private static void handleTransactionCreateOrUpdateOutcome(
Map<IdType, IdType> idSubstitutions,
Map<IdType, DaoMethodOutcome> idToPersistedOutcome,
IdType nextResourceId,
DaoMethodOutcome outcome,
BundleEntryComponent newEntry,
String theResourceType,
IBaseResource theRes) {
IdType newId = (IdType) outcome.getId().toUnqualifiedVersionless();
IdType resourceId =
isPlaceholder(nextResourceId) ? nextResourceId : nextResourceId.toUnqualifiedVersionless();
if (newId.equals(resourceId) == false) {
idSubstitutions.put(resourceId, newId);
if (isPlaceholder(resourceId)) {
/*
* The correct way for substitution IDs to be is to be with no resource type, but we'll accept the qualified kind too just to be lenient.
*/
idSubstitutions.put(new IdType(theResourceType + '/' + resourceId.getValue()), newId);
}
}
idToPersistedOutcome.put(newId, outcome);
if (outcome.getCreated().booleanValue()) {
newEntry.getResponse().setStatus(toStatusString(Constants.STATUS_HTTP_201_CREATED));
} else {
newEntry.getResponse().setStatus(toStatusString(Constants.STATUS_HTTP_200_OK));
}
newEntry.getResponse().setLocation(outcome.getId().toUnqualified().getValue());
newEntry.getResponse().setEtag(outcome.getId().getVersionIdPart());
newEntry.getResponse().setLastModified(((Resource) theRes).getMeta().getLastUpdated());
}
private static boolean isPlaceholder(IdType theId) {
if ("urn:oid:".equals(theId.getBaseUrl()) || "urn:uuid:".equals(theId.getBaseUrl())) {
return true;
}
return false;
}
@SuppressWarnings("unchecked")
private Bundle transaction(
ServletRequestDetails theRequestDetails, Bundle theRequest, String theActionName) {
BundleType transactionType = theRequest.getTypeElement().getValue();
if (transactionType == BundleType.BATCH) {
return batch(theRequestDetails, theRequest);
}
if (transactionType == null) {
String message =
"Transactiion Bundle did not specify valid Bundle.type, assuming "
+ BundleType.TRANSACTION.toCode();
ourLog.warn(message);
transactionType = BundleType.TRANSACTION;
}
if (transactionType != BundleType.TRANSACTION) {
throw new InvalidRequestException(
"Unable to process transaction where incoming Bundle.type = " + transactionType.toCode());
}
ourLog.info("Beginning {} with {} resources", theActionName, theRequest.getEntry().size());
long start = System.currentTimeMillis();
Date updateTime = new Date();
Set<IdType> allIds = new LinkedHashSet<IdType>();
Map<IdType, IdType> idSubstitutions = new HashMap<IdType, IdType>();
Map<IdType, DaoMethodOutcome> idToPersistedOutcome = new HashMap<IdType, DaoMethodOutcome>();
// Do all entries have a verb?
for (int i = 0; i < theRequest.getEntry().size(); i++) {
BundleEntryComponent nextReqEntry = theRequest.getEntry().get(i);
HTTPVerb verb = nextReqEntry.getRequest().getMethodElement().getValue();
if (verb == null) {
throw new InvalidRequestException(
getContext()
.getLocalizer()
.getMessage(
BaseHapiFhirSystemDao.class,
"transactionEntryHasInvalidVerb",
nextReqEntry.getRequest().getMethod(),
i));
}
}
/*
* We want to execute the transaction request bundle elements in the order
* specified by the FHIR specification (see TransactionSorter) so we save the
* original order in the request, then sort it.
*
* Entries with a type of GET are removed from the bundle so that they
* can be processed at the very end. We do this because the incoming resources
* are saved in a two-phase way in order to deal with interdependencies, and
* we want the GET processing to use the final indexing state
*/
Bundle response = new Bundle();
List<BundleEntryComponent> getEntries = new ArrayList<BundleEntryComponent>();
IdentityHashMap<BundleEntryComponent, Integer> originalRequestOrder =
new IdentityHashMap<Bundle.BundleEntryComponent, Integer>();
for (int i = 0; i < theRequest.getEntry().size(); i++) {
originalRequestOrder.put(theRequest.getEntry().get(i), i);
response.addEntry();
if (theRequest.getEntry().get(i).getRequest().getMethodElement().getValue() == HTTPVerb.GET) {
getEntries.add(theRequest.getEntry().get(i));
}
}
Collections.sort(theRequest.getEntry(), new TransactionSorter());
List<IIdType> deletedResources = new ArrayList<IIdType>();
List<DeleteConflict> deleteConflicts = new ArrayList<DeleteConflict>();
/*
* Loop through the request and process any entries of type
* PUT, POST or DELETE
*/
for (int i = 0; i < theRequest.getEntry().size(); i++) {
if (i % 100 == 0) {
ourLog.info("Processed {} non-GET entries out of {}", i, theRequest.getEntry().size());
}
BundleEntryComponent nextReqEntry = theRequest.getEntry().get(i);
Resource res = nextReqEntry.getResource();
IdType nextResourceId = null;
if (res != null) {
nextResourceId = res.getIdElement();
if (nextResourceId.hasIdPart() == false) {
if (isNotBlank(nextReqEntry.getFullUrl())) {
nextResourceId = new IdType(nextReqEntry.getFullUrl());
}
}
if (nextResourceId.hasIdPart()
&& nextResourceId.getIdPart().matches("[a-zA-Z]+\\:.*")
&& !isPlaceholder(nextResourceId)) {
throw new InvalidRequestException(
"Invalid placeholder ID found: "
+ nextResourceId.getIdPart()
+ " - Must be of the form 'urn:uuid:[uuid]' or 'urn:oid:[oid]'");
}
if (nextResourceId.hasIdPart()
&& !nextResourceId.hasResourceType()
&& !isPlaceholder(nextResourceId)) {
nextResourceId = new IdType(toResourceName(res.getClass()), nextResourceId.getIdPart());
res.setId(nextResourceId);
}
/*
* Ensure that the bundle doesn't have any duplicates, since this causes all kinds of weirdness
*/
if (isPlaceholder(nextResourceId)) {
if (!allIds.add(nextResourceId)) {
throw new InvalidRequestException(
getContext()
.getLocalizer()
.getMessage(
BaseHapiFhirSystemDao.class,
"transactionContainsMultipleWithDuplicateId",
nextResourceId));
}
} else if (nextResourceId.hasResourceType() && nextResourceId.hasIdPart()) {
IdType nextId = nextResourceId.toUnqualifiedVersionless();
if (!allIds.add(nextId)) {
throw new InvalidRequestException(
getContext()
.getLocalizer()
.getMessage(
BaseHapiFhirSystemDao.class,
"transactionContainsMultipleWithDuplicateId",
nextId));
}
}
}
HTTPVerb verb = nextReqEntry.getRequest().getMethodElement().getValue();
String resourceType = res != null ? getContext().getResourceDefinition(res).getName() : null;
BundleEntryComponent nextRespEntry =
response.getEntry().get(originalRequestOrder.get(nextReqEntry));
switch (verb) {
case POST:
{
// CREATE
@SuppressWarnings("rawtypes")
IFhirResourceDao resourceDao = getDaoOrThrowException(res.getClass());
res.setId((String) null);
DaoMethodOutcome outcome;
outcome = resourceDao.create(res, nextReqEntry.getRequest().getIfNoneExist(), false);
handleTransactionCreateOrUpdateOutcome(
idSubstitutions,
idToPersistedOutcome,
nextResourceId,
outcome,
nextRespEntry,
resourceType,
res);
break;
}
case DELETE:
{
// DELETE
String url = extractTransactionUrlOrThrowException(nextReqEntry, verb);
UrlParts parts = UrlUtil.parseUrl(url);
ca.uhn.fhir.jpa.dao.IFhirResourceDao<? extends IBaseResource> dao =
toDao(parts, verb.toCode(), url);
int status = Constants.STATUS_HTTP_204_NO_CONTENT;
if (parts.getResourceId() != null) {
ResourceTable deleted =
dao.delete(
new IdType(parts.getResourceType(), parts.getResourceId()), deleteConflicts);
if (deleted != null) {
deletedResources.add(deleted.getIdDt().toUnqualifiedVersionless());
}
} else {
List<ResourceTable> allDeleted =
dao.deleteByUrl(
parts.getResourceType() + '?' + parts.getParams(), deleteConflicts);
for (ResourceTable deleted : allDeleted) {
deletedResources.add(deleted.getIdDt().toUnqualifiedVersionless());
}
if (allDeleted.isEmpty()) {
status = Constants.STATUS_HTTP_404_NOT_FOUND;
}
}
nextRespEntry.getResponse().setStatus(toStatusString(status));
break;
}
case PUT:
{
// UPDATE
@SuppressWarnings("rawtypes")
IFhirResourceDao resourceDao = getDaoOrThrowException(res.getClass());
DaoMethodOutcome outcome;
String url = extractTransactionUrlOrThrowException(nextReqEntry, verb);
UrlParts parts = UrlUtil.parseUrl(url);
if (isNotBlank(parts.getResourceId())) {
res.setId(new IdType(parts.getResourceType(), parts.getResourceId()));
outcome = resourceDao.update(res, null, false);
} else {
res.setId((String) null);
outcome =
resourceDao.update(res, parts.getResourceType() + '?' + parts.getParams(), false);
}
handleTransactionCreateOrUpdateOutcome(
idSubstitutions,
idToPersistedOutcome,
nextResourceId,
outcome,
nextRespEntry,
resourceType,
res);
break;
}
}
}
/*
* Make sure that there are no conflicts from deletions. E.g. we can't delete something
* if something else has a reference to it.. Unless the thing that has a reference to it
* was also deleted as a part of this transaction, which is why we check this now at the
* end.
*/
for (Iterator<DeleteConflict> iter = deleteConflicts.iterator(); iter.hasNext(); ) {
DeleteConflict next = iter.next();
if (deletedResources.contains(next.getTargetId().toVersionless())) {
iter.remove();
}
}
validateDeleteConflictsEmptyOrThrowException(deleteConflicts);
/*
* Perform ID substitutions and then index each resource we have saved
*/
FhirTerser terser = getContext().newTerser();
for (DaoMethodOutcome nextOutcome : idToPersistedOutcome.values()) {
IBaseResource nextResource = (IBaseResource) nextOutcome.getResource();
if (nextResource == null) {
continue;
}
List<IBaseReference> allRefs =
terser.getAllPopulatedChildElementsOfType(nextResource, IBaseReference.class);
for (IBaseReference nextRef : allRefs) {
IIdType nextId = nextRef.getReferenceElement();
if (idSubstitutions.containsKey(nextId)) {
IdType newId = idSubstitutions.get(nextId);
ourLog.info(" * Replacing resource ref {} with {}", nextId, newId);
nextRef.setReference(newId.getValue());
} else {
ourLog.debug(" * Reference [{}] does not exist in bundle", nextId);
}
}
IPrimitiveType<Date> deletedInstantOrNull =
ResourceMetadataKeyEnum.DELETED_AT.get((IAnyResource) nextResource);
Date deletedTimestampOrNull =
deletedInstantOrNull != null ? deletedInstantOrNull.getValue() : null;
updateEntity(
nextResource,
nextOutcome.getEntity(),
false,
deletedTimestampOrNull,
true,
false,
updateTime);
}
myEntityManager.flush();
/*
* Double check we didn't allow any duplicates we shouldn't have
*/
for (BundleEntryComponent nextEntry : theRequest.getEntry()) {
if (nextEntry.getRequest().getMethodElement().getValue() == HTTPVerb.POST) {
String matchUrl = nextEntry.getRequest().getIfNoneExist();
if (isNotBlank(matchUrl)) {
IFhirResourceDao<?> resourceDao = getDao(nextEntry.getResource().getClass());
Set<Long> val = resourceDao.processMatchUrl(matchUrl);
if (val.size() > 1) {
throw new InvalidRequestException(
"Unable to process "
+ theActionName
+ " - Request would cause multiple resources to match URL: \""
+ matchUrl
+ "\". Does transaction request contain duplicates?");
}
}
}
}
for (IdType next : allIds) {
IdType replacement = idSubstitutions.get(next);
if (replacement == null) {
continue;
}
if (replacement.equals(next)) {
continue;
}
ourLog.info(
"Placeholder resource ID \"{}\" was replaced with permanent ID \"{}\"",
next,
replacement);
}
/*
* Loop through the request and process any entries of type GET
*/
for (int i = 0; i < getEntries.size(); i++) {
BundleEntryComponent nextReqEntry = getEntries.get(i);
Integer originalOrder = originalRequestOrder.get(nextReqEntry);
BundleEntryComponent nextRespEntry = response.getEntry().get(originalOrder);
ServletSubRequestDetails requestDetails = new ServletSubRequestDetails();
requestDetails.setServletRequest(theRequestDetails.getServletRequest());
requestDetails.setRequestType(RequestTypeEnum.GET);
requestDetails.setServer(theRequestDetails.getServer());
String url = extractTransactionUrlOrThrowException(nextReqEntry, HTTPVerb.GET);
int qIndex = url.indexOf('?');
ArrayListMultimap<String, String> paramValues = ArrayListMultimap.create();
requestDetails.setParameters(new HashMap<String, String[]>());
if (qIndex != -1) {
String params = url.substring(qIndex);
List<NameValuePair> parameters = translateMatchUrl(params);
for (NameValuePair next : parameters) {
paramValues.put(next.getName(), next.getValue());
}
for (java.util.Map.Entry<String, Collection<String>> nextParamEntry :
paramValues.asMap().entrySet()) {
String[] nextValue =
nextParamEntry.getValue().toArray(new String[nextParamEntry.getValue().size()]);
requestDetails.getParameters().put(nextParamEntry.getKey(), nextValue);
}
url = url.substring(0, qIndex);
}
requestDetails.setRequestPath(url);
requestDetails.setFhirServerBase(theRequestDetails.getFhirServerBase());
theRequestDetails.getServer().populateRequestDetailsFromRequestPath(requestDetails, url);
BaseMethodBinding<?> method =
theRequestDetails.getServer().determineResourceMethod(requestDetails, url);
if (method == null) {
throw new IllegalArgumentException("Unable to handle GET " + url);
}
if (isNotBlank(nextReqEntry.getRequest().getIfMatch())) {
requestDetails.addHeader(Constants.HEADER_IF_MATCH, nextReqEntry.getRequest().getIfMatch());
}
if (isNotBlank(nextReqEntry.getRequest().getIfNoneExist())) {
requestDetails.addHeader(
Constants.HEADER_IF_NONE_EXIST, nextReqEntry.getRequest().getIfNoneExist());
}
if (isNotBlank(nextReqEntry.getRequest().getIfNoneMatch())) {
requestDetails.addHeader(
Constants.HEADER_IF_NONE_MATCH, nextReqEntry.getRequest().getIfNoneMatch());
}
if (method instanceof BaseResourceReturningMethodBinding) {
try {
ResourceOrDstu1Bundle responseData =
((BaseResourceReturningMethodBinding) method)
.invokeServer(theRequestDetails.getServer(), requestDetails, new byte[0]);
IBaseResource resource = responseData.getResource();
if (paramValues.containsKey(Constants.PARAM_SUMMARY)
|| paramValues.containsKey(Constants.PARAM_CONTENT)) {
resource = filterNestedBundle(requestDetails, resource);
}
nextRespEntry.setResource((Resource) resource);
nextRespEntry.getResponse().setStatus(toStatusString(Constants.STATUS_HTTP_200_OK));
} catch (NotModifiedException e) {
nextRespEntry
.getResponse()
.setStatus(toStatusString(Constants.STATUS_HTTP_304_NOT_MODIFIED));
}
} else {
throw new IllegalArgumentException("Unable to handle GET " + url);
}
}
long delay = System.currentTimeMillis() - start;
ourLog.info(theActionName + " completed in {}ms", new Object[] {delay});
response.setType(BundleType.TRANSACTIONRESPONSE);
return response;
}