/* * Copyright (C) 2011 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. */ #ifndef __CLOCK_RECOVERY_H__ #define __CLOCK_RECOVERY_H__ #include #include #include #include #ifdef TIME_SERVICE_DEBUG #include "diag_thread.h" #endif namespace android { class CommonClock; class LocalClock; class ClockRecoveryLoop { public: ClockRecoveryLoop(LocalClock* local_clock, CommonClock* common_clock); ~ClockRecoveryLoop(); void reset(bool position, bool frequency); bool pushDisciplineEvent(int64_t local_time, int64_t nominal_common_time, int64_t data_point_rtt); int32_t getLastErrorEstimate(); private: // Tuned using the "Good Gain" method. // See: // http://techteach.no/publications/books/dynamics_and_control/tuning_pid_controller.pdf // Controller period (1Hz for now). static const float dT; // Controller gain, positive and unitless. Larger values converge faster, // but can cause instability. static const float Kc; // Integral reset time. Smaller values cause loop to track faster, but can // also cause instability. static const float Ti; // Controller output filter time constant. Range (0-1). Smaller values make // output smoother, but slow convergence. static const float Tf; // Low-pass filter for bias tracker. static const float bias_Fc; // HZ static const float bias_RC; // Computed in constructor. static const float bias_Alpha; // Computed inconstructor. // The maximum allowed error (as indicated by a pushDisciplineEvent) before // we panic. static const int64_t panic_thresh_; // The maximum allowed error rtt time for packets to be used for control // feedback, unless the packet is the best in recent memory. static const int64_t control_thresh_; typedef struct { int64_t local_time; int64_t observed_common_time; int64_t nominal_common_time; int64_t rtt; bool point_used; } DisciplineDataPoint; static uint32_t findMinRTTNdx(DisciplineDataPoint* data, uint32_t count); void reset_l(bool position, bool frequency); void applySlew(); // The local clock HW abstraction we use as the basis for common time. LocalClock* local_clock_; bool local_clock_can_slew_; // The common clock we end up controlling along with the lock used to // serialize operations. CommonClock* common_clock_; Mutex lock_; // parameters maintained while running and reset during a reset // of the frequency correction. bool last_delta_valid_; int32_t last_delta_; float last_delta_f_; int32_t integrated_error_; int32_t correction_cur_; // Contoller Output. float CO; // Bias tracking for trajectory estimation. float CObias; float lastCObias; // Controller output bounds. The controller will not try to // slew faster that +/-100ppm offset from center per interation. static const float COmin; static const float COmax; // State kept for filtering the discipline data. static const uint32_t kFilterSize = 16; DisciplineDataPoint filter_data_[kFilterSize]; uint32_t filter_wr_; bool filter_full_; static const uint32_t kStartupFilterSize = 4; DisciplineDataPoint startup_filter_data_[kStartupFilterSize]; uint32_t startup_filter_wr_; #ifdef TIME_SERVICE_DEBUG sp diag_thread_; #endif }; } // namespace android #endif // __CLOCK_RECOVERY_H__