// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // // This file is based on the SMSLib library. // // SMSLib Sudden Motion Sensor Access Library // Copyright (c) 2010 Suitable Systems // All rights reserved. // // Developed by: Daniel Griscom // Suitable Systems // http://www.suitable.com // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal with the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to // permit persons to whom the Software is furnished to do so, subject to // the following conditions: // // - Redistributions of source code must retain the above copyright notice, // this list of conditions and the following disclaimers. // // - Redistributions in binary form must reproduce the above copyright // notice, this list of conditions and the following disclaimers in the // documentation and/or other materials provided with the distribution. // // - Neither the names of Suitable Systems nor the names of its // contributors may be used to endorse or promote products derived from // this Software without specific prior written permission. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. // IN NO EVENT SHALL THE CONTRIBUTORS OR COPYRIGHT HOLDERS BE LIABLE FOR // ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, // TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE // SOFTWARE OR THE USE OR OTHER DEALINGS WITH THE SOFTWARE. // // For more information about SMSLib, see // // or contact // Daniel Griscom // Suitable Systems // 1 Centre Street, Suite 204 // Wakefield, MA 01880 // (781) 665-0053 #include "sudden_motion_sensor_mac.h" #include #include #include "base/logging.h" #include "base/mac/scoped_cftyperef.h" #include "base/memory/scoped_ptr.h" struct SuddenMotionSensor::GenericMacbookSensor { // Name of device to be read. const char* service_name; // Number of bytes of the axis data. int axis_size; // Default calibration value for zero g. float zero_g; // Default calibration value for one g (negative when axis is inverted). float one_g; // Kernel function index. unsigned int function; // Size of the sensor record to be sent/received. unsigned int record_size; }; struct SuddenMotionSensor::AxisData { // Location of the first byte representing the axis in the sensor data. int index; // Axis inversion flag. The value changes often between models. bool inverted; }; // Sudden Motion Sensor descriptor. struct SuddenMotionSensor::SensorDescriptor { // Prefix of model to be tested. const char* model_name; // Board id of model, or NULL if it doesn't matter. const char* board_id; // Axis-specific data (x,y,z order). AxisData axis[3]; }; // Typical sensor parameters in MacBook models. const SuddenMotionSensor::GenericMacbookSensor SuddenMotionSensor::kGenericSensor = { "SMCMotionSensor", 2, 0, 251, 5, 40 }; // Supported sensor descriptors. Add entries here to enhance compatibility. // Tested in order; place more specific entries before more general ones. (All // non-tested entries from SMSLib have been removed.) const SuddenMotionSensor::SensorDescriptor SuddenMotionSensor::kSupportedSensors[] = { // Tested by tommyw on a 13" MacBook. { "MacBook1,1", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // Tested by S.Selz. (via avi) on a 13" MacBook. { "MacBook2,1", NULL, { { 0, true }, { 2, false }, { 4, true } } }, // Tested by verhees on a 13" MacBook. { "MacBook3,1", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // Tested by adlr on a 13" MacBook. { "MacBook4,1", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // Tested by thakis on a 13" MacBook. { "MacBook5,1", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // Tested by Adam Gerson (via avi) on a 13" MacBook. { "MacBook5,2", NULL, { { 0, false }, { 2, true }, { 4, true } } }, // Tested by tommyw on a 13" MacBook. { "MacBook6,1", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // Tested by avi on a 13" MacBook. { "MacBook7,1", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // Tested by crc on a 13" MacBook Air. { "MacBookAir1,1", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // Tested by sfiera, pjw on a 13" MacBook Air. { "MacBookAir2,1", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // Note: // - MacBookAir3,1 (11" MacBook Air, late 2010) // - MacBookAir3,2 (13" MacBook Air, late 2010) // - MacBookAir4,1 (11" MacBook Air, mid 2011) // - MacBookAir4,2 (13" MacBook Air, mid 2011) // - MacBookAir5,1 (11" MacBook Air, mid 2012) // - MacBookAir5,2 (13" MacBook Air, mid 2012) // - MacBookAir6,1 (11" MacBook Air, mid 2013) // - MacBookAir6,2 (13" MacBook Air, mid 2013) // have no accelerometer sensors. // Tested by crc on a 15" MacBook Pro. { "MacBookPro1,1", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // Tested by Raul Cuza (via avi) on a 17" MacBook Pro. { "MacBookPro1,2", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // Tested by L.V. (via avi) on a 17" MacBook Pro. { "MacBookPro2,1", NULL, { { 0, true }, { 2, false }, { 4, true } } }, // Tested by leandrogracia on a 15" MacBook Pro. { "MacBookPro2,2", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // Tested by S.Som. (via avi) on a 17" MacBook Pro. { "MacBookPro3,1", "Mac-F42388C8", { { 0, true }, { 2, false }, { 4, true } } }, // Tested by leandrogracia on a 15" MacBook Pro. { "MacBookPro3,1", NULL, { { 0, false }, { 2, true }, { 4, true } } }, // Tested by leandrogracia on a 15" MacBook Pro. // Tested by Eric Shapiro (via avi) on a 17" MacBook Pro. { "MacBookPro4,1", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // MacBookPro5,1 handled by the generic case below. // Tested by leandrogracia on a 15" MacBook Pro. // MacBookPro5,2 handled by the generic case below. // Tested by S.Selz. (via avi) on a 17" MacBook Pro. // Tested by dmaclach on a 15" MacBook Pro. { "MacBookPro5,3", NULL, { { 2, false }, { 0, false }, { 4, true } } }, // MacBookPro5,4 handled by the generic case below. // Tested by leandrogracia on a 15" MacBook Pro. // Tested by leandrogracia on a 13" MacBook Pro. { "MacBookPro5,5", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // MacBookPro6,1 handled by the generic case below. // Tested by khom, leadpipe on a 17" MacBook Pro. // Tested by leandrogracia on a 15" MacBook Pro. { "MacBookPro6,2", NULL, { { 0, true }, { 2, false }, { 4, true } } }, // Tested by leandrogracia on a 13" MacBook Pro. { "MacBookPro7,1", NULL, { { 0, true }, { 2, true }, { 4, false } } }, // MacBookPro8,1 handled by the generic case below. // Tested by avi on a 13" MacBook Pro. // MacBookPro8,2 handled by the generic case below. // Tested by avi on a 15" MacBook Pro. // MacBookPro8,3 handled by the generic case below. // Tested by avi on a 17" MacBook Pro. // MacBookPro9,1 handled by the generic case below. // Tested by avi on a 15" MacBook Pro. // MacBookPro9,2 handled by the generic case below. // Tested by avi on a 13" MacBook Pro. // Note: // - MacBookPro10,1 (15" MacBook Pro with Retina display) // has no accelerometer sensors. // MacBookPro10,2 handled by the generic case below. // Tested by avi on a 13" MacBook Pro with Retina display. // Note: // - MacBookPro11,1 (13" MacBook Pro with Retina display) // - MacBookPro11,2 (15" MacBook Pro with Retina display) // - MacBookPro11,3 (15" MacBook Pro with Retina display) // have no accelerometer sensors. // Generic MacBook accelerometer sensor data, to be used for future models // as well as models for which it is verified to be correct. Note that this // configuration may have problems with inverted axes when used generically // for untested models. { "", NULL, { { 0, false }, { 2, false }, { 4, false } } } }; // Create a SuddenMotionSensor object and return NULL if no valid sensor found. SuddenMotionSensor* SuddenMotionSensor::Create() { scoped_ptr accelerometer(new SuddenMotionSensor); return accelerometer->Init() ? accelerometer.release() : NULL; } SuddenMotionSensor::~SuddenMotionSensor() { IOServiceClose(io_connection_); } SuddenMotionSensor::SuddenMotionSensor() : sensor_(NULL), io_connection_(0) { } // Retrieve per-axis accelerometer values. bool SuddenMotionSensor::ReadSensorValues(float axes[3]) { DCHECK(sensor_); // Reset output record memory buffer. std::fill(output_record_.begin(), output_record_.end(), 0x00); // Read record data from memory. const size_t kInputSize = kGenericSensor.record_size; size_t output_size = kGenericSensor.record_size; if (IOConnectCallStructMethod(io_connection_, kGenericSensor.function, static_cast(&input_record_[0]), kInputSize, &output_record_[0], &output_size) != KERN_SUCCESS) { return false; } // Calculate per-axis calibrated values. float axis_value[3]; for (int i = 0; i < 3; ++i) { int sensor_value = 0; int size = kGenericSensor.axis_size; int index = sensor_->axis[i].index; // Important Note: Little endian is assumed as this code is Mac-only // and PowerPC is currently not supported. memcpy(&sensor_value, &output_record_[index], size); sensor_value = ExtendSign(sensor_value, size); // Correct value using the current calibration. axis_value[i] = static_cast(sensor_value - kGenericSensor.zero_g) / kGenericSensor.one_g; // Make sure we reject any NaN or infinite values. if (!isfinite(axis_value[i])) return false; // Clamp value to the [-1, 1] range. if (axis_value[i] < -1.0) axis_value[i] = -1.0; else if (axis_value[i] > 1.0) axis_value[i] = 1.0; // Apply axis inversion. if (sensor_->axis[i].inverted) axis_value[i] = -axis_value[i]; } axes[0] = axis_value[0]; axes[1] = axis_value[1]; axes[2] = axis_value[2]; return true; } // Probe the local hardware looking for a supported sensor device // and initialize an I/O connection to it. bool SuddenMotionSensor::Init() { // Request model name from the kernel. char local_model[32]; // size from SMSLib size_t local_model_size = sizeof(local_model); int params[2] = { CTL_HW, HW_MODEL }; if (sysctl(params, 2, local_model, &local_model_size, NULL, 0) != 0) return false; const SensorDescriptor* sensor_candidate = NULL; // Look for the current model in the supported sensor list. base::ScopedCFTypeRef board_id_data; const int kNumSensors = arraysize(kSupportedSensors); for (int i = 0; i < kNumSensors; ++i) { // Check if the supported sensor model name is a prefix // of the local hardware model (empty names are accepted). const char* p1 = kSupportedSensors[i].model_name; for (const char* p2 = local_model; *p1 != '\0' && *p1 == *p2; ++p1, ++p2) continue; if (*p1 != '\0') continue; // Check the board id. if (kSupportedSensors[i].board_id) { if (!board_id_data.get()) { CFMutableDictionaryRef dict = IOServiceMatching("IOPlatformExpertDevice"); if (!dict) continue; io_service_t platform_expert = IOServiceGetMatchingService(kIOMasterPortDefault, dict); if (!platform_expert) continue; board_id_data.reset((CFDataRef) IORegistryEntryCreateCFProperty(platform_expert, CFSTR("board-id"), kCFAllocatorDefault, 0)); IOObjectRelease(platform_expert); if (!board_id_data.get()) continue; } if (strcmp(kSupportedSensors[i].board_id, (const char*)CFDataGetBytePtr(board_id_data)) != 0) { continue; } } // Local hardware found in the supported sensor list. sensor_candidate = &kSupportedSensors[i]; // Get a dictionary of the services matching to the one in the sensor. CFMutableDictionaryRef dict = IOServiceMatching(kGenericSensor.service_name); if (!dict) continue; // Get the first matching service. io_service_t device = IOServiceGetMatchingService(kIOMasterPortDefault, dict); if (!device) continue; // Try to open device. kern_return_t result; result = IOServiceOpen(device, mach_task_self(), 0, &io_connection_); IOObjectRelease(device); if (result != KERN_SUCCESS || io_connection_ == 0) return false; // Local sensor service confirmed by IOKit. sensor_ = sensor_candidate; break; } if (sensor_ == NULL) return false; // Allocate and initialize input/output records. input_record_.resize(kGenericSensor.record_size, 0x01); output_record_.resize(kGenericSensor.record_size, 0x00); // Try to retrieve the current orientation. float test_axes[3]; return ReadSensorValues(test_axes); } // Extend the sign of an integer of less than 32 bits to a 32-bit integer. int SuddenMotionSensor::ExtendSign(int value, size_t size) { switch (size) { case 1: if (value & 0x00000080) return value | 0xffffff00; break; case 2: if (value & 0x00008000) return value | 0xffff0000; break; case 3: if (value & 0x00800000) return value | 0xff000000; break; default: LOG(FATAL) << "Invalid integer size for sign extension: " << size; } return value; }