/* * ============LICENSE_START======================================================= * Copyright (C) 2023 Nordix Foundation * Modifications Copyright (C) 2023 TechMahindra Ltd * ================================================================================ * Licensed under the Apache License, Version 2.0 (the 'License'); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an 'AS IS' BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * * SPDX-License-Identifier: Apache-2.0 * ============LICENSE_END========================================================= */ package org.onap.cps.integration.functional import java.time.OffsetDateTime import org.onap.cps.api.CpsQueryService import org.onap.cps.integration.base.FunctionalSpecBase import org.onap.cps.spi.FetchDescendantsOption import org.onap.cps.spi.PaginationOption import org.onap.cps.spi.exceptions.CpsPathException import static org.onap.cps.spi.FetchDescendantsOption.DIRECT_CHILDREN_ONLY import static org.onap.cps.spi.FetchDescendantsOption.INCLUDE_ALL_DESCENDANTS import static org.onap.cps.spi.FetchDescendantsOption.OMIT_DESCENDANTS import static org.onap.cps.spi.PaginationOption.NO_PAGINATION class CpsQueryServiceIntegrationSpec extends FunctionalSpecBase { CpsQueryService objectUnderTest def setup() { objectUnderTest = cpsQueryService } def 'Query bookstore using CPS path where #scenario.'() { when: 'query data nodes for bookstore container' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, INCLUDE_ALL_DESCENDANTS) then: 'the result contains expected number of nodes' assert result.size() == expectedResultSize and: 'the result contains the expected leaf values' result.leaves.forEach( dataNodeLeaves -> { expectedLeaves.forEach( (expectedLeafKey,expectedLeafValue) -> { assert dataNodeLeaves[expectedLeafKey] == expectedLeafValue }) }) where: scenario | cpsPath || expectedResultSize | expectedLeaves 'the AND condition is used' | '//books[@lang="English" and @price=15]' || 2 | [lang:"English", price:15] 'the AND is used where result does not exist' | '//books[@lang="English" and @price=1000]' || 0 | [] } def 'Cps Path query using comparative and boolean operators.'() { given: 'a cps path query in the discount category' def cpsPath = "/bookstore/categories[@code='5']/books" + leafCondition when: 'a query is executed to get response by the given cps path' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, OMIT_DESCENDANTS) then: 'the cps-path of queryDataNodes has the expectedLeaves' def bookPrices = result.collect { it.getLeaves().get('price') } assert bookPrices.sort() == expectedBookPrices.sort() where: 'the following data is used' leafCondition || expectedBookPrices '[@price = 5]' || [5] '[@price < 5]' || [1, 2, 3, 4] '[@price > 5]' || [6, 7, 8, 9, 10] '[@price <= 5]' || [1, 2, 3, 4, 5] '[@price >= 5]' || [5, 6, 7, 8, 9, 10] '[@price > 10]' || [] '[@price = 3 or @price = 7]' || [3, 7] '[@price = 3 and @price = 7]' || [] '[@price > 3 and @price <= 6]' || [4, 5, 6] '[@price < 3 or @price > 8]' || [1, 2, 9, 10] '[@price = 1 or @price = 3 or @price = 5]' || [1, 3, 5] '[@price = 1 or @price >= 8 and @price < 10]' || [1, 8, 9] '[@price >= 3 and @price <= 5 or @price > 9]' || [3, 4, 5, 10] } def 'Cps Path query for leaf value(s) with #scenario.'() { when: 'a query is executed to get a data node by the given cps path' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, fetchDescendantsOption) then: 'the correct number of parent nodes are returned' assert result.size() == expectedNumberOfParentNodes and: 'the correct total number of data nodes are returned' assert countDataNodesInTree(result) == expectedTotalNumberOfNodes where: 'the following data is used' scenario | cpsPath | fetchDescendantsOption || expectedNumberOfParentNodes | expectedTotalNumberOfNodes 'string and no descendants' | '/bookstore/categories[@code="1"]/books[@title="Matilda"]' | OMIT_DESCENDANTS || 1 | 1 'integer and descendants' | '/bookstore/categories[@code="1"]/books[@price=15]' | INCLUDE_ALL_DESCENDANTS || 1 | 1 'no condition and no descendants' | '/bookstore/categories' | OMIT_DESCENDANTS || 5 | 5 'no condition and level 1 descendants' | '/bookstore' | new FetchDescendantsOption(1) || 1 | 7 'no condition and level 2 descendants' | '/bookstore' | new FetchDescendantsOption(2) || 1 | 28 } def 'Query for attribute by cps path with cps paths that return no data because of #scenario.'() { when: 'a query is executed to get data nodes for the given cps path' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, OMIT_DESCENDANTS) then: 'no data is returned' assert result.isEmpty() where: 'following cps queries are performed' scenario | cpsPath 'cps path is incomplete' | '/bookstore[@title="Matilda"]' 'leaf value does not exist' | '/bookstore/categories[@code="1"]/books[@title=\'does not exist\']' 'incomplete end of xpath prefix' | '/bookstore/categories/books[@price=15]' } def 'Cps Path query using descendant anywhere and #type (further) descendants.'() { when: 'a query is executed to get a data node by the given cps path' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, '/bookstore/categories[@code="1"]', fetchDescendantsOption) then: 'the data node has the correct number of children' assert result[0].childDataNodes.xpath.sort() == expectedChildNodes.sort() where: 'the following data is used' type | fetchDescendantsOption || expectedChildNodes 'omit' | OMIT_DESCENDANTS || [] 'include' | INCLUDE_ALL_DESCENDANTS || ["/bookstore/categories[@code='1']/books[@title='Matilda']", "/bookstore/categories[@code='1']/books[@title='The Gruffalo']"] } def 'Cps Path query for all books.'() { when: 'a query is executed to get all books' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, '//books', OMIT_DESCENDANTS) then: 'the expected number of books are returned' assert result.size() == 19 } def 'Cps Path query using descendant anywhere with #scenario.'() { when: 'a query is executed to get a data node by the given cps path' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, OMIT_DESCENDANTS) then: 'xpaths of the retrieved data nodes are as expected' def bookTitles = result.collect { it.getLeaves().get('title') } assert bookTitles.sort() == expectedBookTitles.sort() where: 'the following data is used' scenario | cpsPath || expectedBookTitles 'string leaf condition' | '//books[@title="Matilda"]' || ["Matilda"] 'text condition on leaf' | '//books/title[text()="Matilda"]' || ["Matilda"] 'text condition case mismatch' | '//books/title[text()="matilda"]' || [] 'text condition on int leaf' | '//books/price[text()="20"]' || ["A Book with No Language", "Matilda"] 'text condition on leaf-list' | '//books/authors[text()="Terry Pratchett"]' || ["Good Omens", "The Colour of Magic", "The Light Fantastic"] 'text condition partial match' | '//books/authors[text()="Terry"]' || [] 'text condition (existing) empty string' | '//books/lang[text()=""]' || ["A Book with No Language"] 'text condition on int leaf-list' | '//books/editions[text()="2000"]' || ["Matilda"] 'match of leaf containing /' | '//books[@lang="N/A"]' || ["Logarithm tables"] 'text condition on leaf containing /' | '//books/lang[text()="N/A"]' || ["Logarithm tables"] 'match of key containing /' | '//books[@title="Debian GNU/Linux"]' || ["Debian GNU/Linux"] 'text condition on key containing /' | '//books/title[text()="Debian GNU/Linux"]' || ["Debian GNU/Linux"] } def 'Query for attribute by cps path using contains condition #scenario.'() { when: 'a query is executed to get response by the given cps path' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, INCLUDE_ALL_DESCENDANTS) then: 'xpaths of the retrieved data nodes are as expected' def bookTitles = result.collect { it.getLeaves().get('title') } assert bookTitles.sort() == expectedBookTitles.sort() where: 'the following data is used' scenario | cpsPath || expectedBookTitles 'contains condition with leaf' | '//books[contains(@title,"Mat")]' || ["Matilda"] 'contains condition with case-sensitive' | '//books[contains(@title,"Ti")]' || [] 'contains condition with Integer Value' | '//books[contains(@price,"15")]' || ["Annihilation", "The Gruffalo"] } def 'Query for attribute by cps path using contains condition with no value.'() { when: 'a query is executed to get response by the given cps path' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, '//books[contains(@title,"")]', OMIT_DESCENDANTS) then: 'all books are returned' assert result.size() == 19 } def 'Cps Path query using descendant anywhere with #scenario condition for a container element.'() { when: 'a query is executed to get a data node by the given cps path' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, OMIT_DESCENDANTS) then: 'book titles from the retrieved data nodes are as expected' def bookTitles = result.collect { it.getLeaves().get('title') } assert bookTitles.sort() == expectedBookTitles.sort() where: 'the following data is used' scenario | cpsPath || expectedBookTitles 'one leaf' | '//books[@price=14]' || ['The Light Fantastic'] 'one leaf with ">" condition' | '//books[@price>14]' || ['A Book with No Language', 'Annihilation', 'Debian GNU/Linux', 'Matilda', 'The Gruffalo'] 'one text' | '//books/authors[text()="Terry Pratchett"]' || ['Good Omens', 'The Colour of Magic', 'The Light Fantastic'] 'more than one leaf' | '//books[@price=12 and @lang="English"]' || ['The Colour of Magic'] 'more than one leaf has "OR" condition' | '//books[@lang="English" or @price=15]' || ['Annihilation', 'Good Omens', 'Matilda', 'The Colour of Magic', 'The Gruffalo', 'The Light Fantastic'] 'more than one leaf has "OR" condition with non-json data' | '//books[@title="xyz" or @price=13]' || ['Good Omens'] 'more than one leaf has multiple AND' | '//books[@lang="English" and @price=13 and @edition=1983]' || [] 'more than one leaf has multiple OR' | '//books[ @title="Matilda" or @price=15 or @edition=2006]' || ['Annihilation', 'Matilda', 'The Gruffalo'] 'leaves reversed in order' | '//books[@lang="English" and @price=12]' || ['The Colour of Magic'] 'more than one leaf has combination of AND/OR' | '//books[@edition=1983 and @price=13 or @title="Good Omens"]' || ['Good Omens'] 'more than one leaf has OR/AND' | '//books[@title="The Light Fantastic" or @price=11 and @edition=1983]' || ['The Light Fantastic'] 'leaf and text' | '//books[@price=14]/authors[text()="Terry Pratchett"]' || ['The Light Fantastic'] 'leaf and contains' | '//books[contains(@price,"13")]' || ['Good Omens'] } def 'Cps Path query using descendant anywhere with #scenario condition(s) for a list element.'() { when: 'a query is executed to get a data node by the given cps path' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, INCLUDE_ALL_DESCENDANTS) then: 'xpaths of the retrieved data nodes are as expected' result.xpath.toList() == ["/bookstore/premises/addresses[@house-number='2' and @street='Main Street']"] where: 'the following data is used' scenario | cpsPath 'full composite key' | '//addresses[@house-number=2 and @street="Main Street"]' 'one partial key leaf' | '//addresses[@house-number=2]' 'one non key leaf' | '//addresses[@county="Kildare"]' 'mix of partial key and non key leaf' | '//addresses[@street="Main Street" and @county="Kildare"]' } def 'Query for attribute by cps path of type ancestor with #scenario.'() { when: 'the given cps path is parsed' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, OMIT_DESCENDANTS) then: 'the xpaths of the retrieved data nodes are as expected' assert result.xpath.sort() == expectedXPaths.sort() where: 'the following data is used' scenario | cpsPath || expectedXPaths 'multiple list-ancestors' | '//books/ancestor::categories' || ["/bookstore/categories[@code='1']", "/bookstore/categories[@code='2']", "/bookstore/categories[@code='3']", "/bookstore/categories[@code='4']", "/bookstore/categories[@code='5']"] 'one ancestor with list value' | '//books/ancestor::categories[@code="1"]' || ["/bookstore/categories[@code='1']"] 'top ancestor' | '//books/ancestor::bookstore' || ["/bookstore"] 'list with index value in the xpath prefix' | '//categories[@code="1"]/books/ancestor::bookstore' || ["/bookstore"] 'ancestor with parent list' | '//books/ancestor::bookstore/categories' || ["/bookstore/categories[@code='1']", "/bookstore/categories[@code='2']", "/bookstore/categories[@code='3']", "/bookstore/categories[@code='4']", "/bookstore/categories[@code='5']"] 'ancestor with parent' | '//books/ancestor::bookstore/categories[@code="2"]' || ["/bookstore/categories[@code='2']"] 'ancestor combined with text condition' | '//books/title[text()="Matilda"]/ancestor::bookstore' || ["/bookstore"] 'ancestor with parent that does not exist' | '//books/ancestor::parentDoesNoExist/categories' || [] 'ancestor does not exist' | '//books/ancestor::ancestorDoesNotExist' || [] 'ancestor combined with contains condition' | '//books[contains(@title,"Mat")]/ancestor::bookstore' || ["/bookstore"] } def 'Query for attribute by cps path of type ancestor with #scenario descendants.'() { when: 'the given cps path is parsed' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, '//books/ancestor::bookstore', fetchDescendantsOption) then: 'the xpaths of the retrieved data nodes are as expected' assert countDataNodesInTree(result) == expectedNumberOfNodes where: 'the following data is used' scenario | fetchDescendantsOption || expectedNumberOfNodes 'no' | OMIT_DESCENDANTS || 1 'direct' | DIRECT_CHILDREN_ONLY || 7 'all' | INCLUDE_ALL_DESCENDANTS || 28 } def 'Cps Path query with #scenario throws a CPS Path Exception.'() { when: 'trying to execute a query with a syntax (parsing) error' objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, OMIT_DESCENDANTS) then: 'a cps path exception is thrown' thrown(CpsPathException) where: 'the following data is used' scenario | cpsPath 'cpsPath that cannot be parsed' | 'cpsPath that cannot be parsed' 'String with comparative operator' | '//books[@lang>"German" and @price>10]' } def 'Cps Path query across anchors with #scenario.'() { when: 'a query is executed to get a data nodes across anchors by the given CpsPath' def result = objectUnderTest.queryDataNodesAcrossAnchors(FUNCTIONAL_TEST_DATASPACE_1, cpsPath, OMIT_DESCENDANTS, NO_PAGINATION) then: 'the correct dataspace is queried' assert result.dataspace.toSet() == [FUNCTIONAL_TEST_DATASPACE_1].toSet() and: 'correct anchors are queried' assert result.anchorName.toSet() == [BOOKSTORE_ANCHOR_1, BOOKSTORE_ANCHOR_2].toSet() and: 'the correct number of nodes is returned' assert result.size() == expectedXpathsPerAnchor.size() * NUMBER_OF_ANCHORS_PER_DATASPACE_WITH_BOOKSTORE_DATA and: 'the queried nodes have expected xpaths' assert result.xpath.toSet() == expectedXpathsPerAnchor.toSet() where: 'the following data is used' scenario | cpsPath || expectedXpathsPerAnchor 'container node' | '/bookstore' || ["/bookstore"] 'list node' | '/bookstore/categories' || ["/bookstore/categories[@code='1']", "/bookstore/categories[@code='2']", "/bookstore/categories[@code='3']", "/bookstore/categories[@code='4']", "/bookstore/categories[@code='5']"] 'integer leaf-condition' | '/bookstore/categories[@code="1"]/books[@price=15]' || ["/bookstore/categories[@code='1']/books[@title='The Gruffalo']"] 'multiple list-ancestors' | '//books/ancestor::categories' || ["/bookstore/categories[@code='1']", "/bookstore/categories[@code='2']", "/bookstore/categories[@code='3']", "/bookstore/categories[@code='4']", "/bookstore/categories[@code='5']"] 'one ancestor with list value' | '//books/ancestor::categories[@code="1"]' || ["/bookstore/categories[@code='1']"] 'list with index value in the xpath prefix' | '//categories[@code="1"]/books/ancestor::bookstore' || ["/bookstore"] 'ancestor with parent list' | '//books/ancestor::bookstore/categories' || ["/bookstore/categories[@code='1']", "/bookstore/categories[@code='2']", "/bookstore/categories[@code='3']", "/bookstore/categories[@code='4']", "/bookstore/categories[@code='5']"] 'ancestor with parent list element' | '//books/ancestor::bookstore/categories[@code="2"]' || ["/bookstore/categories[@code='2']"] 'ancestor combined with text condition' | '//books/title[text()="Matilda"]/ancestor::bookstore' || ["/bookstore"] } def 'Cps Path query across anchors with #scenario descendants.'() { when: 'a query is executed to get a data node by the given cps path' def result = objectUnderTest.queryDataNodesAcrossAnchors(FUNCTIONAL_TEST_DATASPACE_1, '/bookstore', fetchDescendantsOption, NO_PAGINATION) then: 'the correct dataspace was queried' assert result.dataspace.toSet() == [FUNCTIONAL_TEST_DATASPACE_1].toSet() and: 'correct number of datanodes are returned' assert countDataNodesInTree(result) == expectedNumberOfNodesPerAnchor * NUMBER_OF_ANCHORS_PER_DATASPACE_WITH_BOOKSTORE_DATA where: 'the following data is used' scenario | fetchDescendantsOption || expectedNumberOfNodesPerAnchor 'no' | OMIT_DESCENDANTS || 1 'direct' | DIRECT_CHILDREN_ONLY || 7 'all' | INCLUDE_ALL_DESCENDANTS || 28 } def 'Cps Path query across anchors with ancestors and #scenario descendants.'() { when: 'a query is executed to get a data node by the given cps path' def result = objectUnderTest.queryDataNodesAcrossAnchors(FUNCTIONAL_TEST_DATASPACE_1, '//books/ancestor::bookstore', fetchDescendantsOption, NO_PAGINATION) then: 'the correct dataspace was queried' assert result.dataspace.toSet() == [FUNCTIONAL_TEST_DATASPACE_1].toSet() and: 'correct number of datanodes are returned' assert countDataNodesInTree(result) == expectedNumberOfNodesPerAnchor * NUMBER_OF_ANCHORS_PER_DATASPACE_WITH_BOOKSTORE_DATA where: 'the following data is used' scenario | fetchDescendantsOption || expectedNumberOfNodesPerAnchor 'no' | OMIT_DESCENDANTS || 1 'direct' | DIRECT_CHILDREN_ONLY || 7 'all' | INCLUDE_ALL_DESCENDANTS || 28 } def 'Cps Path query across anchors with syntax error throws a CPS Path Exception.'() { when: 'trying to execute a query with a syntax (parsing) error' objectUnderTest.queryDataNodesAcrossAnchors(FUNCTIONAL_TEST_DATASPACE_1, 'cpsPath that cannot be parsed' , OMIT_DESCENDANTS, NO_PAGINATION) then: 'a cps path exception is thrown' thrown(CpsPathException) } def 'Cps Path querys with all descendants including descendants that are list entries: #scenario.'() { when: 'a query is executed to get a data node by the given cps path' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, INCLUDE_ALL_DESCENDANTS) then: 'correct number of datanodes are returned' assert countDataNodesInTree(result) == expectedNumberOfDataNodes where: scenario | cpsPath || expectedNumberOfDataNodes 'absolute path all list entries' | '/bookstore/categories' || 24 'absolute path 1 list entry by key' | '/bookstore/categories[@code="3"]' || 5 'absolute path 1 list entry by name' | '/bookstore/categories[@name="Comedy"]' || 5 'relative path all list entries' | '//categories' || 24 'relative path 1 list entry by key' | '//categories[@code="3"]' || 5 'relative path 1 list entry by leaf' | '//categories[@name="Comedy"]' || 5 'incomplete absolute path' | '/categories' || 0 'incomplete absolute 1 list entry' | '/categories[@code="3"]' || 0 } def 'Cps Path query contains #wildcard.'() { when: 'a query is executed with a wildcard in the given cps path' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, INCLUDE_ALL_DESCENDANTS) then: 'no results are returned, as Cps Path query does not interpret wildcard characters' assert result.isEmpty() where: wildcard | cpsPath ' sql wildcard in parent path list index' | '/bookstore/categories[@code="%"]/books' 'regex wildcard in parent path list index' | '/bookstore/categories[@code=".*"]/books' ' sql wildcard in leaf-condition' | '/bookstore/categories[@code="1"]/books[@title="%"]' 'regex wildcard in leaf-condition' | '/bookstore/categories[@code="1"]/books[@title=".*"]' ' sql wildcard in text-condition' | '/bookstore/categories[@code="1"]/books/title[text()="%"]' 'regex wildcard in text-condition' | '/bookstore/categories[@code="1"]/books/title[text()=".*"]' ' sql wildcard in contains-condition' | '/bookstore/categories[@code="1"]/books[contains(@title, "%")]' 'regex wildcard in contains-condition' | '/bookstore/categories[@code="1"]/books[contains(@title, ".*")]' } def 'Cps Path query can return a data node containing [@ in xpath #scenario.'() { given: 'a book with special characters [@ and ] in title' cpsDataService.saveData(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, "/bookstore/categories[@code='1']", '{"books": [ {"title":"[@hello=world]"} ] }', OffsetDateTime.now()) when: 'a query is executed' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, OMIT_DESCENDANTS) then: 'the node is returned' assert result.size() == 1 cleanup: 'the new datanode' cpsDataService.deleteDataNode(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, "/bookstore/categories[@code='1']/books[@title='[@hello=world]']", OffsetDateTime.now()) where: scenario || cpsPath 'leaf-condition' || "/bookstore/categories[@code='1']/books[@title='[@hello=world]']" 'text-condition' || "/bookstore/categories[@code='1']/books/title[text()='[@hello=world]']" 'contains-condition' || "/bookstore/categories[@code='1']/books[contains(@title, '[@hello=world]')]" } def 'Cps Path get and query can handle apostrophe inside #quotes.'() { given: 'a book with special characters in title' cpsDataService.saveData(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, "/bookstore/categories[@code='1']", '{"books": [ {"title":"I\'m escaping"} ] }', OffsetDateTime.now()) when: 'a query is executed' def result = objectUnderTest.queryDataNodes(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, cpsPath, OMIT_DESCENDANTS) then: 'the node is returned' assert result.size() == 1 assert result[0].xpath == "/bookstore/categories[@code='1']/books[@title='I''m escaping']" cleanup: 'the new datanode' cpsDataService.deleteDataNode(FUNCTIONAL_TEST_DATASPACE_1, BOOKSTORE_ANCHOR_1, "/bookstore/categories[@code='1']/books[@title='I''m escaping']", OffsetDateTime.now()) where: quotes || cpsPath 'single quotes' || "/bookstore/categories[@code='1']/books[@title='I''m escaping']" 'double quotes' || '/bookstore/categories[@code="1"]/books[@title="I\'m escaping"]' 'text-condition' || "/bookstore/categories[@code='1']/books/title[text()='I''m escaping']" 'contains-condition' || "/bookstore/categories[@code='1']/books[contains(@title, 'I''m escaping')]" } def 'Cps Path query across anchors using pagination option with #scenario.'() { when: 'a query is executed to get a data nodes across anchors by the given CpsPath and pagination option' def result = objectUnderTest.queryDataNodesAcrossAnchors(FUNCTIONAL_TEST_DATASPACE_1, '/bookstore', OMIT_DESCENDANTS, new PaginationOption(pageIndex, pageSize)) then: 'correct bookstore names are queried' def bookstoreNames = result.collect { it.getLeaves().get('bookstore-name') } assert bookstoreNames.toList() == expectedBookstoreNames and: 'the correct number of page size is returned' assert result.size() == expectedPageSize and: 'the queried nodes have expected anchor names' assert result.anchorName.toSet() == expectedAnchors.toSet() where: 'the following data is used' scenario | pageIndex | pageSize || expectedPageSize || expectedAnchors || expectedBookstoreNames '1st page with one anchor' | 1 | 1 || 1 || [BOOKSTORE_ANCHOR_1] || ['Easons-1'] '1st page with two anchor' | 1 | 2 || 2 || [BOOKSTORE_ANCHOR_1, BOOKSTORE_ANCHOR_2] || ['Easons-1', 'Easons-2'] '2nd page' | 2 | 1 || 1 || [BOOKSTORE_ANCHOR_2] || ['Easons-2'] 'no 2nd page due to page size' | 2 | 2 || 0 || [] || [] } def 'Cps Path query across anchors using pagination option for ancestor axis.'() { when: 'a query is executed to get a data nodes across anchors by the given CpsPath and pagination option' def result = objectUnderTest.queryDataNodesAcrossAnchors(FUNCTIONAL_TEST_DATASPACE_1, '//books/ancestor::categories', INCLUDE_ALL_DESCENDANTS, new PaginationOption(1, 2)) then: 'correct category codes are queried' def categoryNames = result.collect { it.getLeaves().get('name') } assert categoryNames.toSet() == ['Discount books', 'Computing', 'Comedy', 'Thriller', 'Children'].toSet() and: 'the queried nodes have expected anchors' assert result.anchorName.toSet() == [BOOKSTORE_ANCHOR_1, BOOKSTORE_ANCHOR_2].toSet() } def 'Count number of anchors for given dataspace name and cps path'() { expect: '/bookstore is present in two anchors' assert objectUnderTest.countAnchorsForDataspaceAndCpsPath(FUNCTIONAL_TEST_DATASPACE_1, '/bookstore') == 2 } def 'Cps Path query across anchors using no pagination'() { when: 'a query is executed to get a data nodes across anchors by the given CpsPath and pagination option' def result = objectUnderTest.queryDataNodesAcrossAnchors(FUNCTIONAL_TEST_DATASPACE_1, '/bookstore', OMIT_DESCENDANTS, NO_PAGINATION) then: 'all bookstore names are queried' def bookstoreNames = result.collect { it.getLeaves().get('bookstore-name') } assert bookstoreNames.toSet() == ['Easons-1', 'Easons-2'].toSet() and: 'the correct number of page size is returned' assert result.size() == 2 and: 'the queried nodes have expected bookstore names' assert result.anchorName.toSet() == [BOOKSTORE_ANCHOR_1, BOOKSTORE_ANCHOR_2].toSet() } }