/* * Copyright (C) 2015 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #define LOG_TAG "InputDevice" //#define LOG_NDEBUG 0 // Enables debug output for processing input events #define DEBUG_INPUT_EVENTS 0 #include "InputDevice.h" #include #include #include #include #include #include #include "InputHost.h" #include "InputHub.h" #include "MouseInputMapper.h" #include "SwitchInputMapper.h" namespace android { static InputBus getInputBus(const std::shared_ptr& node) { switch (node->getBusType()) { case BUS_USB: return INPUT_BUS_USB; case BUS_BLUETOOTH: return INPUT_BUS_BT; case BUS_RS232: return INPUT_BUS_SERIAL; default: // TODO: check for other linux bus types that might not be built-in return INPUT_BUS_BUILTIN; } } static uint32_t getAbsAxisUsage(int32_t axis, uint32_t deviceClasses) { // Touch devices get dibs on touch-related axes. if (deviceClasses & INPUT_DEVICE_CLASS_TOUCH) { switch (axis) { case ABS_X: case ABS_Y: case ABS_PRESSURE: case ABS_TOOL_WIDTH: case ABS_DISTANCE: case ABS_TILT_X: case ABS_TILT_Y: case ABS_MT_SLOT: case ABS_MT_TOUCH_MAJOR: case ABS_MT_TOUCH_MINOR: case ABS_MT_WIDTH_MAJOR: case ABS_MT_WIDTH_MINOR: case ABS_MT_ORIENTATION: case ABS_MT_POSITION_X: case ABS_MT_POSITION_Y: case ABS_MT_TOOL_TYPE: case ABS_MT_BLOB_ID: case ABS_MT_TRACKING_ID: case ABS_MT_PRESSURE: case ABS_MT_DISTANCE: return INPUT_DEVICE_CLASS_TOUCH; } } // External stylus gets the pressure axis if (deviceClasses & INPUT_DEVICE_CLASS_EXTERNAL_STYLUS) { if (axis == ABS_PRESSURE) { return INPUT_DEVICE_CLASS_EXTERNAL_STYLUS; } } // Joystick devices get the rest. return INPUT_DEVICE_CLASS_JOYSTICK; } EvdevDevice::EvdevDevice(InputHostInterface* host, const std::shared_ptr& node) : mHost(host), mDeviceNode(node), mDeviceDefinition(mHost->createDeviceDefinition()) { InputBus bus = getInputBus(node); mInputId = mHost->createDeviceIdentifier( node->getName().c_str(), node->getProductId(), node->getVendorId(), bus, node->getUniqueId().c_str()); createMappers(); configureDevice(); // If we found a need for at least one mapper, register the device with the // host. If there were no mappers, this device is effectively ignored, as // the host won't know about it. if (mMappers.size() > 0) { mDeviceHandle = mHost->registerDevice(mInputId, mDeviceDefinition); for (const auto& mapper : mMappers) { mapper->setDeviceHandle(mDeviceHandle); } } } void EvdevDevice::createMappers() { // See if this is a cursor device such as a trackball or mouse. if (mDeviceNode->hasKey(BTN_MOUSE) && mDeviceNode->hasRelativeAxis(REL_X) && mDeviceNode->hasRelativeAxis(REL_Y)) { mClasses |= INPUT_DEVICE_CLASS_CURSOR; mMappers.push_back(std::make_unique()); } bool isStylus = false; bool haveGamepadButtons = mDeviceNode->hasKeyInRange(BTN_MISC, BTN_MOUSE) || mDeviceNode->hasKeyInRange(BTN_JOYSTICK, BTN_DIGI); // See if this is a touch pad or stylus. // Is this a new modern multi-touch driver? if (mDeviceNode->hasAbsoluteAxis(ABS_MT_POSITION_X) && mDeviceNode->hasAbsoluteAxis(ABS_MT_POSITION_Y)) { // Some joysticks such as the PS3 controller report axes that conflict // with the ABS_MT range. Try to confirm that the device really is a // touch screen. if (mDeviceNode->hasKey(BTN_TOUCH) || !haveGamepadButtons) { mClasses |= INPUT_DEVICE_CLASS_TOUCH | INPUT_DEVICE_CLASS_TOUCH_MT; //mMappers.push_back(std::make_unique()); } // Is this an old style single-touch driver? } else if (mDeviceNode->hasKey(BTN_TOUCH) && mDeviceNode->hasAbsoluteAxis(ABS_X) && mDeviceNode->hasAbsoluteAxis(ABS_Y)) { mClasses |= INPUT_DEVICE_CLASS_TOUCH; //mMappers.push_back(std::make_unique()); // Is this a BT stylus? } else if ((mDeviceNode->hasAbsoluteAxis(ABS_PRESSURE) || mDeviceNode->hasKey(BTN_TOUCH)) && !mDeviceNode->hasAbsoluteAxis(ABS_X) && !mDeviceNode->hasAbsoluteAxis(ABS_Y)) { mClasses |= INPUT_DEVICE_CLASS_EXTERNAL_STYLUS; //mMappers.push_back(std::make_unique()); isStylus = true; mClasses &= ~INPUT_DEVICE_CLASS_KEYBOARD; } // See if this is a keyboard. Ignore everything in the button range except // for joystick and gamepad buttons which are handled like keyboards for the // most part. // Keyboard will try to claim some of the stylus buttons but we really want // to reserve those so we can fuse it with the touch screen data. Note this // means an external stylus cannot also be a keyboard device. if (!isStylus) { bool haveKeyboardKeys = mDeviceNode->hasKeyInRange(0, BTN_MISC) || mDeviceNode->hasKeyInRange(KEY_OK, KEY_CNT); if (haveKeyboardKeys || haveGamepadButtons) { mClasses |= INPUT_DEVICE_CLASS_KEYBOARD; //mMappers.push_back(std::make_unique()); } } // See if this device is a joystick. // Assumes that joysticks always have gamepad buttons in order to // distinguish them from other devices such as accelerometers that also have // absolute axes. if (haveGamepadButtons) { uint32_t assumedClasses = mClasses | INPUT_DEVICE_CLASS_JOYSTICK; for (int i = 0; i < ABS_CNT; ++i) { if (mDeviceNode->hasAbsoluteAxis(i) && getAbsAxisUsage(i, assumedClasses) == INPUT_DEVICE_CLASS_JOYSTICK) { mClasses = assumedClasses; //mMappers.push_back(std::make_unique()); break; } } } // Check whether this device has switches. for (int i = 0; i < SW_CNT; ++i) { if (mDeviceNode->hasSwitch(i)) { mClasses |= INPUT_DEVICE_CLASS_SWITCH; mMappers.push_back(std::make_unique()); break; } } // Check whether this device supports the vibrator. // TODO: decide if this is necessary. if (mDeviceNode->hasForceFeedback(FF_RUMBLE)) { mClasses |= INPUT_DEVICE_CLASS_VIBRATOR; //mMappers.push_back(std::make_unique()); } ALOGD("device %s classes=0x%x %zu mappers", mDeviceNode->getPath().c_str(), mClasses, mMappers.size()); } void EvdevDevice::configureDevice() { for (const auto& mapper : mMappers) { auto reportDef = mHost->createInputReportDefinition(); if (mapper->configureInputReport(mDeviceNode.get(), reportDef)) { mDeviceDefinition->addReport(reportDef); } else { mHost->freeReportDefinition(reportDef); } reportDef = mHost->createOutputReportDefinition(); if (mapper->configureOutputReport(mDeviceNode.get(), reportDef)) { mDeviceDefinition->addReport(reportDef); } else { mHost->freeReportDefinition(reportDef); } } } void EvdevDevice::processInput(InputEvent& event, nsecs_t currentTime) { #if DEBUG_INPUT_EVENTS std::string log; log.append("---InputEvent for device %s---\n"); log.append(" when: %" PRId64 "\n"); log.append(" type: %d\n"); log.append(" code: %d\n"); log.append(" value: %d\n"); ALOGD(log.c_str(), mDeviceNode->getPath().c_str(), event.when, event.type, event.code, event.value); #endif // Bug 7291243: Add a guard in case the kernel generates timestamps // that appear to be far into the future because they were generated // using the wrong clock source. // // This can happen because when the input device is initially opened // it has a default clock source of CLOCK_REALTIME. Any input events // enqueued right after the device is opened will have timestamps // generated using CLOCK_REALTIME. We later set the clock source // to CLOCK_MONOTONIC but it is already too late. // // Invalid input event timestamps can result in ANRs, crashes and // and other issues that are hard to track down. We must not let them // propagate through the system. // // Log a warning so that we notice the problem and recover gracefully. if (event.when >= currentTime + s2ns(10)) { // Double-check. Time may have moved on. auto time = systemTime(SYSTEM_TIME_MONOTONIC); if (event.when > time) { ALOGW("An input event from %s has a timestamp that appears to have " "been generated using the wrong clock source (expected " "CLOCK_MONOTONIC): event time %" PRId64 ", current time %" PRId64 ", call time %" PRId64 ". Using current time instead.", mDeviceNode->getPath().c_str(), event.when, time, currentTime); event.when = time; } else { ALOGV("Event time is ok but failed the fast path and required an extra " "call to systemTime: event time %" PRId64 ", current time %" PRId64 ", call time %" PRId64 ".", event.when, time, currentTime); } } for (size_t i = 0; i < mMappers.size(); ++i) { mMappers[i]->process(event); } } } // namespace android