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Jungfraujoch/reader/JFJochHttpReader.cpp
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v1.0.0-rc.157 (#67)
This is an UNSTABLE release. It includes many experimental features, as well as many AI generated fixes. We recommend using rc.152 for production use.

* rugnux: Rebrand the offline data-processing subsystem as `rugnux` and consolidate all offline analysis into the single `rugnux` binary - `jfjoch_process` is now `rugnux`, the former `jfjoch_azint` is now `rugnux --azint-only`, and `jfjoch_scale` is now `rugnux --scale` (see the new docs/NAMING.md and docs/RUGNUX.md). Scaling and merging are on by default for rotation and stills (`--no-merge` disables them), replacing the previous opt-in `-M, --scale-merge`.
* rugnux: CLI fixes - default `-N` to all hardware threads, parse numeric option arguments strictly (reject non-numeric or trailing input instead of silently yielding 0), require `--wavelength > 0`, and correct the reproduced command line and `--scale` reference-cell handling.
* rugnux: De-novo space-group improvements - recover genuine high symmetry and centred Bravais lattices from intensities, add an automatic CC1/2 high-resolution cutoff, and report L-test twinning statistics.
* rugnux: Index weakly-diffracting low-resolution rotation data that previously failed (e.g. F-cubic crystals that diffract only to ~4 A on a detector reaching ~1.5 A). The per-frame indexing gate now measures the indexed fraction only within the resolution range the lattice actually diffracts to, so the many sub-diffraction ice/noise spots no longer make the fraction floor unreachable; the two-pass first pass tries several image-sampling schemes (spread across the whole rotation vs a consecutive wedge whose native stride keeps a reflection's rocking curve continuous, letting the FFT resolve a long axis) and keeps the one that indexes the most frames; and the de-novo space-group search no longer discards all reflections (and crashes) when every resolution shell falls below <I/sigma> = 1.
* rugnux: Lower the low-resolution R-meas for strongly-diffracting rotation data - drop edge-of-sweep truncated fulls whose rocking curve was captured below `--min-captured-fraction` (default 0.7 for rotation), and report R-meas only over the observations kept by outlier rejection (matching XDS). The 0.7 default also strips the partiality-extrapolated fulls that dominate the intensity second moment on weakly-diffracting crystals, so the de-novo space-group search is no longer starved by the error-model I/sigma floor and recovers the correct symmetry (e.g. the F-cubic Benas crystals: Benas_3 -> F432, Benas_7 -> P6122, instead of P4/P1); on the reference battery every other crystal keeps its space group.
* rugnux: Write the refined geometry (beam, tilt, axis) to _process.h5 and place non-standard mmCIF items under a reserved `jfjoch` prefix.
* jfjoch_broker: Ordinary acquisition failures (receiver/writer/analysis problems, missed packets, writer disconnect) now return to the Idle state with an Error-severity message, so a run can be retried without an expensive re-initialisation; only failures that leave the detector in an undefined state (new JFJochCriticalException, e.g. PCIe/FPGA faults) go to the Error state and force re-initialisation.
* jfjoch_broker: A synchronous /start now reports its failure to the HTTP caller instead of returning HTTP 200, and an incomplete or truncated dataset (missing packets, writer disconnect) is reported as an error rather than a "reduce frame rate" warning.
* jfjoch_broker: Drop uncollected placeholder rows (number = -1) from the scan_result REST endpoint.
* jfjoch_broker: Fix the inverted per-image compression ratio reported by the Lite receiver (was compressed/uncompressed instead of uncompressed/compressed).
* jfjoch_broker: Bragg integration adds a quantization-noise variance floor with a box-sum fallback, and treats the type-maximum marker as an invalid pixel for unsigned image types.
* jfjoch_writer: Detect file-overwrite conflicts at start for back-channel transports, and reset the writer when end-of-collection finalisation fails.
* jfjoch_viewer: Preview overlays follow the geometry (resolution/ROI arcs, true beam centre, predictions, coral secondary-lattice spots, legend), add save-as-JPEG, and fix an HTTP live-follow memory leak.
* Frontend: Improved aesthetics and usability, and added in-browser pixel-mask and JUNGFRAU-pedestal visualisation.
* CI: Name the Windows installer jfjoch-viewer-* instead of jfjoch-*.Reviewed-on: #67

Co-authored-by: Filip Leonarski <filip.leonarski@psi.ch>
2026-07-11 07:19:11 +02:00

533 lines
21 KiB
C++

// SPDX-FileCopyrightText: 2025 Filip Leonarski, Paul Scherrer Institute <filip.leonarski@psi.ch>
// SPDX-License-Identifier: GPL-3.0-only
#include "JFJochHttpReader.h"
#include <httplib.h>
#include <nlohmann/json.hpp>
#include "../frame_serialize/CBORStream2Deserializer.h"
#include "../broker/gen/model/Image_buffer_status.h"
#include "../broker/gen/model/Plots.h"
#include "../broker/gen/model/Broker_status.h"
#include "../broker/gen/model/Roi_definitions.h"
#include "../common/JFJochMath.h"
#include "../image_analysis/bragg_integration/CalcISigma.h"
void JFJochHttpReader::Close() {
std::unique_lock ul(http_mutex);
addr = "";
SetStartMessage({});
last_image_buffer_counter = {};
last_op_http_sync = false;
cached_pixel_mask.reset();
cached_pixel_mask_arm_date.clear();
}
ImageBufferStatus JFJochHttpReader::GetImageBufferStatus() const {
httplib::Client cli_cmd(addr);
auto res = cli_cmd.Get("/image_buffer/status");
if (!res || res->status != httplib::StatusCode::OK_200)
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"Could not get image buffer status");
try {
org::openapitools::server::model::Image_buffer_status status = nlohmann::json::parse(res->body);
ImageBufferStatus ret{};
ret.max_image_number = status.getMaxImageNumber();
ret.min_image_number = status.getMinImageNumber();
ret.available_slots = status.getAvailableSlots();
ret.total_slots = status.getTotalSlots();
ret.images_in_the_buffer = status.getImageNumbers();
if (status.currentCounterIsSet())
ret.current_counter = status.getCurrentCounter();
return ret;
} catch (std::exception &e) {
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"Could not parse image buffer status");
}
}
BrokerStatus JFJochHttpReader::GetBrokerStatus() const {
httplib::Client cli_cmd(addr);
auto res = cli_cmd.Get("/status");
if (!res || res->status != httplib::StatusCode::OK_200)
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"Could not get broker status");
try {
org::openapitools::server::model::Broker_status input = nlohmann::json::parse(res->body);
BrokerStatus ret{};
ret.broker_version = input.getBrokerVersion();
ret.gpu_count = input.getGpuCount();
if (input.progressIsSet())
ret.progress = input.getProgress();
if (input.messageIsSet())
ret.message = input.getMessage();
if (input.getState() == "Inactive")
ret.state = JFJochState::Inactive;
else if (input.getState() == "Idle")
ret.state = JFJochState::Idle;
else if (input.getState() == "Measuring")
ret.state = JFJochState::Measuring;
else if (input.getState() == "Error")
ret.state = JFJochState::Error;
else if (input.getState() == "Busy")
ret.state = JFJochState::Busy;
else if (input.getState() == "Pedestal")
ret.state = JFJochState::Calibration;
if (input.getMessageSeverity() == "info")
ret.message_severity = BrokerStatus::MessageSeverity::Info;
else if (input.getMessageSeverity() == "success")
ret.message_severity = BrokerStatus::MessageSeverity::Success;
else if (input.getMessageSeverity() == "warning")
ret.message_severity = BrokerStatus::MessageSeverity::Warning;
else if (input.getMessageSeverity() == "error")
ret.message_severity = BrokerStatus::MessageSeverity::Error;
if (input.brokerVersionIsSet())
ret.broker_version = input.getBrokerVersion();
return ret;
} catch (std::exception &e) {
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"Could not parse broker status");
}
}
uint64_t JFJochHttpReader::GetNumberOfImages() const {
std::unique_lock ul(http_mutex);
if (addr.empty())
return 0;
auto status = GetImageBufferStatus();
return status.max_image_number + 1;
}
std::shared_ptr<JFJochReaderDataset> JFJochHttpReader::UpdateDataset_i() {
httplib::Client cli_cmd(addr);
auto res = cli_cmd.Get("/image_buffer/start.cbor");
if (!res || (res->status != httplib::StatusCode::OK_200
&& res->status != httplib::StatusCode::NotFound_404))
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"Could not get image buffer status");
if (res->status == httplib::StatusCode::NotFound_404)
return {};
if (res->body.empty())
return {};
try {
auto msg = CBORStream2Deserialize(res->body);
if (msg->msg_type != CBORImageType::START)
return {};
auto dataset = std::make_shared<JFJochReaderDataset>();
dataset->arm_date = msg->start_message->arm_date;
dataset->experiment = default_experiment;
// JFJochReader is always using int32_t
dataset->experiment.BitDepthImage(32);
dataset->experiment.PixelSigned(true);
dataset->experiment.FilePrefix(msg->start_message->file_prefix);
dataset->experiment.BeamX_pxl(msg->start_message->beam_center_x);
dataset->experiment.BeamY_pxl(msg->start_message->beam_center_y);
dataset->experiment.DetectorDistance_mm(msg->start_message->detector_distance * 1000.0);
dataset->experiment.DetectIceRings(msg->start_message->detect_ice_rings.value_or(false));
dataset->experiment.PoniRot1_rad(msg->start_message->poni_rot1.value_or(0.0));
dataset->experiment.PoniRot2_rad(msg->start_message->poni_rot2.value_or(0.0));
dataset->experiment.PoniRot3_rad(msg->start_message->poni_rot3.value_or(0.0));
dataset->az_int_bin_to_q = msg->start_message->az_int_bin_to_q;
dataset->az_int_bin_to_phi = msg->start_message->az_int_bin_to_phi;
dataset->q_bins = msg->start_message->az_int_q_bin_count.value_or(0);
dataset->azimuthal_bins = msg->start_message->az_int_phi_bin_count.value_or(0);
dataset->jfjoch_release = msg->start_message->jfjoch_release;
DetectorSetup detector = DetDECTRIS(msg->start_message->image_size_x, msg->start_message->image_size_y,
msg->start_message->detector_description, {});
detector.PixelSize_um(msg->start_message->pixel_size_x * 1e6);
detector.SaturationLimit(msg->start_message->saturation_value);
detector.MinFrameTime(std::chrono::microseconds(0));
detector.MinCountTime(std::chrono::microseconds(0));
detector.ReadOutTime(std::chrono::microseconds (0));
dataset->experiment.Detector(detector);
dataset->experiment.FrameTime(
std::chrono::microseconds(std::lround(msg->start_message->frame_time * 1e6)),
std::chrono::microseconds(std::lround(msg->start_message->count_time * 1e6))
);
if (!msg->start_message->pixel_mask.empty()) {
// The pixel mask is constant for an acquisition; build the full-detector (~tens of MB)
// PixelMask once per arm and share it across the per-refresh dataset snapshots, so a live
// dataset refresh does not reconstruct and copy it on every tick.
if (!cached_pixel_mask || cached_pixel_mask_arm_date != dataset->arm_date) {
cached_pixel_mask =
std::make_shared<const PixelMask>(msg->start_message->pixel_mask.begin()->second);
cached_pixel_mask_arm_date = dataset->arm_date;
}
dataset->pixel_mask = cached_pixel_mask;
}
dataset->experiment.NumTriggers(1);
dataset->experiment.ImagesPerTrigger(msg->start_message->number_of_images);
dataset->experiment.SampleName(msg->start_message->sample_name);
dataset->experiment.SampleTemperature_K(msg->start_message->sample_temperature_K);
dataset->experiment.RingCurrent_mA(msg->start_message->ring_current_mA);
dataset->experiment.IncidentEnergy_keV(msg->start_message->incident_energy / 1000.0);
dataset->experiment.FluorescenceSpectrum(msg->start_message->fluorescence_spectrum);
dataset->bkg_estimate = GetPlot_i("bkg_estimate");
dataset->ice_ring_score = GetPlot_i("ice_ring_score");
dataset->spot_count = GetPlot_i("spot_count");
dataset->spot_count_ice_rings = GetPlot_i("spot_count_ice");
dataset->spot_count_low_res = GetPlot_i("spot_count_low_res");
dataset->spot_count_indexed = GetPlot_i("spot_count_indexed");
dataset->indexing_result = GetPlot_i("indexing_rate");
dataset->indexing_lattice_count = GetPlot_i("indexing_lattice_count");
dataset->profile_radius = GetPlot_i("profile_radius");
dataset->mosaicity_deg = GetPlot_i("mosaicity");
dataset->b_factor = GetPlot_i("b_factor");
dataset->resolution_estimate = GetPlot_i("resolution_estimate");
dataset->efficiency = GetPlot_i("image_collection_efficiency");
dataset->integrated_reflections = GetPlot_i("integrated_reflections");
dataset->image_scale_factor = GetPlot_i("image_scale_factor");
dataset->image_scale_cc = GetPlot_i("image_scale_cc");
dataset->image_scale_b = GetPlot_i("image_scale_b");
if (msg->start_message->goniometer)
dataset->experiment.Goniometer(msg->start_message->goniometer);
else if (msg->start_message->grid_scan)
dataset->experiment.GridScan(msg->start_message->grid_scan);
return dataset;
} catch (std::exception &e) {
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
std::string("Could not load dataset: ") + std::string(e.what()));
}
}
void JFJochHttpReader::ReadURL(const std::string &url) {
std::unique_lock ul(http_mutex);
addr = url;
if (url.empty())
SetStartMessage({});
else
SetStartMessage(UpdateDataset_i());
}
std::shared_ptr<const JFJochReaderDataset> JFJochHttpReader::RefreshDatasetIfChanged(int64_t &num_images_out) {
std::unique_lock ul(http_mutex);
num_images_out = 0;
if (addr.empty())
return {};
auto status = GetImageBufferStatus();
num_images_out = status.max_image_number + 1;
// Re-fetch the dataset (start message + plots) only when the buffer actually changed,
// so the dataset-only follow mode does not hammer the broker with plot requests.
const bool buffer_changed = !last_image_buffer_counter.has_value()
|| !status.current_counter.has_value()
|| last_image_buffer_counter.value() != status.current_counter.value();
last_image_buffer_counter = status.current_counter;
if (!buffer_changed)
return {};
SetStartMessage(UpdateDataset_i());
return GetDataset();
}
bool JFJochHttpReader::LoadImage_i(std::shared_ptr<JFJochReaderDataset> &dataset,
DataMessage &message,
std::vector<uint8_t> &buffer,
int64_t image_number,
bool update_dataset) {
std::unique_lock ul(http_mutex);
if (addr.empty())
return false;
httplib::Client cli_cmd(addr);
bool buffer_changed = false;
// For autoupdate - if buffer didn't change don't update dataset
auto status = GetImageBufferStatus();
if (!last_image_buffer_counter.has_value() // No information on the previous buffer state - always assume it changed
|| !status.current_counter.has_value() // No information on the current buffer state - e.g. old version of software
|| last_image_buffer_counter.value() != status.current_counter.value()) // current counter value different from previous
buffer_changed = true;
last_image_buffer_counter = status.current_counter;
if (image_number == -1) {
if (last_op_http_sync && !buffer_changed)
return false;
last_op_http_sync = true;
} else {
last_op_http_sync = false;
}
// Always update dataset, as it might have changed from the last time
if (buffer_changed && update_dataset)
dataset = UpdateDataset_i();
if (!dataset)
return false;
auto res = cli_cmd.Get("/image_buffer/image.cbor?id=" + std::to_string(image_number));
if (!res || res->status != httplib::StatusCode::OK_200)
return false;
if (res->body.empty()) {
return false;
}
try {
buffer.resize(res->body.size());
memcpy(buffer.data(), res->body.data(), res->body.size());
auto msg = CBORStream2Deserialize(buffer);
if (msg->msg_type != CBORImageType::IMAGE)
return false;
message = *msg->data_message;
CalcISigma(message);
CalcWilsonBFactor(message);
return true;
} catch (std::exception &e) {
return false;
}
}
std::shared_ptr<JFJochReaderRawImage> JFJochHttpReader::GetRawImage(int64_t image_number) {
if (addr.empty())
return {};
httplib::Client cli_cmd(addr);
auto res = cli_cmd.Get("/image_buffer/image.cbor?id=" + std::to_string(image_number));
if (!res || res->status != httplib::StatusCode::OK_200 || res->body.empty())
return {};
try {
auto msg =
CBORStream2Deserialize(reinterpret_cast<uint8_t *>(res->body.data()), res->body.size());
if (msg->msg_type != CBORImageType::IMAGE)
return {};
std::shared_ptr<JFJochReaderRawImage> image = std::make_shared<JFJochReaderRawImage>();
image->image_buffer.resize(msg->data_message->image.GetCompressedSize());
memcpy(image->image_buffer.data(),
msg->data_message->image.GetCompressed(),
msg->data_message->image.GetCompressedSize());
image->image = CompressedImage(
image->image_buffer.data(),
image->image_buffer.size(),
msg->data_message->image.GetWidth(),
msg->data_message->image.GetHeight(),
msg->data_message->image.GetMode(),
msg->data_message->image.GetCompressionAlgorithm()
);
return image;
} catch (std::exception &e) {
return {};
}
}
std::vector<float> JFJochHttpReader::GetPlot_i(const std::string &plot_type, float fill_value) const {
if (addr.empty())
return {};
httplib::Client cli_cmd(addr);
auto res_bin = cli_cmd.Get("/preview/plot.bin?type=" + plot_type);
if (res_bin && res_bin->status == httplib::StatusCode::OK_200) {
if (res_bin->body.size() % sizeof(float) != 0) {
throw std::runtime_error("Input size is not a multiple of sizeof(float)");
}
std::vector<float> v(res_bin->body.size() / sizeof(float));
std::memcpy(v.data(), res_bin->body.data(), res_bin->body.size());
return v;
}
auto res = cli_cmd.Get("/preview/plot?binning=1&experimental_coord=false&fill="
+ std::to_string(fill_value) + "&type=" + plot_type);
if (!res || res->status != httplib::StatusCode::OK_200)
return {};
try {
org::openapitools::server::model::Plots plots = nlohmann::json::parse(res->body);
auto plot_v = plots.getPlot();
if (plot_v.size() == 1)
return plot_v[0].getY();
else
return {};
} catch (nlohmann::json::parse_error &e) {
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"Could not parse plot " + plot_type);
}
}
void JFJochHttpReader::UploadUserMask(const std::vector<uint32_t>& mask) {
std::unique_lock ul(http_mutex);
if (addr.empty())
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"HTTP address not set. Call ReadURL() first.");
if (mask.empty())
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"User mask is empty.");
httplib::Client cli_cmd(addr);
const char* data_ptr = reinterpret_cast<const char*>(mask.data());
const size_t byte_size = mask.size() * sizeof(uint32_t);
auto res = cli_cmd.Put("/config/user_mask",
data_ptr,
byte_size,
"application/octet-stream");
if (!res)
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"Failed to connect to server to upload user mask");
if (res->status != httplib::StatusCode::OK_200)
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"Server rejected user mask upload");
}
ROIDefinition JFJochHttpReader::GetROIDefinitions() const {
std::unique_lock ul(http_mutex);
if (addr.empty())
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid, "HTTP address not set");
httplib::Client cli_cmd(addr);
auto res = cli_cmd.Get("/config/roi");
if (!res || res->status != httplib::StatusCode::OK_200)
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid, "Could not get ROI definitions");
org::openapitools::server::model::Roi_definitions input = nlohmann::json::parse(res->body);
ROIDefinition out;
for (const auto &i : input.getBox().getRois())
out.boxes.emplace_back(i.getName(), i.getMinXPxl(), i.getMaxXPxl(), i.getMinYPxl(), i.getMaxYPxl());
for (const auto &i : input.getCircle().getRois())
out.circles.emplace_back(i.getName(), i.getCenterXPxl(), i.getCenterYPxl(), i.getRadiusPxl());
for (const auto &i : input.getAzim().getRois()) {
float phi_min = 0, phi_max = 0;
if (i.phiMinDegIsSet() && i.phiMaxDegIsSet()) {
phi_min = i.getPhiMinDeg();
phi_max = i.getPhiMaxDeg();
}
const float d_min = (i.getQMaxRecipA() == 0.0f) ? 0.0f : 2.0f * static_cast<float>(PI) / i.getQMaxRecipA();
const float d_max = (i.getQMinRecipA() == 0.0f) ? 0.0f : 2.0f * static_cast<float>(PI) / i.getQMinRecipA();
out.azimuthal.emplace_back(i.getName(), d_min, d_max, phi_min, phi_max);
}
return out;
}
void JFJochHttpReader::UploadROIDefinitions(const ROIDefinition &rois) const {
std::unique_lock ul(http_mutex);
if (addr.empty())
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid, "HTTP address not set");
namespace model = org::openapitools::server::model;
model::Roi_definitions out;
model::Roi_box_list bl;
std::vector<model::Roi_box> boxes;
for (const auto &b : rois.boxes) {
model::Roi_box e;
e.setName(b.GetName());
e.setMinXPxl(b.GetXMin()); e.setMaxXPxl(b.GetXMax());
e.setMinYPxl(b.GetYMin()); e.setMaxYPxl(b.GetYMax());
boxes.push_back(e);
}
bl.setRois(boxes);
out.setBox(bl);
model::Roi_circle_list cl;
std::vector<model::Roi_circle> circles;
for (const auto &c : rois.circles) {
model::Roi_circle e;
e.setName(c.GetName());
e.setCenterXPxl(c.GetX()); e.setCenterYPxl(c.GetY());
e.setRadiusPxl(c.GetRadius_pxl());
circles.push_back(e);
}
cl.setRois(circles);
out.setCircle(cl);
model::Roi_azim_list al;
std::vector<model::Roi_azimuthal> azim;
for (const auto &a : rois.azimuthal) {
model::Roi_azimuthal e;
e.setName(a.GetName());
e.setQMinRecipA(a.GetQMin_recipA());
e.setQMaxRecipA(a.GetQMax_recipA());
if (a.HasPhi()) {
e.setPhiMinDeg(a.GetPhiMin_deg());
e.setPhiMaxDeg(a.GetPhiMax_deg());
}
azim.push_back(e);
}
al.setRois(azim);
out.setAzim(al);
nlohmann::json j = out;
httplib::Client cli_cmd(addr);
auto res = cli_cmd.Put("/config/roi", j.dump(), "application/json");
if (!res)
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"Failed to connect to server to upload ROIs");
if (res->status != httplib::StatusCode::OK_200)
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid, "Server rejected ROI upload");
}
std::vector<SpotToSave> JFJochHttpReader::ReadSpots(int64_t image) const {
std::unique_lock ul(http_mutex);
if (image < 0)
throw JFJochException(JFJochExceptionCategory::InputParameterInvalid,
"Image number must be non-negative");
if (addr.empty())
return {};
httplib::Client cli_cmd(addr);
auto res = cli_cmd.Get("/image_buffer/image.cbor?id=" + std::to_string(image));
if (!res || res->status != httplib::StatusCode::OK_200 || res->body.empty())
return {};
try {
auto msg = CBORStream2Deserialize(res->body);
if (msg->msg_type != CBORImageType::IMAGE)
return {};
return msg->data_message->spots;
} catch (std::exception &e) {
return {};
}
}