // Fill in default number property.
1120 if (!key->number) {
1121 char16_t digit = 0;
1122 char16_t symbol = 0;
1123 for (Behavior* b = key->firstBehavior; b; b = b->next) {
1124 char16_t ch = b->character;
1125 if (ch) {
1126 if (ch >= '0' && ch <= '9') {
1127 digit = ch;
1128 } else if (ch == '(' || ch == ')' || ch == '#' || ch == '*'
1129 || ch == '-' || ch == '+' || ch == ',' || ch == '.'
1130 || ch == '\'' || ch == ':' || ch == ';' || ch == '/') {
1131 symbol = ch;
1132 }
1133 }
1134 }
1135 key->number = digit ? digit : symbol;
1136 }
1137 return NO_ERROR;
1138 }
1139
parseModifier(const std::string & token,int32_t * outMetaState)1140 status_t KeyCharacterMap::Parser::parseModifier(const std::string& token, int32_t* outMetaState) {
1141 if (token == "base") {
1142 *outMetaState = 0;
1143 return NO_ERROR;
1144 }
1145
1146 int32_t combinedMeta = 0;
1147
1148 const char* str = token.c_str();
1149 const char* start = str;
1150 for (const char* cur = str; ; cur++) {
1151 char ch = *cur;
1152 if (ch == '+' || ch == '\0') {
1153 size_t len = cur - start;
1154 int32_t metaState = 0;
1155 for (size_t i = 0; i < sizeof(modifiers) / sizeof(Modifier); i++) {
1156 if (strlen(modifiers[i].label) == len
1157 && strncmp(modifiers[i].label, start, len) == 0) {
1158 metaState = modifiers[i].metaState;
1159 break;
1160 }
1161 }
1162 if (!metaState) {
1163 return BAD_VALUE;
1164 }
1165 if (combinedMeta & metaState) {
1166 ALOGE("%s: Duplicate modifier combination '%s'.",
1167 mTokenizer->getLocation().string(), token.c_str());
1168 return BAD_VALUE;
1169 }
1170
1171 combinedMeta |= metaState;
1172 start = cur + 1;
1173
1174 if (ch == '\0') {
1175 break;
1176 }
1177 }
1178 }
1179 *outMetaState = combinedMeta;
1180 return NO_ERROR;
1181 }
1182
parseCharacterLiteral(char16_t * outCharacter)1183 status_t KeyCharacterMap::Parser::parseCharacterLiteral(char16_t* outCharacter) {
1184 char ch = mTokenizer->nextChar();
1185 if (ch != '\'') {
1186 goto Error;
1187 }
1188
1189 ch = mTokenizer->nextChar();
1190 if (ch == '\\') {
1191 // Escape sequence.
1192 ch = mTokenizer->nextChar();
1193 if (ch == 'n') {
1194 *outCharacter = '\n';
1195 } else if (ch == 't') {
1196 *outCharacter = '\t';
1197 } else if (ch == '\\') {
1198 *outCharacter = '\\';
1199 } else if (ch == '\'') {
1200 *outCharacter = '\'';
1201 } else if (ch == '"') {
1202 *outCharacter = '"';
1203 } else if (ch == 'u') {
1204 *outCharacter = 0;
1205 for (int i = 0; i < 4; i++) {
1206 ch = mTokenizer->nextChar();
1207 int digit;
1208 if (ch >= '0' && ch <= '9') {
1209 digit = ch - '0';
1210 } else if (ch >= 'A' && ch <= 'F') {
1211 digit = ch - 'A' + 10;
1212 } else if (ch >= 'a' && ch <= 'f') {
1213 digit = ch - 'a' + 10;
1214 } else {
1215 goto Error;
1216 }
1217 *outCharacter = (*outCharacter << 4) | digit;
1218 }
1219 } else {
1220 goto Error;
1221 }
1222 } else if (ch >= 32 && ch <= 126 && ch != '\'') {
1223 // ASCII literal character.
1224 *outCharacter = ch;
1225 } else {
1226 goto Error;
1227 }
1228
1229 ch = mTokenizer->nextChar();
1230 if (ch != '\'') {
1231 goto Error;
1232 }
1233
1234 // Ensure that we consumed the entire token.
1235 if (mTokenizer->nextToken(WHITESPACE).isEmpty()) {
1236 return NO_ERROR;
1237 }
1238
1239 Error:
1240 ALOGE("%s: Malformed character literal.", mTokenizer->getLocation().string());
1241 return BAD_VALUE;
1242 }
1243
1244 } // namespace android
1245