/* * Copyright (C) 2014 Invensense, Inc. * * 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 FUNC_LOG LOGV("%s", __PRETTY_FUNCTION__) #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "sensors.h" #include "MPLSensor.h" /* * Vendor-defined Accel Load Calibration File Method * @param[out] Accel bias, length 3. In HW units scaled by 2^16 in body frame * @return '0' for a successful load, '1' otherwise * example: int AccelLoadConfig(long* offset); * End of Vendor-defined Accel Load Cal Method */ /*****************************************************************************/ /* The SENSORS Module */ #ifdef ENABLE_DMP_SCREEN_AUTO_ROTATION #define LOCAL_SENSORS (NumSensors + 1) #else #define LOCAL_SENSORS (NumSensors) #endif struct handle_entry { SIMPLEQ_ENTRY(handle_entry) entries; int handle; }; static SIMPLEQ_HEAD(simplehead, handle_entry) pending_flush_items_head; struct simplehead *headp; static pthread_mutex_t flush_handles_mutex = PTHREAD_MUTEX_INITIALIZER; static const char *smdWakelockStr = "significant motion"; static struct sensor_t sSensorList[LOCAL_SENSORS]; static int sensors = (sizeof(sSensorList) / sizeof(sensor_t)); static int open_sensors(const struct hw_module_t* module, const char* id, struct hw_device_t** device); static int sensors__get_sensors_list(struct sensors_module_t* module, struct sensor_t const** list) { *list = sSensorList; return sensors; } static struct hw_module_methods_t sensors_module_methods = { open: open_sensors }; static int sensors_set_operation_mode(unsigned int mode) { LOGI("%s", __FUNCTION__); LOGI("%s: stub function: ignoring mode request (%d)", __FUNCTION__, mode); return 0; } struct sensors_module_t HAL_MODULE_INFO_SYM = { common: { tag: HARDWARE_MODULE_TAG, version_major: 1, version_minor: 0, id: SENSORS_HARDWARE_MODULE_ID, name: "Invensense module", author: "Invensense Inc.", methods: &sensors_module_methods, dso: NULL, reserved: {0} }, get_sensors_list: sensors__get_sensors_list, set_operation_mode: sensors_set_operation_mode }; struct sensors_poll_context_t { sensors_poll_device_1_t device; // must be first sensors_poll_context_t(); ~sensors_poll_context_t(); int activate(int handle, int enabled); int setDelay(int handle, int64_t ns); int pollEvents(sensors_event_t* data, int count); int query(int what, int *value); int batch(int handle, int flags, int64_t period_ns, int64_t timeout); #if defined ANDROID_KITKAT || defined ANDROID_LOLLIPOP int flush(int handle); #endif int64_t getTimestamp(); private: enum { mpl = 0, compass, dmpOrient, dmpSign, dmpPed, numSensorDrivers, numFds, }; struct pollfd mPollFds[numFds]; SensorBase *mSensor; CompassSensor *mCompassSensor; /* Significant Motion wakelock support */ bool mSMDWakelockHeld; }; /******************************************************************************/ sensors_poll_context_t::sensors_poll_context_t() { VFUNC_LOG; /* TODO: Handle external pressure sensor */ mCompassSensor = new CompassSensor(); MPLSensor *mplSensor = new MPLSensor(mCompassSensor); /* No significant motion events pending yet */ mSMDWakelockHeld = false; /* For Vendor-defined Accel Calibration File Load * Use the Following Constructor and Pass Your Load Cal File Function * * MPLSensor *mplSensor = new MPLSensor(mCompassSensor, AccelLoadConfig); */ // Initialize pending flush queue SIMPLEQ_INIT(&pending_flush_items_head); // populate the sensor list sensors = mplSensor->populateSensorList(sSensorList, sizeof(sSensorList)); mSensor = mplSensor; mPollFds[mpl].fd = mSensor->getFd(); mPollFds[mpl].events = POLLIN; mPollFds[mpl].revents = 0; mPollFds[compass].fd = mCompassSensor->getFd(); mPollFds[compass].events = POLLIN; mPollFds[compass].revents = 0; mPollFds[dmpOrient].fd = ((MPLSensor*) mSensor)->getDmpOrientFd(); mPollFds[dmpOrient].events = POLLPRI; mPollFds[dmpOrient].revents = 0; mPollFds[dmpSign].fd = ((MPLSensor*) mSensor)->getDmpSignificantMotionFd(); mPollFds[dmpSign].events = POLLPRI; mPollFds[dmpSign].revents = 0; mPollFds[dmpPed].fd = ((MPLSensor*) mSensor)->getDmpPedometerFd(); mPollFds[dmpPed].events = POLLPRI; mPollFds[dmpPed].revents = 0; } sensors_poll_context_t::~sensors_poll_context_t() { FUNC_LOG; delete mSensor; delete mCompassSensor; for (int i = 0; i < numSensorDrivers; i++) { close(mPollFds[i].fd); } } int sensors_poll_context_t::activate(int handle, int enabled) { FUNC_LOG; int err; err = mSensor->enable(handle, enabled); return err; } int sensors_poll_context_t::setDelay(int handle, int64_t ns) { FUNC_LOG; return mSensor->setDelay(handle, ns); } int64_t sensors_poll_context_t::getTimestamp() { return android::elapsedRealtimeNano(); } int sensors_poll_context_t::pollEvents(sensors_event_t *data, int count) { VHANDLER_LOG; int nbEvents = 0; int nb, polltime = -1; if (mSMDWakelockHeld) { mSMDWakelockHeld = false; release_wake_lock(smdWakelockStr); } struct handle_entry *handle_element; pthread_mutex_lock(&flush_handles_mutex); if (!SIMPLEQ_EMPTY(&pending_flush_items_head)) { sensors_event_t flushCompleteEvent; flushCompleteEvent.type = SENSOR_TYPE_META_DATA; flushCompleteEvent.sensor = 0; handle_element = SIMPLEQ_FIRST(&pending_flush_items_head); flushCompleteEvent.meta_data.sensor = handle_element->handle; SIMPLEQ_REMOVE_HEAD(&pending_flush_items_head, entries); free(handle_element); memcpy(data, (void *) &flushCompleteEvent, sizeof(flushCompleteEvent)); LOGI_IF(1, "pollEvents() Returning fake flush event completion for handle %d", flushCompleteEvent.meta_data.sensor); pthread_mutex_unlock(&flush_handles_mutex); return 1; } pthread_mutex_unlock(&flush_handles_mutex); polltime = ((MPLSensor*) mSensor)->getStepCountPollTime(); // look for new events nb = poll(mPollFds, numSensorDrivers, polltime); LOGI_IF(0, "poll nb=%d, count=%d, pt=%d ts=%lld", nb, count, polltime, getTimestamp()); if (nb == 0 && count > 0) { /* to see if any step counter events */ if(((MPLSensor*) mSensor)->hasStepCountPendingEvents() == true) { nb = ((MPLSensor*) mSensor)->readDmpPedometerEvents( data, count, ID_SC, 0); LOGI_IF(SensorBase::HANDLER_DATA, "sensors_mpl:readStepCount() - " "nb=%d, count=%d, nbEvents=%d, data->timestamp=%lld, ", nb, count, nbEvents, data->timestamp); if (nb > 0) { count -= nb; nbEvents += nb; data += nb; } } } else while (nb > 0) { for (int i = 0; count && i < numSensorDrivers; i++) { if (mPollFds[i].revents & (POLLIN | POLLPRI)) { nb = 0; if (i == mpl) { ((MPLSensor*) mSensor)->buildMpuEvent(); mPollFds[i].revents = 0; } else if (i == compass) { ((MPLSensor*) mSensor)->buildCompassEvent(); mPollFds[i].revents = 0; } else if (i == dmpOrient) { nb = ((MPLSensor*)mSensor)-> readDmpOrientEvents(data, count); mPollFds[dmpOrient].revents= 0; if (isDmpScreenAutoRotationEnabled() && nb > 0) { count -= nb; nbEvents += nb; data += nb; } } else if (i == dmpSign) { nb = ((MPLSensor*) mSensor)-> readDmpSignificantMotionEvents(data, count); mPollFds[i].revents = 0; if (nb) { if (!mSMDWakelockHeld) { /* Hold wakelock until Sensor Services reads event */ acquire_wake_lock(PARTIAL_WAKE_LOCK, smdWakelockStr); LOGI_IF(1, "HAL: grabbed %s wakelock", smdWakelockStr); mSMDWakelockHeld = true; } count -= nb; nbEvents += nb; data += nb; } } else if (i == dmpPed) { nb = ((MPLSensor*) mSensor)->readDmpPedometerEvents( data, count, ID_P, 0); mPollFds[i].revents = 0; count -= nb; nbEvents += nb; data += nb; } if(nb == 0) { nb = ((MPLSensor*) mSensor)->readEvents(data, count); LOGI_IF(0, "sensors_mpl:readEvents() - " "i=%d, nb=%d, count=%d, nbEvents=%d, " "data->timestamp=%lld, data->data[0]=%f,", i, nb, count, nbEvents, data->timestamp, data->data[0]); if (nb > 0) { count -= nb; nbEvents += nb; data += nb; } } } } /* to see if any step counter events */ if(((MPLSensor*) mSensor)->hasStepCountPendingEvents() == true) { nb = 0; nb = ((MPLSensor*) mSensor)->readDmpPedometerEvents( data, count, ID_SC, 0); LOGI_IF(SensorBase::HANDLER_DATA, "sensors_mpl:readStepCount() - " "nb=%d, count=%d, nbEvents=%d, data->timestamp=%lld, ", nb, count, nbEvents, data->timestamp); if (nb > 0) { count -= nb; nbEvents += nb; data += nb; } } if (count > 0) { // We still have room for more events, try an immediate poll for more data nb = poll(mPollFds, numSensorDrivers, 0); } else { nb = 0; } } return nbEvents; } int sensors_poll_context_t::query(int what, int* value) { FUNC_LOG; return mSensor->query(what, value); } int sensors_poll_context_t::batch(int handle, int flags, int64_t period_ns, int64_t timeout) { FUNC_LOG; return mSensor->batch(handle, flags, period_ns, timeout); } #if defined ANDROID_KITKAT || defined ANDROID_LOLLIPOP void inv_pending_flush(int handle) { struct handle_entry *the_entry; pthread_mutex_lock(&flush_handles_mutex); the_entry = (struct handle_entry*) malloc(sizeof(struct handle_entry)); if (the_entry != NULL) { LOGI_IF(0, "Inserting %d into pending list", handle); the_entry->handle = handle; SIMPLEQ_INSERT_TAIL(&pending_flush_items_head, the_entry, entries); } else { LOGE("ERROR malloc'ing space for pending handler flush entry"); } pthread_mutex_unlock(&flush_handles_mutex); } int sensors_poll_context_t::flush(int handle) { FUNC_LOG; return mSensor->flush(handle); } #endif /******************************************************************************/ static int poll__close(struct hw_device_t *dev) { FUNC_LOG; sensors_poll_context_t *ctx = (sensors_poll_context_t *)dev; if (ctx) { delete ctx; } return 0; } static int poll__activate(struct sensors_poll_device_t *dev, int handle, int enabled) { sensors_poll_context_t *ctx = (sensors_poll_context_t *)dev; return ctx->activate(handle, enabled); } static int poll__setDelay(struct sensors_poll_device_t *dev, int handle, int64_t ns) { sensors_poll_context_t *ctx = (sensors_poll_context_t *)dev; int s= ctx->setDelay(handle, ns); return s; } static int poll__poll(struct sensors_poll_device_t *dev, sensors_event_t* data, int count) { sensors_poll_context_t *ctx = (sensors_poll_context_t *)dev; return ctx->pollEvents(data, count); } static int poll__query(struct sensors_poll_device_1 *dev, int what, int *value) { sensors_poll_context_t *ctx = (sensors_poll_context_t *)dev; return ctx->query(what, value); } static int poll__batch(struct sensors_poll_device_1 *dev, int handle, int flags, int64_t period_ns, int64_t timeout) { sensors_poll_context_t *ctx = (sensors_poll_context_t *)dev; return ctx->batch(handle, flags, period_ns, timeout); } #if defined ANDROID_KITKAT || defined ANDROID_LOLLIPOP static int poll__flush(struct sensors_poll_device_1 *dev, int handle) { sensors_poll_context_t *ctx = (sensors_poll_context_t *)dev; int status = ctx->flush(handle); if (handle == SENSORS_STEP_COUNTER_HANDLE) { LOGI_IF(0, "creating flush completion event for handle %d", handle); inv_pending_flush(handle); return 0; } return status; } #endif /******************************************************************************/ /** Open a new instance of a sensor device using name */ static int open_sensors(const struct hw_module_t* module, const char* id, struct hw_device_t** device) { FUNC_LOG; int status = -EINVAL; sensors_poll_context_t *dev = new sensors_poll_context_t(); memset(&dev->device, 0, sizeof(sensors_poll_device_1)); dev->device.common.tag = HARDWARE_DEVICE_TAG; dev->device.common.version = SENSORS_DEVICE_API_VERSION_1_3; dev->device.flush = poll__flush; dev->device.common.module = const_cast(module); dev->device.common.close = poll__close; dev->device.activate = poll__activate; dev->device.setDelay = poll__setDelay; dev->device.poll = poll__poll; dev->device.batch = poll__batch; *device = &dev->device.common; status = 0; return status; }