Mercurial > hg > orthanc
view OrthancServer/Internals/CommandDispatcher.cpp @ 693:01d8611c4a60
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author | Sebastien Jodogne <s.jodogne@gmail.com> |
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date | Tue, 04 Feb 2014 17:52:51 +0100 |
parents | 2e67366aab83 |
children | 0a2f8c707c78 |
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/** * Orthanc - A Lightweight, RESTful DICOM Store * Copyright (C) 2012-2014 Medical Physics Department, CHU of Liege, * Belgium * * This program is free software: you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation, either version 3 of the * License, or (at your option) any later version. * * In addition, as a special exception, the copyright holders of this * program give permission to link the code of its release with the * OpenSSL project's "OpenSSL" library (or with modified versions of it * that use the same license as the "OpenSSL" library), and distribute * the linked executables. You must obey the GNU General Public License * in all respects for all of the code used other than "OpenSSL". If you * modify file(s) with this exception, you may extend this exception to * your version of the file(s), but you are not obligated to do so. If * you do not wish to do so, delete this exception statement from your * version. If you delete this exception statement from all source files * in the program, then also delete it here. * * 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 * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see <http://www.gnu.org/licenses/>. **/ #include "CommandDispatcher.h" #include "FindScp.h" #include "StoreScp.h" #include "MoveScp.h" #include "../../Core/Toolbox.h" #include <dcmtk/dcmnet/dcasccfg.h> /* for class DcmAssociationConfiguration */ #include <boost/lexical_cast.hpp> #include <glog/logging.h> #define ORTHANC_PROMISCUOUS 1 static OFBool opt_rejectWithoutImplementationUID = OFFalse; #if ORTHANC_PROMISCUOUS == 1 static DUL_PRESENTATIONCONTEXT * findPresentationContextID(LST_HEAD * head, T_ASC_PresentationContextID presentationContextID) { DUL_PRESENTATIONCONTEXT *pc; LST_HEAD **l; OFBool found = OFFalse; if (head == NULL) return NULL; l = &head; if (*l == NULL) return NULL; pc = OFstatic_cast(DUL_PRESENTATIONCONTEXT *, LST_Head(l)); (void)LST_Position(l, OFstatic_cast(LST_NODE *, pc)); while (pc && !found) { if (pc->presentationContextID == presentationContextID) { found = OFTrue; } else { pc = OFstatic_cast(DUL_PRESENTATIONCONTEXT *, LST_Next(l)); } } return pc; } /** accept all presenstation contexts for unknown SOP classes, * i.e. UIDs appearing in the list of abstract syntaxes * where no corresponding name is defined in the UID dictionary. * @param params pointer to association parameters structure * @param transferSyntax transfer syntax to accept * @param acceptedRole SCU/SCP role to accept */ static OFCondition acceptUnknownContextsWithTransferSyntax( T_ASC_Parameters * params, const char* transferSyntax, T_ASC_SC_ROLE acceptedRole) { OFCondition cond = EC_Normal; int n, i, k; DUL_PRESENTATIONCONTEXT *dpc; T_ASC_PresentationContext pc; OFBool accepted = OFFalse; OFBool abstractOK = OFFalse; n = ASC_countPresentationContexts(params); for (i = 0; i < n; i++) { cond = ASC_getPresentationContext(params, i, &pc); if (cond.bad()) return cond; abstractOK = OFFalse; accepted = OFFalse; if (dcmFindNameOfUID(pc.abstractSyntax) == NULL) { abstractOK = OFTrue; /* check the transfer syntax */ for (k = 0; (k < OFstatic_cast(int, pc.transferSyntaxCount)) && !accepted; k++) { if (strcmp(pc.proposedTransferSyntaxes[k], transferSyntax) == 0) { accepted = OFTrue; } } } if (accepted) { cond = ASC_acceptPresentationContext( params, pc.presentationContextID, transferSyntax, acceptedRole); if (cond.bad()) return cond; } else { T_ASC_P_ResultReason reason; /* do not refuse if already accepted */ dpc = findPresentationContextID(params->DULparams.acceptedPresentationContext, pc.presentationContextID); if ((dpc == NULL) || ((dpc != NULL) && (dpc->result != ASC_P_ACCEPTANCE))) { if (abstractOK) { reason = ASC_P_TRANSFERSYNTAXESNOTSUPPORTED; } else { reason = ASC_P_ABSTRACTSYNTAXNOTSUPPORTED; } /* * If previously this presentation context was refused * because of bad transfer syntax let it stay that way. */ if ((dpc != NULL) && (dpc->result == ASC_P_TRANSFERSYNTAXESNOTSUPPORTED)) reason = ASC_P_TRANSFERSYNTAXESNOTSUPPORTED; cond = ASC_refusePresentationContext(params, pc.presentationContextID, reason); if (cond.bad()) return cond; } } } return EC_Normal; } /** accept all presenstation contexts for unknown SOP classes, * i.e. UIDs appearing in the list of abstract syntaxes * where no corresponding name is defined in the UID dictionary. * This method is passed a list of "preferred" transfer syntaxes. * @param params pointer to association parameters structure * @param transferSyntax transfer syntax to accept * @param acceptedRole SCU/SCP role to accept */ static OFCondition acceptUnknownContextsWithPreferredTransferSyntaxes( T_ASC_Parameters * params, const char* transferSyntaxes[], int transferSyntaxCount, T_ASC_SC_ROLE acceptedRole = ASC_SC_ROLE_DEFAULT) { OFCondition cond = EC_Normal; /* ** Accept in the order "least wanted" to "most wanted" transfer ** syntax. Accepting a transfer syntax will override previously ** accepted transfer syntaxes. */ for (int i = transferSyntaxCount - 1; i >= 0; i--) { cond = acceptUnknownContextsWithTransferSyntax(params, transferSyntaxes[i], acceptedRole); if (cond.bad()) return cond; } return cond; } #endif namespace Orthanc { namespace Internals { OFCondition AssociationCleanup(T_ASC_Association *assoc) { OFString temp_str; OFCondition cond = ASC_dropSCPAssociation(assoc); if (cond.bad()) { LOG(FATAL) << cond.text(); return cond; } cond = ASC_destroyAssociation(&assoc); if (cond.bad()) { LOG(FATAL) << cond.text(); return cond; } return cond; } CommandDispatcher* AcceptAssociation(const DicomServer& server, T_ASC_Network *net) { DcmAssociationConfiguration asccfg; char buf[BUFSIZ]; T_ASC_Association *assoc; OFCondition cond; OFString sprofile; OFString temp_str; std::vector<const char*> knownAbstractSyntaxes; // For C-STORE if (server.HasStoreRequestHandlerFactory()) { knownAbstractSyntaxes.push_back(UID_VerificationSOPClass); } // For C-FIND if (server.HasFindRequestHandlerFactory()) { knownAbstractSyntaxes.push_back(UID_FINDPatientRootQueryRetrieveInformationModel); knownAbstractSyntaxes.push_back(UID_FINDStudyRootQueryRetrieveInformationModel); } // For C-MOVE if (server.HasMoveRequestHandlerFactory()) { knownAbstractSyntaxes.push_back(UID_MOVEStudyRootQueryRetrieveInformationModel); knownAbstractSyntaxes.push_back(UID_MOVEPatientRootQueryRetrieveInformationModel); } cond = ASC_receiveAssociation(net, &assoc, /*opt_maxPDU*/ ASC_DEFAULTMAXPDU, NULL, NULL, /*opt_secureConnection*/ OFFalse, DUL_NOBLOCK, 1); if (cond == DUL_NOASSOCIATIONREQUEST) { // Timeout AssociationCleanup(assoc); return NULL; } // if some kind of error occured, take care of it if (cond.bad()) { LOG(ERROR) << "Receiving Association failed: " << cond.text(); // no matter what kind of error occurred, we need to do a cleanup AssociationCleanup(assoc); return NULL; } LOG(INFO) << "Association Received"; std::vector<const char*> transferSyntaxes; // This is the list of the transfer syntaxes that were supported up to Orthanc 0.7.1 transferSyntaxes.push_back(UID_LittleEndianExplicitTransferSyntax); transferSyntaxes.push_back(UID_BigEndianExplicitTransferSyntax); transferSyntaxes.push_back(UID_LittleEndianImplicitTransferSyntax); // New transfer syntaxes supported since Orthanc 0.7.2 transferSyntaxes.push_back(UID_DeflatedExplicitVRLittleEndianTransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess1TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess2_4TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess3_5TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess6_8TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess7_9TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess10_12TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess11_13TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess14TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess15TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess16_18TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess17_19TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess20_22TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess21_23TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess24_26TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess25_27TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess28TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess29TransferSyntax); transferSyntaxes.push_back(UID_JPEGProcess14SV1TransferSyntax); transferSyntaxes.push_back(UID_JPEGLSLosslessTransferSyntax); transferSyntaxes.push_back(UID_JPEGLSLossyTransferSyntax); transferSyntaxes.push_back(UID_JPEG2000LosslessOnlyTransferSyntax); transferSyntaxes.push_back(UID_JPEG2000TransferSyntax); transferSyntaxes.push_back(UID_JPEG2000Part2MulticomponentImageCompressionLosslessOnlyTransferSyntax); transferSyntaxes.push_back(UID_JPEG2000Part2MulticomponentImageCompressionTransferSyntax); transferSyntaxes.push_back(UID_JPIPReferencedTransferSyntax); transferSyntaxes.push_back(UID_JPIPReferencedDeflateTransferSyntax); transferSyntaxes.push_back(UID_MPEG2MainProfileAtMainLevelTransferSyntax); transferSyntaxes.push_back(UID_MPEG2MainProfileAtHighLevelTransferSyntax); transferSyntaxes.push_back(UID_RLELosslessTransferSyntax); /* accept the Verification SOP Class if presented */ cond = ASC_acceptContextsWithPreferredTransferSyntaxes( assoc->params, &knownAbstractSyntaxes[0], knownAbstractSyntaxes.size(), &transferSyntaxes[0], transferSyntaxes.size()); if (cond.bad()) { LOG(INFO) << cond.text(); AssociationCleanup(assoc); return NULL; } /* the array of Storage SOP Class UIDs comes from dcuid.h */ cond = ASC_acceptContextsWithPreferredTransferSyntaxes( assoc->params, dcmAllStorageSOPClassUIDs, numberOfAllDcmStorageSOPClassUIDs, &transferSyntaxes[0], transferSyntaxes.size()); if (cond.bad()) { LOG(INFO) << cond.text(); AssociationCleanup(assoc); return NULL; } #if ORTHANC_PROMISCUOUS == 1 /* accept everything not known not to be a storage SOP class */ cond = acceptUnknownContextsWithPreferredTransferSyntaxes( assoc->params, &transferSyntaxes[0], transferSyntaxes.size()); if (cond.bad()) { LOG(INFO) << cond.text(); AssociationCleanup(assoc); return NULL; } #endif /* set our app title */ ASC_setAPTitles(assoc->params, NULL, NULL, server.GetApplicationEntityTitle().c_str()); /* acknowledge or reject this association */ cond = ASC_getApplicationContextName(assoc->params, buf); if ((cond.bad()) || strcmp(buf, UID_StandardApplicationContext) != 0) { /* reject: the application context name is not supported */ T_ASC_RejectParameters rej = { ASC_RESULT_REJECTEDPERMANENT, ASC_SOURCE_SERVICEUSER, ASC_REASON_SU_APPCONTEXTNAMENOTSUPPORTED }; LOG(INFO) << "Association Rejected: Bad Application Context Name: " << buf; cond = ASC_rejectAssociation(assoc, &rej); if (cond.bad()) { LOG(INFO) << cond.text(); } AssociationCleanup(assoc); return NULL; } std::string callingIP; std::string callingTitle; /* check the AETs */ { DIC_AE callingTitle_C; DIC_AE calledTitle_C; DIC_AE callingIP_C; DIC_AE calledIP_C; if (ASC_getAPTitles(assoc->params, callingTitle_C, calledTitle_C, NULL).bad() || ASC_getPresentationAddresses(assoc->params, callingIP_C, calledIP_C).bad()) { T_ASC_RejectParameters rej = { ASC_RESULT_REJECTEDPERMANENT, ASC_SOURCE_SERVICEUSER, ASC_REASON_SU_NOREASON }; ASC_rejectAssociation(assoc, &rej); AssociationCleanup(assoc); return NULL; } callingIP = std::string(/*OFSTRING_GUARD*/(callingIP_C)); callingTitle = std::string(/*OFSTRING_GUARD*/(callingTitle_C)); std::string calledTitle(/*OFSTRING_GUARD*/(calledTitle_C)); if (!server.IsMyAETitle(calledTitle)) { T_ASC_RejectParameters rej = { ASC_RESULT_REJECTEDPERMANENT, ASC_SOURCE_SERVICEUSER, ASC_REASON_SU_CALLEDAETITLENOTRECOGNIZED }; ASC_rejectAssociation(assoc, &rej); AssociationCleanup(assoc); return NULL; } if (server.HasApplicationEntityFilter() && !server.GetApplicationEntityFilter().IsAllowedConnection(callingIP, callingTitle)) { T_ASC_RejectParameters rej = { ASC_RESULT_REJECTEDPERMANENT, ASC_SOURCE_SERVICEUSER, ASC_REASON_SU_CALLINGAETITLENOTRECOGNIZED }; ASC_rejectAssociation(assoc, &rej); AssociationCleanup(assoc); return NULL; } } if (opt_rejectWithoutImplementationUID && strlen(assoc->params->theirImplementationClassUID) == 0) { /* reject: the no implementation Class UID provided */ T_ASC_RejectParameters rej = { ASC_RESULT_REJECTEDPERMANENT, ASC_SOURCE_SERVICEUSER, ASC_REASON_SU_NOREASON }; LOG(INFO) << "Association Rejected: No Implementation Class UID provided"; cond = ASC_rejectAssociation(assoc, &rej); if (cond.bad()) { LOG(INFO) << cond.text(); } AssociationCleanup(assoc); return NULL; } { cond = ASC_acknowledgeAssociation(assoc); if (cond.bad()) { LOG(ERROR) << cond.text(); AssociationCleanup(assoc); return NULL; } LOG(INFO) << "Association Acknowledged (Max Send PDV: " << assoc->sendPDVLength << ")"; if (ASC_countAcceptedPresentationContexts(assoc->params) == 0) LOG(INFO) << " (but no valid presentation contexts)"; } IApplicationEntityFilter* filter = server.HasApplicationEntityFilter() ? &server.GetApplicationEntityFilter() : NULL; return new CommandDispatcher(server, assoc, callingIP, callingTitle, filter); } bool CommandDispatcher::Step() /* * This function receives DIMSE commmands over the network connection * and handles these commands correspondingly. Note that in case of * storscp only C-ECHO-RQ and C-STORE-RQ commands can be processed. */ { bool finished = false; // receive a DIMSE command over the network, with a timeout of 1 second DcmDataset *statusDetail = NULL; T_ASC_PresentationContextID presID = 0; T_DIMSE_Message msg; OFCondition cond = DIMSE_receiveCommand(assoc_, DIMSE_NONBLOCKING, 1, &presID, &msg, &statusDetail); elapsedTimeSinceLastCommand_++; // if the command which was received has extra status // detail information, dump this information if (statusDetail != NULL) { //LOG4CPP_WARN(Internals::GetLogger(), "Status Detail:" << OFendl << DcmObject::PrintHelper(*statusDetail)); delete statusDetail; } if (cond == DIMSE_OUTOFRESOURCES) { finished = true; } else if (cond == DIMSE_NODATAAVAILABLE) { // Timeout due to DIMSE_NONBLOCKING if (clientTimeout_ != 0 && elapsedTimeSinceLastCommand_ >= clientTimeout_) { // This timeout is actually a client timeout finished = true; } } else if (cond == EC_Normal) { // Reset the client timeout counter elapsedTimeSinceLastCommand_ = 0; // Convert the type of request to Orthanc's internal type bool supported = false; DicomRequestType request; switch (msg.CommandField) { case DIMSE_C_ECHO_RQ: request = DicomRequestType_Echo; supported = true; break; case DIMSE_C_STORE_RQ: request = DicomRequestType_Store; supported = true; break; case DIMSE_C_MOVE_RQ: request = DicomRequestType_Move; supported = true; break; case DIMSE_C_FIND_RQ: request = DicomRequestType_Find; supported = true; break; default: // we cannot handle this kind of message cond = DIMSE_BADCOMMANDTYPE; LOG(ERROR) << "cannot handle command: 0x" << std::hex << msg.CommandField; break; } // Check whether this request is allowed by the security filter if (supported && filter_ != NULL && !filter_->IsAllowedRequest(callingIP_, callingAETitle_, request)) { LOG(ERROR) << EnumerationToString(request) << " requests are disallowed for the AET \"" << callingAETitle_ << "\""; cond = DIMSE_BADCOMMANDTYPE; supported = false; } // in case we received a supported message, process this command if (supported) { // If anything goes wrong, there will be a "BADCOMMANDTYPE" answer cond = DIMSE_BADCOMMANDTYPE; switch (request) { case DicomRequestType_Echo: cond = EchoScp(assoc_, &msg, presID); break; case DicomRequestType_Store: if (server_.HasStoreRequestHandlerFactory()) // Should always be true { std::auto_ptr<IStoreRequestHandler> handler (server_.GetStoreRequestHandlerFactory().ConstructStoreRequestHandler()); cond = Internals::storeScp(assoc_, &msg, presID, *handler); } break; case DicomRequestType_Move: if (server_.HasMoveRequestHandlerFactory()) // Should always be true { std::auto_ptr<IMoveRequestHandler> handler (server_.GetMoveRequestHandlerFactory().ConstructMoveRequestHandler()); cond = Internals::moveScp(assoc_, &msg, presID, *handler); } break; case DicomRequestType_Find: if (server_.HasFindRequestHandlerFactory()) // Should always be true { std::auto_ptr<IFindRequestHandler> handler (server_.GetFindRequestHandlerFactory().ConstructFindRequestHandler()); cond = Internals::findScp(assoc_, &msg, presID, *handler, callingAETitle_); } break; default: // Should never happen break; } } } else { // Bad status, which indicates the closing of the connection by // the peer or a network error finished = true; LOG(INFO) << cond.text(); } if (finished) { if (cond == DUL_PEERREQUESTEDRELEASE) { LOG(INFO) << "Association Release"; ASC_acknowledgeRelease(assoc_); } else if (cond == DUL_PEERABORTEDASSOCIATION) { LOG(INFO) << "Association Aborted"; } else { OFString temp_str; LOG(ERROR) << "DIMSE failure (aborting association): " << cond.text(); /* some kind of error so abort the association */ ASC_abortAssociation(assoc_); } } return !finished; } OFCondition EchoScp( T_ASC_Association * assoc, T_DIMSE_Message * msg, T_ASC_PresentationContextID presID) { OFString temp_str; LOG(INFO) << "Received Echo Request"; //LOG(DEBUG) << DIMSE_dumpMessage(temp_str, msg->msg.CEchoRQ, DIMSE_INCOMING, NULL, presID)); /* the echo succeeded !! */ OFCondition cond = DIMSE_sendEchoResponse(assoc, presID, &msg->msg.CEchoRQ, STATUS_Success, NULL); if (cond.bad()) { LOG(ERROR) << "Echo SCP Failed: " << cond.text(); } return cond; } } }