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1 /*
2  * Copyright (C) 2016 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 
17 #include <math.h>
18 #include <floatRt.h>
19 #include <algos/time_sync.h>
20 
time_sync_reset(time_sync_t * sync)21 void time_sync_reset(time_sync_t *sync) {
22     sync->n = 0;
23     sync->i = 0;
24     sync->estimate_valid = false;
25 
26     sync->hold_count = 0;
27 }
28 
time_sync_init(time_sync_t * sync)29 bool time_sync_init(time_sync_t *sync) {
30     time_sync_reset(sync);
31 
32     return true;
33 }
34 
time_sync_truncate(time_sync_t * sync,size_t window_size)35 void time_sync_truncate(time_sync_t *sync, size_t window_size) {
36     size_t k, m;
37     sync->n = (window_size < sync->n) ? window_size : sync->n;
38     sync->estimate_valid = false;
39 
40     // oldest sample index (new time_base) after truncation
41     size_t bidx = (sync->i >= sync->n) ? (sync->i - sync->n)
42         : (sync->i + NUM_TIME_SYNC_DATAPOINTS - sync->n);
43 
44     // left circular-shift oldest sample to index 0
45     for (k = 0; k < bidx; ++k) {
46         uint64_t tmp1 = sync->time1[0];
47         uint64_t tmp2 = sync->time2[0];
48 
49         for (m = 0; m < NUM_TIME_SYNC_DATAPOINTS - 1; ++m) {
50             sync->time1[m] = sync->time1[m + 1];
51             sync->time2[m] = sync->time2[m + 1];
52         }
53         sync->time1[NUM_TIME_SYNC_DATAPOINTS - 1] = tmp1;
54         sync->time2[NUM_TIME_SYNC_DATAPOINTS - 1] = tmp2;
55     }
56 
57     sync->i = (sync->n < NUM_TIME_SYNC_DATAPOINTS) ? sync->n : 0;
58 }
59 
time_sync_add(time_sync_t * sync,uint64_t time1,uint64_t time2)60 bool time_sync_add(time_sync_t *sync, uint64_t time1, uint64_t time2) {
61     size_t i = sync->i;
62 
63     sync->time1[i] = time1;
64     sync->time2[i] = time2;
65 
66     if (++i == NUM_TIME_SYNC_DATAPOINTS) {
67         i = 0;
68     }
69 
70     sync->i = i;
71 
72     size_t prev_n = sync->n;
73     if (sync->n < NUM_TIME_SYNC_DATAPOINTS) {
74         ++sync->n;
75     }
76 
77     sync->estimate_valid = false;
78 
79     if (sync->hold_count > 0) {
80         --sync->hold_count;
81         time_sync_truncate(sync, prev_n);
82     }
83 
84     return true;
85 }
86 
time_sync_estimate_time1(time_sync_t * sync,uint64_t time2,uint64_t * time1)87 bool time_sync_estimate_time1(time_sync_t *sync, uint64_t time2, uint64_t *time1)
88 {
89     size_t j;
90 
91     if (sync->n < 2)
92         return false;
93 
94     *time1 = 0;
95 
96     if (!sync->estimate_valid) {
97         size_t n = sync->n;
98 
99         // Rewind to the oldest sample in the history.
100         size_t i = sync->i;
101         if (n < NUM_TIME_SYNC_DATAPOINTS) {
102             if (i != n) {
103                 return false;
104             }
105             i = 0;
106         }
107 
108         uint64_t time1_base = sync->time1[i];
109         uint64_t time2_base = sync->time2[i];
110 
111         // Least-square linear regresison:
112         // Compute alpha and beta so that time1 = alpha + beta * time2.
113         // x = time2, y = time1
114         float mean_x = 0.0f;
115         float mean_y = 0.0f;
116         float invN = 1.0f / n;
117         size_t ii = i;
118         for (j = 0; j < n; ++j) {
119             mean_y += floatFromUint64(sync->time1[ii] - time1_base) * invN;
120             mean_x += floatFromUint64(sync->time2[ii] - time2_base) * invN;
121 
122             if (++ii == NUM_TIME_SYNC_DATAPOINTS) {
123                 ii = 0;
124             }
125         }
126 
127         // Two-pass approach so that only values relative to mean are computed.
128         // Typically, |y| and |x| are smaller than 8e8 in nsec.
129         // So sum_x2 and sum_xy are smaller than 1e19.
130         // That leaves plenty of room for blocking tasks.
131         float sum_x2 = 0.0f, sum_xy = 0.0f;
132         ii = i;
133         for (j = 0; j < n; ++j) {
134             float y = floatFromUint64(sync->time1[ii] - time1_base) - mean_y;
135             float x = floatFromUint64(sync->time2[ii] - time2_base) - mean_x;
136 
137             sum_x2 += x * x;
138             sum_xy += x * y;
139 
140             if (++ii == NUM_TIME_SYNC_DATAPOINTS) {
141                 ii = 0;
142             }
143         }
144 
145         float beta = sum_xy / sum_x2;
146         float alpha = mean_y - beta * mean_x;
147 
148         sync->alpha = alpha;
149         sync->beta = beta;
150         sync->time1_base = time1_base;
151         sync->time2_base = time2_base;
152 
153         sync->estimate_valid = true;
154     }
155 
156     *time1 = sync->time1_base + floatToInt64(sync->alpha + sync->beta * floatFromInt64(time2 - sync->time2_base));
157 
158     return true;
159 }
160 
time_sync_hold(time_sync_t * sync,uint8_t count)161 void time_sync_hold(time_sync_t *sync, uint8_t count) {
162     sync->hold_count = count;
163 }
164