def 'Read top-level node with #scenario.'() {
when: 'get data nodes from 1 anchor'
- stopWatch.start()
- def result = objectUnderTest.getDataNodes(CPS_PERFORMANCE_TEST_DATASPACE, anchor, '/openroadm-devices', fetchDescendantsOption)
- stopWatch.stop()
+ resourceMeter.start()
+ def result = objectUnderTest.getDataNodes(CPS_PERFORMANCE_TEST_DATASPACE, 'openroadm1', '/openroadm-devices', fetchDescendantsOption)
+ resourceMeter.stop()
assert countDataNodesInTree(result) == expectedNumberOfDataNodes
- def durationInMillis = stopWatch.getTotalTimeMillis()
- then: 'all data is read within #durationLimit ms'
- recordAndAssertPerformance("Read datatrees with ${scenario}", durationLimit, durationInMillis)
+ def durationInSeconds = resourceMeter.getTotalTimeInSeconds()
+ then: 'all data is read within #durationLimit ms and memory used is within limit'
+ recordAndAssertResourceUsage("Read datatrees with ${scenario}", durationLimit, durationInSeconds, memoryLimit, resourceMeter.getTotalMemoryUsageInMB())
where: 'the following parameters are used'
- scenario | fetchDescendantsOption | anchor || durationLimit | expectedNumberOfDataNodes
- 'no descendants' | OMIT_DESCENDANTS | 'openroadm1' || 50 | 1
- 'direct descendants' | DIRECT_CHILDREN_ONLY | 'openroadm2' || 100 | 1 + 50
- 'all descendants' | INCLUDE_ALL_DESCENDANTS | 'openroadm3' || 200 | 1 + 50 * 86
+ scenario | fetchDescendantsOption || durationLimit | memoryLimit | expectedNumberOfDataNodes
+ 'no descendants' | OMIT_DESCENDANTS || 0.02 | 1 | 1
+ 'direct descendants' | DIRECT_CHILDREN_ONLY || 0.06 | 5 | 1 + OPENROADM_DEVICES_PER_ANCHOR
+ 'all descendants' | INCLUDE_ALL_DESCENDANTS || 2.5 | 250 | 1 + OPENROADM_DEVICES_PER_ANCHOR * OPENROADM_DATANODES_PER_DEVICE
}
def 'Read data trees for multiple xpaths'() {
given: 'a collection of xpaths to get'
- def xpaths = (1..50).collect { "/openroadm-devices/openroadm-device[@device-id='C201-7-1A-" + it + "']" }
+ def xpaths = (1..OPENROADM_DEVICES_PER_ANCHOR).collect { "/openroadm-devices/openroadm-device[@device-id='C201-7-1A-" + it + "']" }
when: 'get data nodes from 1 anchor'
- stopWatch.start()
- def result = objectUnderTest.getDataNodesForMultipleXpaths(CPS_PERFORMANCE_TEST_DATASPACE, 'openroadm4', xpaths, INCLUDE_ALL_DESCENDANTS)
- stopWatch.stop()
- assert countDataNodesInTree(result) == 50 * 86
- def durationInMillis = stopWatch.getTotalTimeMillis()
- then: 'all data is read within 500 ms'
- recordAndAssertPerformance("Read datatrees for multiple xpaths", 200, durationInMillis)
+ resourceMeter.start()
+ def result = objectUnderTest.getDataNodesForMultipleXpaths(CPS_PERFORMANCE_TEST_DATASPACE, 'openroadm2', xpaths, INCLUDE_ALL_DESCENDANTS)
+ resourceMeter.stop()
+ def durationInSeconds = resourceMeter.getTotalTimeInSeconds()
+ then: 'requested nodes and their descendants are returned'
+ assert countDataNodesInTree(result) == OPENROADM_DEVICES_PER_ANCHOR * OPENROADM_DATANODES_PER_DEVICE
+ and: 'all data is read within expected time and memory used is within limit'
+ recordAndAssertResourceUsage("Read datatrees for multiple xpaths", 4 , durationInSeconds, 300, resourceMeter.getTotalMemoryUsageInMB())
+ }
+
+ def 'Read for multiple xpaths to non-existing datanodes'() {
+ given: 'a collection of xpaths to get'
+ def xpaths = (1..50).collect { "/path/to/non-existing/node[@id='" + it + "']" }
+ when: 'get data nodes from 1 anchor'
+ resourceMeter.start()
+ def result = objectUnderTest.getDataNodesForMultipleXpaths(CPS_PERFORMANCE_TEST_DATASPACE, 'openroadm2', xpaths, INCLUDE_ALL_DESCENDANTS)
+ resourceMeter.stop()
+ def durationInSeconds = resourceMeter.getTotalTimeInSeconds()
+ then: 'no data is returned'
+ assert result.isEmpty()
+ and: 'the operation completes within within expected time'
+ recordAndAssertResourceUsage("Read non-existing xpaths", 0.02, durationInSeconds, 2, resourceMeter.getTotalMemoryUsageInMB())
}
def 'Read complete data trees using #scenario.'() {
- when: 'get data nodes for 5 anchors'
- stopWatch.start()
- (1..5).each {
- def result = objectUnderTest.getDataNodes(CPS_PERFORMANCE_TEST_DATASPACE, anchorPrefix + it, xpath, INCLUDE_ALL_DESCENDANTS)
- assert countDataNodesInTree(result) == expectedNumberOfDataNodes
- }
- stopWatch.stop()
- def durationInMillis = stopWatch.getTotalTimeMillis()
- then: 'all data is read within #durationLimit ms'
- recordAndAssertPerformance("Read datatrees using ${scenario}", durationLimit, durationInMillis)
+ when: 'get data nodes from 1 anchor'
+ resourceMeter.start()
+ def result = objectUnderTest.getDataNodes(CPS_PERFORMANCE_TEST_DATASPACE, 'openroadm3', xpath, INCLUDE_ALL_DESCENDANTS)
+ assert countDataNodesInTree(result) == expectedNumberOfDataNodes
+ resourceMeter.stop()
+ def durationInSeconds = resourceMeter.getTotalTimeInSeconds()
+ then: 'all data is read within expected time and memory used is within limit'
+ recordAndAssertResourceUsage("Read datatrees using ${scenario}", durationLimit, durationInSeconds, memoryLimit, resourceMeter.getTotalMemoryUsageInMB())
where: 'the following xpaths are used'
- scenario | anchorPrefix | xpath || durationLimit | expectedNumberOfDataNodes
- 'bookstore root' | 'bookstore' | '/' || 200 | 78
- 'bookstore top element' | 'bookstore' | '/bookstore' || 200 | 78
- 'openroadm root' | 'openroadm' | '/' || 600 | 1 + 50 * 86
- 'openroadm top element' | 'openroadm' | '/openroadm-devices' || 600 | 1 + 50 * 86
+ scenario | xpath || durationLimit | memoryLimit | expectedNumberOfDataNodes
+ 'openroadm root' | '/' || 2 | 250 | 1 + OPENROADM_DEVICES_PER_ANCHOR * OPENROADM_DATANODES_PER_DEVICE
+ 'openroadm top element' | '/openroadm-devices' || 2 | 250 | 1 + OPENROADM_DEVICES_PER_ANCHOR * OPENROADM_DATANODES_PER_DEVICE
+ 'openroadm whole list' | '/openroadm-devices/openroadm-device' || 3 | 250 | OPENROADM_DEVICES_PER_ANCHOR * OPENROADM_DATANODES_PER_DEVICE
}
}