Mercurial > hg > orthanc-python
view Sources/DicomScpCallbacks.cpp @ 172:8382c7dea471 java-code-model
created CodeAnalysis/GenerateOrthancSDK.py
author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Thu, 27 Jun 2024 17:47:05 +0200 |
parents | 6fada29b6759 |
children | e9be3c9294d4 |
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/** * Python plugin for Orthanc * Copyright (C) 2020-2023 Osimis S.A., Belgium * Copyright (C) 2024-2024 Orthanc Team SRL, Belgium * Copyright (C) 2021-2024 Sebastien Jodogne, ICTEAM UCLouvain, Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU Affero General Public License * as published by the Free Software Foundation, either version 3 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Affero General Public License for more details. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. **/ #include "DicomScpCallbacks.h" #include "../Resources/Orthanc/Plugins/OrthancPluginCppWrapper.h" #include "Autogenerated/sdk.h" #include "ICallbackRegistration.h" #include "PythonString.h" static PyObject* findScpCallback_ = NULL; static PyObject* moveScpCallback_ = NULL; static PyObject* worklistScpCallback_ = NULL; // version 2 of Move callbacks static PyObject* createMoveScpDriverCallback_ = NULL; static PyObject* getMoveSizeCallback_ = NULL; static PyObject* applyMoveCallback_ = NULL; static PyObject* freeMoveCallback_ = NULL; static PyObject *GetFindQueryTag(sdk_OrthancPluginFindQuery_Object* self, PyObject *args, bool isGroup) { unsigned long index; uint16_t group, element; if (self->object_ == NULL) { PyErr_SetString(PyExc_ValueError, "Invalid object"); return NULL; } else if (!PyArg_ParseTuple(args, "k", &index)) { PyErr_SetString(PyExc_TypeError, "Index is missing"); return NULL; } else if (OrthancPluginGetFindQueryTag(OrthancPlugins::GetGlobalContext(), &group, &element, self->object_, index) != OrthancPluginErrorCode_Success) { PyErr_SetString(PyExc_ValueError, "Index is out of range"); return NULL; } else if (isGroup) { return PyLong_FromUnsignedLong(group); } else { return PyLong_FromUnsignedLong(element); } } // Check out "CUSTOM_METHODS" in "../CodeAnalysis/ParseOrthancSDK.py" PyObject *GetFindQueryTagGroup(sdk_OrthancPluginFindQuery_Object* self, PyObject *args) { return GetFindQueryTag(self, args, true); } PyObject *GetFindQueryTagElement(sdk_OrthancPluginFindQuery_Object* self, PyObject *args) { return GetFindQueryTag(self, args, false); } PyObject *WorklistAddAnswer(sdk_OrthancPluginWorklistAnswers_Object* self, PyObject *args) { PyObject* query = NULL; Py_buffer dicom; if (self->object_ == NULL) { PyErr_SetString(PyExc_ValueError, "Invalid object"); return NULL; } else if (!PyArg_ParseTuple(args, "Os*", &query, &dicom)) { PyErr_SetString(PyExc_TypeError, "Please provide a orthanc.WorklistQuery object, and a DICOM buffer"); return NULL; } else if (query == Py_None || Py_TYPE(query) != GetOrthancPluginWorklistQueryType()) { PyErr_SetString(PyExc_TypeError, "Invalid orthanc.WorklistQuery object"); return NULL; } else { OrthancPluginErrorCode code = OrthancPluginWorklistAddAnswer( OrthancPlugins::GetGlobalContext(), self->object_, reinterpret_cast<sdk_OrthancPluginWorklistQuery_Object*>(query)->object_, dicom.buf, dicom.len); PyBuffer_Release(&dicom); if (code == OrthancPluginErrorCode_Success) { Py_INCREF(Py_None); return Py_None; } else { PyErr_SetString(PyExc_ValueError, "Internal error"); return NULL; } } } // End of "CUSTOM_METHODS" static OrthancPluginErrorCode FindCallback(OrthancPluginFindAnswers *answers, const OrthancPluginFindQuery *query, const char *issuerAet, const char *calledAet) { try { PythonLock lock; PyObject *pAnswers, *pQuery; { PythonObject args(lock, PyTuple_New(2)); PyTuple_SetItem(args.GetPyObject(), 0, PyLong_FromSsize_t((intptr_t) answers)); PyTuple_SetItem(args.GetPyObject(), 1, PyBool_FromLong(true /* borrowed, don't destruct */)); pAnswers = PyObject_CallObject((PyObject *) GetOrthancPluginFindAnswersType(), args.GetPyObject()); } { PythonObject args(lock, PyTuple_New(2)); PyTuple_SetItem(args.GetPyObject(), 0, PyLong_FromSsize_t((intptr_t) query)); PyTuple_SetItem(args.GetPyObject(), 1, PyBool_FromLong(true /* borrowed, don't destruct */)); pQuery = PyObject_CallObject((PyObject *) GetOrthancPluginFindQueryType(), args.GetPyObject()); } PythonString pIssuerAet(lock, issuerAet); PythonString pCalledAet(lock, calledAet); { PythonObject args(lock, PyTuple_New(4)); PyTuple_SetItem(args.GetPyObject(), 0, pAnswers); PyTuple_SetItem(args.GetPyObject(), 1, pQuery); PyTuple_SetItem(args.GetPyObject(), 2, pIssuerAet.Release()); PyTuple_SetItem(args.GetPyObject(), 3, pCalledAet.Release()); assert(findScpCallback_ != NULL); PythonObject result(lock, PyObject_CallObject(findScpCallback_, args.GetPyObject())); } return lock.CheckCallbackSuccess("Python C-FIND SCP callback"); } catch (OrthancPlugins::PluginException& e) { return e.GetErrorCode(); } } class IMoveDriver : public boost::noncopyable { public: virtual ~IMoveDriver() { } virtual void Apply() = 0; }; static void* CreateMoveCallback(OrthancPluginResourceType resourceType, const char *patientId, const char *accessionNumber, const char *studyInstanceUid, const char *seriesInstanceUid, const char *sopInstanceUid, const char *originatorAet, const char *sourceAet, const char *targetAet, uint16_t originatorId) { class Driver : public IMoveDriver { private: OrthancPluginResourceType resourceType_; std::string patientId_; std::string accessionNumber_; std::string studyInstanceUid_; std::string seriesInstanceUid_; std::string sopInstanceUid_; std::string originatorAet_; std::string sourceAet_; std::string targetAet_; uint16_t originatorId_; public: Driver(OrthancPluginResourceType resourceType, const char *patientId, const char *accessionNumber, const char *studyInstanceUid, const char *seriesInstanceUid, const char *sopInstanceUid, const char *originatorAet, const char *sourceAet, const char *targetAet, uint16_t originatorId) : resourceType_(resourceType), originatorId_(originatorId) { if (patientId != NULL) { patientId_.assign(patientId); } if (accessionNumber != NULL) { accessionNumber_.assign(accessionNumber); } if (studyInstanceUid != NULL) { studyInstanceUid_.assign(studyInstanceUid); } if (seriesInstanceUid != NULL) { seriesInstanceUid_.assign(seriesInstanceUid); } if (sopInstanceUid != NULL) { sopInstanceUid_.assign(sopInstanceUid); } if (originatorAet != NULL) { originatorAet_.assign(originatorAet); } if (sourceAet != NULL) { sourceAet_.assign(sourceAet); } if (targetAet != NULL) { targetAet_.assign(targetAet); } } virtual void Apply() ORTHANC_OVERRIDE { PythonLock lock; PythonObject kw(lock, PyDict_New()); std::string level; switch (resourceType_) { case OrthancPluginResourceType_Patient: level = "PATIENT"; break; case OrthancPluginResourceType_Study: level = "STUDY"; break; case OrthancPluginResourceType_Series: level = "SERIES"; break; case OrthancPluginResourceType_Instance: level = "INSTANCE"; break; default: throw OrthancPlugins::PluginException(OrthancPluginErrorCode_ParameterOutOfRange); } { PythonString tmp(lock, level); PyDict_SetItemString(kw.GetPyObject(), "Level", tmp.GetPyObject()); } { PythonString tmp(lock, patientId_); PyDict_SetItemString(kw.GetPyObject(), "PatientID", tmp.GetPyObject()); } { PythonString tmp(lock, accessionNumber_); PyDict_SetItemString(kw.GetPyObject(), "AccessionNumber", tmp.GetPyObject()); } { PythonString tmp(lock, studyInstanceUid_); PyDict_SetItemString(kw.GetPyObject(), "StudyInstanceUID", tmp.GetPyObject()); } { PythonString tmp(lock, seriesInstanceUid_); PyDict_SetItemString(kw.GetPyObject(), "SeriesInstanceUID", tmp.GetPyObject()); } { PythonString tmp(lock, sopInstanceUid_); PyDict_SetItemString(kw.GetPyObject(), "SOPInstanceUID", tmp.GetPyObject()); } { PythonString tmp(lock, originatorAet_); PyDict_SetItemString(kw.GetPyObject(), "OriginatorAET", tmp.GetPyObject()); } { PythonString tmp(lock, sourceAet_); PyDict_SetItemString(kw.GetPyObject(), "SourceAET", tmp.GetPyObject()); } { PythonString tmp(lock, targetAet_); PyDict_SetItemString(kw.GetPyObject(), "TargetAET", tmp.GetPyObject()); } { PythonObject tmp(lock, PyLong_FromUnsignedLong(originatorId_)); PyDict_SetItemString(kw.GetPyObject(), "OriginatorID", tmp.GetPyObject()); } PythonObject args(lock, PyTuple_New(0)); assert(moveScpCallback_ != NULL); PythonObject result(lock, PyObject_Call(moveScpCallback_, args.GetPyObject(), kw.GetPyObject())); OrthancPluginErrorCode code = lock.CheckCallbackSuccess("Python C-MOVE SCP callback"); if (code != OrthancPluginErrorCode_Success) { throw OrthancPlugins::PluginException(code); } } }; try { return new Driver(resourceType, patientId, accessionNumber, studyInstanceUid, seriesInstanceUid, sopInstanceUid, originatorAet, sourceAet, targetAet, originatorId); } catch (OrthancPlugins::PluginException& e) { return NULL; } } static uint32_t GetMoveSize(void *moveDriver) { assert(moveDriver != NULL); return 1; } OrthancPluginErrorCode ApplyMove(void *moveDriver) { assert(moveDriver != NULL); try { reinterpret_cast<IMoveDriver*>(moveDriver)->Apply(); return OrthancPluginErrorCode_Success; } catch (OrthancPlugins::PluginException& e) { return e.GetErrorCode(); } } void FreeMove(void *moveDriver) { assert(moveDriver != NULL); delete reinterpret_cast<IMoveDriver*>(moveDriver); } static void* CreateMoveCallback2(OrthancPluginResourceType resourceType, const char *patientId, const char *accessionNumber, const char *studyInstanceUid, const char *seriesInstanceUid, const char *sopInstanceUid, const char *originatorAet, const char *sourceAet, const char *targetAet, uint16_t originatorId) { assert(createMoveScpDriverCallback_ != NULL); try { std::string _patientId, _accessionNumber, _studyInstanceUid, _seriesInstanceUid, _sopInstanceUid, _originatorAet, _sourceAet, _targetAet; if (patientId != NULL) { _patientId.assign(patientId); } if (accessionNumber != NULL) { _accessionNumber.assign(accessionNumber); } if (studyInstanceUid != NULL) { _studyInstanceUid.assign(studyInstanceUid); } if (seriesInstanceUid != NULL) { _seriesInstanceUid.assign(seriesInstanceUid); } if (sopInstanceUid != NULL) { _sopInstanceUid.assign(sopInstanceUid); } if (originatorAet != NULL) { _originatorAet.assign(originatorAet); } if (sourceAet != NULL) { _sourceAet.assign(sourceAet); } if (targetAet != NULL) { _targetAet.assign(targetAet); } PythonLock lock; PythonObject kw(lock, PyDict_New()); std::string level; switch (resourceType) { case OrthancPluginResourceType_Patient: level = "PATIENT"; break; case OrthancPluginResourceType_Study: level = "STUDY"; break; case OrthancPluginResourceType_Series: level = "SERIES"; break; case OrthancPluginResourceType_Instance: level = "INSTANCE"; break; default: throw OrthancPlugins::PluginException(OrthancPluginErrorCode_ParameterOutOfRange); } { PythonString tmp(lock, level); PyDict_SetItemString(kw.GetPyObject(), "Level", tmp.GetPyObject()); } { PythonString tmp(lock, _patientId); PyDict_SetItemString(kw.GetPyObject(), "PatientID", tmp.GetPyObject()); } { PythonString tmp(lock, _accessionNumber); PyDict_SetItemString(kw.GetPyObject(), "AccessionNumber", tmp.GetPyObject()); } { PythonString tmp(lock, _studyInstanceUid); PyDict_SetItemString(kw.GetPyObject(), "StudyInstanceUID", tmp.GetPyObject()); } { PythonString tmp(lock, _seriesInstanceUid); PyDict_SetItemString(kw.GetPyObject(), "SeriesInstanceUID", tmp.GetPyObject()); } { PythonString tmp(lock, _sopInstanceUid); PyDict_SetItemString(kw.GetPyObject(), "SOPInstanceUID", tmp.GetPyObject()); } { PythonString tmp(lock, _originatorAet); PyDict_SetItemString(kw.GetPyObject(), "OriginatorAET", tmp.GetPyObject()); } { PythonString tmp(lock, _sourceAet); PyDict_SetItemString(kw.GetPyObject(), "SourceAET", tmp.GetPyObject()); } { PythonString tmp(lock, _targetAet); PyDict_SetItemString(kw.GetPyObject(), "TargetAET", tmp.GetPyObject()); } { PythonObject tmp(lock, PyLong_FromUnsignedLong(originatorId)); PyDict_SetItemString(kw.GetPyObject(), "OriginatorID", tmp.GetPyObject()); } PythonObject args(lock, PyTuple_New(0)); // Note: the result is not attached to the PythonLock because we want it to survive after this call since // the result is the python move driver that will be passed as first argument to GetMoveSize, Apply and Free. // After the PyObject_Call, result's ref count is 1 -> no need to add a reference but we need to decref explicitely // to delete the object at the end of the move. PyObject* result = PyObject_Call(createMoveScpDriverCallback_, args.GetPyObject(), kw.GetPyObject()); OrthancPluginErrorCode code = lock.CheckCallbackSuccess("Python C-MOVE SCP callback (Create)"); if (code != OrthancPluginErrorCode_Success) { throw OrthancPlugins::PluginException(code); } return result; } catch (OrthancPlugins::PluginException& e) { return NULL; } } static uint32_t GetMoveSize2(void *moveDriver) { assert(moveDriver != NULL); assert(getMoveSizeCallback_ != NULL); PythonLock lock; PythonObject args(lock, PyTuple_New(1)); PyTuple_SetItem(args.GetPyObject(), 0, reinterpret_cast<PyObject*>(moveDriver)); Py_INCREF(moveDriver); // because PyTuple_SetItem steals a reference and we need to keep the object alive PythonObject result(lock, PyObject_CallObject(getMoveSizeCallback_, args.GetPyObject())); OrthancPluginErrorCode code = lock.CheckCallbackSuccess("Python C-MOVE SCP callback (GetMoveSize)"); if (code != OrthancPluginErrorCode_Success) { throw OrthancPlugins::PluginException(code); } if (!PyLong_Check(result.GetPyObject())) { throw OrthancPlugins::PluginException(OrthancPluginErrorCode_BadParameterType); } return static_cast<uint32_t>(PyLong_AsLong(result.GetPyObject())); } OrthancPluginErrorCode ApplyMove2(void *moveDriver) { assert(moveDriver != NULL); assert(applyMoveCallback_ != NULL); PythonLock lock; PythonObject args(lock, PyTuple_New(1)); PyTuple_SetItem(args.GetPyObject(), 0, reinterpret_cast<PyObject*>(moveDriver)); Py_INCREF(moveDriver); // because PyTuple_SetItem steals a reference and we need to keep the object alive PythonObject result(lock, PyObject_CallObject(applyMoveCallback_, args.GetPyObject())); OrthancPluginErrorCode code = lock.CheckCallbackSuccess("Python C-MOVE SCP callback (Apply)"); return code; } void FreeMove2(void *moveDriver) { assert(moveDriver != NULL); PythonLock lock; PythonObject args(lock, PyTuple_New(1)); PyTuple_SetItem(args.GetPyObject(), 0, reinterpret_cast<PyObject*>(moveDriver)); Py_INCREF(moveDriver); // because PyTuple_SetItem steals a reference and we need to keep the object alive assert(freeMoveCallback_ != NULL); PythonObject result(lock, PyObject_CallObject(freeMoveCallback_, args.GetPyObject())); lock.CheckCallbackSuccess("Python C-MOVE SCP callback (Free)"); Py_DECREF(moveDriver); // remove the initial reference -> this will delete the Python Object when we exit this function } OrthancPluginErrorCode WorklistCallback(OrthancPluginWorklistAnswers *answers, const OrthancPluginWorklistQuery *query, const char *issuerAet, const char *calledAet) { try { PythonLock lock; PyObject *pAnswers, *pQuery; { PythonObject args(lock, PyTuple_New(2)); PyTuple_SetItem(args.GetPyObject(), 0, PyLong_FromSsize_t((intptr_t) answers)); PyTuple_SetItem(args.GetPyObject(), 1, PyBool_FromLong(true /* borrowed, don't destruct */)); pAnswers = PyObject_CallObject((PyObject *) GetOrthancPluginWorklistAnswersType(), args.GetPyObject()); } { PythonObject args(lock, PyTuple_New(2)); PyTuple_SetItem(args.GetPyObject(), 0, PyLong_FromSsize_t((intptr_t) query)); PyTuple_SetItem(args.GetPyObject(), 1, PyBool_FromLong(true /* borrowed, don't destruct */)); pQuery = PyObject_CallObject((PyObject *) GetOrthancPluginWorklistQueryType(), args.GetPyObject()); } PythonString pIssuerAet(lock, issuerAet); PythonString pCalledAet(lock, calledAet); { PythonObject args(lock, PyTuple_New(4)); PyTuple_SetItem(args.GetPyObject(), 0, pAnswers); PyTuple_SetItem(args.GetPyObject(), 1, pQuery); PyTuple_SetItem(args.GetPyObject(), 2, pIssuerAet.Release()); PyTuple_SetItem(args.GetPyObject(), 3, pCalledAet.Release()); assert(worklistScpCallback_ != NULL); PythonObject result(lock, PyObject_CallObject(worklistScpCallback_, args.GetPyObject())); } return lock.CheckCallbackSuccess("Python C-FIND SCP for worklist callback"); } catch (OrthancPlugins::PluginException& e) { return e.GetErrorCode(); } } PyObject* RegisterFindCallback(PyObject* module, PyObject* args) { // The GIL is locked at this point (no need to create "PythonLock") class Registration : public ICallbackRegistration { public: virtual void Register() ORTHANC_OVERRIDE { OrthancPluginRegisterFindCallback(OrthancPlugins::GetGlobalContext(), FindCallback); } }; Registration registration; return ICallbackRegistration::Apply( registration, args, findScpCallback_, "Python C-FIND SCP callback"); } PyObject* RegisterMoveCallback(PyObject* module, PyObject* args) { // The GIL is locked at this point (no need to create "PythonLock") class Registration : public ICallbackRegistration { public: virtual void Register() ORTHANC_OVERRIDE { OrthancPluginRegisterMoveCallback( OrthancPlugins::GetGlobalContext(), CreateMoveCallback, GetMoveSize, ApplyMove, FreeMove); } }; Registration registration; return ICallbackRegistration::Apply( registration, args, moveScpCallback_, "Python C-MOVE SCP callback"); } PyObject* RegisterMoveCallback2(PyObject* module, PyObject* args) { // The GIL is locked at this point (no need to create "PythonLock") class Registration : public ICallbackRegistration { public: virtual void Register() ORTHANC_OVERRIDE { OrthancPluginRegisterMoveCallback( OrthancPlugins::GetGlobalContext(), CreateMoveCallback2, GetMoveSize2, ApplyMove2, FreeMove2); } }; Registration registration; return ICallbackRegistration::Apply4( registration, args, createMoveScpDriverCallback_, getMoveSizeCallback_, applyMoveCallback_, freeMoveCallback_, "Python C-MOVE SCP callback (2)"); } PyObject* RegisterWorklistCallback(PyObject* module, PyObject* args) { // The GIL is locked at this point (no need to create "PythonLock") class Registration : public ICallbackRegistration { public: virtual void Register() ORTHANC_OVERRIDE { OrthancPluginRegisterWorklistCallback(OrthancPlugins::GetGlobalContext(), WorklistCallback); } }; Registration registration; return ICallbackRegistration::Apply( registration, args, worklistScpCallback_, "Python C-FIND SCP for worklist callback"); } void FinalizeDicomScpCallbacks() { ICallbackRegistration::Unregister(findScpCallback_); ICallbackRegistration::Unregister(moveScpCallback_); ICallbackRegistration::Unregister(worklistScpCallback_); ICallbackRegistration::Unregister(createMoveScpDriverCallback_); ICallbackRegistration::Unregister(getMoveSizeCallback_); ICallbackRegistration::Unregister(applyMoveCallback_); ICallbackRegistration::Unregister(freeMoveCallback_); }