/*
* ============LICENSE_START=======================================================
- * Copyright (C) 2021 Nordix Foundation
+ * Copyright (C) 2021-2022 Nordix Foundation
* Modifications Copyright (C) 2021 Pantheon.tech
- * Modifications Copyright (C) 2021 Bell Canada.
+ * Modifications Copyright (C) 2021-2022 Bell Canada.
* ================================================================================
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
*/
package org.onap.cps.spi.impl
+import com.fasterxml.jackson.databind.ObjectMapper
import com.google.common.collect.ImmutableSet
-import com.google.gson.Gson
-import com.google.gson.GsonBuilder
import org.onap.cps.spi.CpsDataPersistenceService
import org.onap.cps.spi.entities.FragmentEntity
import org.onap.cps.spi.exceptions.AlreadyDefinedException
import org.onap.cps.spi.exceptions.AnchorNotFoundException
+import org.onap.cps.spi.exceptions.CpsAdminException
import org.onap.cps.spi.exceptions.DataNodeNotFoundException
import org.onap.cps.spi.exceptions.DataspaceNotFoundException
import org.onap.cps.spi.model.DataNode
import org.onap.cps.spi.model.DataNodeBuilder
-import org.spockframework.util.CollectionUtil
+import org.onap.cps.utils.JsonObjectMapper
import org.springframework.beans.factory.annotation.Autowired
import org.springframework.test.context.jdbc.Sql
-
import javax.validation.ConstraintViolationException
-import java.util.stream.Collectors
import static org.onap.cps.spi.FetchDescendantsOption.INCLUDE_ALL_DESCENDANTS
import static org.onap.cps.spi.FetchDescendantsOption.OMIT_DESCENDANTS
@Autowired
CpsDataPersistenceService objectUnderTest
- static final Gson GSON = new GsonBuilder().create()
+ static final JsonObjectMapper jsonObjectMapper = new JsonObjectMapper(new ObjectMapper())
static final String SET_DATA = '/data/fragment.sql'
+ static final int DATASPACE_1001_ID = 1001L
+ static final int ANCHOR_3003_ID = 3003L
static final long ID_DATA_NODE_WITH_DESCENDANTS = 4001
static final String XPATH_DATA_NODE_WITH_DESCENDANTS = '/parent-1'
static final String XPATH_DATA_NODE_WITH_LEAVES = '/parent-100'
static final long UPDATE_DATA_NODE_SUB_FRAGMENT_ID = 4203L
static final long LIST_DATA_NODE_PARENT201_FRAGMENT_ID = 4206L
static final long LIST_DATA_NODE_PARENT203_FRAGMENT_ID = 4214L
- static final long LIST_DATA_NODE_PARENT204_FRAGMENT_ID = 4219L
- static final long LIST_DATA_NODE_PARENT205_FRAGMENT_ID = 4221L
- static final long LIST_DATA_NODE_CHILD202_FRAGMENT_ID = 4204L
static final long LIST_DATA_NODE_PARENT202_FRAGMENT_ID = 4211L
+ static final long PARENT_3_FRAGMENT_ID = 4003L
static final DataNode newDataNode = new DataNodeBuilder().build()
static DataNode existingDataNode
then: 'the parent is now has to 2 children'
def expectedExistingChildPath = '/parent-1/child-1'
def parentFragment = fragmentRepository.findById(ID_DATA_NODE_WITH_DESCENDANTS).orElseThrow()
- parentFragment.getChildFragments().size() == 2
+ parentFragment.childFragments.size() == 2
and: 'it still has the old child'
- parentFragment.getChildFragments().find({ it.xpath == expectedExistingChildPath })
+ parentFragment.childFragments.find({ it.xpath == expectedExistingChildPath })
and: 'it has the new child'
- parentFragment.getChildFragments().find({ it.xpath == newChild.xpath })
+ parentFragment.childFragments.find({ it.xpath == newChild.xpath })
}
@Sql([CLEAR_DATA, SET_DATA])
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Add list-node fragment with multiple elements including an element with a child datanode.'() {
+ def 'Add multiple list elements including an element with a child datanode.'() {
given: 'two new data nodes for an existing list'
- def listNodeXpaths = ['/parent-201/child-204[@key="B"]', '/parent-201/child-204[@key="C"]']
- def listNodeCollection = buildDataNodeCollection(listNodeXpaths)
+ def listElementXpaths = ['/parent-201/child-204[@key="NEW1"]', '/parent-201/child-204[@key="NEW2"]']
+ def listElements = toDataNodes(listElementXpaths)
and: 'a child node for one of the new data nodes'
- def childDataNode = buildDataNode('/parent-201/child-204[@key="C"]/grand-child-204[@key2="Z"]', [leave:'value'], [])
- listNodeCollection.iterator().next().childDataNodes = [childDataNode]
+ def childDataNode = buildDataNode('/parent-201/child-204[@key="NEW1"]/grand-child-204[@key2="NEW1-CHILD"]', [leave:'value'], [])
+ listElements[0].childDataNodes = [childDataNode]
when: 'the data nodes (list elements) are added to existing parent node'
- objectUnderTest.addListDataNodes(DATASPACE_NAME, ANCHOR_NAME3, '/parent-201', listNodeCollection)
+ objectUnderTest.addListElements(DATASPACE_NAME, ANCHOR_NAME3, '/parent-201', listElements)
then: 'new entries successfully persisted, parent node now contains 5 children (2 new + 3 existing before)'
def parentFragment = fragmentRepository.getById(LIST_DATA_NODE_PARENT201_FRAGMENT_ID)
- def allChildXpaths = parentFragment.getChildFragments().collect { it.getXpath() }
+ def allChildXpaths = parentFragment.childFragments.collect { it.xpath }
assert allChildXpaths.size() == 5
- assert allChildXpaths.containsAll(listNodeXpaths)
+ assert allChildXpaths.containsAll(listElementXpaths)
and: 'the child node of the new list entry is also present'
def dataspaceEntity = dataspaceRepository.getByName(DATASPACE_NAME)
def anchorEntity = anchorRepository.getByDataspaceAndName(dataspaceEntity, ANCHOR_NAME3)
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Add list-node fragment error scenario: #scenario.'() {
- given: 'list node data fragment as a collection of data nodes'
- def listNodeCollection = buildDataNodeCollection(listNodeXpaths)
- when: 'list-node elements added to existing parent node'
- objectUnderTest.addListDataNodes(DATASPACE_NAME, ANCHOR_NAME3, parentNodeXpath, listNodeCollection)
+ def 'Add list element error scenario: #scenario.'() {
+ given: 'list element as a collection of data nodes'
+ def listElementCollection = toDataNodes(listElementXpaths)
+ when: 'attempt to add list elements to parent node'
+ objectUnderTest.addListElements(DATASPACE_NAME, ANCHOR_NAME3, parentNodeXpath, listElementCollection)
then: 'a #expectedException is thrown'
thrown(expectedException)
where: 'following parameters were used'
- scenario | parentNodeXpath | listNodeXpaths || expectedException
+ scenario | parentNodeXpath | listElementXpaths || expectedException
'parent node does not exist' | '/unknown' | ['irrelevant'] || DataNodeNotFoundException
'already existing fragment' | '/parent-201' | ['/parent-201/child-204[@key="A"]'] || AlreadyDefinedException
-
- }
-
- static def createDataNodeTree(String... xpaths) {
- def dataNodeBuilder = new DataNodeBuilder().withXpath(xpaths[0])
- if (xpaths.length > 1) {
- def xPathsDescendant = Arrays.copyOfRange(xpaths, 1, xpaths.length)
- def childDataNode = createDataNodeTree(xPathsDescendant)
- dataNodeBuilder.withChildDataNodes(ImmutableSet.of(childDataNode))
- }
- dataNodeBuilder.build()
- }
-
- def getFragmentByXpath(dataspaceName, anchorName, xpath) {
- def dataspace = dataspaceRepository.getByName(dataspaceName)
- def anchor = anchorRepository.getByDataspaceAndName(dataspace, anchorName)
- return fragmentRepository.findByDataspaceAndAnchorAndXpath(dataspace, anchor, xpath).orElseThrow()
}
@Sql([CLEAR_DATA, SET_DATA])
def result = objectUnderTest.getDataNode(DATASPACE_NAME, ANCHOR_FOR_DATA_NODES_WITH_LEAVES,
inputXPath, OMIT_DESCENDANTS)
then: 'data node is returned with no descendants'
- assert result.getXpath() == XPATH_DATA_NODE_WITH_LEAVES
+ assert result.xpath == XPATH_DATA_NODE_WITH_LEAVES
and: 'expected leaves'
- assert result.getChildDataNodes().size() == 0
- assertLeavesMaps(result.getLeaves(), expectedLeavesByXpathMap[XPATH_DATA_NODE_WITH_LEAVES])
+ assert result.childDataNodes.size() == 0
+ assertLeavesMaps(result.leaves, expectedLeavesByXpathMap[XPATH_DATA_NODE_WITH_LEAVES])
where: 'the following data is used'
scenario | inputXPath
'some xpath' | '/parent-100'
def mappedResult = treeToFlatMapByXpath(new HashMap<>(), result)
then: 'data node is returned with all the descendants populated'
assert mappedResult.size() == 4
- assert result.getChildDataNodes().size() == 2
- assert mappedResult.get('/parent-100/child-001').getChildDataNodes().size() == 0
- assert mappedResult.get('/parent-100/child-002').getChildDataNodes().size() == 1
+ assert result.childDataNodes.size() == 2
+ assert mappedResult.get('/parent-100/child-001').childDataNodes.size() == 0
+ assert mappedResult.get('/parent-100/child-002').childDataNodes.size() == 1
and: 'extracted leaves maps are matching expected'
mappedResult.forEach(
- (xPath, dataNode) -> assertLeavesMaps(dataNode.getLeaves(), expectedLeavesByXpathMap[xPath]))
+ (xPath, dataNode) -> assertLeavesMaps(dataNode.leaves, expectedLeavesByXpathMap[xPath]))
where: 'the following data is used'
scenario | inputXPath
'some xpath' | '/parent-100'
assert updatedLeaves.size() == 1
assert updatedLeaves.'leaf-value' == 'new'
and: 'existing child entry remains as is'
- def childFragment = updatedFragment.getChildFragments().iterator().next()
+ def childFragment = updatedFragment.childFragments.iterator().next()
def childLeaves = getLeavesMap(childFragment)
- assert childFragment.getId() == UPDATE_DATA_NODE_SUB_FRAGMENT_ID
+ assert childFragment.id == UPDATE_DATA_NODE_SUB_FRAGMENT_ID
assert childLeaves.'leaf-value' == 'original'
}
assert updatedLeaves.size() == 1
assert updatedLeaves.'leaf-value' == 'new'
and: 'updated entry has no children'
- updatedFragment.getChildFragments().isEmpty()
+ updatedFragment.childFragments.isEmpty()
and: 'previously attached child entry is removed from database'
fragmentRepository.findById(UPDATE_DATA_NODE_SUB_FRAGMENT_ID).isEmpty()
}
assert updatedLeaves.size() == 1
assert updatedLeaves.'leaf-value' == 'new'
and: 'existing child entry is not updated as content is same'
- def childFragment = updatedFragment.getChildFragments().iterator().next()
- childFragment.getXpath() == '/parent-200/child-201/grand-child'
+ def childFragment = updatedFragment.childFragments.iterator().next()
+ childFragment.xpath == '/parent-200/child-201/grand-child'
def childLeaves = getLeavesMap(childFragment)
assert childLeaves.'leaf-value' == 'original'
}
assert updatedLeaves.size() == 1
assert updatedLeaves.'leaf-value' == 'new'
and: 'existing child entry is updated with the new content'
- def childFragment = updatedFragment.getChildFragments().iterator().next()
- childFragment.getXpath() == '/parent-200/child-201/grand-child'
+ def childFragment = updatedFragment.childFragments.iterator().next()
+ childFragment.xpath == '/parent-200/child-201/grand-child'
def childLeaves = getLeavesMap(childFragment)
assert childLeaves.'leaf-value' == 'new'
}
and: 'previously attached child entry is removed from database'
fragmentRepository.findById(UPDATE_DATA_NODE_SUB_FRAGMENT_ID).isEmpty()
and: 'new child entry is persisted'
- def childFragment = updatedFragment.getChildFragments().iterator().next()
- childFragment.getXpath() == '/parent-200/child-201/grand-child-new'
+ def childFragment = updatedFragment.childFragments.iterator().next()
+ childFragment.xpath == '/parent-200/child-201/grand-child-new'
def childLeaves = getLeavesMap(childFragment)
assert childLeaves.'leaf-value' == 'new'
}
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Replace list-node content of #scenario.'() {
- given: 'list node data fragment as a collection of data nodes'
- def listNodeCollection = buildDataNodeCollection(listNodeXpaths)
- when: 'list-node elements replaced within the existing parent node'
- objectUnderTest.replaceListDataNodes(DATASPACE_NAME, ANCHOR_NAME3, parentXpath, listNodeCollection)
- then: 'child list elements are updated as expected, non-list element remains as is'
- def parentFragment = fragmentRepository.getById(listNodeFragmentID)
- def allChildXpaths = parentFragment.getChildFragments().collect { it.getXpath() }
- assert allChildXpaths.size() == expectedChildXpaths.size()
- assert allChildXpaths.containsAll(expectedChildXpaths)
- where: 'following parameters were used'
- scenario | listNodeXpaths |parentXpath |listNodeFragmentID || expectedChildXpaths
- 'existing list node with non existing key' | ['/parent-201/child-204[@key="B"]'] | '/parent-201' | LIST_DATA_NODE_PARENT201_FRAGMENT_ID || ['/parent-201/child-203', '/parent-201/child-204[@key="B"]']
- 'non existing list node with non existing key' | ['/parent-201/child-205[@key="1"]'] | '/parent-201' | LIST_DATA_NODE_PARENT201_FRAGMENT_ID || ['/parent-201/child-203', '/parent-201/child-204[@key="A"]', '/parent-201/child-204[@key="X"]', '/parent-201/child-205[@key="1"]']
- 'existing list node with 1 existing key' | ['/parent-201/child-204[@key="X"]'] | '/parent-201' | LIST_DATA_NODE_PARENT201_FRAGMENT_ID || ['/parent-201/child-203', '/parent-201/child-204[@key="X"]']
- 'existing list-node with combined keys' | ['/parent-202/child-205[@key="A"]'] | '/parent-202' | LIST_DATA_NODE_PARENT202_FRAGMENT_ID || ['/parent-202/child-206[@key="A"]', '/parent-202/child-205[@key="A"]']
- 'existing grandchild list-node' | ['/parent-200/child-202/grand-child-202[@key="E"]'] | '/parent-200/child-202' | LIST_DATA_NODE_CHILD202_FRAGMENT_ID || ['/parent-200/child-202/grand-child-202[@key="E"]']
- 'existing list node with two list nodes' | ['/parent-201/child-204[@key="new X"]', '/parent-201/child-204[@key="Y"]'] | '/parent-201' | LIST_DATA_NODE_PARENT201_FRAGMENT_ID || ['/parent-201/child-203', '/parent-201/child-204[@key="new X"]', '/parent-201/child-204[@key="Y"]']
- 'existing list node with compounded list node' | ['/parent-202/child-205[@key="A" and @key2="B"]'] | '/parent-202' | LIST_DATA_NODE_PARENT202_FRAGMENT_ID || ['/parent-202/child-206[@key="A"]', '/parent-202/child-205[@key="A" and @key2="B"]']
- 'existing list node with list node with parent with key value' | ['/parent-204[@key="L"]/child-210[@key="N"]'] | '/parent-204[@key="L"]' | LIST_DATA_NODE_PARENT204_FRAGMENT_ID || ['/parent-204[@key="L"]/child-210[@key="N"]']
+ def 'Update existing list with #scenario.'() {
+ given: 'a parent having a list of data nodes containing: #originalKeys (ech list element has a child too)'
+ def parentXpath = '/parent-3'
+ if (originalKeys.size() > 0) {
+ def originalListEntriesAsDataNodes = createChildListAllHavingAttributeValue(parentXpath, 'original value', originalKeys, true)
+ objectUnderTest.addListElements(DATASPACE_NAME, ANCHOR_NAME1, parentXpath, originalListEntriesAsDataNodes)
+ }
+ and: 'each original list element has one child'
+ def originalParentFragment = fragmentRepository.getById(PARENT_3_FRAGMENT_ID)
+ originalParentFragment.childFragments.each {assert it.childFragments.size() == 1 }
+ when: 'it is updated with #scenario'
+ def replacementListEntriesAsDataNodes = createChildListAllHavingAttributeValue(parentXpath, 'new value', replacementKeys, false)
+ objectUnderTest.replaceListContent(DATASPACE_NAME, ANCHOR_NAME1, parentXpath, replacementListEntriesAsDataNodes)
+ then: 'the result list ONLY contains the expected replacement elements'
+ def parentFragment = fragmentRepository.getById(PARENT_3_FRAGMENT_ID)
+ def allChildXpaths = parentFragment.childFragments.collect { it.xpath }
+ def expectedListEntriesAfterUpdateAsXpaths = keysToXpaths(parentXpath, replacementKeys)
+ assert allChildXpaths.size() == replacementKeys.size()
+ assert allChildXpaths.containsAll(expectedListEntriesAfterUpdateAsXpaths)
+ and: 'all the list elements have the new values'
+ assert parentFragment.childFragments.stream().allMatch(childFragment -> childFragment.attributes.contains('new value'))
+ and: 'there are no more grandchildren as none of the replacement list entries had a child'
+ parentFragment.childFragments.each {assert it.childFragments.size() == 0 }
+ where: 'the following replacement lists are applied'
+ scenario | originalKeys | replacementKeys
+ 'one existing entry only' | [] | ['NEW']
+ 'multiple new entries' | [] | ['NEW1', 'NEW2']
+ 'one new entry only (existing entries are deleted)' | ['A', 'B'] | ['NEW1', 'NEW2']
+ 'one existing on new entry' | ['A', 'B'] | ['A', 'NEW']
+ 'one existing entry only' | ['A', 'B'] | ['A']
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Replace list-node that has children with #scenario'() {
- given: 'list node data fragment with child data node fragments'
- def grandChildDataNodes = buildDataNodeCollection(grandChildXpaths)
- def listNode = new DataNodeBuilder().withXpath(childXpath).withChildDataNodes(grandChildDataNodes).build()
- when: 'list-node elements replaced within the existing parent node'
- objectUnderTest.replaceListDataNodes(DATASPACE_NAME, ANCHOR_NAME3, parentXpath, [ listNode ])
- then: 'child list elements are updated as expected with non-list elements remaining as is'
- def parentFragment = fragmentRepository.getById(listNodeFragmentId)
- def allChildXpaths = parentFragment.getChildFragments().collect { it.getXpath() }
- assert allChildXpaths.size() == expectedChildXpaths.size()
- assert allChildXpaths.containsAll(expectedChildXpaths)
- and: 'grandchild list elements are updated as expected'
- def allGrandChildXpaths = parentFragment.getChildFragments().collect(){
- it.getChildFragments().collect(){
- it.getXpath()}}
- allGrandChildXpaths.removeIf(list -> list.isEmpty())
- def grandChildXpathsToList = allGrandChildXpaths.stream().flatMap(List::stream).collect(Collectors.toList())
- def expectedGrandChildXpaths = grandChildXpaths
- assert grandChildXpathsToList.size() == expectedGrandChildXpaths.size()
- assert grandChildXpathsToList.containsAll(expectedGrandChildXpaths)
- where: 'the following parameters are used'
- scenario | parentXpath | childXpath | grandChildXpaths | expectedChildXpaths | listNodeFragmentId
- 'existing grandchild of list node' | '/parent-203' | '/parent-203/child-204[@key="X"]' | ['/parent-203/child-204/grandchild[@key="2"]'] | ['/parent-203/child-203', '/parent-203/child-204[@key="X"]'] | LIST_DATA_NODE_PARENT203_FRAGMENT_ID
- 'existing grandchild of list node with two new nodes' | '/parent-203' | '/parent-203/child-204[@key="X"]' | ['/parent-203/child-204/grandchild[@key="2"]' , '/parent-203/child-204/grandchild[@key="3"]'] | ['/parent-203/child-203', '/parent-203/child-204[@key="X"]'] | LIST_DATA_NODE_PARENT203_FRAGMENT_ID
- 'existing grandchild with compound list node' | '/parent-205' | '/parent-205/child-205[@key="X"]' | ['/parent-205/child-205/grand-child-206[@key="Y" and @key2="Z"]'] | ['/parent-205/child-205', '/parent-205/child-205[@key="X"]'] | LIST_DATA_NODE_PARENT205_FRAGMENT_ID
- 'two existing list node with a new node' | '/parent-205' | '/parent-205/child-205[@key="X"]' | ['/parent-205/child-205/grandchild[@key="A"]'] | ['/parent-205/child-205', '/parent-205/child-205[@key="X"]'] | LIST_DATA_NODE_PARENT205_FRAGMENT_ID
+ def 'Replacing existing list element with attributes and (grand)child.'() {
+ given: 'a parent with list elements A and B with attribute and grandchild tagged as "org"'
+ def parentXpath = '/parent-3'
+ def originalListEntriesAsDataNodes = createChildListAllHavingAttributeValue(parentXpath, 'org', ['A','B'], true)
+ objectUnderTest.addListElements(DATASPACE_NAME, ANCHOR_NAME1, parentXpath, originalListEntriesAsDataNodes)
+ when: 'A is replaced with an entry with attribute and grandchild tagged tagged as "new" (B is not in replacement list)'
+ def replacementListEntriesAsDataNodes = createChildListAllHavingAttributeValue(parentXpath, 'new', ['A'], true)
+ objectUnderTest.replaceListContent(DATASPACE_NAME, ANCHOR_NAME1, parentXpath, replacementListEntriesAsDataNodes)
+ then: 'The updated fragment has a child-list with ONLY element "A"'
+ def parentFragment = fragmentRepository.getById(PARENT_3_FRAGMENT_ID)
+ parentFragment.childFragments.size() == 1
+ def childListElementA = parentFragment.childFragments[0]
+ childListElementA.xpath == "/parent-3/child-list[@key='A']"
+ and: 'element "A" has an attribute with the "new" (tag) value'
+ childListElementA.attributes == '{"attr1": "new"}'
+ and: 'element "A" has a only one (grand)child'
+ childListElementA.childFragments.size() == 1
+ and: 'the grandchild is the new grandchild (tag)'
+ def grandChild = childListElementA.childFragments[0]
+ grandChild.xpath == "/parent-3/child-list[@key='A']/new-grand-child"
+ and: 'the grandchild has an attribute with the "new" (tag) value'
+ grandChild.attributes == '{"attr1": "new"}'
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Replace list-node content of #scenario with grandchildren.'() {
- given: 'list node data fragment as a collection of data nodes'
- def listNodeCollection = buildDataNodeCollection(listNodeXpaths)
- when: 'list-node elements replaced within the existing parent node'
- objectUnderTest.replaceListDataNodes(DATASPACE_NAME, ANCHOR_NAME3, parentXpath, listNodeCollection)
- then: 'child list elements are updated as expected with non-list elements remaining as is'
- def parentFragment = fragmentRepository.getById(listNodeFragmentID)
- def allChildXpaths = parentFragment.getChildFragments().collect { it.getXpath() }
- assert allChildXpaths.size() == expectedChildXpaths.size()
- assert allChildXpaths.containsAll(expectedChildXpaths)
- and: 'grandchild list elements are updated as expected'
- def allGrandChildXpaths = parentFragment.getChildFragments().collect {
- it.getChildFragments().collect {
- it.getXpath()}}
- allGrandChildXpaths.removeIf(list -> list.isEmpty())
- assert allGrandChildXpaths.size() == expectedGrandChildXpaths.size()
- assert allGrandChildXpaths.containsAll(expectedGrandChildXpaths)
- where: 'following parameters were used'
- scenario | listNodeXpaths | parentXpath | listNodeFragmentID || expectedChildXpaths | expectedGrandChildXpaths
- 'existing list node with existing keys' | ['/parent-203/child-204[@key="X"]'] | '/parent-203' | LIST_DATA_NODE_PARENT203_FRAGMENT_ID || ['/parent-203/child-203', '/parent-203/child-204[@key="X"]'] | []
- 'non existing list node with existing keys' | ['/parent-203/child-204[@key="V"]'] | '/parent-203' | LIST_DATA_NODE_PARENT203_FRAGMENT_ID || ['/parent-203/child-203', '/parent-203/child-204[@key="V"]'] | []
+ def 'Replace list element for a parent (parent-1) with existing one (non-list) child'() {
+ when: 'a list element is added under the parent'
+ def replacementListEntriesAsDataNodes = createChildListAllHavingAttributeValue(XPATH_DATA_NODE_WITH_DESCENDANTS, 'new', ['A','B'], false)
+ objectUnderTest.replaceListContent(DATASPACE_NAME, ANCHOR_NAME1, XPATH_DATA_NODE_WITH_DESCENDANTS, replacementListEntriesAsDataNodes)
+ then: 'the parent will have 3 children after the replacement'
+ def parentFragment = fragmentRepository.getById(ID_DATA_NODE_WITH_DESCENDANTS)
+ parentFragment.childFragments.size() == 3
+ def xpaths = parentFragment.childFragments.collect {it.xpath}
+ and: 'one of the children is the original child fragment'
+ xpaths.contains('/parent-1/child-1')
+ and: 'it has the two new list elements'
+ xpaths.containsAll("/parent-1/child-list[@key='A']", "/parent-1/child-list[@key='B']")
}
+ @Sql([CLEAR_DATA, SET_DATA])
+ def 'Replace list content using unknown parent'() {
+ given: 'list element as a collection of data nodes'
+ def listElementCollection = toDataNodes(['irrelevant'])
+ when: 'attempt to replace list elements under unknown parent node'
+ objectUnderTest.replaceListContent(DATASPACE_NAME, ANCHOR_NAME3, '/unknown', listElementCollection)
+ then: 'a datanode not found exception is thrown'
+ thrown(DataNodeNotFoundException)
+ }
@Sql([CLEAR_DATA, SET_DATA])
- def 'Replace list-node fragment error scenario: #scenario.'() {
- given: 'list node data fragment as a collection of data nodes'
- def listNodeCollection = buildDataNodeCollection(listNodeXpaths)
- when: 'list-node elements were replaced under existing parent node'
- objectUnderTest.replaceListDataNodes(DATASPACE_NAME, ANCHOR_NAME3, parentNodeXpath, listNodeCollection)
- then: 'a #expectedException is thrown'
- thrown(expectedException)
+ def 'Replace list content with empty collection is not supported'() {
+ when: 'attempt to replace list elements with empty collection'
+ objectUnderTest.replaceListContent(DATASPACE_NAME, ANCHOR_NAME3, '/parent-203', [])
+ then: 'a CPS admin exception is thrown'
+ def thrown = thrown(CpsAdminException)
+ assert thrown.message == 'Invalid list replacement'
+ }
+
+ @Sql([CLEAR_DATA, SET_DATA])
+ def 'Delete list scenario: #scenario.'() {
+ when: 'deleting list is executed for: #scenario.'
+ objectUnderTest.deleteListDataNode(DATASPACE_NAME, ANCHOR_NAME3, targetXpaths)
+ then: 'only the expected children remain'
+ def parentFragment = fragmentRepository.getById(parentFragmentId)
+ def remainingChildXpaths = parentFragment.childFragments.collect { it.xpath }
+ assert remainingChildXpaths.size() == expectedRemainingChildXpaths.size()
+ assert remainingChildXpaths.containsAll(expectedRemainingChildXpaths)
where: 'following parameters were used'
- scenario | parentNodeXpath | listNodeXpaths || expectedException
- 'parent node does not exist' | '/unknown' | ['irrelevant'] || DataNodeNotFoundException
+ scenario | targetXpaths | parentFragmentId || expectedRemainingChildXpaths
+ 'list element with key' | '/parent-203/child-204[@key="A"]' | LIST_DATA_NODE_PARENT203_FRAGMENT_ID || ['/parent-203/child-203', '/parent-203/child-204[@key="B"]']
+ 'list element with combined keys' | '/parent-202/child-205[@key="A" and @key2="B"]' | LIST_DATA_NODE_PARENT202_FRAGMENT_ID || ['/parent-202/child-206[@key="A"]']
+ 'whole list' | '/parent-203/child-204' | LIST_DATA_NODE_PARENT203_FRAGMENT_ID || ['/parent-203/child-203']
+ 'list element under list element' | '/parent-203/child-204[@key="B"]/grand-child-204[@key2="Y"]' | LIST_DATA_NODE_PARENT203_FRAGMENT_ID || ['/parent-203/child-203', '/parent-203/child-204[@key="A"]', '/parent-203/child-204[@key="B"]']
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Delete list-node content of #scenario.'() {
- given: 'list node data fragments are present in database'
- when: 'list-node elements deleted within the existing parent node'
- objectUnderTest.deleteListDataNodes(DATASPACE_NAME, ANCHOR_NAME3, listNodeXpaths)
- then: 'child list elements are removed as expected, non-list element remains as is'
- def parentFragment = fragmentRepository.getById(listNodeFragmentID)
- def allChildXpaths = parentFragment.getChildFragments().collect { it.getXpath() }
- assert allChildXpaths.size() == expectedChildXpaths.size()
- assert allChildXpaths.containsAll(expectedChildXpaths)
+ def 'Delete list error scenario: #scenario.'() {
+ when: 'attempting to delete scenario: #scenario.'
+ objectUnderTest.deleteListDataNode(DATASPACE_NAME, ANCHOR_NAME3, targetXpaths)
+ then: 'a DataNodeNotFoundException is thrown'
+ thrown(DataNodeNotFoundException)
where: 'following parameters were used'
- scenario | listNodeXpaths | listNodeFragmentID || expectedChildXpaths
- 'existing list-node with key' | '/parent-203/child-204[@key="A"]' | LIST_DATA_NODE_PARENT203_FRAGMENT_ID || ['/parent-203/child-203', '/parent-203/child-204[@key="X"]']
- 'existing list-node with key' | '/parent-203/child-204[@key="X"]' | LIST_DATA_NODE_PARENT203_FRAGMENT_ID || ['/parent-203/child-203', '/parent-203/child-204[@key="A"]']
- 'existing grand-child list node with keys' | '/parent-203/child-204[@key="X"]/grand-child-204[@key2="Y"]' | LIST_DATA_NODE_PARENT203_FRAGMENT_ID || ['/parent-203/child-203', '/parent-203/child-204[@key="X"]', '/parent-203/child-204[@key="A"]']
- 'existing list-node with combined keys' | '/parent-202/child-205[@key="A" and @key2="B"]' | LIST_DATA_NODE_PARENT202_FRAGMENT_ID || ['/parent-202/child-206[@key="A"]']
- 'existing node with list node variants to delete' | '/parent-203/child-204' | LIST_DATA_NODE_PARENT203_FRAGMENT_ID || ['/parent-203/child-203']
- 'existing grandchild list-node' | '/parent-200/child-202/grand-child-202[@key="D"]' | LIST_DATA_NODE_CHILD202_FRAGMENT_ID || []
+ scenario | targetXpaths
+ 'whole list, parent node does not exist' | '/unknown/some-child'
+ 'list element, parent node does not exist' | '/unknown/child-204[@key="A"]'
+ 'whole list does not exist' | '/parent-200/unknown'
+ 'list element, list does not exist' | '/parent-200/unknown[@key="C"]'
+ 'list element, element does not exist' | '/parent-203/child-204[@key="C"]'
+ 'valid datanode but not a list' | '/parent-200/child-202'
}
@Sql([CLEAR_DATA, SET_DATA])
- def 'Delete list-node fragment error scenario: #scenario.'() {
- given: 'list node data fragments are present in database'
- when: 'list-node elements are deleted under existing parent node'
- objectUnderTest.deleteListDataNodes(DATASPACE_NAME, ANCHOR_NAME3, listNodeXpaths)
- then: 'a #expectedException is thrown'
- thrown(expectedException)
+ def 'Confirm deletion of #scenario.'() {
+ given: 'a valid data node'
+ def dataNode
+ def dataNodeXpath
+ when: 'data nodes are deleted'
+ objectUnderTest.deleteDataNode(DATASPACE_NAME, ANCHOR_NAME3, xpathForDeletion)
+ then: 'verify data nodes are removed'
+ try {
+ dataNode = objectUnderTest.getDataNode(DATASPACE_NAME, ANCHOR_NAME3, getDataNodesXpaths, INCLUDE_ALL_DESCENDANTS)
+ dataNodeXpath = dataNode.xpath
+ assert dataNodeXpath == expectedXpaths
+ } catch (DataNodeNotFoundException) {
+ assert dataNodeXpath == expectedXpaths
+ }
where: 'following parameters were used'
- scenario | listNodeXpaths || expectedException
- 'list parent node does not exist' | '/unknown/unknown' || DataNodeNotFoundException
- 'list child nodes do not exist' | '/parent-200/unknown' || DataNodeNotFoundException
- 'list child nodes with key does not exist' | '/parent-200/unknown[@key="C"]' || DataNodeNotFoundException
- 'list grandchild nodes parent does not exist' | '/parent-200/unknown/unknown' || DataNodeNotFoundException
- 'non-existing parent with existing list-node' | '/unknown/child-204' || DataNodeNotFoundException
- 'non-existing parent with existing list-node & key' | '/unknown/child-204[@key="A"]' || DataNodeNotFoundException
- 'valid with non existing key' | '/parent-200/child-202/grand-child-202[@key="A"]' || DataNodeNotFoundException
- 'child list node without key' | '/parent-200/child-204/grand-child-204' || DataNodeNotFoundException
- 'valid list node with invalid key' | '/parent-203/child-204[@key="C"]' || DataNodeNotFoundException
+ scenario | xpathForDeletion | getDataNodesXpaths || expectedXpaths
+ 'child of target' | '/parent-206/child-206' | '/parent-206/child-206' || null
+ 'child data node, parent still exists' | '/parent-206/child-206' | '/parent-206' || '/parent-206'
+ 'list element' | '/parent-206/child-206/grand-child-206[@key="A"]' | '/parent-206/child-206/grand-child-206[@key="A"]' || null
+ 'list element, sibling still exists' | '/parent-206/child-206/grand-child-206[@key="A"]' | '/parent-206/child-206/grand-child-206[@key="X"]' || '/parent-206/child-206/grand-child-206[@key="X"]'
+ }
+ @Sql([CLEAR_DATA, SET_DATA])
+ def 'Delete data node with #scenario.'() {
+ when: 'data node is deleted'
+ objectUnderTest.deleteDataNode(DATASPACE_NAME, ANCHOR_NAME3, datanodeXpath)
+ then: 'a #expectedException is thrown'
+ thrown(DataNodeNotFoundException)
+ where: 'the following parameters were used'
+ scenario | datanodeXpath
+ 'valid data node, non existent child node' | '/parent-203/child-non-existent'
+ 'invalid list element' | '/parent-206/child-206/grand-child-206@key="A"]'
+ }
+
+ @Sql([CLEAR_DATA, SET_DATA])
+ def 'Delete data node for an anchor.'() {
+ given: 'a data-node exists for an anchor'
+ assert fragmentsExistInDB(DATASPACE_1001_ID, ANCHOR_3003_ID)
+ when: 'data nodes are deleted '
+ objectUnderTest.deleteDataNodes(DATASPACE_NAME, ANCHOR_NAME3)
+ then: 'all data-nodes are deleted successfully'
+ assert !fragmentsExistInDB(DATASPACE_1001_ID, ANCHOR_3003_ID)
+ }
+
+ def fragmentsExistInDB(dataSpaceId, anchorId) {
+ !fragmentRepository.findRootsByDataspaceAndAnchor(dataSpaceId, anchorId).isEmpty()
}
- static Collection<DataNode> buildDataNodeCollection(xpaths) {
+ static Collection<DataNode> toDataNodes(xpaths) {
return xpaths.collect { new DataNodeBuilder().withXpath(it).build() }
}
}
static Map<String, Object> getLeavesMap(FragmentEntity fragmentEntity) {
- return GSON.fromJson(fragmentEntity.getAttributes(), Map<String, Object>.class)
+ return jsonObjectMapper.convertJsonString(fragmentEntity.attributes, Map<String, Object>.class)
}
def static assertLeavesMaps(actualLeavesMap, expectedLeavesMap) {
}
def static treeToFlatMapByXpath(Map<String, DataNode> flatMap, DataNode dataNodeTree) {
- flatMap.put(dataNodeTree.getXpath(), dataNodeTree)
- dataNodeTree.getChildDataNodes()
+ flatMap.put(dataNodeTree.xpath, dataNodeTree)
+ dataNodeTree.childDataNodes
.forEach(childDataNode -> treeToFlatMapByXpath(flatMap, childDataNode))
return flatMap
}
+ def keysToXpaths(parent, Collection keys) {
+ return keys.collect { "${parent}/child-list[@key='${it}']".toString() }
+ }
+
+ def static createDataNodeTree(String... xpaths) {
+ def dataNodeBuilder = new DataNodeBuilder().withXpath(xpaths[0])
+ if (xpaths.length > 1) {
+ def xPathsDescendant = Arrays.copyOfRange(xpaths, 1, xpaths.length)
+ def childDataNode = createDataNodeTree(xPathsDescendant)
+ dataNodeBuilder.withChildDataNodes(ImmutableSet.of(childDataNode))
+ }
+ dataNodeBuilder.build()
+ }
+
+ def getFragmentByXpath(dataspaceName, anchorName, xpath) {
+ def dataspace = dataspaceRepository.getByName(dataspaceName)
+ def anchor = anchorRepository.getByDataspaceAndName(dataspace, anchorName)
+ return fragmentRepository.findByDataspaceAndAnchorAndXpath(dataspace, anchor, xpath).orElseThrow()
+ }
+
+
+ def createChildListAllHavingAttributeValue(parentXpath, tag, Collection keys, boolean addGrandChild) {
+ def listElementAsDataNodes = keysToXpaths(parentXpath, keys).collect {
+ new DataNodeBuilder()
+ .withXpath(it)
+ .withLeaves([attr1: tag])
+ .build()
+ }
+ if (addGrandChild) {
+ listElementAsDataNodes.each {it.childDataNodes = [createGrandChild(it.xpath, tag)]}
+ }
+ return listElementAsDataNodes
+ }
+
+ def createGrandChild(parentXPath, tag) {
+ new DataNodeBuilder()
+ .withXpath("${parentXPath}/${tag}-grand-child")
+ .withLeaves([attr1: tag])
+ .build()
+ }
+
}