1*ec779b8eSAndroid Build Coastguard Worker /*
2*ec779b8eSAndroid Build Coastguard Worker * Copyright (C) 2014 The Android Open Source Project
3*ec779b8eSAndroid Build Coastguard Worker *
4*ec779b8eSAndroid Build Coastguard Worker * Licensed under the Apache License, Version 2.0 (the "License");
5*ec779b8eSAndroid Build Coastguard Worker * you may not use this file except in compliance with the License.
6*ec779b8eSAndroid Build Coastguard Worker * You may obtain a copy of the License at
7*ec779b8eSAndroid Build Coastguard Worker *
8*ec779b8eSAndroid Build Coastguard Worker * http://www.apache.org/licenses/LICENSE-2.0
9*ec779b8eSAndroid Build Coastguard Worker *
10*ec779b8eSAndroid Build Coastguard Worker * Unless required by applicable law or agreed to in writing, software
11*ec779b8eSAndroid Build Coastguard Worker * distributed under the License is distributed on an "AS IS" BASIS,
12*ec779b8eSAndroid Build Coastguard Worker * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
13*ec779b8eSAndroid Build Coastguard Worker * See the License for the specific language governing permissions and
14*ec779b8eSAndroid Build Coastguard Worker * limitations under the License.
15*ec779b8eSAndroid Build Coastguard Worker */
16*ec779b8eSAndroid Build Coastguard Worker
17*ec779b8eSAndroid Build Coastguard Worker #define LOG_TAG "FastMixerDumpState"
18*ec779b8eSAndroid Build Coastguard Worker //#define LOG_NDEBUG 0
19*ec779b8eSAndroid Build Coastguard Worker
20*ec779b8eSAndroid Build Coastguard Worker #include "Configuration.h"
21*ec779b8eSAndroid Build Coastguard Worker #ifdef FAST_THREAD_STATISTICS
22*ec779b8eSAndroid Build Coastguard Worker #include <audio_utils/Statistics.h>
23*ec779b8eSAndroid Build Coastguard Worker #ifdef CPU_FREQUENCY_STATISTICS
24*ec779b8eSAndroid Build Coastguard Worker #include <cpustats/ThreadCpuUsage.h>
25*ec779b8eSAndroid Build Coastguard Worker #endif
26*ec779b8eSAndroid Build Coastguard Worker #endif
27*ec779b8eSAndroid Build Coastguard Worker #include <utils/Log.h>
28*ec779b8eSAndroid Build Coastguard Worker #include "FastMixerDumpState.h"
29*ec779b8eSAndroid Build Coastguard Worker
30*ec779b8eSAndroid Build Coastguard Worker namespace android {
31*ec779b8eSAndroid Build Coastguard Worker
32*ec779b8eSAndroid Build Coastguard Worker // helper function called by qsort()
compare_uint32_t(const void * pa,const void * pb)33*ec779b8eSAndroid Build Coastguard Worker static int compare_uint32_t(const void *pa, const void *pb)
34*ec779b8eSAndroid Build Coastguard Worker {
35*ec779b8eSAndroid Build Coastguard Worker const uint32_t a = *(const uint32_t *)pa;
36*ec779b8eSAndroid Build Coastguard Worker const uint32_t b = *(const uint32_t *)pb;
37*ec779b8eSAndroid Build Coastguard Worker if (a < b) {
38*ec779b8eSAndroid Build Coastguard Worker return -1;
39*ec779b8eSAndroid Build Coastguard Worker } else if (a > b) {
40*ec779b8eSAndroid Build Coastguard Worker return 1;
41*ec779b8eSAndroid Build Coastguard Worker } else {
42*ec779b8eSAndroid Build Coastguard Worker return 0;
43*ec779b8eSAndroid Build Coastguard Worker }
44*ec779b8eSAndroid Build Coastguard Worker }
45*ec779b8eSAndroid Build Coastguard Worker
dump(int fd) const46*ec779b8eSAndroid Build Coastguard Worker void FastMixerDumpState::dump(int fd) const
47*ec779b8eSAndroid Build Coastguard Worker {
48*ec779b8eSAndroid Build Coastguard Worker if (mCommand == FastMixerState::INITIAL) {
49*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " FastMixer not initialized\n");
50*ec779b8eSAndroid Build Coastguard Worker return;
51*ec779b8eSAndroid Build Coastguard Worker }
52*ec779b8eSAndroid Build Coastguard Worker const double measuredWarmupMs = (mMeasuredWarmupTs.tv_sec * 1000.0) +
53*ec779b8eSAndroid Build Coastguard Worker (mMeasuredWarmupTs.tv_nsec / 1000000.0);
54*ec779b8eSAndroid Build Coastguard Worker const double mixPeriodSec = (double) mFrameCount / mSampleRate;
55*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " FastMixer command=%s writeSequence=%u framesWritten=%u\n"
56*ec779b8eSAndroid Build Coastguard Worker " numTracks=%u writeErrors=%u underruns=%u overruns=%u\n"
57*ec779b8eSAndroid Build Coastguard Worker " sampleRate=%u frameCount=%zu measuredWarmup=%.3g ms, warmupCycles=%u\n"
58*ec779b8eSAndroid Build Coastguard Worker " mixPeriod=%.2f ms latency=%.2f ms\n",
59*ec779b8eSAndroid Build Coastguard Worker FastMixerState::commandToString(mCommand), mWriteSequence, mFramesWritten,
60*ec779b8eSAndroid Build Coastguard Worker mNumTracks, mWriteErrors, mUnderruns, mOverruns,
61*ec779b8eSAndroid Build Coastguard Worker mSampleRate, mFrameCount, measuredWarmupMs, mWarmupCycles,
62*ec779b8eSAndroid Build Coastguard Worker mixPeriodSec * 1e3, mLatencyMs);
63*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " FastMixer Timestamp stats: %s\n", mTimestampVerifier.toString().c_str());
64*ec779b8eSAndroid Build Coastguard Worker #ifdef FAST_THREAD_STATISTICS
65*ec779b8eSAndroid Build Coastguard Worker // find the interval of valid samples
66*ec779b8eSAndroid Build Coastguard Worker const uint32_t bounds = mBounds;
67*ec779b8eSAndroid Build Coastguard Worker const uint32_t newestOpen = bounds & 0xFFFF;
68*ec779b8eSAndroid Build Coastguard Worker uint32_t oldestClosed = bounds >> 16;
69*ec779b8eSAndroid Build Coastguard Worker
70*ec779b8eSAndroid Build Coastguard Worker //uint32_t n = (newestOpen - oldestClosed) & 0xFFFF;
71*ec779b8eSAndroid Build Coastguard Worker uint32_t n;
72*ec779b8eSAndroid Build Coastguard Worker __builtin_sub_overflow(newestOpen, oldestClosed, &n);
73*ec779b8eSAndroid Build Coastguard Worker n &= 0xFFFF;
74*ec779b8eSAndroid Build Coastguard Worker
75*ec779b8eSAndroid Build Coastguard Worker if (n > mSamplingN) {
76*ec779b8eSAndroid Build Coastguard Worker ALOGE("too many samples %u", n);
77*ec779b8eSAndroid Build Coastguard Worker n = mSamplingN;
78*ec779b8eSAndroid Build Coastguard Worker }
79*ec779b8eSAndroid Build Coastguard Worker // statistics for monotonic (wall clock) time, thread raw CPU load in time, CPU clock frequency,
80*ec779b8eSAndroid Build Coastguard Worker // and adjusted CPU load in MHz normalized for CPU clock frequency
81*ec779b8eSAndroid Build Coastguard Worker audio_utils::Statistics<double> wall, loadNs;
82*ec779b8eSAndroid Build Coastguard Worker #ifdef CPU_FREQUENCY_STATISTICS
83*ec779b8eSAndroid Build Coastguard Worker audio_utils::Statistics<double> kHz, loadMHz;
84*ec779b8eSAndroid Build Coastguard Worker uint32_t previousCpukHz = 0;
85*ec779b8eSAndroid Build Coastguard Worker #endif
86*ec779b8eSAndroid Build Coastguard Worker // Assuming a normal distribution for cycle times, three standard deviations on either side of
87*ec779b8eSAndroid Build Coastguard Worker // the mean account for 99.73% of the population. So if we take each tail to be 1/1000 of the
88*ec779b8eSAndroid Build Coastguard Worker // sample set, we get 99.8% combined, or close to three standard deviations.
89*ec779b8eSAndroid Build Coastguard Worker static const uint32_t kTailDenominator = 1000;
90*ec779b8eSAndroid Build Coastguard Worker uint32_t *tail = n >= kTailDenominator ? new uint32_t[n] : nullptr;
91*ec779b8eSAndroid Build Coastguard Worker // loop over all the samples
92*ec779b8eSAndroid Build Coastguard Worker for (uint32_t j = 0; j < n; ++j) {
93*ec779b8eSAndroid Build Coastguard Worker const size_t i = oldestClosed++ & (mSamplingN - 1);
94*ec779b8eSAndroid Build Coastguard Worker const uint32_t wallNs = mMonotonicNs[i];
95*ec779b8eSAndroid Build Coastguard Worker if (tail != nullptr) {
96*ec779b8eSAndroid Build Coastguard Worker tail[j] = wallNs;
97*ec779b8eSAndroid Build Coastguard Worker }
98*ec779b8eSAndroid Build Coastguard Worker wall.add(wallNs);
99*ec779b8eSAndroid Build Coastguard Worker const uint32_t sampleLoadNs = mLoadNs[i];
100*ec779b8eSAndroid Build Coastguard Worker loadNs.add(sampleLoadNs);
101*ec779b8eSAndroid Build Coastguard Worker #ifdef CPU_FREQUENCY_STATISTICS
102*ec779b8eSAndroid Build Coastguard Worker uint32_t sampleCpukHz = mCpukHz[i];
103*ec779b8eSAndroid Build Coastguard Worker // skip bad kHz samples
104*ec779b8eSAndroid Build Coastguard Worker if ((sampleCpukHz & ~0xF) != 0) {
105*ec779b8eSAndroid Build Coastguard Worker kHz.add(sampleCpukHz >> 4);
106*ec779b8eSAndroid Build Coastguard Worker if (sampleCpukHz == previousCpukHz) {
107*ec779b8eSAndroid Build Coastguard Worker double megacycles = (double) sampleLoadNs * (double) (sampleCpukHz >> 4) * 1e-12;
108*ec779b8eSAndroid Build Coastguard Worker double adjMHz = megacycles / mixPeriodSec; // _not_ wallNs * 1e9
109*ec779b8eSAndroid Build Coastguard Worker loadMHz.add(adjMHz);
110*ec779b8eSAndroid Build Coastguard Worker }
111*ec779b8eSAndroid Build Coastguard Worker }
112*ec779b8eSAndroid Build Coastguard Worker previousCpukHz = sampleCpukHz;
113*ec779b8eSAndroid Build Coastguard Worker #endif
114*ec779b8eSAndroid Build Coastguard Worker }
115*ec779b8eSAndroid Build Coastguard Worker if (n) {
116*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " Simple moving statistics over last %.1f seconds:\n",
117*ec779b8eSAndroid Build Coastguard Worker wall.getN() * mixPeriodSec);
118*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " wall clock time in ms per mix cycle:\n"
119*ec779b8eSAndroid Build Coastguard Worker " mean=%.2f min=%.2f max=%.2f stddev=%.2f\n",
120*ec779b8eSAndroid Build Coastguard Worker wall.getMean()*1e-6, wall.getMin()*1e-6, wall.getMax()*1e-6,
121*ec779b8eSAndroid Build Coastguard Worker wall.getStdDev()*1e-6);
122*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " raw CPU load in us per mix cycle:\n"
123*ec779b8eSAndroid Build Coastguard Worker " mean=%.0f min=%.0f max=%.0f stddev=%.0f\n",
124*ec779b8eSAndroid Build Coastguard Worker loadNs.getMean()*1e-3, loadNs.getMin()*1e-3, loadNs.getMax()*1e-3,
125*ec779b8eSAndroid Build Coastguard Worker loadNs.getStdDev()*1e-3);
126*ec779b8eSAndroid Build Coastguard Worker } else {
127*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " No FastMixer statistics available currently\n");
128*ec779b8eSAndroid Build Coastguard Worker }
129*ec779b8eSAndroid Build Coastguard Worker #ifdef CPU_FREQUENCY_STATISTICS
130*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " CPU clock frequency in MHz:\n"
131*ec779b8eSAndroid Build Coastguard Worker " mean=%.0f min=%.0f max=%.0f stddev=%.0f\n",
132*ec779b8eSAndroid Build Coastguard Worker kHz.getMean()*1e-3, kHz.getMin()*1e-3, kHz.getMax()*1e-3, kHz.getStdDev()*1e-3);
133*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " adjusted CPU load in MHz (i.e. normalized for CPU clock frequency):\n"
134*ec779b8eSAndroid Build Coastguard Worker " mean=%.1f min=%.1f max=%.1f stddev=%.1f\n",
135*ec779b8eSAndroid Build Coastguard Worker loadMHz.getMean(), loadMHz.getMin(), loadMHz.getMax(), loadMHz.getStdDev());
136*ec779b8eSAndroid Build Coastguard Worker #endif
137*ec779b8eSAndroid Build Coastguard Worker if (tail != nullptr) {
138*ec779b8eSAndroid Build Coastguard Worker qsort(tail, n, sizeof(uint32_t), compare_uint32_t);
139*ec779b8eSAndroid Build Coastguard Worker // assume same number of tail samples on each side, left and right
140*ec779b8eSAndroid Build Coastguard Worker const uint32_t count = n / kTailDenominator;
141*ec779b8eSAndroid Build Coastguard Worker audio_utils::Statistics<double> left, right;
142*ec779b8eSAndroid Build Coastguard Worker for (uint32_t i = 0; i < count; ++i) {
143*ec779b8eSAndroid Build Coastguard Worker left.add(tail[i]);
144*ec779b8eSAndroid Build Coastguard Worker right.add(tail[n - (i + 1)]);
145*ec779b8eSAndroid Build Coastguard Worker }
146*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " Distribution of mix cycle times in ms for the tails "
147*ec779b8eSAndroid Build Coastguard Worker "(> ~3 stddev outliers):\n"
148*ec779b8eSAndroid Build Coastguard Worker " left tail: mean=%.2f min=%.2f max=%.2f stddev=%.2f\n"
149*ec779b8eSAndroid Build Coastguard Worker " right tail: mean=%.2f min=%.2f max=%.2f stddev=%.2f\n",
150*ec779b8eSAndroid Build Coastguard Worker left.getMean()*1e-6, left.getMin()*1e-6, left.getMax()*1e-6, left.getStdDev()*1e-6,
151*ec779b8eSAndroid Build Coastguard Worker right.getMean()*1e-6, right.getMin()*1e-6, right.getMax()*1e-6,
152*ec779b8eSAndroid Build Coastguard Worker right.getStdDev()*1e-6);
153*ec779b8eSAndroid Build Coastguard Worker delete[] tail;
154*ec779b8eSAndroid Build Coastguard Worker }
155*ec779b8eSAndroid Build Coastguard Worker #endif
156*ec779b8eSAndroid Build Coastguard Worker // The active track mask and track states are updated non-atomically.
157*ec779b8eSAndroid Build Coastguard Worker // So if we relied on isActive to decide whether to display,
158*ec779b8eSAndroid Build Coastguard Worker // then we might display an obsolete track or omit an active track.
159*ec779b8eSAndroid Build Coastguard Worker // Instead we always display all tracks, with an indication
160*ec779b8eSAndroid Build Coastguard Worker // of whether we think the track is active.
161*ec779b8eSAndroid Build Coastguard Worker uint32_t trackMask = mTrackMask;
162*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " Fast tracks: sMaxFastTracks=%u activeMask=%#x\n",
163*ec779b8eSAndroid Build Coastguard Worker FastMixerState::sMaxFastTracks, trackMask);
164*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " Index Active Full Partial Empty Recent Ready Written\n");
165*ec779b8eSAndroid Build Coastguard Worker for (uint32_t i = 0; i < FastMixerState::sMaxFastTracks; ++i, trackMask >>= 1) {
166*ec779b8eSAndroid Build Coastguard Worker const bool isActive = trackMask & 1;
167*ec779b8eSAndroid Build Coastguard Worker const FastTrackDump *ftDump = &mTracks[i];
168*ec779b8eSAndroid Build Coastguard Worker const FastTrackUnderruns& underruns = ftDump->mUnderruns;
169*ec779b8eSAndroid Build Coastguard Worker const char *mostRecent;
170*ec779b8eSAndroid Build Coastguard Worker switch (underruns.mBitFields.mMostRecent) {
171*ec779b8eSAndroid Build Coastguard Worker case UNDERRUN_FULL:
172*ec779b8eSAndroid Build Coastguard Worker mostRecent = "full";
173*ec779b8eSAndroid Build Coastguard Worker break;
174*ec779b8eSAndroid Build Coastguard Worker case UNDERRUN_PARTIAL:
175*ec779b8eSAndroid Build Coastguard Worker mostRecent = "partial";
176*ec779b8eSAndroid Build Coastguard Worker break;
177*ec779b8eSAndroid Build Coastguard Worker case UNDERRUN_EMPTY:
178*ec779b8eSAndroid Build Coastguard Worker mostRecent = "empty";
179*ec779b8eSAndroid Build Coastguard Worker break;
180*ec779b8eSAndroid Build Coastguard Worker default:
181*ec779b8eSAndroid Build Coastguard Worker mostRecent = "?";
182*ec779b8eSAndroid Build Coastguard Worker break;
183*ec779b8eSAndroid Build Coastguard Worker }
184*ec779b8eSAndroid Build Coastguard Worker dprintf(fd, " %5u %6s %4u %7u %5u %7s %5zu %10lld\n",
185*ec779b8eSAndroid Build Coastguard Worker i, isActive ? "yes" : "no",
186*ec779b8eSAndroid Build Coastguard Worker (underruns.mBitFields.mFull) & UNDERRUN_MASK,
187*ec779b8eSAndroid Build Coastguard Worker (underruns.mBitFields.mPartial) & UNDERRUN_MASK,
188*ec779b8eSAndroid Build Coastguard Worker (underruns.mBitFields.mEmpty) & UNDERRUN_MASK,
189*ec779b8eSAndroid Build Coastguard Worker mostRecent, ftDump->mFramesReady,
190*ec779b8eSAndroid Build Coastguard Worker (long long)ftDump->mFramesWritten);
191*ec779b8eSAndroid Build Coastguard Worker }
192*ec779b8eSAndroid Build Coastguard Worker }
193*ec779b8eSAndroid Build Coastguard Worker
194*ec779b8eSAndroid Build Coastguard Worker } // namespace android
195