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GPMF_utils.c
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GPMF_utils.c
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/*! @file GPMF_utils.c
*
* @brief Utilities GPMF and MP4 handling
*
* @version 1.2.0
*
* (C) Copyright 2020 GoPro Inc (http://gopro.com/).
*
* Licensed under either:
* - Apache License, Version 2.0, http://www.apache.org/licenses/LICENSE-2.0
* - MIT license, http://opensource.org/licenses/MIT
* at your option.
*
* 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.
*
*/
#include <stdlib.h>
#include <stdio.h>
#include <string.h>
#include <stdint.h>
#include "GPMF_parser.h"
#include "GPMF_utils.h"
double GetGPMFSampleRate(mp4callbacks cb, uint32_t fourcc, uint32_t timeBaseFourCC, uint32_t flags, double *firstsampletime, double *lastsampletime)
{
if (cb.mp4handle == 0)
return 0.0;
uint32_t indexcount = cb.cbGetNumberPayloads(cb.mp4handle);
GPMF_stream metadata_stream, *ms = &metadata_stream;
uint32_t teststart = 0;
uint32_t testend = indexcount;
double rate = 0.0;
uint32_t *payload;
uint32_t payloadsize;
size_t payloadres = 0;
GPMF_ERR ret;
if (indexcount < 1)
return 0.0;
payloadsize = cb.cbGetPayloadSize(cb.mp4handle, teststart);
payloadres = cb.cbGetPayloadResource(cb.mp4handle, 0, payloadsize);
payload = cb.cbGetPayload(cb.mp4handle, payloadres, teststart);
ret = GPMF_Init(ms, payload, payloadsize);
if (ret != GPMF_OK)
goto cleanup;
{
uint64_t basetimestamp = 0;
uint64_t starttimestamp = 0;
uint64_t endtimestamp = 0;
uint32_t startsamples = 0;
uint32_t endsamples = 0;
double intercept = 0.0;
while (teststart < indexcount && ret == GPMF_OK && GPMF_OK != GPMF_FindNext(ms, fourcc, GPMF_RECURSE_LEVELS | GPMF_TOLERANT))
{
teststart++;
payloadsize = cb.cbGetPayloadSize(cb.mp4handle, teststart);
payload = cb.cbGetPayload(cb.mp4handle, payloadres, teststart); // second last payload
ret = GPMF_Init(ms, payload, payloadsize);
}
if (ret == GPMF_OK && payload)
{
double startin, startout, endin, endout;
int usedTimeStamps = 0;
uint32_t samples = GPMF_PayloadSampleCount(ms);
GPMF_stream find_stream;
GPMF_CopyState(ms, &find_stream); //ms is at the searched fourcc
if (GPMF_OK == GPMF_FindPrev(&find_stream, GPMF_KEY_TOTAL_SAMPLES, GPMF_CURRENT_LEVEL))
startsamples = BYTESWAP32(*(uint32_t *)GPMF_RawData(&find_stream)) - samples;
GPMF_CopyState(ms, &find_stream);
if (GPMF_OK == GPMF_FindPrev(&find_stream, GPMF_KEY_TIME_STAMP, GPMF_CURRENT_LEVEL))
starttimestamp = BYTESWAP64(*(uint64_t *)GPMF_RawData(&find_stream));
if (starttimestamp) // how does this compare to other streams in this early payload?
{
GPMF_stream any_stream;
if (GPMF_OK == GPMF_Init(&any_stream, payload, payloadsize))
{
basetimestamp = starttimestamp;
if (timeBaseFourCC)
{
if (GPMF_OK == GPMF_FindNext(&any_stream, timeBaseFourCC, GPMF_RECURSE_LEVELS | GPMF_TOLERANT))
{
if (GPMF_OK == GPMF_FindPrev(&any_stream, GPMF_KEY_TIME_STAMP, GPMF_CURRENT_LEVEL))
{
basetimestamp = BYTESWAP64(*(uint64_t*)GPMF_RawData(&any_stream));
}
}
}
else
{
while (GPMF_OK == GPMF_FindNext(&any_stream, GPMF_KEY_TIME_STAMP, GPMF_RECURSE_LEVELS | GPMF_TOLERANT))
{
uint64_t timestamp = BYTESWAP64(*(uint64_t*)GPMF_RawData(&any_stream));
if (timestamp < basetimestamp)
basetimestamp = timestamp;
}
}
}
}
//Note: basetimestamp is used the remove offset from the timestamp,
// however 0.0 may not be the same zero for your video or audio presentation time (although it should be close.)
// On GoPro camera, metadata streams like SHUT and ISOE are metadata fields associated with video, and these can be used
// to accurately sync meta with video.
testend = indexcount;
do
{
testend--;// last payload with the fourcc needed
payloadsize = cb.cbGetPayloadSize(cb.mp4handle, testend);
payload = cb.cbGetPayload(cb.mp4handle, payloadres, testend); // second last payload
ret = GPMF_Init(ms, payload, payloadsize);
} while (testend > 0 && ret == GPMF_OK && GPMF_OK != GPMF_FindNext(ms, fourcc, GPMF_RECURSE_LEVELS | GPMF_TOLERANT));
cb.cbGetPayloadTime(cb.mp4handle, teststart, &startin, &startout);
cb.cbGetPayloadTime(cb.mp4handle, testend, &endin, &endout);
GPMF_CopyState(ms, &find_stream);
if (GPMF_OK == GPMF_FindPrev(&find_stream, GPMF_KEY_TOTAL_SAMPLES, GPMF_CURRENT_LEVEL))
endsamples = BYTESWAP32(*(uint32_t *)GPMF_RawData(&find_stream));
else // If there is no TSMP we have to count the samples.
{
uint32_t i;
for (i = teststart; i <= testend; i++)
{
payloadsize = cb.cbGetPayloadSize(cb.mp4handle, i);
payload = cb.cbGetPayload(cb.mp4handle, payloadres, i);
if (GPMF_OK == GPMF_Init(ms, payload, payloadsize))
if (GPMF_OK == GPMF_FindNext(ms, fourcc, GPMF_RECURSE_LEVELS | GPMF_TOLERANT))
endsamples += GPMF_PayloadSampleCount(ms);
}
}
if (starttimestamp != 0)
{
uint32_t last_samples = GPMF_PayloadSampleCount(ms);
uint32_t totaltimestamped_samples = endsamples - last_samples - startsamples;
double time_stamp_scale = 1000000000.0; // scan for nanoseconds, microseconds to seconds, all base 10.
GPMF_CopyState(ms, &find_stream);
if (GPMF_OK == GPMF_FindPrev(&find_stream, GPMF_KEY_TIME_STAMP, GPMF_CURRENT_LEVEL))
endtimestamp = BYTESWAP64(*(uint64_t *)GPMF_RawData(&find_stream));
if (endtimestamp)
{
double approxrate = 0.0;
if (endsamples > startsamples)
approxrate = (double)(endsamples - startsamples) / (endout - startin);
if (approxrate == 0.0)
approxrate = (double)(samples) / (endout - startin);
while (time_stamp_scale >= 1)
{
rate = (double)(totaltimestamped_samples) / ((double)(endtimestamp - starttimestamp) / time_stamp_scale);
if (rate*0.9 < approxrate && approxrate < rate*1.1)
break;
time_stamp_scale *= 0.1;
}
if (time_stamp_scale < 1.0) rate = 0.0;
intercept = (((double)basetimestamp - (double)starttimestamp) / time_stamp_scale) * rate;
usedTimeStamps = 1;
}
}
if (rate == 0.0) //Timestamps didn't help, or weren't available
{
if (!(flags & GPMF_SAMPLE_RATE_PRECISE))
{
if (endsamples > startsamples)
rate = (double)(endsamples - startsamples) / (endout - startin);
if (rate == 0.0)
rate = (double)(samples) / (endout - startin);
intercept = (double)-startin * rate;
}
else // for increased precision, for older GPMF streams sometimes missing the total sample count
{
uint32_t payloadpos = 0, payloadcount = 0;
double slope, top = 0.0, bot = 0.0, meanX = 0, meanY = 0;
uint32_t *repeatarray = (uint32_t *)malloc(indexcount * 4 + 4);
memset(repeatarray, 0, indexcount * 4 + 4);
samples = 0;
for (payloadpos = teststart; payloadpos <= testend; payloadpos++)
{
payloadsize = cb.cbGetPayloadSize(cb.mp4handle, payloadpos);
payload = cb.cbGetPayload(cb.mp4handle, payloadres, payloadpos); // second last payload
ret = GPMF_Init(ms, payload, payloadsize);
if (ret != GPMF_OK)
goto cleanup;
if (GPMF_OK == GPMF_FindNext(ms, fourcc, GPMF_RECURSE_LEVELS | GPMF_TOLERANT))
{
GPMF_stream find_stream2;
GPMF_CopyState(ms, &find_stream2);
payloadcount++;
if (GPMF_OK == GPMF_FindNext(&find_stream2, fourcc, GPMF_CURRENT_LEVEL)) // Count the instances, not the repeats
{
if (repeatarray)
{
double in, out;
do
{
samples++;
} while (GPMF_OK == GPMF_FindNext(ms, fourcc, GPMF_CURRENT_LEVEL));
repeatarray[payloadpos] = samples;
meanY += (double)samples;
if (GPMF_OK == cb.cbGetPayloadTime(cb.mp4handle, payloadpos, &in, &out))
meanX += out;
}
}
else
{
uint32_t repeat = GPMF_PayloadSampleCount(ms);
samples += repeat;
if (repeatarray)
{
double in, out;
repeatarray[payloadpos] = samples;
meanY += (double)samples;
if (GPMF_OK == cb.cbGetPayloadTime(cb.mp4handle, payloadpos, &in, &out))
meanX += out;
}
}
}
else
{
repeatarray[payloadpos] = 0;
}
}
// Compute the line of best fit for a jitter removed sample rate.
// This does assume an unchanging clock, even though the IMU data can thermally impacted causing small clock changes.
// TODO: Next enhancement would be a low order polynominal fit the compensate for any thermal clock drift.
if (repeatarray)
{
meanY /= (double)payloadcount;
meanX /= (double)payloadcount;
for (payloadpos = teststart; payloadpos <= testend; payloadpos++)
{
double in, out;
if (repeatarray[payloadpos] && GPMF_OK == cb.cbGetPayloadTime(cb.mp4handle, payloadpos, &in, &out))
{
top += ((double)out - meanX)*((double)repeatarray[payloadpos] - meanY);
bot += ((double)out - meanX)*((double)out - meanX);
}
}
slope = top / bot;
rate = slope;
// This sample code might be useful for compare data latency between channels.
intercept = meanY - slope * meanX;
#if 0
printf("%c%c%c%c start offset = %f (%.3fms) rate = %f\n", PRINTF_4CC(fourcc), intercept, 1000.0 * intercept / slope, rate);
printf("%c%c%c%c first sample at time %.3fms\n", PRINTF_4CC(fourcc), -1000.0 * intercept / slope);
#endif
}
else
{
rate = (double)(samples) / (endout - startin);
}
free(repeatarray);
}
}
if (firstsampletime && lastsampletime)
{
uint32_t endpayload = indexcount;
do
{
endpayload--;// last payload with the fourcc needed
payloadsize = cb.cbGetPayloadSize(cb.mp4handle, endpayload);
payload = cb.cbGetPayload(cb.mp4handle, payloadres, endpayload);
ret = GPMF_Init(ms, payload, payloadsize);
} while (endpayload > 0 && ret == GPMF_OK && GPMF_OK != GPMF_FindNext(ms, fourcc, GPMF_RECURSE_LEVELS | GPMF_TOLERANT));
if (endpayload > 0 && ret == GPMF_OK)
{
uint32_t totalsamples = endsamples - startsamples;
float timo = 0.0;
GPMF_CopyState(ms, &find_stream);
if (GPMF_OK == GPMF_FindPrev(&find_stream, GPMF_KEY_TIME_OFFSET, GPMF_CURRENT_LEVEL))
GPMF_FormattedData(&find_stream, &timo, 4, 0, 1);
double first, last;
first = -intercept / rate - timo;
last = first + (double)totalsamples / rate;
//Apply any Edit List corrections.
if (usedTimeStamps) // clips with STMP have the Edit List already applied via GetPayloadTime()
{
if (cb.cbGetEditListOffsetRationalTime)
{
int32_t num = 0;
uint32_t dem = 1;
cb.cbGetEditListOffsetRationalTime(cb.mp4handle, &num, &dem);
first += (double)num / (double)dem;
last += (double)num / (double)dem;
}
}
//printf("%c%c%c%c first sample at time %.3fms, last at %.3fms\n", PRINTF_4CC(fourcc), 1000.0*first, 1000.0*last);
if (firstsampletime) *firstsampletime = first;
if (lastsampletime) *lastsampletime = last;
}
}
}
}
cleanup:
if (payloadres) cb.cbFreePayloadResource(cb.mp4handle, payloadres);
return rate;
}