subsurface/core/imagedownloader.cpp

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// SPDX-License-Identifier: GPL-2.0
#include "dive.h"
#include "metrics.h"
#include "divelist.h"
#include "errorhelper.h"
#include "qthelper.h"
#include "imagedownloader.h"
#include "videoframeextractor.h"
#include "qt-models/divepicturemodel.h"
#include "metadata.h"
#include <unistd.h>
#include <QString>
#include <QImageReader>
#include <QSvgRenderer>
#include <QDataStream>
#include <QPainter>
#include <QtConcurrent>
// Note: this is a global instead of a function-local variable on purpose.
// We don't want this to be generated in a different thread context if
// ImageDownloader::instance() is called from a worker thread.
static ImageDownloader imageDownloader;
ImageDownloader *ImageDownloader::instance()
{
return &imageDownloader;
}
ImageDownloader::ImageDownloader()
{
connect(&manager, &QNetworkAccessManager::finished, this, &ImageDownloader::saveImage);
}
void ImageDownloader::load(QUrl url, QString filename)
{
QNetworkRequest request(url);
request.setAttribute(QNetworkRequest::User, filename);
manager.get(request);
}
void ImageDownloader::saveImage(QNetworkReply *reply)
{
QString filename = reply->request().attribute(QNetworkRequest::User).toString();
if (reply->error() != QNetworkReply::NoError) {
emit failed(std::move(filename));
} else {
QByteArray imageData = reply->readAll();
if (imageData.isEmpty()) {
emit failed(std::move(filename));
} else {
QString path = QStandardPaths::standardLocations(QStandardPaths::CacheLocation).first();
QDir dir(path);
if (!dir.exists())
dir.mkpath(path);
QCryptographicHash hash(QCryptographicHash::Sha1);
hash.addData(filename.toUtf8());
QFile imageFile(path.append("/").append(hash.result().toHex()));
if (imageFile.open(QIODevice::WriteOnly)) {
report_info("Write image to %s", qPrintable(imageFile.fileName()));
QDataStream stream(&imageFile);
stream.writeRawData(imageData.data(), imageData.length());
imageFile.waitForBytesWritten(-1);
imageFile.close();
learnPictureFilename(filename, imageFile.fileName());
}
emit loaded(std::move(filename));
}
}
reply->deleteLater();
}
static bool hasVideoFileExtension(const QString &filename)
{
for (const QString &ext: videoExtensionsList)
if (filename.endsWith(ext, Qt::CaseInsensitive))
return true;
return false;
}
// Fetch a picture from the given filename and determine its type (picture of video).
// If this is a non-remote file, fetch it from disk. Remote files are fetched from the
// net in a background thread. In such a case, the output-type is set to MEDIATYPE_STILL_LOADING.
// If the input-flag "tryDownload" is set to false, no download attempt is made. This is to
// prevent infinite loops, where failed image downloads would be repeated ad infinitum.
// Returns: fetched image, type
Thumbnailer::Thumbnail Thumbnailer::fetchImage(const QString &urlfilename, const QString &originalFilename, bool tryDownload)
{
QUrl url = QUrl::fromUserInput(urlfilename);
if (url.isLocalFile()) {
// We try to determine the type first by peeking into the file.
QString filename = url.toLocalFile();
metadata md;
mediatype_t type = get_metadata(qPrintable(filename), &md);
// For io error or video, return early with the appropriate dummy-icon.
if (type == MEDIATYPE_IO_ERROR)
return { failImage, MEDIATYPE_IO_ERROR, duration_t() };
else if (type == MEDIATYPE_VIDEO)
return fetchVideoThumbnail(filename, originalFilename, md.duration);
// Try if Qt can parse this image. If it does, use this as a thumbnail.
QImage thumb(filename);
if (!thumb.isNull()) {
int size = maxThumbnailSize();
thumb = thumb.scaled(size, size, Qt::KeepAspectRatio);
return addPictureThumbnailToCache(originalFilename, thumb);
}
// Neither our code, nor Qt could determine the type of this object from looking at the data.
// Try to check for a video-file extension. Since we couldn't parse the video file,
// we pass 0 as the duration.
if (hasVideoFileExtension(filename))
return fetchVideoThumbnail(filename, originalFilename, duration_t());
// Give up: we simply couldn't determine what this thing is.
// But since we managed to read this file, mark this file in the cache as unknown.
return addUnknownThumbnailToCache(originalFilename);
} else if (tryDownload) {
// This has to be done in UI main thread, because QNetworkManager refuses
// to treat requests from other threads. invokeMethod() is Qt's way of calling a
// function in a different thread, namely the thread the called object is associated to.
QMetaObject::invokeMethod(ImageDownloader::instance(), "load", Qt::AutoConnection, Q_ARG(QUrl, url), Q_ARG(QString, originalFilename));
return { QImage(), MEDIATYPE_STILL_LOADING, duration_t() };
}
return { QImage(), MEDIATYPE_IO_ERROR, duration_t() };
}
// Fetch a picture based on its original filename. If there is a translated filename (obtained either
// by the find-moved-picture functionality or the filename of the local cache of a remote picture),
// try that first. If fetching from the translated filename fails, this could mean that the image
// was downloaded previously, but for some reason the cached picture was lost. Therefore, in such a
// case, try the canonical filename. If that likewise fails, give up. For input and output parameters
// see fetchImage() above.
Thumbnailer::Thumbnail Thumbnailer::getHashedImage(const QString &filename, bool tryDownload)
{
QString localFilename = localFilePath(filename);
// If there is a translated filename, try that first.
// Note that we set the default type to io-error, so that if we didn't try
// the local filename first, we will load the file from the canonical filename.
Thumbnail thumbnail { QImage(), MEDIATYPE_IO_ERROR, duration_t() };
if (localFilename != filename)
thumbnail = fetchImage(localFilename, filename, tryDownload);
// If fetching from the local filename failed (or we didn't even try),
// use the canonical filename. This might for example happen if we downloaded
// a file, but for some reason lost the cached file.
if (thumbnail.type == MEDIATYPE_IO_ERROR)
thumbnail = fetchImage(filename, filename, tryDownload);
if (thumbnail.type == MEDIATYPE_IO_ERROR)
qInfo() << "Error loading image" << filename << "[local:" << localFilename << "]";
return thumbnail;
}
Thumbnailer::Thumbnailer() : failImage(QPixmap(":filter-close").scaled(maxThumbnailSize(), maxThumbnailSize(), Qt::KeepAspectRatio).toImage()), // TODO: Don't misuse filter close icon
dummyImage(QPixmap(":camera-icon").scaled(maxThumbnailSize(), maxThumbnailSize(), Qt::KeepAspectRatio).toImage()),
videoImage(QPixmap(":video-icon").scaled(maxThumbnailSize(), maxThumbnailSize(), Qt::KeepAspectRatio).toImage()),
unknownImage(QPixmap(":unknown-icon").scaled(maxThumbnailSize(), maxThumbnailSize(), Qt::KeepAspectRatio).toImage())
{
// We have to do this little song and dance because QSvgRenderer produces artifacts when used with Qt::KeepAspectRatio
QSvgRenderer videoOverlayRenderer{QString(":video-overlay")};
QSize svgSize = videoOverlayRenderer.defaultSize();
videoOverlayImage = QImage(maxThumbnailSize(), maxThumbnailSize() * svgSize.height() / svgSize.width(), QImage::Format_ARGB32);
videoOverlayImage.fill(Qt::transparent);
QPainter painter(&videoOverlayImage);
videoOverlayRenderer.render(&painter);
// Currently, we only process one image at a time. Stefan Fuchs reported problems when
// calculating multiple thumbnails at once and this hopefully helps.
pool.setMaxThreadCount(1);
connect(ImageDownloader::instance(), &ImageDownloader::loaded, this, &Thumbnailer::imageDownloaded);
connect(ImageDownloader::instance(), &ImageDownloader::failed, this, &Thumbnailer::imageDownloadFailed);
connect(VideoFrameExtractor::instance(), &VideoFrameExtractor::extracted, this, &Thumbnailer::frameExtracted);
connect(VideoFrameExtractor::instance(), &VideoFrameExtractor::failed, this, &Thumbnailer::frameExtractionFailed);
connect(VideoFrameExtractor::instance(), &VideoFrameExtractor::failed, this, &Thumbnailer::frameExtractionInvalid);
}
Thumbnailer *Thumbnailer::instance()
{
static Thumbnailer self;
return &self;
}
Thumbnailer::Thumbnail Thumbnailer::getPictureThumbnailFromStream(QDataStream &stream)
{
QImage res;
stream >> res;
return { std::move(res), MEDIATYPE_PICTURE, duration_t() };
}
void Thumbnailer::markVideoThumbnail(QImage &img)
{
QSize size = img.size();
QImage marker = videoOverlayImage.scaledToWidth(size.width());
marker = marker.copy(0, (marker.size().height() - size.height()) / 2, size.width(), size.height());
QPainter painter(&img);
painter.drawImage(0, 0, marker);
}
Q_DECLARE_METATYPE(duration_t)
Thumbnailer::Thumbnail Thumbnailer::getVideoThumbnailFromStream(QDataStream &stream, const QString &filename)
{
quint32 duration, numPics;
stream >> duration >> numPics;
// If reading did not succeed, schedule for recalculation - this thumbnail might
// have been written by an older version, which couldn't extract the duration.
// Likewise test the duration and number of pictures for sanity (no videos longer than 10 h,
// no more than 10000 pictures).
if (stream.status() != QDataStream::Ok || duration > 36000 || numPics > 10000)
return { QImage(), MEDIATYPE_VIDEO, duration_t() };
// If the file didn't contain an image, but user turned on thumbnail extraction, schedule thumbnail
// for extraction. TODO: save failure to extract thumbnails to disk so that thumbnailing
// is not repeated ad-nauseum for broken images.
if (numPics == 0 && prefs.extract_video_thumbnails) {
QMetaObject::invokeMethod(VideoFrameExtractor::instance(), "extract", Qt::AutoConnection,
Q_ARG(QString, filename), Q_ARG(QString, filename), Q_ARG(duration_t, duration_t{(int32_t)duration}));
}
// Currently, we support only one picture
QImage res;
if (numPics > 0) {
quint32 offset;
stream >> offset >> res;
}
if (res.isNull())
res = videoImage; // No picture -> show dummy-icon
else
markVideoThumbnail(res); // We got an image -> place our video marker on top of it
return { res, MEDIATYPE_VIDEO, { (int32_t)duration } };
}
// Fetch a thumbnail from cache.
// If Thumbnail::QImage is null, the thumbnail is scheduled for recreation.
Thumbnailer::Thumbnail Thumbnailer::getThumbnailFromCache(const QString &picture_filename)
{
QString filename = thumbnailFileName(picture_filename);
if (filename.isEmpty())
return { QImage(), MEDIATYPE_UNKNOWN, duration_t() };
QFile file(filename);
if (prefs.auto_recalculate_thumbnails) {
// Check if thumbnails is older than the (local) image file
QString filenameLocal = localFilePath(qPrintable(picture_filename));
QFileInfo pictureInfo(filenameLocal);
QFileInfo thumbnailInfo(file);
if (pictureInfo.exists() && thumbnailInfo.exists()) {
QDateTime pictureTime = pictureInfo.lastModified();
QDateTime thumbnailTime = thumbnailInfo.lastModified();
if (pictureTime.isValid() && thumbnailTime.isValid() && thumbnailTime < pictureTime) {
// Both files exist, have valid timestamps and thumbnail was calculated before picture.
// Return an empty thumbnail to signal recalculation of the thumbnail
return { QImage(), MEDIATYPE_UNKNOWN, duration_t() };
}
}
}
if (!file.open(QIODevice::ReadOnly))
return { QImage(), MEDIATYPE_UNKNOWN, duration_t() };
QDataStream stream(&file);
// Each thumbnail file is composed of a media-type and an image file.
quint32 type;
QImage res;
stream >> type;
switch (type) {
case MEDIATYPE_PICTURE: return getPictureThumbnailFromStream(stream);
case MEDIATYPE_VIDEO: return getVideoThumbnailFromStream(stream, picture_filename);
case MEDIATYPE_UNKNOWN: return { unknownImage, MEDIATYPE_UNKNOWN, duration_t() };
default: return { QImage(), MEDIATYPE_UNKNOWN, duration_t() };
}
}
Thumbnailer::Thumbnail Thumbnailer::addVideoThumbnailToCache(const QString &picture_filename, duration_t duration,
const QImage &image, duration_t position)
{
// The format of video thumbnails:
// uint32 MEDIATYPE_VIDEO
// uint32 duration of video in seconds
// uint32 number of pictures (0 = we didn't manage to extract a picture)
// for each picture:
// uint32 offset in msec from begining of video
// QImage frame
QString filename = thumbnailFileName(picture_filename);
QSaveFile file(filename);
if (file.open(QIODevice::WriteOnly)) {
QDataStream stream(&file);
stream << (quint32)MEDIATYPE_VIDEO;
stream << (quint32)duration.seconds;
if (image.isNull()) {
// No image provided
stream << (quint32)0;
} else {
// Currently, we support at most one image
stream << (quint32)1;
stream << (quint32)position.seconds;
stream << image;
}
file.commit();
}
return { videoImage, MEDIATYPE_VIDEO, duration };
}
Thumbnailer::Thumbnail Thumbnailer::fetchVideoThumbnail(const QString &filename, const QString &originalFilename, duration_t duration)
{
if (prefs.extract_video_thumbnails) {
// Video-thumbnailing is enabled. Fetch thumbnail in background thread and in the meanwhile
// return a dummy image.
QMetaObject::invokeMethod(VideoFrameExtractor::instance(), "extract", Qt::AutoConnection,
Q_ARG(QString, originalFilename), Q_ARG(QString, filename), Q_ARG(duration_t, duration));
return { videoImage, MEDIATYPE_VIDEO, duration };
} else {
// Video-thumbnailing is disabled. Write a thumbnail without picture.
return addVideoThumbnailToCache(originalFilename, duration, QImage(), duration_t());
}
}
Thumbnailer::Thumbnail Thumbnailer::addPictureThumbnailToCache(const QString &picture_filename, const QImage &thumbnail)
{
// The format of a picture-thumbnail is very simple:
// uint32 MEDIATYPE_PICTURE
// QImage thumbnail
QString filename = thumbnailFileName(picture_filename);
QSaveFile file(filename);
if (file.open(QIODevice::WriteOnly)) {
QDataStream stream(&file);
stream << (quint32)MEDIATYPE_PICTURE;
stream << thumbnail;
file.commit();
}
return { thumbnail, MEDIATYPE_PICTURE, duration_t() };
}
Thumbnailer::Thumbnail Thumbnailer::addUnknownThumbnailToCache(const QString &picture_filename)
{
QString filename = thumbnailFileName(picture_filename);
QSaveFile file(filename);
if (file.open(QIODevice::WriteOnly)) {
QDataStream stream(&file);
stream << (quint32)MEDIATYPE_UNKNOWN;
}
return { unknownImage, MEDIATYPE_UNKNOWN, duration_t() };
}
void Thumbnailer::frameExtracted(QString filename, QImage thumbnail, duration_t duration, duration_t offset)
{
if (thumbnail.isNull()) {
frameExtractionFailed(std::move(filename), duration);
return;
} else {
int size = maxThumbnailSize();
thumbnail = thumbnail.scaled(size, size, Qt::KeepAspectRatio);
markVideoThumbnail(thumbnail);
addVideoThumbnailToCache(filename, duration, thumbnail, offset);
QMutexLocker l(&lock);
workingOn.remove(filename);
emit thumbnailChanged(filename, std::move(thumbnail), duration);
}
}
// If frame extraction failed, don't show an error image, because we don't want
// to penalize users that haven't installed ffmpe. Simply remove this item from
// the work-queue.
void Thumbnailer::frameExtractionFailed(QString filename, duration_t duration)
{
// Frame extraction failed, but this was due to ffmpeg not starting
// add to the thumbnail cache as a video image with unknown thumbnail.
addVideoThumbnailToCache(filename, duration, QImage(), duration_t());
QMutexLocker l(&lock);
workingOn.remove(filename);
}
void Thumbnailer::frameExtractionInvalid(QString filename, duration_t)
{
// Frame extraction failed because ffmpeg could not parse the file.
// For now, let's mark this as an unknown file. The user may want
// to recalculate thumbnails with an updated ffmpeg binary..?
addUnknownThumbnailToCache(filename);
QMutexLocker l(&lock);
workingOn.remove(filename);
}
void Thumbnailer::recalculate(QString filename)
{
Thumbnail thumbnail = getHashedImage(filename, true);
// If we couldn't load the image from disk -> leave old thumbnail.
// The case "load from web" is a bit inconsistent: it will call into processItem() later
// and therefore a "broken" image symbol may be shown.
if (thumbnail.type == MEDIATYPE_STILL_LOADING || thumbnail.type == MEDIATYPE_IO_ERROR)
return;
QMutexLocker l(&lock);
emit thumbnailChanged(filename, thumbnail.img, thumbnail.duration);
workingOn.remove(filename);
}
void Thumbnailer::processItem(QString filename, bool tryDownload)
{
Thumbnail thumbnail = getThumbnailFromCache(filename);
if (thumbnail.img.isNull()) {
thumbnail = getHashedImage(filename, tryDownload);
if (thumbnail.type == MEDIATYPE_STILL_LOADING)
return;
if (thumbnail.img.isNull()) {
thumbnail.img = failImage;
} else {
int size = maxThumbnailSize();
thumbnail.img = thumbnail.img.scaled(size, size, Qt::KeepAspectRatio);
}
}
QMutexLocker l(&lock);
emit thumbnailChanged(filename, thumbnail.img, thumbnail.duration);
workingOn.remove(filename);
}
void Thumbnailer::imageDownloaded(QString filename)
{
// Image was downloaded -> try thumbnailing again.
QMutexLocker l(&lock);
workingOn[filename] = QtConcurrent::run(&pool, [this, filename]() { processItem(filename, false); });
}
void Thumbnailer::imageDownloadFailed(QString filename)
{
emit thumbnailChanged(filename, failImage, duration_t());
QMutexLocker l(&lock);
workingOn.remove(filename);
}
QImage Thumbnailer::fetchThumbnail(const QString &filename, bool synchronous)
{
if (synchronous) {
// In synchronous mode, first try the thumbnail cache.
Thumbnail thumbnail = getThumbnailFromCache(filename);
if (!thumbnail.img.isNull())
return thumbnail.img;
// If that didn't work, try to thumbnail the image.
thumbnail = getHashedImage(filename, false);
if (thumbnail.type == MEDIATYPE_STILL_LOADING || thumbnail.img.isNull())
return failImage; // No support for delayed thumbnails (web).
int size = maxThumbnailSize();
return thumbnail.img.scaled(size, size, Qt::KeepAspectRatio);
}
QMutexLocker l(&lock);
// We are not currently fetching this thumbnail - add it to the list.
if (!workingOn.contains(filename)) {
workingOn.insert(filename,
QtConcurrent::run(&pool, [this, filename]() { processItem(filename, true); }));
}
return dummyImage;
}
void Thumbnailer::calculateThumbnails(const QVector<QString> &filenames)
{
QMutexLocker l(&lock);
for (const QString &filename: filenames) {
if (!workingOn.contains(filename)) {
workingOn.insert(filename,
QtConcurrent::run(&pool, [this, filename]() { recalculate(filename); }));
}
}
}
void Thumbnailer::clearWorkQueue()
{
// We also want to clear the working-queue of the video-frame-extractor so that
// we don't get thumbnails that we don't care about.
VideoFrameExtractor::instance()->clearWorkQueue();
QMutexLocker l(&lock);
for (auto it = workingOn.begin(); it != workingOn.end(); ++it)
it->cancel();
workingOn.clear();
}
static const int maxZoom = 3; // Maximum zoom: thrice of standard size
int Thumbnailer::defaultThumbnailSize()
{
return defaultIconMetrics().sz_pic;
}
int Thumbnailer::maxThumbnailSize()
{
return defaultThumbnailSize() * maxZoom;
}
int Thumbnailer::thumbnailSize(double zoomLevel)
{
// Calculate size of thumbnails. The standard size is defaultIconMetrics().sz_pic.
// We use exponential scaling so that the central point is the standard
// size and the minimum and maximum extreme points are a third respectively
// three times the standard size.
// Naturally, these three zoom levels are then represented by
// -1.0 (minimum), 0 (standard) and 1.0 (maximum). The actual size is
// calculated as standard_size*3.0^zoomLevel.
return static_cast<int>(round(defaultThumbnailSize() * pow(maxZoom, zoomLevel)));
}