Files
Jungfraujoch/viewer/JFJochImageReadingWorker.h
T
leonarski_fandClaude Opus 4.8 49d078563c viewer: move JFJochHttpReader to the viewer and switch it to libcurl
JFJochHttpReader (the viewer's live-broker HTTP client) is the only HTTP client
in the reader library and the only piece that needs TLS + Kerberos. Moving it out
of the always-built JFJochReader keeps the broker/writer free of a TLS/Kerberos
stack; switching it from cpp-httplib to libcurl gives the viewer HTTPS and, later,
GSSAPI/Bearer auth.

- Move reader/JFJochHttpReader.{cpp,h} -> viewer/, compiled into jfjoch_viewer.
- Rewrite the 10 httplib call sites onto one libcurl easy-handle Request() helper
  (GET + PUT, binary/JSON bodies; status/transport handling preserved).
- CMake: FetchContent libcurl, STATIC, HTTP(S)-only, only for viewer builds.
  OS-native backends keep Windows self-contained (Schannel+SSPI); Linux uses
  system OpenSSL + GSSAPI (krb5). Drop httplib from JFJochReader.
- Block httplib OpenSSL auto-link (HTTPLIB_USE_OPENSSL_IF_AVAILABLE OFF) so the
  broker stops pulling in libssl/libcrypto for HTTPS it never serves.
- docker: add krb5 dev headers (libkrb5-dev / krb5-devel) for CURL_USE_GSSAPI.

Co-Authored-By: Claude Opus 4.8 <noreply@anthropic.com>
2026-07-11 15:19:58 +02:00

269 lines
12 KiB
C++

// SPDX-FileCopyrightText: 2025 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
// SPDX-License-Identifier: GPL-3.0-only
#pragma once
#include <QObject>
#include <QString>
#include <QVector>
#include <QRect>
#include <QMutex>
#include <QTimer>
#include <QElapsedTimer>
#include <QImage>
#include <QColor>
#include "../common/ColorScale.h"
#include "../reader/JFJochHDF5Reader.h"
#include "../common/Logger.h"
#include "JFJochHttpReader.h"
#include "../image_analysis/MXAnalysisWithoutFPGA.h"
#include "../common/BraggIntegrationSettings.h"
#include "../common/ScalingSettings.h"
#include "../image_analysis/bragg_prediction/BraggPrediction.h"
#include "../image_analysis/LoadFCalcFromMtz.h" // ReferenceMtzData + LoadReferenceMtz
#include "SimpleImage.h"
#include "ReferenceMtzInfo.h"
#include "../common/MovingAverage.h"
Q_DECLARE_METATYPE(std::shared_ptr<const JFJochReaderDataset>)
Q_DECLARE_METATYPE(std::shared_ptr<const JFJochReaderImage>)
Q_DECLARE_METATYPE(std::shared_ptr<const JFJochReaderSpots>)
Q_DECLARE_METATYPE(DiffractionExperiment)
Q_DECLARE_METATYPE(SpotFindingSettings)
Q_DECLARE_METATYPE(IndexingSettings)
Q_DECLARE_METATYPE(AzimuthalIntegrationSettings)
Q_DECLARE_METATYPE(BraggIntegrationSettings)
Q_DECLARE_METATYPE(ScalingSettings)
Q_DECLARE_METATYPE(UnitCell)
Q_DECLARE_METATYPE(std::shared_ptr<const SimpleImage>)
Q_DECLARE_METATYPE(BrokerStatus)
Q_DECLARE_METATYPE(ROIDefinition)
// Everything a reprocessing job needs, captured from the worker's current state in one locked read.
struct ReprocessingInputs {
bool valid = false;
QString file;
DiffractionExperiment experiment;
PixelMask pixel_mask;
SpotFindingSettings spot_finding;
std::vector<MergedReflection> reference_data; // empty unless a reference MTZ is loaded
};
#include "RunData.h"
class JFJochImageReadingWorker : public QObject {
Q_OBJECT
public:
// HTTPSync: follow latest image + dataset. HTTPSyncDataset: follow dataset/plots/image count
// but keep the displayed image frozen (entered by manually selecting an image while following).
enum class AutoloadMode {HTTPSync, HTTPSyncDataset, Movie, None};
Q_ENUM(AutoloadMode)
private:
mutable QMutex m;
bool http_mode = false;
AutoloadMode autoload_mode = AutoloadMode::None;
JFJochHDF5Reader file_reader;
JFJochHttpReader http_reader;
QString current_file;
DiffractionExperiment curr_experiment;
// Once the user edits ROIs they override whatever the file carried, for this and
// every subsequently loaded image, until a new file is opened.
std::optional<ROIDefinition> roi_override_;
std::map<std::string, QString> run_labels_; // snapshot id -> editable display label
IndexingSettings indexing_settings;
AzimuthalIntegrationSettings azint_settings;
BraggIntegrationSettings bragg_settings;
ScalingSettings scaling_settings;
// Reference reflections (from a reference MTZ), kept independent of the loaded dataset - they
// survive file switches and feed reference-based scaling / CCref reprocessing jobs.
std::optional<ReferenceMtzData> reference_;
std::unique_ptr<IndexerThreadPool> indexing;
std::shared_ptr<JFJochReaderImage> current_image_ptr;
std::unique_ptr<AzimuthalIntegrationMapping> azint_mapping;
std::unique_ptr<MXAnalysisWithoutFPGA> image_analysis;
std::unique_ptr<IndexAndRefine> index_and_refine;
// Azimuthal profile buffer of the most recently analyzed image (filled by Analyze).
std::unique_ptr<AzimuthalIntegrationProfile> last_profile_;
SpotFindingSettings spot_finding_settings;
ColorScale thumb_color_scale_; // colour map used for the image-strip thumbnails
QColor thumb_feature_color_ = Qt::magenta; // indexed-spot overlay (matches the main viewer)
QColor thumb_spot_color_ = Qt::green; // non-indexed spot overlay
QImage RenderThumbnail_i(int64_t image_number, bool show_spots);
std::optional<int64_t> current_image;
int64_t current_summation = 1;
int64_t total_images = 0;
int64_t jump_value = 1;
Logger logger{"jfjoch_viewer"};
bool auto_reanalyze = false;
QTimer *autoload_timer;
int autoload_interval = 500; // milliseconds
// Broker status polling (independent of image sync, runs whenever connected over HTTP)
QTimer *status_timer = nullptr;
int status_interval = 1000; // milliseconds
bool http_connected = false;
// Adaptive autoload interval based on recent load+analysis time
MovingAverage autoload_ms_ma{8}; // window size (tune as needed)
int autoload_interval_min_ms = 50; // 20 Hz is the top performance!
int autoload_interval_max_ms = 2000; // 0.5 Hz as bottom limit
float autoload_safety_factor = 2.0f;
// Backpressure: cap how many frames may be "in flight" to the GUI (emitted but not yet rendered
// and acked via ImageConsumed). The autoload timer won't produce another frame while the cap is
// reached, so a fast producer can't grow the queued-event backlog without bound.
int images_in_flight = 0;
int max_images_in_flight = 4;
// Same backpressure for the dataset stream (see EmitDatasetLoaded_i / DatasetConsumed): each
// queued datasetLoaded event pins a full dataset (mask + per-image plots), so cap how many may
// be in flight to the GUI. This also coalesces dataset-only follow (HTTPSyncDataset), which emits
// no image and so was never gated by images_in_flight - stale datasets are dropped, the next tick
// sends the latest. Without this the datasetLoaded backlog grew without bound (100 GB OOM).
int datasets_in_flight = 0;
int max_datasets_in_flight = 2;
// File open retry/back-off (GPFS via NFSv4 visibility lag)
struct PendingLoadRequest {
QString filename;
qint64 image_number = 0;
qint64 summation = 1;
};
QTimer *file_open_retry_timer = nullptr;
PendingLoadRequest pending_load;
bool file_open_retry_active = false;
bool file_open_retry_warned = false;
int file_open_retry_attempts = 0;
int file_open_retry_delay_ms = 100;
int file_open_retry_delay_max_ms = 10000;
QElapsedTimer file_open_retry_elapsed;
void ResetFileOpenRetry_i();
void ScheduleFileOpenRetry_i(const QString& reason);
void LoadFile_i(const QString &filename, qint64 image_number, qint64 summation, bool retry);
void LoadImage_i(int64_t image_number, int64_t summation);
void EmitImageLoaded_i(const std::shared_ptr<const JFJochReaderImage>& image);
void EmitDatasetLoaded_i(const std::shared_ptr<const JFJochReaderDataset>& dataset);
void RefreshDatasetOnly_i();
void SetHttpConnected_i(bool connected, const QString &addr);
void ReanalyzeImage_i();
void UpdateDataset_i(const std::optional<DiffractionExperiment>& experiment);
void UpdateAzint_i(const JFJochReaderDataset *dataset);
void UpdateUserMask_i(const std::vector<uint32_t> &mask);
void SetROIDefinition_i(const ROIDefinition &rois);
void ApplyROIOverrideToImage_i(); // rewrite current_image_ptr's dataset with roi_override_
void setAutoLoadMode_i(AutoloadMode mode);
void ActivateSnapshot_i(const QString &name);
void EmitRuns_i(); // emit runsChanged with every snapshot dataset + its label
void EmitReferenceInfo_i(); // emit referenceMtzChanged from reference_ + current data
signals:
void datasetLoaded(std::shared_ptr<const JFJochReaderDataset>);
void imageLoaded(std::shared_ptr<const JFJochReaderImage>);
void spotsLoaded(std::shared_ptr<const JFJochReaderSpots>);
void imageStatsUpdated(std::shared_ptr<const JFJochReaderImage>);
void imageNumberChanged(int64_t total_images, int64_t current_image);
void setRings(const QVector<float> &v);
void simpleImageLoaded(std::shared_ptr<const SimpleImage> image);
void autoloadChanged(AutoloadMode mode);
void fileLoadError(QString title, QString message);
void fileLoadRetryStatus(bool active, QString message);
void brokerStatusUpdated(BrokerStatus status);
void httpConnectionChanged(bool connected, QString addr);
void liveRateChanged(double hz);
void snapshotsChanged(QStringList names, QString active);
void runsChanged(QVector<RunData> runs, QString active_id);
void fileOpened(); // a new file/stream was loaded - listeners should reset per-file state
void thumbnailReady(qint64 image_number, QImage thumb); // for the image-strip / hit feed
void referenceMtzChanged(ReferenceMtzInfo info); // a reference MTZ was (un)loaded - update the dock
public:
JFJochImageReadingWorker(const SpotFindingSettings &settings, const DiffractionExperiment& experiment, QObject *parent = nullptr);
~JFJochImageReadingWorker() override = default;
// Captures the current file + experiment + mask + spot-finding settings so a processing job
// uses exactly the same settings as interactive analysis. Thread-safe (locks the worker mutex).
ReprocessingInputs GetReprocessingInputs() const;
private slots:
void AutoLoadTimerExpired();
void StatusTimerExpired();
void FileOpenRetryTimerExpired();
public slots:
void LoadFile(const QString &filename, qint64 image_number, qint64 summation, bool retry);
void CloseFile();
void LoadImage(int64_t image_number, int64_t summation);
void LoadSpots(int64_t start_image, int64_t end_image, int64_t stride);
void UpdateDataset(const DiffractionExperiment& experiment);
void FindCenter(const UnitCell& calibrant, bool guess);
void Analyze();
void UpdateSpotFindingSettings(const SpotFindingSettings &settings, const IndexingSettings &indexing, int64_t max_spots);
void ReanalyzeImages(bool input);
void UpdateAzintSettings(const AzimuthalIntegrationSettings& settings);
void UpdateBraggIntegrationSettings(BraggIntegrationSettings settings);
void UpdateScalingSettings(ScalingSettings settings);
// Load (column empty = auto-select) or clear a reference MTZ; kept independent of the dataset.
void SetReferenceMtz(QString path, QString column);
void ClearReferenceMtz();
void SetROIDefinition(const ROIDefinition &rois);
void DownloadROIsFromServer();
void UploadROIsToServer();
void MaskFromSelectedROI(QString name, bool add); // rasterise an ROI into the user mask
void SaveUserMaskTIFF(QString filename);
void LoadUserMaskTIFF(QString filename, bool replace);
void UploadUserMask();
void ClearUserMask();
void LoadCalibration(QString dataset);
void setAutoLoadMode(AutoloadMode mode);
void setAutoLoadJump(int64_t val);
// GUI acks that it has consumed (rendered) one frame, freeing an in-flight slot. Drives the
// autoload backpressure so the reader can't outrun the viewer (see images_in_flight).
void ImageConsumed();
// GUI ack that it has consumed (fanned out + rendered) one dataset, freeing an in-flight slot.
// Drives the datasetLoaded backpressure so the reader can't outrun the viewer's dataset drain.
void DatasetConsumed();
// Register a reprocessing result (_process.h5) as a metadata snapshot over the same images and
// make it the active dataset; SetActiveSnapshot switches between registered snapshots.
void RegisterProcessingSnapshot(QString id, QString label, QString master_path);
void SetActiveSnapshot(QString name);
void RenameRun(QString id, QString label); // change a run's display label (legend)
void RemoveRun(QString id); // drop a reprocessing snapshot (not "Original")
// Render downsampled thumbnails for the given images (file mode only), emitting thumbnailReady
// for each; non-disruptive (does not change the displayed image).
void RenderThumbnails(QVector<qint64> image_numbers, bool show_spots);
void SetThumbnailColorMap(int color_map);
void SetThumbnailFeatureColor(QColor c);
void SetThumbnailSpotColor(QColor c);
};