blob: 20baa42a20e8beba8c0aa56e84e569e137c57535 [file] [log] [blame]
Michael Wrightd02c5b62014-02-10 15:10:22 -08001/*
2 * Copyright (C) 2005 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
Mark Salyzyn5aa26b22014-06-10 13:07:44 -070017#include <assert.h>
18#include <dirent.h>
19#include <errno.h>
20#include <fcntl.h>
21#include <inttypes.h>
22#include <memory.h>
23#include <stdint.h>
24#include <stdio.h>
25#include <stdlib.h>
26#include <string.h>
Siarhei Vishniakou7a522bf2019-09-24 12:46:29 +010027#include <sys/capability.h>
Mark Salyzyn5aa26b22014-06-10 13:07:44 -070028#include <sys/epoll.h>
Mark Salyzyn5aa26b22014-06-10 13:07:44 -070029#include <sys/inotify.h>
30#include <sys/ioctl.h>
Prabir Pradhanda7c00c2019-08-29 14:12:42 -070031#include <sys/limits.h>
Kim Low03ea0352020-11-06 12:45:07 -080032#include <sys/stat.h>
33#include <sys/sysmacros.h>
Mark Salyzyn5aa26b22014-06-10 13:07:44 -070034#include <unistd.h>
35
Michael Wrightd02c5b62014-02-10 15:10:22 -080036#define LOG_TAG "EventHub"
37
38// #define LOG_NDEBUG 0
Kim Low03ea0352020-11-06 12:45:07 -080039#include <android-base/file.h>
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -080040#include <android-base/stringprintf.h>
Chris Yed3fef462021-03-07 17:10:08 -080041#include <android-base/strings.h>
Philip Quinn39b81682019-01-09 22:20:39 -080042#include <cutils/properties.h>
Dominik Laskowski75788452021-02-09 18:51:25 -080043#include <ftl/enum.h>
Chris Ye8594e192020-07-14 10:34:06 -070044#include <input/KeyCharacterMap.h>
45#include <input/KeyLayoutMap.h>
46#include <input/VirtualKeyMap.h>
Dan Albert677d87e2014-06-16 17:31:28 -070047#include <openssl/sha.h>
Chris Yed3fef462021-03-07 17:10:08 -080048#include <statslog.h>
Prabir Pradhanda7c00c2019-08-29 14:12:42 -070049#include <utils/Errors.h>
Michael Wrightd02c5b62014-02-10 15:10:22 -080050#include <utils/Log.h>
51#include <utils/Timers.h>
Michael Wrightd02c5b62014-02-10 15:10:22 -080052
Chris Ye8594e192020-07-14 10:34:06 -070053#include <filesystem>
Chris Ye3fdbfef2021-01-06 18:45:18 -080054#include <regex>
Chris Ye8594e192020-07-14 10:34:06 -070055
56#include "EventHub.h"
Michael Wrightd02c5b62014-02-10 15:10:22 -080057
Michael Wrightd02c5b62014-02-10 15:10:22 -080058#define INDENT " "
59#define INDENT2 " "
60#define INDENT3 " "
61
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -080062using android::base::StringPrintf;
63
Michael Wrightd02c5b62014-02-10 15:10:22 -080064namespace android {
65
Dominik Laskowski2f01d772022-03-23 16:01:29 -070066using namespace ftl::flag_operators;
67
Usama Arifb27c8e62021-06-03 16:44:09 +010068static const char* DEVICE_INPUT_PATH = "/dev/input";
Siarhei Vishniakou951f3622018-12-12 19:45:42 -080069// v4l2 devices go directly into /dev
Usama Arifb27c8e62021-06-03 16:44:09 +010070static const char* DEVICE_PATH = "/dev";
Michael Wrightd02c5b62014-02-10 15:10:22 -080071
Chris Ye657c2f02021-05-25 16:24:37 -070072static constexpr size_t OBFUSCATED_LENGTH = 8;
73
Chris Ye87143712020-11-10 05:05:58 +000074static constexpr int32_t FF_STRONG_MAGNITUDE_CHANNEL_IDX = 0;
75static constexpr int32_t FF_WEAK_MAGNITUDE_CHANNEL_IDX = 1;
Chris Ye6393a262020-08-04 19:41:36 -070076
Chris Yee2b1e5c2021-03-10 22:45:12 -080077// Mapping for input battery class node IDs lookup.
78// https://www.kernel.org/doc/Documentation/power/power_supply_class.txt
79static const std::unordered_map<std::string, InputBatteryClass> BATTERY_CLASSES =
80 {{"capacity", InputBatteryClass::CAPACITY},
81 {"capacity_level", InputBatteryClass::CAPACITY_LEVEL},
82 {"status", InputBatteryClass::STATUS}};
83
84// Mapping for input battery class node names lookup.
85// https://www.kernel.org/doc/Documentation/power/power_supply_class.txt
86static const std::unordered_map<InputBatteryClass, std::string> BATTERY_NODES =
87 {{InputBatteryClass::CAPACITY, "capacity"},
88 {InputBatteryClass::CAPACITY_LEVEL, "capacity_level"},
89 {InputBatteryClass::STATUS, "status"}};
90
Kim Low03ea0352020-11-06 12:45:07 -080091// must be kept in sync with definitions in kernel /drivers/power/supply/power_supply_sysfs.c
92static const std::unordered_map<std::string, int32_t> BATTERY_STATUS =
93 {{"Unknown", BATTERY_STATUS_UNKNOWN},
94 {"Charging", BATTERY_STATUS_CHARGING},
95 {"Discharging", BATTERY_STATUS_DISCHARGING},
96 {"Not charging", BATTERY_STATUS_NOT_CHARGING},
97 {"Full", BATTERY_STATUS_FULL}};
98
99// Mapping taken from
100// https://gitlab.freedesktop.org/upower/upower/-/blob/master/src/linux/up-device-supply.c#L484
101static const std::unordered_map<std::string, int32_t> BATTERY_LEVEL = {{"Critical", 5},
102 {"Low", 10},
103 {"Normal", 55},
104 {"High", 70},
105 {"Full", 100},
106 {"Unknown", 50}};
107
Chris Ye3fdbfef2021-01-06 18:45:18 -0800108// Mapping for input led class node names lookup.
109// https://www.kernel.org/doc/html/latest/leds/leds-class.html
110static const std::unordered_map<std::string, InputLightClass> LIGHT_CLASSES =
111 {{"red", InputLightClass::RED},
112 {"green", InputLightClass::GREEN},
113 {"blue", InputLightClass::BLUE},
114 {"global", InputLightClass::GLOBAL},
115 {"brightness", InputLightClass::BRIGHTNESS},
116 {"multi_index", InputLightClass::MULTI_INDEX},
117 {"multi_intensity", InputLightClass::MULTI_INTENSITY},
118 {"max_brightness", InputLightClass::MAX_BRIGHTNESS}};
119
120// Mapping for input multicolor led class node names.
121// https://www.kernel.org/doc/html/latest/leds/leds-class-multicolor.html
122static const std::unordered_map<InputLightClass, std::string> LIGHT_NODES =
123 {{InputLightClass::BRIGHTNESS, "brightness"},
124 {InputLightClass::MULTI_INDEX, "multi_index"},
125 {InputLightClass::MULTI_INTENSITY, "multi_intensity"}};
126
127// Mapping for light color name and the light color
128const std::unordered_map<std::string, LightColor> LIGHT_COLORS = {{"red", LightColor::RED},
129 {"green", LightColor::GREEN},
130 {"blue", LightColor::BLUE}};
131
Michael Wrightd02c5b62014-02-10 15:10:22 -0800132static inline const char* toString(bool value) {
133 return value ? "true" : "false";
134}
135
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +0100136static std::string sha1(const std::string& in) {
Dan Albert677d87e2014-06-16 17:31:28 -0700137 SHA_CTX ctx;
138 SHA1_Init(&ctx);
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +0100139 SHA1_Update(&ctx, reinterpret_cast<const u_char*>(in.c_str()), in.size());
Dan Albert677d87e2014-06-16 17:31:28 -0700140 u_char digest[SHA_DIGEST_LENGTH];
141 SHA1_Final(digest, &ctx);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800142
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +0100143 std::string out;
Dan Albert677d87e2014-06-16 17:31:28 -0700144 for (size_t i = 0; i < SHA_DIGEST_LENGTH; i++) {
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +0100145 out += StringPrintf("%02x", digest[i]);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800146 }
147 return out;
148}
149
Siarhei Vishniakou951f3622018-12-12 19:45:42 -0800150/**
151 * Return true if name matches "v4l-touch*"
152 */
Chris Ye8594e192020-07-14 10:34:06 -0700153static bool isV4lTouchNode(std::string name) {
154 return name.find("v4l-touch") != std::string::npos;
Siarhei Vishniakou951f3622018-12-12 19:45:42 -0800155}
156
Philip Quinn39b81682019-01-09 22:20:39 -0800157/**
158 * Returns true if V4L devices should be scanned.
159 *
160 * The system property ro.input.video_enabled can be used to control whether
161 * EventHub scans and opens V4L devices. As V4L does not support multiple
162 * clients, EventHub effectively blocks access to these devices when it opens
Siarhei Vishniakou29f88492019-04-05 14:11:43 -0700163 * them.
164 *
165 * Setting this to "false" would prevent any video devices from being discovered and
166 * associated with input devices.
167 *
168 * This property can be used as follows:
169 * 1. To turn off features that are dependent on video device presence.
170 * 2. During testing and development, to allow other clients to read video devices
171 * directly from /dev.
Philip Quinn39b81682019-01-09 22:20:39 -0800172 */
173static bool isV4lScanningEnabled() {
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700174 return property_get_bool("ro.input.video_enabled", true /* default_value */);
Philip Quinn39b81682019-01-09 22:20:39 -0800175}
176
Siarhei Vishniakou592bac22018-11-08 19:42:38 -0800177static nsecs_t processEventTimestamp(const struct input_event& event) {
178 // Use the time specified in the event instead of the current time
179 // so that downstream code can get more accurate estimates of
180 // event dispatch latency from the time the event is enqueued onto
181 // the evdev client buffer.
182 //
183 // The event's timestamp fortuitously uses the same monotonic clock
184 // time base as the rest of Android. The kernel event device driver
185 // (drivers/input/evdev.c) obtains timestamps using ktime_get_ts().
186 // The systemTime(SYSTEM_TIME_MONOTONIC) function we use everywhere
187 // calls clock_gettime(CLOCK_MONOTONIC) which is implemented as a
188 // system call that also queries ktime_get_ts().
189
190 const nsecs_t inputEventTime = seconds_to_nanoseconds(event.time.tv_sec) +
191 microseconds_to_nanoseconds(event.time.tv_usec);
192 return inputEventTime;
193}
194
Kim Low03ea0352020-11-06 12:45:07 -0800195/**
196 * Returns the sysfs root path of the input device
197 *
198 */
Chris Ye3fdbfef2021-01-06 18:45:18 -0800199static std::optional<std::filesystem::path> getSysfsRootPath(const char* devicePath) {
Kim Low03ea0352020-11-06 12:45:07 -0800200 std::error_code errorCode;
201
202 // Stat the device path to get the major and minor number of the character file
203 struct stat statbuf;
204 if (stat(devicePath, &statbuf) == -1) {
205 ALOGE("Could not stat device %s due to error: %s.", devicePath, std::strerror(errno));
Chris Ye3fdbfef2021-01-06 18:45:18 -0800206 return std::nullopt;
Kim Low03ea0352020-11-06 12:45:07 -0800207 }
208
209 unsigned int major_num = major(statbuf.st_rdev);
210 unsigned int minor_num = minor(statbuf.st_rdev);
211
212 // Realpath "/sys/dev/char/{major}:{minor}" to get the sysfs path to the input event
213 auto sysfsPath = std::filesystem::path("/sys/dev/char/");
214 sysfsPath /= std::to_string(major_num) + ":" + std::to_string(minor_num);
215 sysfsPath = std::filesystem::canonical(sysfsPath, errorCode);
216
217 // Make sure nothing went wrong in call to canonical()
218 if (errorCode) {
219 ALOGW("Could not run filesystem::canonical() due to error %d : %s.", errorCode.value(),
220 errorCode.message().c_str());
Chris Ye3fdbfef2021-01-06 18:45:18 -0800221 return std::nullopt;
Kim Low03ea0352020-11-06 12:45:07 -0800222 }
223
224 // Continue to go up a directory until we reach a directory named "input"
225 while (sysfsPath != "/" && sysfsPath.filename() != "input") {
226 sysfsPath = sysfsPath.parent_path();
227 }
228
229 // Then go up one more and you will be at the sysfs root of the device
230 sysfsPath = sysfsPath.parent_path();
231
232 // Make sure we didn't reach root path and that directory actually exists
233 if (sysfsPath == "/" || !std::filesystem::exists(sysfsPath, errorCode)) {
234 if (errorCode) {
235 ALOGW("Could not run filesystem::exists() due to error %d : %s.", errorCode.value(),
236 errorCode.message().c_str());
237 }
238
239 // Not found
Chris Ye3fdbfef2021-01-06 18:45:18 -0800240 return std::nullopt;
Kim Low03ea0352020-11-06 12:45:07 -0800241 }
242
243 return sysfsPath;
244}
245
246/**
Chris Ye3fdbfef2021-01-06 18:45:18 -0800247 * Returns the list of files under a specified path.
Kim Low03ea0352020-11-06 12:45:07 -0800248 */
Chris Ye3fdbfef2021-01-06 18:45:18 -0800249static std::vector<std::filesystem::path> allFilesInPath(const std::filesystem::path& path) {
250 std::vector<std::filesystem::path> nodes;
251 std::error_code errorCode;
252 auto iter = std::filesystem::directory_iterator(path, errorCode);
253 while (!errorCode && iter != std::filesystem::directory_iterator()) {
254 nodes.push_back(iter->path());
255 iter++;
256 }
257 return nodes;
258}
259
260/**
261 * Returns the list of files under a specified directory in a sysfs path.
262 * Example:
263 * findSysfsNodes(sysfsRootPath, SysfsClass::LEDS) will return all led nodes under "leds" directory
264 * in the sysfs path.
265 */
266static std::vector<std::filesystem::path> findSysfsNodes(const std::filesystem::path& sysfsRoot,
267 SysfsClass clazz) {
Dominik Laskowski75788452021-02-09 18:51:25 -0800268 std::string nodeStr = ftl::enum_string(clazz);
Chris Ye3fdbfef2021-01-06 18:45:18 -0800269 std::for_each(nodeStr.begin(), nodeStr.end(),
270 [](char& c) { c = std::tolower(static_cast<unsigned char>(c)); });
271 std::vector<std::filesystem::path> nodes;
272 for (auto path = sysfsRoot; path != "/" && nodes.empty(); path = path.parent_path()) {
273 nodes = allFilesInPath(path / nodeStr);
274 }
275 return nodes;
276}
277
278static std::optional<std::array<LightColor, COLOR_NUM>> getColorIndexArray(
279 std::filesystem::path path) {
280 std::string indexStr;
281 if (!base::ReadFileToString(path, &indexStr)) {
282 return std::nullopt;
283 }
284
285 // Parse the multi color LED index file, refer to kernel docs
286 // leds/leds-class-multicolor.html
287 std::regex indexPattern("(red|green|blue)\\s(red|green|blue)\\s(red|green|blue)[\\n]");
288 std::smatch results;
289 std::array<LightColor, COLOR_NUM> colors;
290 if (!std::regex_match(indexStr, results, indexPattern)) {
291 return std::nullopt;
292 }
293
294 for (size_t i = 1; i < results.size(); i++) {
295 const auto it = LIGHT_COLORS.find(results[i].str());
296 if (it != LIGHT_COLORS.end()) {
297 // intensities.emplace(it->second, 0);
298 colors[i - 1] = it->second;
Kim Low03ea0352020-11-06 12:45:07 -0800299 }
300 }
Chris Ye3fdbfef2021-01-06 18:45:18 -0800301 return colors;
Kim Low03ea0352020-11-06 12:45:07 -0800302}
303
Michael Wrightd02c5b62014-02-10 15:10:22 -0800304// --- Global Functions ---
305
Dominik Laskowski2f01d772022-03-23 16:01:29 -0700306ftl::Flags<InputDeviceClass> getAbsAxisUsage(int32_t axis,
307 ftl::Flags<InputDeviceClass> deviceClasses) {
Michael Wrightd02c5b62014-02-10 15:10:22 -0800308 // Touch devices get dibs on touch-related axes.
Chris Ye1b0c7342020-07-28 21:57:03 -0700309 if (deviceClasses.test(InputDeviceClass::TOUCH)) {
Michael Wrightd02c5b62014-02-10 15:10:22 -0800310 switch (axis) {
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700311 case ABS_X:
312 case ABS_Y:
313 case ABS_PRESSURE:
314 case ABS_TOOL_WIDTH:
315 case ABS_DISTANCE:
316 case ABS_TILT_X:
317 case ABS_TILT_Y:
318 case ABS_MT_SLOT:
319 case ABS_MT_TOUCH_MAJOR:
320 case ABS_MT_TOUCH_MINOR:
321 case ABS_MT_WIDTH_MAJOR:
322 case ABS_MT_WIDTH_MINOR:
323 case ABS_MT_ORIENTATION:
324 case ABS_MT_POSITION_X:
325 case ABS_MT_POSITION_Y:
326 case ABS_MT_TOOL_TYPE:
327 case ABS_MT_BLOB_ID:
328 case ABS_MT_TRACKING_ID:
329 case ABS_MT_PRESSURE:
330 case ABS_MT_DISTANCE:
Chris Ye1b0c7342020-07-28 21:57:03 -0700331 return InputDeviceClass::TOUCH;
Michael Wrightd02c5b62014-02-10 15:10:22 -0800332 }
333 }
334
Chris Yef59a2f42020-10-16 12:55:26 -0700335 if (deviceClasses.test(InputDeviceClass::SENSOR)) {
336 switch (axis) {
337 case ABS_X:
338 case ABS_Y:
339 case ABS_Z:
340 case ABS_RX:
341 case ABS_RY:
342 case ABS_RZ:
343 return InputDeviceClass::SENSOR;
344 }
345 }
346
Michael Wright842500e2015-03-13 17:32:02 -0700347 // External stylus gets the pressure axis
Chris Ye1b0c7342020-07-28 21:57:03 -0700348 if (deviceClasses.test(InputDeviceClass::EXTERNAL_STYLUS)) {
Michael Wright842500e2015-03-13 17:32:02 -0700349 if (axis == ABS_PRESSURE) {
Chris Ye1b0c7342020-07-28 21:57:03 -0700350 return InputDeviceClass::EXTERNAL_STYLUS;
Michael Wright842500e2015-03-13 17:32:02 -0700351 }
352 }
353
Michael Wrightd02c5b62014-02-10 15:10:22 -0800354 // Joystick devices get the rest.
Chris Ye1b0c7342020-07-28 21:57:03 -0700355 return deviceClasses & InputDeviceClass::JOYSTICK;
Michael Wrightd02c5b62014-02-10 15:10:22 -0800356}
357
358// --- EventHub::Device ---
359
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +0100360EventHub::Device::Device(int fd, int32_t id, const std::string& path,
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700361 const InputDeviceIdentifier& identifier)
Chris Ye989bb932020-07-04 16:18:59 -0700362 : fd(fd),
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700363 id(id),
364 path(path),
365 identifier(identifier),
366 classes(0),
367 configuration(nullptr),
368 virtualKeyMap(nullptr),
369 ffEffectPlaying(false),
370 ffEffectId(-1),
Chris Ye1dd2e5c2021-04-04 23:12:41 -0700371 associatedDevice(nullptr),
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700372 controllerNumber(0),
373 enabled(true),
Chris Ye66fbac32020-07-06 20:36:43 -0700374 isVirtual(fd < 0) {}
Michael Wrightd02c5b62014-02-10 15:10:22 -0800375
376EventHub::Device::~Device() {
377 close();
Michael Wrightd02c5b62014-02-10 15:10:22 -0800378}
379
380void EventHub::Device::close() {
381 if (fd >= 0) {
382 ::close(fd);
383 fd = -1;
384 }
385}
386
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -0700387status_t EventHub::Device::enable() {
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +0100388 fd = open(path.c_str(), O_RDWR | O_CLOEXEC | O_NONBLOCK);
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700389 if (fd < 0) {
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +0100390 ALOGE("could not open %s, %s\n", path.c_str(), strerror(errno));
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -0700391 return -errno;
392 }
393 enabled = true;
394 return OK;
395}
396
397status_t EventHub::Device::disable() {
398 close();
399 enabled = false;
400 return OK;
401}
402
Chris Ye989bb932020-07-04 16:18:59 -0700403bool EventHub::Device::hasValidFd() const {
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -0700404 return !isVirtual && enabled;
405}
Michael Wrightd02c5b62014-02-10 15:10:22 -0800406
Chris Ye3a1e4462020-08-12 10:13:15 -0700407const std::shared_ptr<KeyCharacterMap> EventHub::Device::getKeyCharacterMap() const {
Chris Ye989bb932020-07-04 16:18:59 -0700408 return keyMap.keyCharacterMap;
409}
410
411template <std::size_t N>
412status_t EventHub::Device::readDeviceBitMask(unsigned long ioctlCode, BitArray<N>& bitArray) {
413 if (!hasValidFd()) {
414 return BAD_VALUE;
415 }
416 if ((_IOC_SIZE(ioctlCode) == 0)) {
417 ioctlCode |= _IOC(0, 0, 0, bitArray.bytes());
418 }
419
420 typename BitArray<N>::Buffer buffer;
421 status_t ret = ioctl(fd, ioctlCode, buffer.data());
422 bitArray.loadFromBuffer(buffer);
423 return ret;
424}
425
426void EventHub::Device::configureFd() {
427 // Set fd parameters with ioctl, such as key repeat, suspend block, and clock type
428 if (classes.test(InputDeviceClass::KEYBOARD)) {
429 // Disable kernel key repeat since we handle it ourselves
430 unsigned int repeatRate[] = {0, 0};
431 if (ioctl(fd, EVIOCSREP, repeatRate)) {
432 ALOGW("Unable to disable kernel key repeat for %s: %s", path.c_str(), strerror(errno));
433 }
434 }
435
436 // Tell the kernel that we want to use the monotonic clock for reporting timestamps
437 // associated with input events. This is important because the input system
438 // uses the timestamps extensively and assumes they were recorded using the monotonic
439 // clock.
440 int clockId = CLOCK_MONOTONIC;
Chris Yef59a2f42020-10-16 12:55:26 -0700441 if (classes.test(InputDeviceClass::SENSOR)) {
442 // Each new sensor event should use the same time base as
443 // SystemClock.elapsedRealtimeNanos().
444 clockId = CLOCK_BOOTTIME;
445 }
Chris Ye989bb932020-07-04 16:18:59 -0700446 bool usingClockIoctl = !ioctl(fd, EVIOCSCLOCKID, &clockId);
447 ALOGI("usingClockIoctl=%s", toString(usingClockIoctl));
448}
449
450bool EventHub::Device::hasKeycodeLocked(int keycode) const {
451 if (!keyMap.haveKeyLayout()) {
452 return false;
453 }
454
Siarhei Vishniakou53f0a5e2022-05-18 09:45:54 -0700455 std::vector<int32_t> scanCodes = keyMap.keyLayoutMap->findScanCodesForKey(keycode);
Chris Ye989bb932020-07-04 16:18:59 -0700456 const size_t N = scanCodes.size();
457 for (size_t i = 0; i < N && i <= KEY_MAX; i++) {
458 int32_t sc = scanCodes[i];
459 if (sc >= 0 && sc <= KEY_MAX && keyBitmask.test(sc)) {
460 return true;
461 }
462 }
463
464 return false;
465}
466
467void EventHub::Device::loadConfigurationLocked() {
468 configurationFile =
469 getInputDeviceConfigurationFilePathByDeviceIdentifier(identifier,
470 InputDeviceConfigurationFileType::
471 CONFIGURATION);
472 if (configurationFile.empty()) {
473 ALOGD("No input device configuration file found for device '%s'.", identifier.name.c_str());
474 } else {
Siarhei Vishniakou4d9f9772020-09-02 22:28:29 -0500475 android::base::Result<std::unique_ptr<PropertyMap>> propertyMap =
476 PropertyMap::load(configurationFile.c_str());
477 if (!propertyMap.ok()) {
Chris Ye989bb932020-07-04 16:18:59 -0700478 ALOGE("Error loading input device configuration file for device '%s'. "
479 "Using default configuration.",
480 identifier.name.c_str());
Siarhei Vishniakoud549b252020-08-11 11:25:26 -0500481 } else {
Siarhei Vishniakou4d9f9772020-09-02 22:28:29 -0500482 configuration = std::move(*propertyMap);
Chris Ye989bb932020-07-04 16:18:59 -0700483 }
484 }
485}
486
487bool EventHub::Device::loadVirtualKeyMapLocked() {
488 // The virtual key map is supplied by the kernel as a system board property file.
489 std::string propPath = "/sys/board_properties/virtualkeys.";
490 propPath += identifier.getCanonicalName();
491 if (access(propPath.c_str(), R_OK)) {
492 return false;
493 }
494 virtualKeyMap = VirtualKeyMap::load(propPath);
495 return virtualKeyMap != nullptr;
496}
497
498status_t EventHub::Device::loadKeyMapLocked() {
Siarhei Vishniakoud549b252020-08-11 11:25:26 -0500499 return keyMap.load(identifier, configuration.get());
Chris Ye989bb932020-07-04 16:18:59 -0700500}
501
502bool EventHub::Device::isExternalDeviceLocked() {
503 if (configuration) {
504 bool value;
505 if (configuration->tryGetProperty(String8("device.internal"), value)) {
506 return !value;
507 }
508 }
509 return identifier.bus == BUS_USB || identifier.bus == BUS_BLUETOOTH;
510}
511
512bool EventHub::Device::deviceHasMicLocked() {
513 if (configuration) {
514 bool value;
515 if (configuration->tryGetProperty(String8("audio.mic"), value)) {
516 return value;
517 }
518 }
519 return false;
520}
521
522void EventHub::Device::setLedStateLocked(int32_t led, bool on) {
523 int32_t sc;
524 if (hasValidFd() && mapLed(led, &sc) != NAME_NOT_FOUND) {
525 struct input_event ev;
526 ev.time.tv_sec = 0;
527 ev.time.tv_usec = 0;
528 ev.type = EV_LED;
529 ev.code = sc;
530 ev.value = on ? 1 : 0;
531
532 ssize_t nWrite;
533 do {
534 nWrite = write(fd, &ev, sizeof(struct input_event));
535 } while (nWrite == -1 && errno == EINTR);
536 }
537}
538
539void EventHub::Device::setLedForControllerLocked() {
540 for (int i = 0; i < MAX_CONTROLLER_LEDS; i++) {
541 setLedStateLocked(ALED_CONTROLLER_1 + i, controllerNumber == i + 1);
542 }
543}
544
545status_t EventHub::Device::mapLed(int32_t led, int32_t* outScanCode) const {
546 if (!keyMap.haveKeyLayout()) {
547 return NAME_NOT_FOUND;
548 }
549
Siarhei Vishniakou53f0a5e2022-05-18 09:45:54 -0700550 std::optional<int32_t> scanCode = keyMap.keyLayoutMap->findScanCodeForLed(led);
551 if (scanCode.has_value()) {
552 if (*scanCode >= 0 && *scanCode <= LED_MAX && ledBitmask.test(*scanCode)) {
553 *outScanCode = *scanCode;
Chris Ye989bb932020-07-04 16:18:59 -0700554 return NO_ERROR;
555 }
556 }
557 return NAME_NOT_FOUND;
558}
559
Chris Ye3fdbfef2021-01-06 18:45:18 -0800560// Check the sysfs path for any input device batteries, returns true if battery found.
Chris Ye1dd2e5c2021-04-04 23:12:41 -0700561bool EventHub::AssociatedDevice::configureBatteryLocked() {
Chris Yee2b1e5c2021-03-10 22:45:12 -0800562 nextBatteryId = 0;
563 // Check if device has any battery.
564 const auto& paths = findSysfsNodes(sysfsRootPath, SysfsClass::POWER_SUPPLY);
565 for (const auto& nodePath : paths) {
566 RawBatteryInfo info;
567 info.id = ++nextBatteryId;
568 info.path = nodePath;
569 info.name = nodePath.filename();
570
571 // Scan the path for all the files
572 // Refer to https://www.kernel.org/doc/Documentation/leds/leds-class.txt
573 const auto& files = allFilesInPath(nodePath);
574 for (const auto& file : files) {
575 const auto it = BATTERY_CLASSES.find(file.filename().string());
576 if (it != BATTERY_CLASSES.end()) {
577 info.flags |= it->second;
578 }
579 }
580 batteryInfos.insert_or_assign(info.id, info);
581 ALOGD("configureBatteryLocked rawBatteryId %d name %s", info.id, info.name.c_str());
Chris Ye3fdbfef2021-01-06 18:45:18 -0800582 }
Chris Yee2b1e5c2021-03-10 22:45:12 -0800583 return !batteryInfos.empty();
Chris Ye3fdbfef2021-01-06 18:45:18 -0800584}
585
586// Check the sysfs path for any input device lights, returns true if lights found.
Chris Ye1dd2e5c2021-04-04 23:12:41 -0700587bool EventHub::AssociatedDevice::configureLightsLocked() {
Chris Yee2b1e5c2021-03-10 22:45:12 -0800588 nextLightId = 0;
Chris Ye3fdbfef2021-01-06 18:45:18 -0800589 // Check if device has any lights.
Chris Yee2b1e5c2021-03-10 22:45:12 -0800590 const auto& paths = findSysfsNodes(sysfsRootPath, SysfsClass::LEDS);
Chris Ye3fdbfef2021-01-06 18:45:18 -0800591 for (const auto& nodePath : paths) {
592 RawLightInfo info;
593 info.id = ++nextLightId;
594 info.path = nodePath;
595 info.name = nodePath.filename();
596 info.maxBrightness = std::nullopt;
597 size_t nameStart = info.name.rfind(":");
598 if (nameStart != std::string::npos) {
599 // Trim the name to color name
600 info.name = info.name.substr(nameStart + 1);
601 // Set InputLightClass flag for colors
602 const auto it = LIGHT_CLASSES.find(info.name);
603 if (it != LIGHT_CLASSES.end()) {
604 info.flags |= it->second;
605 }
606 }
607 // Scan the path for all the files
608 // Refer to https://www.kernel.org/doc/Documentation/leds/leds-class.txt
609 const auto& files = allFilesInPath(nodePath);
610 for (const auto& file : files) {
611 const auto it = LIGHT_CLASSES.find(file.filename().string());
612 if (it != LIGHT_CLASSES.end()) {
613 info.flags |= it->second;
614 // If the node has maximum brightness, read it
615 if (it->second == InputLightClass::MAX_BRIGHTNESS) {
616 std::string str;
617 if (base::ReadFileToString(file, &str)) {
618 info.maxBrightness = std::stoi(str);
619 }
620 }
621 }
622 }
623 lightInfos.insert_or_assign(info.id, info);
Chris Yee2b1e5c2021-03-10 22:45:12 -0800624 ALOGD("configureLightsLocked rawLightId %d name %s", info.id, info.name.c_str());
Chris Ye3fdbfef2021-01-06 18:45:18 -0800625 }
626 return !lightInfos.empty();
627}
628
Siarhei Vishniakou7a522bf2019-09-24 12:46:29 +0100629/**
630 * Get the capabilities for the current process.
631 * Crashes the system if unable to create / check / destroy the capabilities object.
632 */
633class Capabilities final {
634public:
635 explicit Capabilities() {
636 mCaps = cap_get_proc();
637 LOG_ALWAYS_FATAL_IF(mCaps == nullptr, "Could not get capabilities of the current process");
638 }
639
640 /**
641 * Check whether the current process has a specific capability
642 * in the set of effective capabilities.
643 * Return CAP_SET if the process has the requested capability
644 * Return CAP_CLEAR otherwise.
645 */
646 cap_flag_value_t checkEffectiveCapability(cap_value_t capability) {
647 cap_flag_value_t value;
648 const int result = cap_get_flag(mCaps, capability, CAP_EFFECTIVE, &value);
649 LOG_ALWAYS_FATAL_IF(result == -1, "Could not obtain the requested capability");
650 return value;
651 }
652
653 ~Capabilities() {
654 const int result = cap_free(mCaps);
655 LOG_ALWAYS_FATAL_IF(result == -1, "Could not release the capabilities structure");
656 }
657
658private:
659 cap_t mCaps;
660};
661
662static void ensureProcessCanBlockSuspend() {
663 Capabilities capabilities;
664 const bool canBlockSuspend =
665 capabilities.checkEffectiveCapability(CAP_BLOCK_SUSPEND) == CAP_SET;
666 LOG_ALWAYS_FATAL_IF(!canBlockSuspend,
667 "Input must be able to block suspend to properly process events");
668}
669
Michael Wrightd02c5b62014-02-10 15:10:22 -0800670// --- EventHub ---
671
Michael Wrightd02c5b62014-02-10 15:10:22 -0800672const int EventHub::EPOLL_MAX_EVENTS;
673
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700674EventHub::EventHub(void)
675 : mBuiltInKeyboardId(NO_BUILT_IN_KEYBOARD),
676 mNextDeviceId(1),
677 mControllerNumbers(),
Michael Wrightd02c5b62014-02-10 15:10:22 -0800678 mNeedToSendFinishedDeviceScan(false),
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700679 mNeedToReopenDevices(false),
680 mNeedToScanDevices(true),
681 mPendingEventCount(0),
682 mPendingEventIndex(0),
683 mPendingINotify(false) {
Siarhei Vishniakou7a522bf2019-09-24 12:46:29 +0100684 ensureProcessCanBlockSuspend();
Michael Wrightd02c5b62014-02-10 15:10:22 -0800685
Nick Kralevichfcf1b2b2018-12-15 11:59:30 -0800686 mEpollFd = epoll_create1(EPOLL_CLOEXEC);
Siarhei Vishniakou951f3622018-12-12 19:45:42 -0800687 LOG_ALWAYS_FATAL_IF(mEpollFd < 0, "Could not create epoll instance: %s", strerror(errno));
Michael Wrightd02c5b62014-02-10 15:10:22 -0800688
Michael Wright8e9a8562022-02-09 13:44:29 +0000689 mINotifyFd = inotify_init1(IN_CLOEXEC);
Usama Arifb27c8e62021-06-03 16:44:09 +0100690
691 std::error_code errorCode;
692 bool isDeviceInotifyAdded = false;
693 if (std::filesystem::exists(DEVICE_INPUT_PATH, errorCode)) {
694 addDeviceInputInotify();
Philip Quinn39b81682019-01-09 22:20:39 -0800695 } else {
Usama Arifb27c8e62021-06-03 16:44:09 +0100696 addDeviceInotify();
697 isDeviceInotifyAdded = true;
698 if (errorCode) {
699 ALOGW("Could not run filesystem::exists() due to error %d : %s.", errorCode.value(),
700 errorCode.message().c_str());
701 }
702 }
703
704 if (isV4lScanningEnabled() && !isDeviceInotifyAdded) {
705 addDeviceInotify();
706 } else {
Philip Quinn39b81682019-01-09 22:20:39 -0800707 ALOGI("Video device scanning disabled");
708 }
Michael Wrightd02c5b62014-02-10 15:10:22 -0800709
Siarhei Vishniakou2d0e9482019-09-24 12:52:47 +0100710 struct epoll_event eventItem = {};
711 eventItem.events = EPOLLIN | EPOLLWAKEUP;
Siarhei Vishniakou4bc561c2018-11-02 17:41:58 -0700712 eventItem.data.fd = mINotifyFd;
Siarhei Vishniakou951f3622018-12-12 19:45:42 -0800713 int result = epoll_ctl(mEpollFd, EPOLL_CTL_ADD, mINotifyFd, &eventItem);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800714 LOG_ALWAYS_FATAL_IF(result != 0, "Could not add INotify to epoll instance. errno=%d", errno);
715
716 int wakeFds[2];
Michael Wright8e9a8562022-02-09 13:44:29 +0000717 result = pipe2(wakeFds, O_CLOEXEC);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800718 LOG_ALWAYS_FATAL_IF(result != 0, "Could not create wake pipe. errno=%d", errno);
719
720 mWakeReadPipeFd = wakeFds[0];
721 mWakeWritePipeFd = wakeFds[1];
722
723 result = fcntl(mWakeReadPipeFd, F_SETFL, O_NONBLOCK);
724 LOG_ALWAYS_FATAL_IF(result != 0, "Could not make wake read pipe non-blocking. errno=%d",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700725 errno);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800726
727 result = fcntl(mWakeWritePipeFd, F_SETFL, O_NONBLOCK);
728 LOG_ALWAYS_FATAL_IF(result != 0, "Could not make wake write pipe non-blocking. errno=%d",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700729 errno);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800730
Siarhei Vishniakou4bc561c2018-11-02 17:41:58 -0700731 eventItem.data.fd = mWakeReadPipeFd;
Michael Wrightd02c5b62014-02-10 15:10:22 -0800732 result = epoll_ctl(mEpollFd, EPOLL_CTL_ADD, mWakeReadPipeFd, &eventItem);
733 LOG_ALWAYS_FATAL_IF(result != 0, "Could not add wake read pipe to epoll instance. errno=%d",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700734 errno);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800735}
736
737EventHub::~EventHub(void) {
738 closeAllDevicesLocked();
739
Michael Wrightd02c5b62014-02-10 15:10:22 -0800740 ::close(mEpollFd);
741 ::close(mINotifyFd);
742 ::close(mWakeReadPipeFd);
743 ::close(mWakeWritePipeFd);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800744}
745
Usama Arifb27c8e62021-06-03 16:44:09 +0100746/**
747 * On devices that don't have any input devices (like some development boards), the /dev/input
748 * directory will be absent. However, the user may still plug in an input device at a later time.
749 * Add watch for contents of /dev/input only when /dev/input appears.
750 */
751void EventHub::addDeviceInputInotify() {
752 mDeviceInputWd = inotify_add_watch(mINotifyFd, DEVICE_INPUT_PATH, IN_DELETE | IN_CREATE);
753 LOG_ALWAYS_FATAL_IF(mDeviceInputWd < 0, "Could not register INotify for %s: %s",
754 DEVICE_INPUT_PATH, strerror(errno));
755}
756
757void EventHub::addDeviceInotify() {
758 mDeviceWd = inotify_add_watch(mINotifyFd, DEVICE_PATH, IN_DELETE | IN_CREATE);
759 LOG_ALWAYS_FATAL_IF(mDeviceWd < 0, "Could not register INotify for %s: %s", DEVICE_PATH,
760 strerror(errno));
761}
762
Michael Wrightd02c5b62014-02-10 15:10:22 -0800763InputDeviceIdentifier EventHub::getDeviceIdentifier(int32_t deviceId) const {
Chris Ye87143712020-11-10 05:05:58 +0000764 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800765 Device* device = getDeviceLocked(deviceId);
Chris Ye989bb932020-07-04 16:18:59 -0700766 return device != nullptr ? device->identifier : InputDeviceIdentifier();
Michael Wrightd02c5b62014-02-10 15:10:22 -0800767}
768
Dominik Laskowski2f01d772022-03-23 16:01:29 -0700769ftl::Flags<InputDeviceClass> EventHub::getDeviceClasses(int32_t deviceId) const {
Chris Ye87143712020-11-10 05:05:58 +0000770 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800771 Device* device = getDeviceLocked(deviceId);
Dominik Laskowski2f01d772022-03-23 16:01:29 -0700772 return device != nullptr ? device->classes : ftl::Flags<InputDeviceClass>(0);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800773}
774
775int32_t EventHub::getDeviceControllerNumber(int32_t deviceId) const {
Chris Ye87143712020-11-10 05:05:58 +0000776 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800777 Device* device = getDeviceLocked(deviceId);
Chris Ye989bb932020-07-04 16:18:59 -0700778 return device != nullptr ? device->controllerNumber : 0;
Michael Wrightd02c5b62014-02-10 15:10:22 -0800779}
780
781void EventHub::getConfiguration(int32_t deviceId, PropertyMap* outConfiguration) const {
Chris Ye87143712020-11-10 05:05:58 +0000782 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800783 Device* device = getDeviceLocked(deviceId);
Chris Ye989bb932020-07-04 16:18:59 -0700784 if (device != nullptr && device->configuration) {
Michael Wrightd02c5b62014-02-10 15:10:22 -0800785 *outConfiguration = *device->configuration;
786 } else {
787 outConfiguration->clear();
788 }
789}
790
791status_t EventHub::getAbsoluteAxisInfo(int32_t deviceId, int axis,
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700792 RawAbsoluteAxisInfo* outAxisInfo) const {
Michael Wrightd02c5b62014-02-10 15:10:22 -0800793 outAxisInfo->clear();
794
795 if (axis >= 0 && axis <= ABS_MAX) {
Chris Ye87143712020-11-10 05:05:58 +0000796 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800797
798 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -0700799 if (device != nullptr && device->hasValidFd() && device->absBitmask.test(axis)) {
Michael Wrightd02c5b62014-02-10 15:10:22 -0800800 struct input_absinfo info;
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700801 if (ioctl(device->fd, EVIOCGABS(axis), &info)) {
802 ALOGW("Error reading absolute controller %d for device %s fd %d, errno=%d", axis,
803 device->identifier.name.c_str(), device->fd, errno);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800804 return -errno;
805 }
806
807 if (info.minimum != info.maximum) {
808 outAxisInfo->valid = true;
809 outAxisInfo->minValue = info.minimum;
810 outAxisInfo->maxValue = info.maximum;
811 outAxisInfo->flat = info.flat;
812 outAxisInfo->fuzz = info.fuzz;
813 outAxisInfo->resolution = info.resolution;
814 }
815 return OK;
816 }
817 }
818 return -1;
819}
820
821bool EventHub::hasRelativeAxis(int32_t deviceId, int axis) const {
822 if (axis >= 0 && axis <= REL_MAX) {
Chris Ye87143712020-11-10 05:05:58 +0000823 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800824 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -0700825 return device != nullptr ? device->relBitmask.test(axis) : false;
Michael Wrightd02c5b62014-02-10 15:10:22 -0800826 }
827 return false;
828}
829
830bool EventHub::hasInputProperty(int32_t deviceId, int property) const {
Chris Ye87143712020-11-10 05:05:58 +0000831 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800832
Chris Ye989bb932020-07-04 16:18:59 -0700833 Device* device = getDeviceLocked(deviceId);
834 return property >= 0 && property <= INPUT_PROP_MAX && device != nullptr
835 ? device->propBitmask.test(property)
836 : false;
Michael Wrightd02c5b62014-02-10 15:10:22 -0800837}
838
Chris Yef59a2f42020-10-16 12:55:26 -0700839bool EventHub::hasMscEvent(int32_t deviceId, int mscEvent) const {
840 std::scoped_lock _l(mLock);
841
842 Device* device = getDeviceLocked(deviceId);
843 return mscEvent >= 0 && mscEvent <= MSC_MAX && device != nullptr
844 ? device->mscBitmask.test(mscEvent)
845 : false;
846}
847
Michael Wrightd02c5b62014-02-10 15:10:22 -0800848int32_t EventHub::getScanCodeState(int32_t deviceId, int32_t scanCode) const {
849 if (scanCode >= 0 && scanCode <= KEY_MAX) {
Chris Ye87143712020-11-10 05:05:58 +0000850 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800851
852 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -0700853 if (device != nullptr && device->hasValidFd() && device->keyBitmask.test(scanCode)) {
854 if (device->readDeviceBitMask(EVIOCGKEY(0), device->keyState) >= 0) {
855 return device->keyState.test(scanCode) ? AKEY_STATE_DOWN : AKEY_STATE_UP;
Michael Wrightd02c5b62014-02-10 15:10:22 -0800856 }
857 }
858 }
859 return AKEY_STATE_UNKNOWN;
860}
861
862int32_t EventHub::getKeyCodeState(int32_t deviceId, int32_t keyCode) const {
Chris Ye87143712020-11-10 05:05:58 +0000863 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800864
865 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -0700866 if (device != nullptr && device->hasValidFd() && device->keyMap.haveKeyLayout()) {
Siarhei Vishniakou53f0a5e2022-05-18 09:45:54 -0700867 std::vector<int32_t> scanCodes = device->keyMap.keyLayoutMap->findScanCodesForKey(keyCode);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800868 if (scanCodes.size() != 0) {
Chris Ye66fbac32020-07-06 20:36:43 -0700869 if (device->readDeviceBitMask(EVIOCGKEY(0), device->keyState) >= 0) {
Michael Wrightd02c5b62014-02-10 15:10:22 -0800870 for (size_t i = 0; i < scanCodes.size(); i++) {
Arthur Hung7c3ae9c2019-03-11 11:23:03 +0800871 int32_t sc = scanCodes[i];
Chris Ye66fbac32020-07-06 20:36:43 -0700872 if (sc >= 0 && sc <= KEY_MAX && device->keyState.test(sc)) {
Michael Wrightd02c5b62014-02-10 15:10:22 -0800873 return AKEY_STATE_DOWN;
874 }
875 }
876 return AKEY_STATE_UP;
877 }
878 }
879 }
880 return AKEY_STATE_UNKNOWN;
881}
882
Philip Junker4af3b3d2021-12-14 10:36:55 +0100883int32_t EventHub::getKeyCodeForKeyLocation(int32_t deviceId, int32_t locationKeyCode) const {
884 std::scoped_lock _l(mLock);
885
886 Device* device = getDeviceLocked(deviceId);
887 if (device == nullptr || !device->hasValidFd() || device->keyMap.keyCharacterMap == nullptr ||
888 device->keyMap.keyLayoutMap == nullptr) {
889 return AKEYCODE_UNKNOWN;
890 }
Siarhei Vishniakou53f0a5e2022-05-18 09:45:54 -0700891 std::vector<int32_t> scanCodes =
892 device->keyMap.keyLayoutMap->findScanCodesForKey(locationKeyCode);
Philip Junker4af3b3d2021-12-14 10:36:55 +0100893 if (scanCodes.empty()) {
894 ALOGW("Failed to get key code for key location: no scan code maps to key code %d for input"
895 "device %d",
896 locationKeyCode, deviceId);
897 return AKEYCODE_UNKNOWN;
898 }
899 if (scanCodes.size() > 1) {
900 ALOGW("Multiple scan codes map to the same key code %d, returning only the first match",
901 locationKeyCode);
902 }
903 int32_t outKeyCode;
904 status_t mapKeyRes =
905 device->getKeyCharacterMap()->mapKey(scanCodes[0], 0 /*usageCode*/, &outKeyCode);
906 switch (mapKeyRes) {
907 case OK:
908 return outKeyCode;
909 case NAME_NOT_FOUND:
910 // key character map doesn't re-map this scanCode, hence the keyCode remains the same
911 return locationKeyCode;
912 default:
913 ALOGW("Failed to get key code for key location: Key character map returned error %s",
914 statusToString(mapKeyRes).c_str());
915 return AKEYCODE_UNKNOWN;
916 }
917}
918
Michael Wrightd02c5b62014-02-10 15:10:22 -0800919int32_t EventHub::getSwitchState(int32_t deviceId, int32_t sw) const {
920 if (sw >= 0 && sw <= SW_MAX) {
Chris Ye87143712020-11-10 05:05:58 +0000921 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800922
923 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -0700924 if (device != nullptr && device->hasValidFd() && device->swBitmask.test(sw)) {
925 if (device->readDeviceBitMask(EVIOCGSW(0), device->swState) >= 0) {
926 return device->swState.test(sw) ? AKEY_STATE_DOWN : AKEY_STATE_UP;
Michael Wrightd02c5b62014-02-10 15:10:22 -0800927 }
928 }
929 }
930 return AKEY_STATE_UNKNOWN;
931}
932
933status_t EventHub::getAbsoluteAxisValue(int32_t deviceId, int32_t axis, int32_t* outValue) const {
934 *outValue = 0;
935
936 if (axis >= 0 && axis <= ABS_MAX) {
Chris Ye87143712020-11-10 05:05:58 +0000937 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800938
939 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -0700940 if (device != nullptr && device->hasValidFd() && device->absBitmask.test(axis)) {
Michael Wrightd02c5b62014-02-10 15:10:22 -0800941 struct input_absinfo info;
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700942 if (ioctl(device->fd, EVIOCGABS(axis), &info)) {
943 ALOGW("Error reading absolute controller %d for device %s fd %d, errno=%d", axis,
944 device->identifier.name.c_str(), device->fd, errno);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800945 return -errno;
946 }
947
948 *outValue = info.value;
949 return OK;
950 }
951 }
952 return -1;
953}
954
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700955bool EventHub::markSupportedKeyCodes(int32_t deviceId, size_t numCodes, const int32_t* keyCodes,
956 uint8_t* outFlags) const {
Chris Ye87143712020-11-10 05:05:58 +0000957 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800958
959 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -0700960 if (device != nullptr && device->keyMap.haveKeyLayout()) {
Michael Wrightd02c5b62014-02-10 15:10:22 -0800961 for (size_t codeIndex = 0; codeIndex < numCodes; codeIndex++) {
Siarhei Vishniakou53f0a5e2022-05-18 09:45:54 -0700962 std::vector<int32_t> scanCodes =
963 device->keyMap.keyLayoutMap->findScanCodesForKey(keyCodes[codeIndex]);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800964
Siarhei Vishniakou53f0a5e2022-05-18 09:45:54 -0700965 // check the possible scan codes identified by the layout map against the
966 // map of codes actually emitted by the driver
967 for (size_t sc = 0; sc < scanCodes.size(); sc++) {
968 if (device->keyBitmask.test(scanCodes[sc])) {
969 outFlags[codeIndex] = 1;
970 break;
Michael Wrightd02c5b62014-02-10 15:10:22 -0800971 }
972 }
973 }
974 return true;
975 }
976 return false;
977}
978
Prabir Pradhanda7c00c2019-08-29 14:12:42 -0700979status_t EventHub::mapKey(int32_t deviceId, int32_t scanCode, int32_t usageCode, int32_t metaState,
980 int32_t* outKeycode, int32_t* outMetaState, uint32_t* outFlags) const {
Chris Ye87143712020-11-10 05:05:58 +0000981 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -0800982 Device* device = getDeviceLocked(deviceId);
Dmitry Torokhov0faaa0b2015-09-24 13:13:55 -0700983 status_t status = NAME_NOT_FOUND;
Michael Wrightd02c5b62014-02-10 15:10:22 -0800984
Chris Ye66fbac32020-07-06 20:36:43 -0700985 if (device != nullptr) {
Michael Wrightd02c5b62014-02-10 15:10:22 -0800986 // Check the key character map first.
Chris Ye3a1e4462020-08-12 10:13:15 -0700987 const std::shared_ptr<KeyCharacterMap> kcm = device->getKeyCharacterMap();
988 if (kcm) {
Michael Wrightd02c5b62014-02-10 15:10:22 -0800989 if (!kcm->mapKey(scanCode, usageCode, outKeycode)) {
990 *outFlags = 0;
Dmitry Torokhov0faaa0b2015-09-24 13:13:55 -0700991 status = NO_ERROR;
Michael Wrightd02c5b62014-02-10 15:10:22 -0800992 }
993 }
994
995 // Check the key layout next.
Dmitry Torokhov0faaa0b2015-09-24 13:13:55 -0700996 if (status != NO_ERROR && device->keyMap.haveKeyLayout()) {
Siarhei Vishniakou592bac22018-11-08 19:42:38 -0800997 if (!device->keyMap.keyLayoutMap->mapKey(scanCode, usageCode, outKeycode, outFlags)) {
Dmitry Torokhov0faaa0b2015-09-24 13:13:55 -0700998 status = NO_ERROR;
999 }
1000 }
1001
1002 if (status == NO_ERROR) {
Chris Ye3a1e4462020-08-12 10:13:15 -07001003 if (kcm) {
Dmitry Torokhov0faaa0b2015-09-24 13:13:55 -07001004 kcm->tryRemapKey(*outKeycode, metaState, outKeycode, outMetaState);
1005 } else {
1006 *outMetaState = metaState;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001007 }
1008 }
1009 }
1010
Dmitry Torokhov0faaa0b2015-09-24 13:13:55 -07001011 if (status != NO_ERROR) {
1012 *outKeycode = 0;
1013 *outFlags = 0;
1014 *outMetaState = metaState;
1015 }
1016
1017 return status;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001018}
1019
1020status_t EventHub::mapAxis(int32_t deviceId, int32_t scanCode, AxisInfo* outAxisInfo) const {
Chris Ye87143712020-11-10 05:05:58 +00001021 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001022 Device* device = getDeviceLocked(deviceId);
1023
Siarhei Vishniakou53f0a5e2022-05-18 09:45:54 -07001024 if (device == nullptr || !device->keyMap.haveKeyLayout()) {
1025 return NAME_NOT_FOUND;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001026 }
Siarhei Vishniakou53f0a5e2022-05-18 09:45:54 -07001027 std::optional<AxisInfo> info = device->keyMap.keyLayoutMap->mapAxis(scanCode);
1028 if (!info.has_value()) {
1029 return NAME_NOT_FOUND;
1030 }
1031 *outAxisInfo = *info;
1032 return NO_ERROR;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001033}
1034
Chris Yef59a2f42020-10-16 12:55:26 -07001035base::Result<std::pair<InputDeviceSensorType, int32_t>> EventHub::mapSensor(int32_t deviceId,
1036 int32_t absCode) {
1037 std::scoped_lock _l(mLock);
1038 Device* device = getDeviceLocked(deviceId);
1039
1040 if (device != nullptr && device->keyMap.haveKeyLayout()) {
1041 return device->keyMap.keyLayoutMap->mapSensor(absCode);
1042 }
1043 return Errorf("Device not found or device has no key layout.");
1044}
1045
Chris Yee2b1e5c2021-03-10 22:45:12 -08001046// Gets the battery info map from battery ID to RawBatteryInfo of the miscellaneous device
1047// associated with the device ID. Returns an empty map if no miscellaneous device found.
1048const std::unordered_map<int32_t, RawBatteryInfo>& EventHub::getBatteryInfoLocked(
1049 int32_t deviceId) const {
1050 static const std::unordered_map<int32_t, RawBatteryInfo> EMPTY_BATTERY_INFO = {};
1051 Device* device = getDeviceLocked(deviceId);
Chris Ye1dd2e5c2021-04-04 23:12:41 -07001052 if (device == nullptr || !device->associatedDevice) {
Chris Yee2b1e5c2021-03-10 22:45:12 -08001053 return EMPTY_BATTERY_INFO;
1054 }
Chris Ye1dd2e5c2021-04-04 23:12:41 -07001055 return device->associatedDevice->batteryInfos;
Chris Yee2b1e5c2021-03-10 22:45:12 -08001056}
1057
1058const std::vector<int32_t> EventHub::getRawBatteryIds(int32_t deviceId) {
1059 std::scoped_lock _l(mLock);
1060 std::vector<int32_t> batteryIds;
1061
1062 for (const auto [id, info] : getBatteryInfoLocked(deviceId)) {
1063 batteryIds.push_back(id);
1064 }
1065
1066 return batteryIds;
1067}
1068
1069std::optional<RawBatteryInfo> EventHub::getRawBatteryInfo(int32_t deviceId, int32_t batteryId) {
1070 std::scoped_lock _l(mLock);
1071
1072 const auto infos = getBatteryInfoLocked(deviceId);
1073
1074 auto it = infos.find(batteryId);
1075 if (it != infos.end()) {
1076 return it->second;
1077 }
1078
1079 return std::nullopt;
1080}
1081
1082// Gets the light info map from light ID to RawLightInfo of the miscellaneous device associated
1083// with the deivice ID. Returns an empty map if no miscellaneous device found.
1084const std::unordered_map<int32_t, RawLightInfo>& EventHub::getLightInfoLocked(
1085 int32_t deviceId) const {
1086 static const std::unordered_map<int32_t, RawLightInfo> EMPTY_LIGHT_INFO = {};
1087 Device* device = getDeviceLocked(deviceId);
Chris Ye1dd2e5c2021-04-04 23:12:41 -07001088 if (device == nullptr || !device->associatedDevice) {
Chris Yee2b1e5c2021-03-10 22:45:12 -08001089 return EMPTY_LIGHT_INFO;
1090 }
Chris Ye1dd2e5c2021-04-04 23:12:41 -07001091 return device->associatedDevice->lightInfos;
Chris Yee2b1e5c2021-03-10 22:45:12 -08001092}
1093
Chris Ye3fdbfef2021-01-06 18:45:18 -08001094const std::vector<int32_t> EventHub::getRawLightIds(int32_t deviceId) {
1095 std::scoped_lock _l(mLock);
Chris Ye3fdbfef2021-01-06 18:45:18 -08001096 std::vector<int32_t> lightIds;
1097
Chris Yee2b1e5c2021-03-10 22:45:12 -08001098 for (const auto [id, info] : getLightInfoLocked(deviceId)) {
1099 lightIds.push_back(id);
Chris Ye3fdbfef2021-01-06 18:45:18 -08001100 }
Chris Yee2b1e5c2021-03-10 22:45:12 -08001101
Chris Ye3fdbfef2021-01-06 18:45:18 -08001102 return lightIds;
1103}
1104
1105std::optional<RawLightInfo> EventHub::getRawLightInfo(int32_t deviceId, int32_t lightId) {
1106 std::scoped_lock _l(mLock);
Chris Ye3fdbfef2021-01-06 18:45:18 -08001107
Chris Yee2b1e5c2021-03-10 22:45:12 -08001108 const auto infos = getLightInfoLocked(deviceId);
1109
1110 auto it = infos.find(lightId);
1111 if (it != infos.end()) {
1112 return it->second;
Chris Ye3fdbfef2021-01-06 18:45:18 -08001113 }
Chris Yee2b1e5c2021-03-10 22:45:12 -08001114
Chris Ye3fdbfef2021-01-06 18:45:18 -08001115 return std::nullopt;
1116}
1117
1118std::optional<int32_t> EventHub::getLightBrightness(int32_t deviceId, int32_t lightId) {
1119 std::scoped_lock _l(mLock);
1120
Chris Yee2b1e5c2021-03-10 22:45:12 -08001121 const auto infos = getLightInfoLocked(deviceId);
1122 auto it = infos.find(lightId);
1123 if (it == infos.end()) {
Chris Ye3fdbfef2021-01-06 18:45:18 -08001124 return std::nullopt;
1125 }
1126 std::string buffer;
1127 if (!base::ReadFileToString(it->second.path / LIGHT_NODES.at(InputLightClass::BRIGHTNESS),
1128 &buffer)) {
1129 return std::nullopt;
1130 }
1131 return std::stoi(buffer);
1132}
1133
1134std::optional<std::unordered_map<LightColor, int32_t>> EventHub::getLightIntensities(
1135 int32_t deviceId, int32_t lightId) {
1136 std::scoped_lock _l(mLock);
1137
Chris Yee2b1e5c2021-03-10 22:45:12 -08001138 const auto infos = getLightInfoLocked(deviceId);
1139 auto lightIt = infos.find(lightId);
1140 if (lightIt == infos.end()) {
Chris Ye3fdbfef2021-01-06 18:45:18 -08001141 return std::nullopt;
1142 }
1143
1144 auto ret =
1145 getColorIndexArray(lightIt->second.path / LIGHT_NODES.at(InputLightClass::MULTI_INDEX));
1146
1147 if (!ret.has_value()) {
1148 return std::nullopt;
1149 }
1150 std::array<LightColor, COLOR_NUM> colors = ret.value();
1151
1152 std::string intensityStr;
1153 if (!base::ReadFileToString(lightIt->second.path /
1154 LIGHT_NODES.at(InputLightClass::MULTI_INTENSITY),
1155 &intensityStr)) {
1156 return std::nullopt;
1157 }
1158
1159 // Intensity node outputs 3 color values
1160 std::regex intensityPattern("([0-9]+)\\s([0-9]+)\\s([0-9]+)[\\n]");
1161 std::smatch results;
1162
1163 if (!std::regex_match(intensityStr, results, intensityPattern)) {
1164 return std::nullopt;
1165 }
1166 std::unordered_map<LightColor, int32_t> intensities;
1167 for (size_t i = 1; i < results.size(); i++) {
1168 int value = std::stoi(results[i].str());
1169 intensities.emplace(colors[i - 1], value);
1170 }
1171 return intensities;
1172}
1173
1174void EventHub::setLightBrightness(int32_t deviceId, int32_t lightId, int32_t brightness) {
1175 std::scoped_lock _l(mLock);
1176
Chris Yee2b1e5c2021-03-10 22:45:12 -08001177 const auto infos = getLightInfoLocked(deviceId);
1178 auto lightIt = infos.find(lightId);
1179 if (lightIt == infos.end()) {
1180 ALOGE("%s lightId %d not found ", __func__, lightId);
Chris Ye3fdbfef2021-01-06 18:45:18 -08001181 return;
1182 }
1183
1184 if (!base::WriteStringToFile(std::to_string(brightness),
1185 lightIt->second.path /
1186 LIGHT_NODES.at(InputLightClass::BRIGHTNESS))) {
1187 ALOGE("Can not write to file, error: %s", strerror(errno));
1188 }
1189}
1190
1191void EventHub::setLightIntensities(int32_t deviceId, int32_t lightId,
1192 std::unordered_map<LightColor, int32_t> intensities) {
1193 std::scoped_lock _l(mLock);
1194
Chris Yee2b1e5c2021-03-10 22:45:12 -08001195 const auto infos = getLightInfoLocked(deviceId);
1196 auto lightIt = infos.find(lightId);
1197 if (lightIt == infos.end()) {
Chris Ye3fdbfef2021-01-06 18:45:18 -08001198 ALOGE("Light Id %d does not exist.", lightId);
1199 return;
1200 }
1201
1202 auto ret =
1203 getColorIndexArray(lightIt->second.path / LIGHT_NODES.at(InputLightClass::MULTI_INDEX));
1204
1205 if (!ret.has_value()) {
1206 return;
1207 }
1208 std::array<LightColor, COLOR_NUM> colors = ret.value();
1209
1210 std::string rgbStr;
1211 for (size_t i = 0; i < COLOR_NUM; i++) {
1212 auto it = intensities.find(colors[i]);
1213 if (it != intensities.end()) {
1214 rgbStr += std::to_string(it->second);
1215 // Insert space between colors
1216 if (i < COLOR_NUM - 1) {
1217 rgbStr += " ";
1218 }
1219 }
1220 }
1221 // Append new line
1222 rgbStr += "\n";
1223
1224 if (!base::WriteStringToFile(rgbStr,
1225 lightIt->second.path /
1226 LIGHT_NODES.at(InputLightClass::MULTI_INTENSITY))) {
1227 ALOGE("Can not write to file, error: %s", strerror(errno));
1228 }
1229}
1230
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01001231void EventHub::setExcludedDevices(const std::vector<std::string>& devices) {
Chris Ye87143712020-11-10 05:05:58 +00001232 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001233
1234 mExcludedDevices = devices;
1235}
1236
1237bool EventHub::hasScanCode(int32_t deviceId, int32_t scanCode) const {
Chris Ye87143712020-11-10 05:05:58 +00001238 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001239 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -07001240 if (device != nullptr && scanCode >= 0 && scanCode <= KEY_MAX) {
1241 return device->keyBitmask.test(scanCode);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001242 }
1243 return false;
1244}
1245
Arthur Hungcb40a002021-08-03 14:31:01 +00001246bool EventHub::hasKeyCode(int32_t deviceId, int32_t keyCode) const {
1247 std::scoped_lock _l(mLock);
1248 Device* device = getDeviceLocked(deviceId);
1249 if (device != nullptr) {
1250 return device->hasKeycodeLocked(keyCode);
1251 }
1252 return false;
1253}
1254
Michael Wrightd02c5b62014-02-10 15:10:22 -08001255bool EventHub::hasLed(int32_t deviceId, int32_t led) const {
Chris Ye87143712020-11-10 05:05:58 +00001256 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001257 Device* device = getDeviceLocked(deviceId);
1258 int32_t sc;
Chris Ye989bb932020-07-04 16:18:59 -07001259 if (device != nullptr && device->mapLed(led, &sc) == NO_ERROR) {
Chris Ye66fbac32020-07-06 20:36:43 -07001260 return device->ledBitmask.test(sc);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001261 }
1262 return false;
1263}
1264
1265void EventHub::setLedState(int32_t deviceId, int32_t led, bool on) {
Chris Ye87143712020-11-10 05:05:58 +00001266 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001267 Device* device = getDeviceLocked(deviceId);
Chris Ye989bb932020-07-04 16:18:59 -07001268 if (device != nullptr && device->hasValidFd()) {
1269 device->setLedStateLocked(led, on);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001270 }
1271}
1272
1273void EventHub::getVirtualKeyDefinitions(int32_t deviceId,
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001274 std::vector<VirtualKeyDefinition>& outVirtualKeys) const {
Michael Wrightd02c5b62014-02-10 15:10:22 -08001275 outVirtualKeys.clear();
1276
Chris Ye87143712020-11-10 05:05:58 +00001277 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001278 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -07001279 if (device != nullptr && device->virtualKeyMap) {
Arthur Hung7c3ae9c2019-03-11 11:23:03 +08001280 const std::vector<VirtualKeyDefinition> virtualKeys =
1281 device->virtualKeyMap->getVirtualKeys();
1282 outVirtualKeys.insert(outVirtualKeys.end(), virtualKeys.begin(), virtualKeys.end());
Michael Wrightd02c5b62014-02-10 15:10:22 -08001283 }
1284}
1285
Chris Ye3a1e4462020-08-12 10:13:15 -07001286const std::shared_ptr<KeyCharacterMap> EventHub::getKeyCharacterMap(int32_t deviceId) const {
Chris Ye87143712020-11-10 05:05:58 +00001287 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001288 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -07001289 if (device != nullptr) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08001290 return device->getKeyCharacterMap();
1291 }
Yi Kong9b14ac62018-07-17 13:48:38 -07001292 return nullptr;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001293}
1294
Chris Ye3a1e4462020-08-12 10:13:15 -07001295bool EventHub::setKeyboardLayoutOverlay(int32_t deviceId, std::shared_ptr<KeyCharacterMap> map) {
Chris Ye87143712020-11-10 05:05:58 +00001296 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001297 Device* device = getDeviceLocked(deviceId);
Philip Junker90bc9492021-12-10 18:39:42 +01001298 if (device == nullptr || map == nullptr || device->keyMap.keyCharacterMap == nullptr) {
1299 return false;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001300 }
Philip Junker90bc9492021-12-10 18:39:42 +01001301 device->keyMap.keyCharacterMap->combine(*map);
1302 return true;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001303}
1304
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01001305static std::string generateDescriptor(InputDeviceIdentifier& identifier) {
1306 std::string rawDescriptor;
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001307 rawDescriptor += StringPrintf(":%04x:%04x:", identifier.vendor, identifier.product);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001308 // TODO add handling for USB devices to not uniqueify kbs that show up twice
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01001309 if (!identifier.uniqueId.empty()) {
1310 rawDescriptor += "uniqueId:";
1311 rawDescriptor += identifier.uniqueId;
Josh Bartel938632f2022-07-19 15:34:22 -05001312 }
1313 if (identifier.nonce != 0) {
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01001314 rawDescriptor += StringPrintf("nonce:%04x", identifier.nonce);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001315 }
1316
1317 if (identifier.vendor == 0 && identifier.product == 0) {
1318 // If we don't know the vendor and product id, then the device is probably
1319 // built-in so we need to rely on other information to uniquely identify
1320 // the input device. Usually we try to avoid relying on the device name or
1321 // location but for built-in input device, they are unlikely to ever change.
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01001322 if (!identifier.name.empty()) {
1323 rawDescriptor += "name:";
1324 rawDescriptor += identifier.name;
1325 } else if (!identifier.location.empty()) {
1326 rawDescriptor += "location:";
1327 rawDescriptor += identifier.location;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001328 }
1329 }
1330 identifier.descriptor = sha1(rawDescriptor);
1331 return rawDescriptor;
1332}
1333
1334void EventHub::assignDescriptorLocked(InputDeviceIdentifier& identifier) {
1335 // Compute a device descriptor that uniquely identifies the device.
1336 // The descriptor is assumed to be a stable identifier. Its value should not
1337 // change between reboots, reconnections, firmware updates or new releases
1338 // of Android. In practice we sometimes get devices that cannot be uniquely
1339 // identified. In this case we enforce uniqueness between connected devices.
1340 // Ideally, we also want the descriptor to be short and relatively opaque.
Josh Bartel938632f2022-07-19 15:34:22 -05001341 // Note that we explicitly do not use the path or location for external devices
1342 // as their path or location will change as they are plugged/unplugged or moved
1343 // to different ports. We do fallback to using name and location in the case of
1344 // internal devices which are detected by the vendor and product being 0 in
1345 // generateDescriptor. If two identical descriptors are detected we will fallback
1346 // to using a 'nonce' and incrementing it until the new descriptor no longer has
1347 // a match with any existing descriptors.
Michael Wrightd02c5b62014-02-10 15:10:22 -08001348
1349 identifier.nonce = 0;
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01001350 std::string rawDescriptor = generateDescriptor(identifier);
Josh Bartel938632f2022-07-19 15:34:22 -05001351 // Enforce that the generated descriptor is unique.
1352 while (hasDeviceWithDescriptorLocked(identifier.descriptor)) {
1353 identifier.nonce++;
1354 rawDescriptor = generateDescriptor(identifier);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001355 }
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01001356 ALOGV("Created descriptor: raw=%s, cooked=%s", rawDescriptor.c_str(),
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001357 identifier.descriptor.c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08001358}
1359
Nathaniel R. Lewiscacd69a2019-08-12 22:07:00 +00001360void EventHub::vibrate(int32_t deviceId, const VibrationElement& element) {
Chris Ye87143712020-11-10 05:05:58 +00001361 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001362 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -07001363 if (device != nullptr && device->hasValidFd()) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08001364 ff_effect effect;
1365 memset(&effect, 0, sizeof(effect));
1366 effect.type = FF_RUMBLE;
1367 effect.id = device->ffEffectId;
Nathaniel R. Lewiscacd69a2019-08-12 22:07:00 +00001368 // evdev FF_RUMBLE effect only supports two channels of vibration.
Chris Ye6393a262020-08-04 19:41:36 -07001369 effect.u.rumble.strong_magnitude = element.getMagnitude(FF_STRONG_MAGNITUDE_CHANNEL_IDX);
1370 effect.u.rumble.weak_magnitude = element.getMagnitude(FF_WEAK_MAGNITUDE_CHANNEL_IDX);
Nathaniel R. Lewiscacd69a2019-08-12 22:07:00 +00001371 effect.replay.length = element.duration.count();
Michael Wrightd02c5b62014-02-10 15:10:22 -08001372 effect.replay.delay = 0;
1373 if (ioctl(device->fd, EVIOCSFF, &effect)) {
1374 ALOGW("Could not upload force feedback effect to device %s due to error %d.",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001375 device->identifier.name.c_str(), errno);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001376 return;
1377 }
1378 device->ffEffectId = effect.id;
1379
1380 struct input_event ev;
1381 ev.time.tv_sec = 0;
1382 ev.time.tv_usec = 0;
1383 ev.type = EV_FF;
1384 ev.code = device->ffEffectId;
1385 ev.value = 1;
1386 if (write(device->fd, &ev, sizeof(ev)) != sizeof(ev)) {
1387 ALOGW("Could not start force feedback effect on device %s due to error %d.",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001388 device->identifier.name.c_str(), errno);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001389 return;
1390 }
1391 device->ffEffectPlaying = true;
1392 }
1393}
1394
1395void EventHub::cancelVibrate(int32_t deviceId) {
Chris Ye87143712020-11-10 05:05:58 +00001396 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001397 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -07001398 if (device != nullptr && device->hasValidFd()) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08001399 if (device->ffEffectPlaying) {
1400 device->ffEffectPlaying = false;
1401
1402 struct input_event ev;
1403 ev.time.tv_sec = 0;
1404 ev.time.tv_usec = 0;
1405 ev.type = EV_FF;
1406 ev.code = device->ffEffectId;
1407 ev.value = 0;
1408 if (write(device->fd, &ev, sizeof(ev)) != sizeof(ev)) {
1409 ALOGW("Could not stop force feedback effect on device %s due to error %d.",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001410 device->identifier.name.c_str(), errno);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001411 return;
1412 }
1413 }
1414 }
1415}
1416
Chris Ye87143712020-11-10 05:05:58 +00001417std::vector<int32_t> EventHub::getVibratorIds(int32_t deviceId) {
1418 std::scoped_lock _l(mLock);
1419 std::vector<int32_t> vibrators;
1420 Device* device = getDeviceLocked(deviceId);
1421 if (device != nullptr && device->hasValidFd() &&
1422 device->classes.test(InputDeviceClass::VIBRATOR)) {
1423 vibrators.push_back(FF_STRONG_MAGNITUDE_CHANNEL_IDX);
1424 vibrators.push_back(FF_WEAK_MAGNITUDE_CHANNEL_IDX);
1425 }
1426 return vibrators;
1427}
1428
Josh Bartel938632f2022-07-19 15:34:22 -05001429/**
1430 * Checks both mDevices and mOpeningDevices for a device with the descriptor passed.
1431 */
1432bool EventHub::hasDeviceWithDescriptorLocked(const std::string& descriptor) const {
1433 for (const auto& device : mOpeningDevices) {
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01001434 if (descriptor == device->identifier.descriptor) {
Josh Bartel938632f2022-07-19 15:34:22 -05001435 return true;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001436 }
1437 }
Josh Bartel938632f2022-07-19 15:34:22 -05001438
1439 for (const auto& [id, device] : mDevices) {
1440 if (descriptor == device->identifier.descriptor) {
1441 return true;
1442 }
1443 }
1444 return false;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001445}
1446
1447EventHub::Device* EventHub::getDeviceLocked(int32_t deviceId) const {
Prabir Pradhancae4b3a2019-02-05 18:51:32 -08001448 if (deviceId == ReservedInputDeviceId::BUILT_IN_KEYBOARD_ID) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08001449 deviceId = mBuiltInKeyboardId;
1450 }
Chris Ye989bb932020-07-04 16:18:59 -07001451 const auto& it = mDevices.find(deviceId);
1452 return it != mDevices.end() ? it->second.get() : nullptr;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001453}
1454
Chris Ye8594e192020-07-14 10:34:06 -07001455EventHub::Device* EventHub::getDeviceByPathLocked(const std::string& devicePath) const {
Chris Ye989bb932020-07-04 16:18:59 -07001456 for (const auto& [id, device] : mDevices) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08001457 if (device->path == devicePath) {
Chris Ye989bb932020-07-04 16:18:59 -07001458 return device.get();
Michael Wrightd02c5b62014-02-10 15:10:22 -08001459 }
1460 }
Yi Kong9b14ac62018-07-17 13:48:38 -07001461 return nullptr;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001462}
1463
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001464/**
1465 * The file descriptor could be either input device, or a video device (associated with a
1466 * specific input device). Check both cases here, and return the device that this event
1467 * belongs to. Caller can compare the fd's once more to determine event type.
1468 * Looks through all input devices, and only attached video devices. Unattached video
1469 * devices are ignored.
1470 */
Siarhei Vishniakou4bc561c2018-11-02 17:41:58 -07001471EventHub::Device* EventHub::getDeviceByFdLocked(int fd) const {
Chris Ye989bb932020-07-04 16:18:59 -07001472 for (const auto& [id, device] : mDevices) {
Siarhei Vishniakou4bc561c2018-11-02 17:41:58 -07001473 if (device->fd == fd) {
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001474 // This is an input device event
Chris Ye989bb932020-07-04 16:18:59 -07001475 return device.get();
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001476 }
1477 if (device->videoDevice && device->videoDevice->getFd() == fd) {
1478 // This is a video device event
Chris Ye989bb932020-07-04 16:18:59 -07001479 return device.get();
Siarhei Vishniakou4bc561c2018-11-02 17:41:58 -07001480 }
1481 }
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001482 // We do not check mUnattachedVideoDevices here because they should not participate in epoll,
1483 // and therefore should never be looked up by fd.
Siarhei Vishniakou4bc561c2018-11-02 17:41:58 -07001484 return nullptr;
1485}
1486
Chris Yee2b1e5c2021-03-10 22:45:12 -08001487std::optional<int32_t> EventHub::getBatteryCapacity(int32_t deviceId, int32_t batteryId) const {
Andy Chen22c330c2022-08-29 20:07:10 -04001488 std::filesystem::path batteryPath;
1489 {
1490 // Do not read the sysfs node to get the battery state while holding
1491 // the EventHub lock. For some peripheral devices, reading battery state
1492 // can be broken and take 5+ seconds. Holding the lock in this case would
1493 // block all other event processing during this time. For now, we assume this
1494 // call never happens on the InputReader thread and read the sysfs node outside
1495 // the lock to prevent event processing from being blocked by this call.
1496 std::scoped_lock _l(mLock);
Kim Low03ea0352020-11-06 12:45:07 -08001497
Andy Chen22c330c2022-08-29 20:07:10 -04001498 const auto infos = getBatteryInfoLocked(deviceId);
1499 auto it = infos.find(batteryId);
1500 if (it == infos.end()) {
1501 return std::nullopt;
1502 }
1503 batteryPath = it->second.path;
1504 } // release lock
1505
Chris Yee2b1e5c2021-03-10 22:45:12 -08001506 std::string buffer;
Kim Low03ea0352020-11-06 12:45:07 -08001507
1508 // Some devices report battery capacity as an integer through the "capacity" file
Andy Chen22c330c2022-08-29 20:07:10 -04001509 if (base::ReadFileToString(batteryPath / BATTERY_NODES.at(InputBatteryClass::CAPACITY),
Chris Yee2b1e5c2021-03-10 22:45:12 -08001510 &buffer)) {
Chris Yed1936772021-02-22 10:30:40 -08001511 return std::stoi(base::Trim(buffer));
Kim Low03ea0352020-11-06 12:45:07 -08001512 }
1513
1514 // Other devices report capacity as an enum value POWER_SUPPLY_CAPACITY_LEVEL_XXX
1515 // These values are taken from kernel source code include/linux/power_supply.h
Andy Chen22c330c2022-08-29 20:07:10 -04001516 if (base::ReadFileToString(batteryPath / BATTERY_NODES.at(InputBatteryClass::CAPACITY_LEVEL),
Chris Yee2b1e5c2021-03-10 22:45:12 -08001517 &buffer)) {
Chris Yed1936772021-02-22 10:30:40 -08001518 // Remove any white space such as trailing new line
Chris Yee2b1e5c2021-03-10 22:45:12 -08001519 const auto levelIt = BATTERY_LEVEL.find(base::Trim(buffer));
1520 if (levelIt != BATTERY_LEVEL.end()) {
1521 return levelIt->second;
Kim Low03ea0352020-11-06 12:45:07 -08001522 }
1523 }
Chris Yee2b1e5c2021-03-10 22:45:12 -08001524
Kim Low03ea0352020-11-06 12:45:07 -08001525 return std::nullopt;
1526}
1527
Chris Yee2b1e5c2021-03-10 22:45:12 -08001528std::optional<int32_t> EventHub::getBatteryStatus(int32_t deviceId, int32_t batteryId) const {
Andy Chen22c330c2022-08-29 20:07:10 -04001529 std::filesystem::path batteryPath;
1530 {
1531 // Do not read the sysfs node to get the battery state while holding
1532 // the EventHub lock. For some peripheral devices, reading battery state
1533 // can be broken and take 5+ seconds. Holding the lock in this case would
1534 // block all other event processing during this time. For now, we assume this
1535 // call never happens on the InputReader thread and read the sysfs node outside
1536 // the lock to prevent event processing from being blocked by this call.
1537 std::scoped_lock _l(mLock);
1538
1539 const auto infos = getBatteryInfoLocked(deviceId);
1540 auto it = infos.find(batteryId);
1541 if (it == infos.end()) {
1542 return std::nullopt;
1543 }
1544 batteryPath = it->second.path;
1545 } // release lock
1546
Chris Yee2b1e5c2021-03-10 22:45:12 -08001547 std::string buffer;
Kim Low03ea0352020-11-06 12:45:07 -08001548
Andy Chen22c330c2022-08-29 20:07:10 -04001549 if (!base::ReadFileToString(batteryPath / BATTERY_NODES.at(InputBatteryClass::STATUS),
Chris Yee2b1e5c2021-03-10 22:45:12 -08001550 &buffer)) {
Kim Low03ea0352020-11-06 12:45:07 -08001551 ALOGE("Failed to read sysfs battery info: %s", strerror(errno));
1552 return std::nullopt;
1553 }
1554
Chris Yed1936772021-02-22 10:30:40 -08001555 // Remove white space like trailing new line
Chris Yee2b1e5c2021-03-10 22:45:12 -08001556 const auto statusIt = BATTERY_STATUS.find(base::Trim(buffer));
1557 if (statusIt != BATTERY_STATUS.end()) {
1558 return statusIt->second;
Kim Low03ea0352020-11-06 12:45:07 -08001559 }
1560
1561 return std::nullopt;
1562}
1563
Michael Wrightd02c5b62014-02-10 15:10:22 -08001564size_t EventHub::getEvents(int timeoutMillis, RawEvent* buffer, size_t bufferSize) {
1565 ALOG_ASSERT(bufferSize >= 1);
1566
Chris Ye87143712020-11-10 05:05:58 +00001567 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001568
1569 struct input_event readBuffer[bufferSize];
1570
1571 RawEvent* event = buffer;
1572 size_t capacity = bufferSize;
1573 bool awoken = false;
1574 for (;;) {
1575 nsecs_t now = systemTime(SYSTEM_TIME_MONOTONIC);
1576
1577 // Reopen input devices if needed.
1578 if (mNeedToReopenDevices) {
1579 mNeedToReopenDevices = false;
1580
1581 ALOGI("Reopening all input devices due to a configuration change.");
1582
1583 closeAllDevicesLocked();
1584 mNeedToScanDevices = true;
1585 break; // return to the caller before we actually rescan
1586 }
1587
1588 // Report any devices that had last been added/removed.
Chris Ye989bb932020-07-04 16:18:59 -07001589 for (auto it = mClosingDevices.begin(); it != mClosingDevices.end();) {
1590 std::unique_ptr<Device> device = std::move(*it);
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001591 ALOGV("Reporting device closed: id=%d, name=%s\n", device->id, device->path.c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08001592 event->when = now;
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001593 event->deviceId = (device->id == mBuiltInKeyboardId)
1594 ? ReservedInputDeviceId::BUILT_IN_KEYBOARD_ID
1595 : device->id;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001596 event->type = DEVICE_REMOVED;
1597 event += 1;
Chris Ye989bb932020-07-04 16:18:59 -07001598 it = mClosingDevices.erase(it);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001599 mNeedToSendFinishedDeviceScan = true;
1600 if (--capacity == 0) {
1601 break;
1602 }
1603 }
1604
1605 if (mNeedToScanDevices) {
1606 mNeedToScanDevices = false;
1607 scanDevicesLocked();
1608 mNeedToSendFinishedDeviceScan = true;
1609 }
1610
Siarhei Vishniakouf49608d2020-08-20 19:18:21 -05001611 while (!mOpeningDevices.empty()) {
1612 std::unique_ptr<Device> device = std::move(*mOpeningDevices.rbegin());
1613 mOpeningDevices.pop_back();
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001614 ALOGV("Reporting device opened: id=%d, name=%s\n", device->id, device->path.c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08001615 event->when = now;
1616 event->deviceId = device->id == mBuiltInKeyboardId ? 0 : device->id;
1617 event->type = DEVICE_ADDED;
1618 event += 1;
Siarhei Vishniakouf49608d2020-08-20 19:18:21 -05001619
1620 // Try to find a matching video device by comparing device names
1621 for (auto it = mUnattachedVideoDevices.begin(); it != mUnattachedVideoDevices.end();
1622 it++) {
1623 std::unique_ptr<TouchVideoDevice>& videoDevice = *it;
Chris Yed3fef462021-03-07 17:10:08 -08001624 if (tryAddVideoDeviceLocked(*device, videoDevice)) {
Siarhei Vishniakouf49608d2020-08-20 19:18:21 -05001625 // videoDevice was transferred to 'device'
1626 it = mUnattachedVideoDevices.erase(it);
1627 break;
1628 }
1629 }
1630
1631 auto [dev_it, inserted] = mDevices.insert_or_assign(device->id, std::move(device));
1632 if (!inserted) {
Chris Ye989bb932020-07-04 16:18:59 -07001633 ALOGW("Device id %d exists, replaced.", device->id);
1634 }
Michael Wrightd02c5b62014-02-10 15:10:22 -08001635 mNeedToSendFinishedDeviceScan = true;
1636 if (--capacity == 0) {
1637 break;
1638 }
1639 }
1640
1641 if (mNeedToSendFinishedDeviceScan) {
1642 mNeedToSendFinishedDeviceScan = false;
1643 event->when = now;
1644 event->type = FINISHED_DEVICE_SCAN;
1645 event += 1;
1646 if (--capacity == 0) {
1647 break;
1648 }
1649 }
1650
1651 // Grab the next input event.
1652 bool deviceChanged = false;
1653 while (mPendingEventIndex < mPendingEventCount) {
1654 const struct epoll_event& eventItem = mPendingEventItems[mPendingEventIndex++];
Siarhei Vishniakou4bc561c2018-11-02 17:41:58 -07001655 if (eventItem.data.fd == mINotifyFd) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08001656 if (eventItem.events & EPOLLIN) {
1657 mPendingINotify = true;
1658 } else {
1659 ALOGW("Received unexpected epoll event 0x%08x for INotify.", eventItem.events);
1660 }
1661 continue;
1662 }
1663
Siarhei Vishniakou4bc561c2018-11-02 17:41:58 -07001664 if (eventItem.data.fd == mWakeReadPipeFd) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08001665 if (eventItem.events & EPOLLIN) {
1666 ALOGV("awoken after wake()");
1667 awoken = true;
Siarhei Vishniakoub4d960d2019-10-03 15:38:44 -05001668 char wakeReadBuffer[16];
Michael Wrightd02c5b62014-02-10 15:10:22 -08001669 ssize_t nRead;
1670 do {
Siarhei Vishniakoub4d960d2019-10-03 15:38:44 -05001671 nRead = read(mWakeReadPipeFd, wakeReadBuffer, sizeof(wakeReadBuffer));
1672 } while ((nRead == -1 && errno == EINTR) || nRead == sizeof(wakeReadBuffer));
Michael Wrightd02c5b62014-02-10 15:10:22 -08001673 } else {
1674 ALOGW("Received unexpected epoll event 0x%08x for wake read pipe.",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001675 eventItem.events);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001676 }
1677 continue;
1678 }
1679
Siarhei Vishniakou4bc561c2018-11-02 17:41:58 -07001680 Device* device = getDeviceByFdLocked(eventItem.data.fd);
Chris Ye989bb932020-07-04 16:18:59 -07001681 if (device == nullptr) {
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001682 ALOGE("Received unexpected epoll event 0x%08x for unknown fd %d.", eventItem.events,
1683 eventItem.data.fd);
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001684 ALOG_ASSERT(!DEBUG);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001685 continue;
1686 }
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001687 if (device->videoDevice && eventItem.data.fd == device->videoDevice->getFd()) {
1688 if (eventItem.events & EPOLLIN) {
1689 size_t numFrames = device->videoDevice->readAndQueueFrames();
1690 if (numFrames == 0) {
1691 ALOGE("Received epoll event for video device %s, but could not read frame",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001692 device->videoDevice->getName().c_str());
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001693 }
1694 } else if (eventItem.events & EPOLLHUP) {
1695 // TODO(b/121395353) - consider adding EPOLLRDHUP
1696 ALOGI("Removing video device %s due to epoll hang-up event.",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001697 device->videoDevice->getName().c_str());
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001698 unregisterVideoDeviceFromEpollLocked(*device->videoDevice);
1699 device->videoDevice = nullptr;
1700 } else {
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001701 ALOGW("Received unexpected epoll event 0x%08x for device %s.", eventItem.events,
1702 device->videoDevice->getName().c_str());
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001703 ALOG_ASSERT(!DEBUG);
1704 }
1705 continue;
1706 }
1707 // This must be an input event
Michael Wrightd02c5b62014-02-10 15:10:22 -08001708 if (eventItem.events & EPOLLIN) {
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001709 int32_t readSize =
1710 read(device->fd, readBuffer, sizeof(struct input_event) * capacity);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001711 if (readSize == 0 || (readSize < 0 && errno == ENODEV)) {
1712 // Device was removed before INotify noticed.
Mark Salyzyn5aa26b22014-06-10 13:07:44 -07001713 ALOGW("could not get event, removed? (fd: %d size: %" PRId32
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001714 " bufferSize: %zu capacity: %zu errno: %d)\n",
1715 device->fd, readSize, bufferSize, capacity, errno);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001716 deviceChanged = true;
Chris Ye989bb932020-07-04 16:18:59 -07001717 closeDeviceLocked(*device);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001718 } else if (readSize < 0) {
1719 if (errno != EAGAIN && errno != EINTR) {
1720 ALOGW("could not get event (errno=%d)", errno);
1721 }
1722 } else if ((readSize % sizeof(struct input_event)) != 0) {
1723 ALOGE("could not get event (wrong size: %d)", readSize);
1724 } else {
1725 int32_t deviceId = device->id == mBuiltInKeyboardId ? 0 : device->id;
1726
1727 size_t count = size_t(readSize) / sizeof(struct input_event);
1728 for (size_t i = 0; i < count; i++) {
1729 struct input_event& iev = readBuffer[i];
Siarhei Vishniakou592bac22018-11-08 19:42:38 -08001730 event->when = processEventTimestamp(iev);
Siarhei Vishniakou58ba3d12021-02-11 01:31:07 +00001731 event->readTime = systemTime(SYSTEM_TIME_MONOTONIC);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001732 event->deviceId = deviceId;
1733 event->type = iev.type;
1734 event->code = iev.code;
1735 event->value = iev.value;
1736 event += 1;
1737 capacity -= 1;
1738 }
1739 if (capacity == 0) {
1740 // The result buffer is full. Reset the pending event index
1741 // so we will try to read the device again on the next iteration.
1742 mPendingEventIndex -= 1;
1743 break;
1744 }
1745 }
1746 } else if (eventItem.events & EPOLLHUP) {
1747 ALOGI("Removing device %s due to epoll hang-up event.",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001748 device->identifier.name.c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08001749 deviceChanged = true;
Chris Ye989bb932020-07-04 16:18:59 -07001750 closeDeviceLocked(*device);
Michael Wrightd02c5b62014-02-10 15:10:22 -08001751 } else {
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001752 ALOGW("Received unexpected epoll event 0x%08x for device %s.", eventItem.events,
1753 device->identifier.name.c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08001754 }
1755 }
1756
1757 // readNotify() will modify the list of devices so this must be done after
1758 // processing all other events to ensure that we read all remaining events
1759 // before closing the devices.
1760 if (mPendingINotify && mPendingEventIndex >= mPendingEventCount) {
1761 mPendingINotify = false;
1762 readNotifyLocked();
1763 deviceChanged = true;
1764 }
1765
1766 // Report added or removed devices immediately.
1767 if (deviceChanged) {
1768 continue;
1769 }
1770
1771 // Return now if we have collected any events or if we were explicitly awoken.
1772 if (event != buffer || awoken) {
1773 break;
1774 }
1775
Siarhei Vishniakou4b5a87f2019-09-24 13:03:58 +01001776 // Poll for events.
1777 // When a device driver has pending (unread) events, it acquires
1778 // a kernel wake lock. Once the last pending event has been read, the device
1779 // driver will release the kernel wake lock, but the epoll will hold the wakelock,
1780 // since we are using EPOLLWAKEUP. The wakelock is released by the epoll when epoll_wait
1781 // is called again for the same fd that produced the event.
1782 // Thus the system can only sleep if there are no events pending or
1783 // currently being processed.
Michael Wrightd02c5b62014-02-10 15:10:22 -08001784 //
1785 // The timeout is advisory only. If the device is asleep, it will not wake just to
1786 // service the timeout.
1787 mPendingEventIndex = 0;
1788
Siarhei Vishniakou4b5a87f2019-09-24 13:03:58 +01001789 mLock.unlock(); // release lock before poll
Michael Wrightd02c5b62014-02-10 15:10:22 -08001790
1791 int pollResult = epoll_wait(mEpollFd, mPendingEventItems, EPOLL_MAX_EVENTS, timeoutMillis);
1792
Siarhei Vishniakou4b5a87f2019-09-24 13:03:58 +01001793 mLock.lock(); // reacquire lock after poll
Michael Wrightd02c5b62014-02-10 15:10:22 -08001794
1795 if (pollResult == 0) {
1796 // Timed out.
1797 mPendingEventCount = 0;
1798 break;
1799 }
1800
1801 if (pollResult < 0) {
1802 // An error occurred.
1803 mPendingEventCount = 0;
1804
1805 // Sleep after errors to avoid locking up the system.
1806 // Hopefully the error is transient.
1807 if (errno != EINTR) {
1808 ALOGW("poll failed (errno=%d)\n", errno);
1809 usleep(100000);
1810 }
1811 } else {
1812 // Some events occurred.
1813 mPendingEventCount = size_t(pollResult);
1814 }
1815 }
1816
1817 // All done, return the number of events we read.
1818 return event - buffer;
1819}
1820
Siarhei Vishniakouadd89292018-12-13 19:23:36 -08001821std::vector<TouchVideoFrame> EventHub::getVideoFrames(int32_t deviceId) {
Chris Ye87143712020-11-10 05:05:58 +00001822 std::scoped_lock _l(mLock);
Siarhei Vishniakouadd89292018-12-13 19:23:36 -08001823
1824 Device* device = getDeviceLocked(deviceId);
Chris Ye66fbac32020-07-06 20:36:43 -07001825 if (device == nullptr || !device->videoDevice) {
Siarhei Vishniakouadd89292018-12-13 19:23:36 -08001826 return {};
1827 }
1828 return device->videoDevice->consumeFrames();
1829}
1830
Michael Wrightd02c5b62014-02-10 15:10:22 -08001831void EventHub::wake() {
1832 ALOGV("wake() called");
1833
1834 ssize_t nWrite;
1835 do {
1836 nWrite = write(mWakeWritePipeFd, "W", 1);
1837 } while (nWrite == -1 && errno == EINTR);
1838
1839 if (nWrite != 1 && errno != EAGAIN) {
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08001840 ALOGW("Could not write wake signal: %s", strerror(errno));
Michael Wrightd02c5b62014-02-10 15:10:22 -08001841 }
1842}
1843
1844void EventHub::scanDevicesLocked() {
Usama Arifb27c8e62021-06-03 16:44:09 +01001845 status_t result;
1846 std::error_code errorCode;
1847
1848 if (std::filesystem::exists(DEVICE_INPUT_PATH, errorCode)) {
1849 result = scanDirLocked(DEVICE_INPUT_PATH);
1850 if (result < 0) {
1851 ALOGE("scan dir failed for %s", DEVICE_INPUT_PATH);
1852 }
1853 } else {
1854 if (errorCode) {
1855 ALOGW("Could not run filesystem::exists() due to error %d : %s.", errorCode.value(),
1856 errorCode.message().c_str());
1857 }
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08001858 }
Philip Quinn39b81682019-01-09 22:20:39 -08001859 if (isV4lScanningEnabled()) {
Usama Arifb27c8e62021-06-03 16:44:09 +01001860 result = scanVideoDirLocked(DEVICE_PATH);
Philip Quinn39b81682019-01-09 22:20:39 -08001861 if (result != OK) {
Usama Arifb27c8e62021-06-03 16:44:09 +01001862 ALOGE("scan video dir failed for %s", DEVICE_PATH);
Philip Quinn39b81682019-01-09 22:20:39 -08001863 }
Michael Wrightd02c5b62014-02-10 15:10:22 -08001864 }
Chris Ye989bb932020-07-04 16:18:59 -07001865 if (mDevices.find(ReservedInputDeviceId::VIRTUAL_KEYBOARD_ID) == mDevices.end()) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08001866 createVirtualKeyboardLocked();
1867 }
1868}
1869
1870// ----------------------------------------------------------------------------
1871
Michael Wrightd02c5b62014-02-10 15:10:22 -08001872static const int32_t GAMEPAD_KEYCODES[] = {
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001873 AKEYCODE_BUTTON_A, AKEYCODE_BUTTON_B, AKEYCODE_BUTTON_C, //
1874 AKEYCODE_BUTTON_X, AKEYCODE_BUTTON_Y, AKEYCODE_BUTTON_Z, //
1875 AKEYCODE_BUTTON_L1, AKEYCODE_BUTTON_R1, //
1876 AKEYCODE_BUTTON_L2, AKEYCODE_BUTTON_R2, //
1877 AKEYCODE_BUTTON_THUMBL, AKEYCODE_BUTTON_THUMBR, //
1878 AKEYCODE_BUTTON_START, AKEYCODE_BUTTON_SELECT, AKEYCODE_BUTTON_MODE, //
Michael Wrightd02c5b62014-02-10 15:10:22 -08001879};
1880
Siarhei Vishniakou25920312018-12-12 15:24:44 -08001881status_t EventHub::registerFdForEpoll(int fd) {
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001882 // TODO(b/121395353) - consider adding EPOLLRDHUP
Siarhei Vishniakou25920312018-12-12 15:24:44 -08001883 struct epoll_event eventItem = {};
1884 eventItem.events = EPOLLIN | EPOLLWAKEUP;
1885 eventItem.data.fd = fd;
1886 if (epoll_ctl(mEpollFd, EPOLL_CTL_ADD, fd, &eventItem)) {
1887 ALOGE("Could not add fd to epoll instance: %s", strerror(errno));
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07001888 return -errno;
1889 }
1890 return OK;
1891}
1892
Siarhei Vishniakou25920312018-12-12 15:24:44 -08001893status_t EventHub::unregisterFdFromEpoll(int fd) {
1894 if (epoll_ctl(mEpollFd, EPOLL_CTL_DEL, fd, nullptr)) {
1895 ALOGW("Could not remove fd from epoll instance: %s", strerror(errno));
1896 return -errno;
1897 }
1898 return OK;
1899}
1900
Chris Ye989bb932020-07-04 16:18:59 -07001901status_t EventHub::registerDeviceForEpollLocked(Device& device) {
1902 status_t result = registerFdForEpoll(device.fd);
Siarhei Vishniakou25920312018-12-12 15:24:44 -08001903 if (result != OK) {
Chris Ye989bb932020-07-04 16:18:59 -07001904 ALOGE("Could not add input device fd to epoll for device %" PRId32, device.id);
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001905 return result;
1906 }
Chris Ye989bb932020-07-04 16:18:59 -07001907 if (device.videoDevice) {
1908 registerVideoDeviceForEpollLocked(*device.videoDevice);
Siarhei Vishniakou25920312018-12-12 15:24:44 -08001909 }
1910 return result;
1911}
1912
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001913void EventHub::registerVideoDeviceForEpollLocked(const TouchVideoDevice& videoDevice) {
1914 status_t result = registerFdForEpoll(videoDevice.getFd());
1915 if (result != OK) {
1916 ALOGE("Could not add video device %s to epoll", videoDevice.getName().c_str());
1917 }
1918}
1919
Chris Ye989bb932020-07-04 16:18:59 -07001920status_t EventHub::unregisterDeviceFromEpollLocked(Device& device) {
1921 if (device.hasValidFd()) {
1922 status_t result = unregisterFdFromEpoll(device.fd);
Siarhei Vishniakou25920312018-12-12 15:24:44 -08001923 if (result != OK) {
Chris Ye989bb932020-07-04 16:18:59 -07001924 ALOGW("Could not remove input device fd from epoll for device %" PRId32, device.id);
Siarhei Vishniakou25920312018-12-12 15:24:44 -08001925 return result;
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07001926 }
1927 }
Chris Ye989bb932020-07-04 16:18:59 -07001928 if (device.videoDevice) {
1929 unregisterVideoDeviceFromEpollLocked(*device.videoDevice);
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001930 }
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07001931 return OK;
1932}
1933
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001934void EventHub::unregisterVideoDeviceFromEpollLocked(const TouchVideoDevice& videoDevice) {
1935 if (videoDevice.hasValidFd()) {
1936 status_t result = unregisterFdFromEpoll(videoDevice.getFd());
1937 if (result != OK) {
1938 ALOGW("Could not remove video device fd from epoll for device: %s",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001939 videoDevice.getName().c_str());
Siarhei Vishniakou12598682018-11-02 17:19:19 -07001940 }
1941 }
1942}
1943
Chris Yed3fef462021-03-07 17:10:08 -08001944void EventHub::reportDeviceAddedForStatisticsLocked(const InputDeviceIdentifier& identifier,
Dominik Laskowski2f01d772022-03-23 16:01:29 -07001945 ftl::Flags<InputDeviceClass> classes) {
Chris Ye657c2f02021-05-25 16:24:37 -07001946 SHA256_CTX ctx;
1947 SHA256_Init(&ctx);
1948 SHA256_Update(&ctx, reinterpret_cast<const uint8_t*>(identifier.uniqueId.c_str()),
1949 identifier.uniqueId.size());
1950 std::array<uint8_t, SHA256_DIGEST_LENGTH> digest;
1951 SHA256_Final(digest.data(), &ctx);
1952
1953 std::string obfuscatedId;
1954 for (size_t i = 0; i < OBFUSCATED_LENGTH; i++) {
1955 obfuscatedId += StringPrintf("%02x", digest[i]);
1956 }
1957
Chris Yed3fef462021-03-07 17:10:08 -08001958 android::util::stats_write(android::util::INPUTDEVICE_REGISTERED, identifier.name.c_str(),
1959 identifier.vendor, identifier.product, identifier.version,
Chris Ye657c2f02021-05-25 16:24:37 -07001960 identifier.bus, obfuscatedId.c_str(), classes.get());
Chris Yed3fef462021-03-07 17:10:08 -08001961}
1962
Siarhei Vishniakoua4c502a2021-02-05 00:45:20 +00001963void EventHub::openDeviceLocked(const std::string& devicePath) {
1964 // If an input device happens to register around the time when EventHub's constructor runs, it
1965 // is possible that the same input event node (for example, /dev/input/event3) will be noticed
1966 // in both 'inotify' callback and also in the 'scanDirLocked' pass. To prevent duplicate devices
1967 // from getting registered, ensure that this path is not already covered by an existing device.
1968 for (const auto& [deviceId, device] : mDevices) {
1969 if (device->path == devicePath) {
1970 return; // device was already registered
1971 }
1972 }
1973
Michael Wrightd02c5b62014-02-10 15:10:22 -08001974 char buffer[80];
1975
Chris Ye8594e192020-07-14 10:34:06 -07001976 ALOGV("Opening device: %s", devicePath.c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08001977
Chris Ye8594e192020-07-14 10:34:06 -07001978 int fd = open(devicePath.c_str(), O_RDWR | O_CLOEXEC | O_NONBLOCK);
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001979 if (fd < 0) {
Chris Ye8594e192020-07-14 10:34:06 -07001980 ALOGE("could not open %s, %s\n", devicePath.c_str(), strerror(errno));
Siarhei Vishniakoua4c502a2021-02-05 00:45:20 +00001981 return;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001982 }
1983
1984 InputDeviceIdentifier identifier;
1985
1986 // Get device name.
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07001987 if (ioctl(fd, EVIOCGNAME(sizeof(buffer) - 1), &buffer) < 1) {
Chris Ye8594e192020-07-14 10:34:06 -07001988 ALOGE("Could not get device name for %s: %s", devicePath.c_str(), strerror(errno));
Michael Wrightd02c5b62014-02-10 15:10:22 -08001989 } else {
1990 buffer[sizeof(buffer) - 1] = '\0';
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01001991 identifier.name = buffer;
Michael Wrightd02c5b62014-02-10 15:10:22 -08001992 }
1993
1994 // Check to see if the device is on our excluded list
1995 for (size_t i = 0; i < mExcludedDevices.size(); i++) {
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01001996 const std::string& item = mExcludedDevices[i];
Michael Wrightd02c5b62014-02-10 15:10:22 -08001997 if (identifier.name == item) {
Chris Ye8594e192020-07-14 10:34:06 -07001998 ALOGI("ignoring event id %s driver %s\n", devicePath.c_str(), item.c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08001999 close(fd);
Siarhei Vishniakoua4c502a2021-02-05 00:45:20 +00002000 return;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002001 }
2002 }
2003
2004 // Get device driver version.
2005 int driverVersion;
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002006 if (ioctl(fd, EVIOCGVERSION, &driverVersion)) {
Chris Ye8594e192020-07-14 10:34:06 -07002007 ALOGE("could not get driver version for %s, %s\n", devicePath.c_str(), strerror(errno));
Michael Wrightd02c5b62014-02-10 15:10:22 -08002008 close(fd);
Siarhei Vishniakoua4c502a2021-02-05 00:45:20 +00002009 return;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002010 }
2011
2012 // Get device identifier.
2013 struct input_id inputId;
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002014 if (ioctl(fd, EVIOCGID, &inputId)) {
Chris Ye8594e192020-07-14 10:34:06 -07002015 ALOGE("could not get device input id for %s, %s\n", devicePath.c_str(), strerror(errno));
Michael Wrightd02c5b62014-02-10 15:10:22 -08002016 close(fd);
Siarhei Vishniakoua4c502a2021-02-05 00:45:20 +00002017 return;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002018 }
2019 identifier.bus = inputId.bustype;
2020 identifier.product = inputId.product;
2021 identifier.vendor = inputId.vendor;
2022 identifier.version = inputId.version;
2023
2024 // Get device physical location.
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002025 if (ioctl(fd, EVIOCGPHYS(sizeof(buffer) - 1), &buffer) < 1) {
2026 // fprintf(stderr, "could not get location for %s, %s\n", devicePath, strerror(errno));
Michael Wrightd02c5b62014-02-10 15:10:22 -08002027 } else {
2028 buffer[sizeof(buffer) - 1] = '\0';
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01002029 identifier.location = buffer;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002030 }
2031
2032 // Get device unique id.
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002033 if (ioctl(fd, EVIOCGUNIQ(sizeof(buffer) - 1), &buffer) < 1) {
2034 // fprintf(stderr, "could not get idstring for %s, %s\n", devicePath, strerror(errno));
Michael Wrightd02c5b62014-02-10 15:10:22 -08002035 } else {
2036 buffer[sizeof(buffer) - 1] = '\0';
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01002037 identifier.uniqueId = buffer;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002038 }
2039
2040 // Fill in the descriptor.
2041 assignDescriptorLocked(identifier);
2042
Michael Wrightd02c5b62014-02-10 15:10:22 -08002043 // Allocate device. (The device object takes ownership of the fd at this point.)
2044 int32_t deviceId = mNextDeviceId++;
Chris Ye989bb932020-07-04 16:18:59 -07002045 std::unique_ptr<Device> device = std::make_unique<Device>(fd, deviceId, devicePath, identifier);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002046
Chris Ye8594e192020-07-14 10:34:06 -07002047 ALOGV("add device %d: %s\n", deviceId, devicePath.c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08002048 ALOGV(" bus: %04x\n"
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002049 " vendor %04x\n"
2050 " product %04x\n"
2051 " version %04x\n",
2052 identifier.bus, identifier.vendor, identifier.product, identifier.version);
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01002053 ALOGV(" name: \"%s\"\n", identifier.name.c_str());
2054 ALOGV(" location: \"%s\"\n", identifier.location.c_str());
2055 ALOGV(" unique id: \"%s\"\n", identifier.uniqueId.c_str());
2056 ALOGV(" descriptor: \"%s\"\n", identifier.descriptor.c_str());
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002057 ALOGV(" driver: v%d.%d.%d\n", driverVersion >> 16, (driverVersion >> 8) & 0xff,
2058 driverVersion & 0xff);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002059
2060 // Load the configuration file for the device.
Chris Ye989bb932020-07-04 16:18:59 -07002061 device->loadConfigurationLocked();
Michael Wrightd02c5b62014-02-10 15:10:22 -08002062
Chris Yee2b1e5c2021-03-10 22:45:12 -08002063 bool hasBattery = false;
2064 bool hasLights = false;
2065 // Check the sysfs root path
2066 std::optional<std::filesystem::path> sysfsRootPath = getSysfsRootPath(devicePath.c_str());
2067 if (sysfsRootPath.has_value()) {
Chris Ye1dd2e5c2021-04-04 23:12:41 -07002068 std::shared_ptr<AssociatedDevice> associatedDevice;
2069 for (const auto& [id, dev] : mDevices) {
2070 if (device->identifier.descriptor == dev->identifier.descriptor &&
2071 !dev->associatedDevice) {
2072 associatedDevice = dev->associatedDevice;
2073 }
Chris Yee2b1e5c2021-03-10 22:45:12 -08002074 }
Chris Ye1dd2e5c2021-04-04 23:12:41 -07002075 if (!associatedDevice) {
2076 associatedDevice = std::make_shared<AssociatedDevice>(sysfsRootPath.value());
2077 }
2078 hasBattery = associatedDevice->configureBatteryLocked();
2079 hasLights = associatedDevice->configureLightsLocked();
Chris Yee2b1e5c2021-03-10 22:45:12 -08002080
Chris Ye1dd2e5c2021-04-04 23:12:41 -07002081 device->associatedDevice = associatedDevice;
Chris Yee2b1e5c2021-03-10 22:45:12 -08002082 }
Chris Ye3fdbfef2021-01-06 18:45:18 -08002083
Michael Wrightd02c5b62014-02-10 15:10:22 -08002084 // Figure out the kinds of events the device reports.
Chris Ye66fbac32020-07-06 20:36:43 -07002085 device->readDeviceBitMask(EVIOCGBIT(EV_KEY, 0), device->keyBitmask);
2086 device->readDeviceBitMask(EVIOCGBIT(EV_ABS, 0), device->absBitmask);
2087 device->readDeviceBitMask(EVIOCGBIT(EV_REL, 0), device->relBitmask);
2088 device->readDeviceBitMask(EVIOCGBIT(EV_SW, 0), device->swBitmask);
2089 device->readDeviceBitMask(EVIOCGBIT(EV_LED, 0), device->ledBitmask);
2090 device->readDeviceBitMask(EVIOCGBIT(EV_FF, 0), device->ffBitmask);
Chris Yef59a2f42020-10-16 12:55:26 -07002091 device->readDeviceBitMask(EVIOCGBIT(EV_MSC, 0), device->mscBitmask);
Chris Ye66fbac32020-07-06 20:36:43 -07002092 device->readDeviceBitMask(EVIOCGPROP(0), device->propBitmask);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002093
2094 // See if this is a keyboard. Ignore everything in the button range except for
2095 // joystick and gamepad buttons which are handled like keyboards for the most part.
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002096 bool haveKeyboardKeys =
Chris Ye66fbac32020-07-06 20:36:43 -07002097 device->keyBitmask.any(0, BTN_MISC) || device->keyBitmask.any(BTN_WHEEL, KEY_MAX + 1);
2098 bool haveGamepadButtons = device->keyBitmask.any(BTN_MISC, BTN_MOUSE) ||
2099 device->keyBitmask.any(BTN_JOYSTICK, BTN_DIGI);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002100 if (haveKeyboardKeys || haveGamepadButtons) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002101 device->classes |= InputDeviceClass::KEYBOARD;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002102 }
2103
2104 // See if this is a cursor device such as a trackball or mouse.
Chris Ye66fbac32020-07-06 20:36:43 -07002105 if (device->keyBitmask.test(BTN_MOUSE) && device->relBitmask.test(REL_X) &&
2106 device->relBitmask.test(REL_Y)) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002107 device->classes |= InputDeviceClass::CURSOR;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002108 }
2109
Prashant Malani1941ff52015-08-11 18:29:28 -07002110 // See if this is a rotary encoder type device.
2111 String8 deviceType = String8();
2112 if (device->configuration &&
2113 device->configuration->tryGetProperty(String8("device.type"), deviceType)) {
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002114 if (!deviceType.compare(String8("rotaryEncoder"))) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002115 device->classes |= InputDeviceClass::ROTARY_ENCODER;
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002116 }
Prashant Malani1941ff52015-08-11 18:29:28 -07002117 }
2118
Michael Wrightd02c5b62014-02-10 15:10:22 -08002119 // See if this is a touch pad.
2120 // Is this a new modern multi-touch driver?
Chris Ye66fbac32020-07-06 20:36:43 -07002121 if (device->absBitmask.test(ABS_MT_POSITION_X) && device->absBitmask.test(ABS_MT_POSITION_Y)) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08002122 // Some joysticks such as the PS3 controller report axes that conflict
2123 // with the ABS_MT range. Try to confirm that the device really is
2124 // a touch screen.
Chris Ye66fbac32020-07-06 20:36:43 -07002125 if (device->keyBitmask.test(BTN_TOUCH) || !haveGamepadButtons) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002126 device->classes |= (InputDeviceClass::TOUCH | InputDeviceClass::TOUCH_MT);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002127 }
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002128 // Is this an old style single-touch driver?
Chris Ye66fbac32020-07-06 20:36:43 -07002129 } else if (device->keyBitmask.test(BTN_TOUCH) && device->absBitmask.test(ABS_X) &&
2130 device->absBitmask.test(ABS_Y)) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002131 device->classes |= InputDeviceClass::TOUCH;
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002132 // Is this a BT stylus?
Chris Ye66fbac32020-07-06 20:36:43 -07002133 } else if ((device->absBitmask.test(ABS_PRESSURE) || device->keyBitmask.test(BTN_TOUCH)) &&
2134 !device->absBitmask.test(ABS_X) && !device->absBitmask.test(ABS_Y)) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002135 device->classes |= InputDeviceClass::EXTERNAL_STYLUS;
Michael Wright842500e2015-03-13 17:32:02 -07002136 // Keyboard will try to claim some of the buttons but we really want to reserve those so we
2137 // can fuse it with the touch screen data, so just take them back. Note this means an
2138 // external stylus cannot also be a keyboard device.
Chris Ye1b0c7342020-07-28 21:57:03 -07002139 device->classes &= ~InputDeviceClass::KEYBOARD;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002140 }
2141
2142 // See if this device is a joystick.
2143 // Assumes that joysticks always have gamepad buttons in order to distinguish them
2144 // from other devices such as accelerometers that also have absolute axes.
2145 if (haveGamepadButtons) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002146 auto assumedClasses = device->classes | InputDeviceClass::JOYSTICK;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002147 for (int i = 0; i <= ABS_MAX; i++) {
Chris Ye66fbac32020-07-06 20:36:43 -07002148 if (device->absBitmask.test(i) &&
Chris Ye1b0c7342020-07-28 21:57:03 -07002149 (getAbsAxisUsage(i, assumedClasses).test(InputDeviceClass::JOYSTICK))) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08002150 device->classes = assumedClasses;
2151 break;
2152 }
2153 }
2154 }
2155
Chris Yef59a2f42020-10-16 12:55:26 -07002156 // Check whether this device is an accelerometer.
2157 if (device->propBitmask.test(INPUT_PROP_ACCELEROMETER)) {
2158 device->classes |= InputDeviceClass::SENSOR;
2159 }
2160
Michael Wrightd02c5b62014-02-10 15:10:22 -08002161 // Check whether this device has switches.
2162 for (int i = 0; i <= SW_MAX; i++) {
Chris Ye66fbac32020-07-06 20:36:43 -07002163 if (device->swBitmask.test(i)) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002164 device->classes |= InputDeviceClass::SWITCH;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002165 break;
2166 }
2167 }
2168
2169 // Check whether this device supports the vibrator.
Chris Ye66fbac32020-07-06 20:36:43 -07002170 if (device->ffBitmask.test(FF_RUMBLE)) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002171 device->classes |= InputDeviceClass::VIBRATOR;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002172 }
2173
2174 // Configure virtual keys.
Chris Ye1b0c7342020-07-28 21:57:03 -07002175 if ((device->classes.test(InputDeviceClass::TOUCH))) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08002176 // Load the virtual keys for the touch screen, if any.
2177 // We do this now so that we can make sure to load the keymap if necessary.
Chris Ye989bb932020-07-04 16:18:59 -07002178 bool success = device->loadVirtualKeyMapLocked();
Siarhei Vishniakou3e78dec2019-02-20 16:21:46 -06002179 if (success) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002180 device->classes |= InputDeviceClass::KEYBOARD;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002181 }
2182 }
2183
2184 // Load the key map.
Chris Yef59a2f42020-10-16 12:55:26 -07002185 // We need to do this for joysticks too because the key layout may specify axes, and for
2186 // sensor as well because the key layout may specify the axes to sensor data mapping.
Michael Wrightd02c5b62014-02-10 15:10:22 -08002187 status_t keyMapStatus = NAME_NOT_FOUND;
Chris Yef59a2f42020-10-16 12:55:26 -07002188 if (device->classes.any(InputDeviceClass::KEYBOARD | InputDeviceClass::JOYSTICK |
2189 InputDeviceClass::SENSOR)) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08002190 // Load the keymap for the device.
Chris Ye989bb932020-07-04 16:18:59 -07002191 keyMapStatus = device->loadKeyMapLocked();
Michael Wrightd02c5b62014-02-10 15:10:22 -08002192 }
2193
2194 // Configure the keyboard, gamepad or virtual keyboard.
Chris Ye1b0c7342020-07-28 21:57:03 -07002195 if (device->classes.test(InputDeviceClass::KEYBOARD)) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08002196 // Register the keyboard as a built-in keyboard if it is eligible.
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002197 if (!keyMapStatus && mBuiltInKeyboardId == NO_BUILT_IN_KEYBOARD &&
Siarhei Vishniakoud549b252020-08-11 11:25:26 -05002198 isEligibleBuiltInKeyboard(device->identifier, device->configuration.get(),
2199 &device->keyMap)) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08002200 mBuiltInKeyboardId = device->id;
2201 }
2202
2203 // 'Q' key support = cheap test of whether this is an alpha-capable kbd
Chris Ye989bb932020-07-04 16:18:59 -07002204 if (device->hasKeycodeLocked(AKEYCODE_Q)) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002205 device->classes |= InputDeviceClass::ALPHAKEY;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002206 }
2207
2208 // See if this device has a DPAD.
Chris Ye989bb932020-07-04 16:18:59 -07002209 if (device->hasKeycodeLocked(AKEYCODE_DPAD_UP) &&
2210 device->hasKeycodeLocked(AKEYCODE_DPAD_DOWN) &&
2211 device->hasKeycodeLocked(AKEYCODE_DPAD_LEFT) &&
2212 device->hasKeycodeLocked(AKEYCODE_DPAD_RIGHT) &&
2213 device->hasKeycodeLocked(AKEYCODE_DPAD_CENTER)) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002214 device->classes |= InputDeviceClass::DPAD;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002215 }
2216
2217 // See if this device has a gamepad.
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002218 for (size_t i = 0; i < sizeof(GAMEPAD_KEYCODES) / sizeof(GAMEPAD_KEYCODES[0]); i++) {
Chris Ye989bb932020-07-04 16:18:59 -07002219 if (device->hasKeycodeLocked(GAMEPAD_KEYCODES[i])) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002220 device->classes |= InputDeviceClass::GAMEPAD;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002221 break;
2222 }
2223 }
Michael Wrightd02c5b62014-02-10 15:10:22 -08002224 }
2225
2226 // If the device isn't recognized as something we handle, don't monitor it.
Dominik Laskowski2f01d772022-03-23 16:01:29 -07002227 if (device->classes == ftl::Flags<InputDeviceClass>(0)) {
Chris Ye8594e192020-07-14 10:34:06 -07002228 ALOGV("Dropping device: id=%d, path='%s', name='%s'", deviceId, devicePath.c_str(),
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002229 device->identifier.name.c_str());
Siarhei Vishniakoua4c502a2021-02-05 00:45:20 +00002230 return;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002231 }
2232
Chris Ye3fdbfef2021-01-06 18:45:18 -08002233 // Classify InputDeviceClass::BATTERY.
2234 if (hasBattery) {
2235 device->classes |= InputDeviceClass::BATTERY;
2236 }
Kim Low03ea0352020-11-06 12:45:07 -08002237
Chris Ye3fdbfef2021-01-06 18:45:18 -08002238 // Classify InputDeviceClass::LIGHT.
2239 if (hasLights) {
2240 device->classes |= InputDeviceClass::LIGHT;
Kim Low03ea0352020-11-06 12:45:07 -08002241 }
2242
Tim Kilbourn063ff532015-04-08 10:26:18 -07002243 // Determine whether the device has a mic.
Chris Ye989bb932020-07-04 16:18:59 -07002244 if (device->deviceHasMicLocked()) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002245 device->classes |= InputDeviceClass::MIC;
Tim Kilbourn063ff532015-04-08 10:26:18 -07002246 }
2247
Michael Wrightd02c5b62014-02-10 15:10:22 -08002248 // Determine whether the device is external or internal.
Chris Ye989bb932020-07-04 16:18:59 -07002249 if (device->isExternalDeviceLocked()) {
Chris Ye1b0c7342020-07-28 21:57:03 -07002250 device->classes |= InputDeviceClass::EXTERNAL;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002251 }
2252
Chris Ye1b0c7342020-07-28 21:57:03 -07002253 if (device->classes.any(InputDeviceClass::JOYSTICK | InputDeviceClass::DPAD) &&
2254 device->classes.test(InputDeviceClass::GAMEPAD)) {
Chris Ye989bb932020-07-04 16:18:59 -07002255 device->controllerNumber = getNextControllerNumberLocked(device->identifier.name);
2256 device->setLedForControllerLocked();
Michael Wrightd02c5b62014-02-10 15:10:22 -08002257 }
2258
Chris Ye989bb932020-07-04 16:18:59 -07002259 if (registerDeviceForEpollLocked(*device) != OK) {
Siarhei Vishniakoua4c502a2021-02-05 00:45:20 +00002260 return;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002261 }
2262
Chris Ye989bb932020-07-04 16:18:59 -07002263 device->configureFd();
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002264
Chris Ye1b0c7342020-07-28 21:57:03 -07002265 ALOGI("New device: id=%d, fd=%d, path='%s', name='%s', classes=%s, "
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002266 "configuration='%s', keyLayout='%s', keyCharacterMap='%s', builtinKeyboard=%s, ",
Chris Ye1b0c7342020-07-28 21:57:03 -07002267 deviceId, fd, devicePath.c_str(), device->identifier.name.c_str(),
2268 device->classes.string().c_str(), device->configurationFile.c_str(),
2269 device->keyMap.keyLayoutFile.c_str(), device->keyMap.keyCharacterMapFile.c_str(),
2270 toString(mBuiltInKeyboardId == deviceId));
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002271
Chris Ye989bb932020-07-04 16:18:59 -07002272 addDeviceLocked(std::move(device));
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002273}
2274
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002275void EventHub::openVideoDeviceLocked(const std::string& devicePath) {
2276 std::unique_ptr<TouchVideoDevice> videoDevice = TouchVideoDevice::create(devicePath);
2277 if (!videoDevice) {
2278 ALOGE("Could not create touch video device for %s. Ignoring", devicePath.c_str());
2279 return;
2280 }
Siarhei Vishniakouec7854a2018-12-14 16:52:34 -08002281 // Transfer ownership of this video device to a matching input device
Chris Ye989bb932020-07-04 16:18:59 -07002282 for (const auto& [id, device] : mDevices) {
Chris Yed3fef462021-03-07 17:10:08 -08002283 if (tryAddVideoDeviceLocked(*device, videoDevice)) {
Siarhei Vishniakouf49608d2020-08-20 19:18:21 -05002284 return; // 'device' now owns 'videoDevice'
Siarhei Vishniakouec7854a2018-12-14 16:52:34 -08002285 }
2286 }
2287
2288 // Couldn't find a matching input device, so just add it to a temporary holding queue.
2289 // A matching input device may appear later.
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002290 ALOGI("Adding video device %s to list of unattached video devices",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002291 videoDevice->getName().c_str());
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002292 mUnattachedVideoDevices.push_back(std::move(videoDevice));
2293}
2294
Chris Yed3fef462021-03-07 17:10:08 -08002295bool EventHub::tryAddVideoDeviceLocked(EventHub::Device& device,
2296 std::unique_ptr<TouchVideoDevice>& videoDevice) {
Siarhei Vishniakouf49608d2020-08-20 19:18:21 -05002297 if (videoDevice->getName() != device.identifier.name) {
2298 return false;
2299 }
2300 device.videoDevice = std::move(videoDevice);
2301 if (device.enabled) {
2302 registerVideoDeviceForEpollLocked(*device.videoDevice);
2303 }
2304 return true;
2305}
2306
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002307bool EventHub::isDeviceEnabled(int32_t deviceId) {
Chris Ye87143712020-11-10 05:05:58 +00002308 std::scoped_lock _l(mLock);
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002309 Device* device = getDeviceLocked(deviceId);
Yi Kong9b14ac62018-07-17 13:48:38 -07002310 if (device == nullptr) {
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002311 ALOGE("Invalid device id=%" PRId32 " provided to %s", deviceId, __func__);
2312 return false;
2313 }
2314 return device->enabled;
2315}
Michael Wrightd02c5b62014-02-10 15:10:22 -08002316
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002317status_t EventHub::enableDevice(int32_t deviceId) {
Chris Ye87143712020-11-10 05:05:58 +00002318 std::scoped_lock _l(mLock);
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002319 Device* device = getDeviceLocked(deviceId);
Yi Kong9b14ac62018-07-17 13:48:38 -07002320 if (device == nullptr) {
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002321 ALOGE("Invalid device id=%" PRId32 " provided to %s", deviceId, __func__);
2322 return BAD_VALUE;
2323 }
2324 if (device->enabled) {
2325 ALOGW("Duplicate call to %s, input device %" PRId32 " already enabled", __func__, deviceId);
2326 return OK;
2327 }
2328 status_t result = device->enable();
2329 if (result != OK) {
2330 ALOGE("Failed to enable device %" PRId32, deviceId);
2331 return result;
2332 }
2333
Chris Ye989bb932020-07-04 16:18:59 -07002334 device->configureFd();
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002335
Chris Ye989bb932020-07-04 16:18:59 -07002336 return registerDeviceForEpollLocked(*device);
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002337}
2338
2339status_t EventHub::disableDevice(int32_t deviceId) {
Chris Ye87143712020-11-10 05:05:58 +00002340 std::scoped_lock _l(mLock);
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002341 Device* device = getDeviceLocked(deviceId);
Yi Kong9b14ac62018-07-17 13:48:38 -07002342 if (device == nullptr) {
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002343 ALOGE("Invalid device id=%" PRId32 " provided to %s", deviceId, __func__);
2344 return BAD_VALUE;
2345 }
2346 if (!device->enabled) {
2347 ALOGW("Duplicate call to %s, input device already disabled", __func__);
2348 return OK;
2349 }
Chris Ye989bb932020-07-04 16:18:59 -07002350 unregisterDeviceFromEpollLocked(*device);
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002351 return device->disable();
Michael Wrightd02c5b62014-02-10 15:10:22 -08002352}
2353
2354void EventHub::createVirtualKeyboardLocked() {
2355 InputDeviceIdentifier identifier;
2356 identifier.name = "Virtual";
2357 identifier.uniqueId = "<virtual>";
2358 assignDescriptorLocked(identifier);
2359
Chris Ye989bb932020-07-04 16:18:59 -07002360 std::unique_ptr<Device> device =
2361 std::make_unique<Device>(-1, ReservedInputDeviceId::VIRTUAL_KEYBOARD_ID, "<virtual>",
2362 identifier);
Chris Ye1b0c7342020-07-28 21:57:03 -07002363 device->classes = InputDeviceClass::KEYBOARD | InputDeviceClass::ALPHAKEY |
2364 InputDeviceClass::DPAD | InputDeviceClass::VIRTUAL;
Chris Ye989bb932020-07-04 16:18:59 -07002365 device->loadKeyMapLocked();
2366 addDeviceLocked(std::move(device));
Michael Wrightd02c5b62014-02-10 15:10:22 -08002367}
2368
Chris Ye989bb932020-07-04 16:18:59 -07002369void EventHub::addDeviceLocked(std::unique_ptr<Device> device) {
Chris Yed3fef462021-03-07 17:10:08 -08002370 reportDeviceAddedForStatisticsLocked(device->identifier, device->classes);
Chris Ye989bb932020-07-04 16:18:59 -07002371 mOpeningDevices.push_back(std::move(device));
Michael Wrightd02c5b62014-02-10 15:10:22 -08002372}
2373
Chris Ye989bb932020-07-04 16:18:59 -07002374int32_t EventHub::getNextControllerNumberLocked(const std::string& name) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08002375 if (mControllerNumbers.isFull()) {
2376 ALOGI("Maximum number of controllers reached, assigning controller number 0 to device %s",
Chris Ye989bb932020-07-04 16:18:59 -07002377 name.c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08002378 return 0;
2379 }
2380 // Since the controller number 0 is reserved for non-controllers, translate all numbers up by
2381 // one
2382 return static_cast<int32_t>(mControllerNumbers.markFirstUnmarkedBit() + 1);
2383}
2384
Chris Ye989bb932020-07-04 16:18:59 -07002385void EventHub::releaseControllerNumberLocked(int32_t num) {
2386 if (num > 0) {
2387 mControllerNumbers.clearBit(static_cast<uint32_t>(num - 1));
Michael Wrightd02c5b62014-02-10 15:10:22 -08002388 }
Michael Wrightd02c5b62014-02-10 15:10:22 -08002389}
2390
Chris Ye8594e192020-07-14 10:34:06 -07002391void EventHub::closeDeviceByPathLocked(const std::string& devicePath) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08002392 Device* device = getDeviceByPathLocked(devicePath);
Chris Ye989bb932020-07-04 16:18:59 -07002393 if (device != nullptr) {
2394 closeDeviceLocked(*device);
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002395 return;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002396 }
Chris Ye8594e192020-07-14 10:34:06 -07002397 ALOGV("Remove device: %s not found, device may already have been removed.", devicePath.c_str());
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002398}
2399
Siarhei Vishniakouec7854a2018-12-14 16:52:34 -08002400/**
2401 * Find the video device by filename, and close it.
2402 * The video device is closed by path during an inotify event, where we don't have the
2403 * additional context about the video device fd, or the associated input device.
2404 */
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002405void EventHub::closeVideoDeviceByPathLocked(const std::string& devicePath) {
Siarhei Vishniakouec7854a2018-12-14 16:52:34 -08002406 // A video device may be owned by an existing input device, or it may be stored in
2407 // the mUnattachedVideoDevices queue. Check both locations.
Chris Ye989bb932020-07-04 16:18:59 -07002408 for (const auto& [id, device] : mDevices) {
Siarhei Vishniakouec7854a2018-12-14 16:52:34 -08002409 if (device->videoDevice && device->videoDevice->getPath() == devicePath) {
Siarhei Vishniakou12598682018-11-02 17:19:19 -07002410 unregisterVideoDeviceFromEpollLocked(*device->videoDevice);
Siarhei Vishniakouec7854a2018-12-14 16:52:34 -08002411 device->videoDevice = nullptr;
2412 return;
2413 }
2414 }
Siarhei Vishniakouf47c339e2021-12-30 11:22:26 -08002415 std::erase_if(mUnattachedVideoDevices,
2416 [&devicePath](const std::unique_ptr<TouchVideoDevice>& videoDevice) {
2417 return videoDevice->getPath() == devicePath;
2418 });
Michael Wrightd02c5b62014-02-10 15:10:22 -08002419}
2420
2421void EventHub::closeAllDevicesLocked() {
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002422 mUnattachedVideoDevices.clear();
Siarhei Vishniakoud549b252020-08-11 11:25:26 -05002423 while (!mDevices.empty()) {
2424 closeDeviceLocked(*(mDevices.begin()->second));
Michael Wrightd02c5b62014-02-10 15:10:22 -08002425 }
2426}
2427
Chris Ye989bb932020-07-04 16:18:59 -07002428void EventHub::closeDeviceLocked(Device& device) {
2429 ALOGI("Removed device: path=%s name=%s id=%d fd=%d classes=%s", device.path.c_str(),
2430 device.identifier.name.c_str(), device.id, device.fd, device.classes.string().c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08002431
Chris Ye989bb932020-07-04 16:18:59 -07002432 if (device.id == mBuiltInKeyboardId) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08002433 ALOGW("built-in keyboard device %s (id=%d) is closing! the apps will not like this",
Chris Ye989bb932020-07-04 16:18:59 -07002434 device.path.c_str(), mBuiltInKeyboardId);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002435 mBuiltInKeyboardId = NO_BUILT_IN_KEYBOARD;
2436 }
2437
Siarhei Vishniakoue54cb852017-03-21 17:48:16 -07002438 unregisterDeviceFromEpollLocked(device);
Chris Ye989bb932020-07-04 16:18:59 -07002439 if (device.videoDevice) {
Siarhei Vishniakou12598682018-11-02 17:19:19 -07002440 // This must be done after the video device is removed from epoll
Chris Ye989bb932020-07-04 16:18:59 -07002441 mUnattachedVideoDevices.push_back(std::move(device.videoDevice));
Siarhei Vishniakouec7854a2018-12-14 16:52:34 -08002442 }
Michael Wrightd02c5b62014-02-10 15:10:22 -08002443
Chris Ye989bb932020-07-04 16:18:59 -07002444 releaseControllerNumberLocked(device.controllerNumber);
Siarhei Vishniakoud549b252020-08-11 11:25:26 -05002445 device.controllerNumber = 0;
Chris Ye989bb932020-07-04 16:18:59 -07002446 device.close();
Chris Ye989bb932020-07-04 16:18:59 -07002447 mClosingDevices.push_back(std::move(mDevices[device.id]));
Siarhei Vishniakoud549b252020-08-11 11:25:26 -05002448
Chris Ye989bb932020-07-04 16:18:59 -07002449 mDevices.erase(device.id);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002450}
2451
2452status_t EventHub::readNotifyLocked() {
2453 int res;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002454 char event_buf[512];
2455 int event_size;
2456 int event_pos = 0;
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002457 struct inotify_event* event;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002458
2459 ALOGV("EventHub::readNotify nfd: %d\n", mINotifyFd);
2460 res = read(mINotifyFd, event_buf, sizeof(event_buf));
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002461 if (res < (int)sizeof(*event)) {
2462 if (errno == EINTR) return 0;
Michael Wrightd02c5b62014-02-10 15:10:22 -08002463 ALOGW("could not get event, %s\n", strerror(errno));
2464 return -1;
2465 }
Michael Wrightd02c5b62014-02-10 15:10:22 -08002466
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002467 while (res >= (int)sizeof(*event)) {
2468 event = (struct inotify_event*)(event_buf + event_pos);
2469 if (event->len) {
Usama Arifb27c8e62021-06-03 16:44:09 +01002470 if (event->wd == mDeviceInputWd) {
2471 std::string filename = std::string(DEVICE_INPUT_PATH) + "/" + event->name;
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002472 if (event->mask & IN_CREATE) {
Chris Ye8594e192020-07-14 10:34:06 -07002473 openDeviceLocked(filename);
Siarhei Vishniakou951f3622018-12-12 19:45:42 -08002474 } else {
2475 ALOGI("Removing device '%s' due to inotify event\n", filename.c_str());
Chris Ye8594e192020-07-14 10:34:06 -07002476 closeDeviceByPathLocked(filename);
Siarhei Vishniakou951f3622018-12-12 19:45:42 -08002477 }
Usama Arifb27c8e62021-06-03 16:44:09 +01002478 } else if (event->wd == mDeviceWd) {
Siarhei Vishniakou951f3622018-12-12 19:45:42 -08002479 if (isV4lTouchNode(event->name)) {
Usama Arifb27c8e62021-06-03 16:44:09 +01002480 std::string filename = std::string(DEVICE_PATH) + "/" + event->name;
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002481 if (event->mask & IN_CREATE) {
2482 openVideoDeviceLocked(filename);
2483 } else {
2484 ALOGI("Removing video device '%s' due to inotify event", filename.c_str());
2485 closeVideoDeviceByPathLocked(filename);
2486 }
Usama Arifb27c8e62021-06-03 16:44:09 +01002487 } else if (strcmp(event->name, "input") == 0 && event->mask & IN_CREATE) {
2488 addDeviceInputInotify();
Siarhei Vishniakou951f3622018-12-12 19:45:42 -08002489 }
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002490 } else {
Siarhei Vishniakou951f3622018-12-12 19:45:42 -08002491 LOG_ALWAYS_FATAL("Unexpected inotify event, wd = %i", event->wd);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002492 }
2493 }
2494 event_size = sizeof(*event) + event->len;
2495 res -= event_size;
2496 event_pos += event_size;
2497 }
2498 return 0;
2499}
2500
Chris Ye8594e192020-07-14 10:34:06 -07002501status_t EventHub::scanDirLocked(const std::string& dirname) {
2502 for (const auto& entry : std::filesystem::directory_iterator(dirname)) {
2503 openDeviceLocked(entry.path());
Michael Wrightd02c5b62014-02-10 15:10:22 -08002504 }
Michael Wrightd02c5b62014-02-10 15:10:22 -08002505 return 0;
2506}
2507
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002508/**
2509 * Look for all dirname/v4l-touch* devices, and open them.
2510 */
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002511status_t EventHub::scanVideoDirLocked(const std::string& dirname) {
Chris Ye8594e192020-07-14 10:34:06 -07002512 for (const auto& entry : std::filesystem::directory_iterator(dirname)) {
2513 if (isV4lTouchNode(entry.path())) {
2514 ALOGI("Found touch video device %s", entry.path().c_str());
2515 openVideoDeviceLocked(entry.path());
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002516 }
2517 }
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002518 return OK;
2519}
2520
Michael Wrightd02c5b62014-02-10 15:10:22 -08002521void EventHub::requestReopenDevices() {
2522 ALOGV("requestReopenDevices() called");
2523
Chris Ye87143712020-11-10 05:05:58 +00002524 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002525 mNeedToReopenDevices = true;
2526}
2527
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -08002528void EventHub::dump(std::string& dump) {
2529 dump += "Event Hub State:\n";
Michael Wrightd02c5b62014-02-10 15:10:22 -08002530
2531 { // acquire lock
Chris Ye87143712020-11-10 05:05:58 +00002532 std::scoped_lock _l(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002533
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -08002534 dump += StringPrintf(INDENT "BuiltInKeyboardId: %d\n", mBuiltInKeyboardId);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002535
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -08002536 dump += INDENT "Devices:\n";
Michael Wrightd02c5b62014-02-10 15:10:22 -08002537
Chris Ye989bb932020-07-04 16:18:59 -07002538 for (const auto& [id, device] : mDevices) {
Michael Wrightd02c5b62014-02-10 15:10:22 -08002539 if (mBuiltInKeyboardId == device->id) {
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -08002540 dump += StringPrintf(INDENT2 "%d: %s (aka device 0 - built-in keyboard)\n",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002541 device->id, device->identifier.name.c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08002542 } else {
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -08002543 dump += StringPrintf(INDENT2 "%d: %s\n", device->id,
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002544 device->identifier.name.c_str());
Michael Wrightd02c5b62014-02-10 15:10:22 -08002545 }
Chris Ye1b0c7342020-07-28 21:57:03 -07002546 dump += StringPrintf(INDENT3 "Classes: %s\n", device->classes.string().c_str());
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01002547 dump += StringPrintf(INDENT3 "Path: %s\n", device->path.c_str());
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -08002548 dump += StringPrintf(INDENT3 "Enabled: %s\n", toString(device->enabled));
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01002549 dump += StringPrintf(INDENT3 "Descriptor: %s\n", device->identifier.descriptor.c_str());
2550 dump += StringPrintf(INDENT3 "Location: %s\n", device->identifier.location.c_str());
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -08002551 dump += StringPrintf(INDENT3 "ControllerNumber: %d\n", device->controllerNumber);
Siarhei Vishniakouec8f7252018-07-06 11:19:32 +01002552 dump += StringPrintf(INDENT3 "UniqueId: %s\n", device->identifier.uniqueId.c_str());
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -08002553 dump += StringPrintf(INDENT3 "Identifier: bus=0x%04x, vendor=0x%04x, "
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002554 "product=0x%04x, version=0x%04x\n",
2555 device->identifier.bus, device->identifier.vendor,
2556 device->identifier.product, device->identifier.version);
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -08002557 dump += StringPrintf(INDENT3 "KeyLayoutFile: %s\n",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002558 device->keyMap.keyLayoutFile.c_str());
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -08002559 dump += StringPrintf(INDENT3 "KeyCharacterMapFile: %s\n",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002560 device->keyMap.keyCharacterMapFile.c_str());
Siarhei Vishniakouf93fcf42017-11-22 16:00:14 -08002561 dump += StringPrintf(INDENT3 "ConfigurationFile: %s\n",
Prabir Pradhanda7c00c2019-08-29 14:12:42 -07002562 device->configurationFile.c_str());
Siarhei Vishniakouec7854a2018-12-14 16:52:34 -08002563 dump += INDENT3 "VideoDevice: ";
2564 if (device->videoDevice) {
2565 dump += device->videoDevice->dump() + "\n";
2566 } else {
2567 dump += "<none>\n";
2568 }
Michael Wrightd02c5b62014-02-10 15:10:22 -08002569 }
Siarhei Vishniakou22c88462018-12-13 19:34:53 -08002570
2571 dump += INDENT "Unattached video devices:\n";
2572 for (const std::unique_ptr<TouchVideoDevice>& videoDevice : mUnattachedVideoDevices) {
2573 dump += INDENT2 + videoDevice->dump() + "\n";
2574 }
2575 if (mUnattachedVideoDevices.empty()) {
2576 dump += INDENT2 "<none>\n";
2577 }
Michael Wrightd02c5b62014-02-10 15:10:22 -08002578 } // release lock
2579}
2580
2581void EventHub::monitor() {
2582 // Acquire and release the lock to ensure that the event hub has not deadlocked.
Chris Ye1c2e0892020-11-30 21:41:44 -08002583 std::unique_lock<std::mutex> lock(mLock);
Michael Wrightd02c5b62014-02-10 15:10:22 -08002584}
2585
Michael Wrightd02c5b62014-02-10 15:10:22 -08002586}; // namespace android