func TestDeleteLogicalInterconnectGroup(t *testing.T) {
var (
d *OVTest
c *ov.OVClient
testName string
testLogicalInterconnectGroup ov.LogicalInterconnectGroup
)
if os.Getenv("ONEVIEW_TEST_ACCEPTANCE") == "true" {
d, c = getTestDriverA("test_logical_interconnect_group")
if c == nil {
t.Fatalf("Failed to execute getTestDriver() ")
}
testName = d.Tc.GetTestData(d.Env, "Name").(string)
err := c.DeleteLogicalInterconnectGroup(testName)
assert.NoError(t, err, "DeleteLogicalInterconnectGroup err-> %s", err)
testLogicalInterconnectGroup, err = c.GetLogicalInterconnectGroupByName(testName)
assert.NoError(t, err, "GetLogicalInterconnectGroupByName with deleted logical interconnect gorup-> %+v", err)
assert.Equal(t, "", testLogicalInterconnectGroup.Name, fmt.Sprintf("Problem getting logicalInterconnectGroup name, %+v", testLogicalInterconnectGroup))
} else {
_, c = getTestDriverU("test_logical_interconnect_group")
err := c.DeleteLogicalInterconnectGroup("footest")
assert.Error(t, err, fmt.Sprintf("ALL ok, no error, caught as expected: %s,%+v\n", err, testLogicalInterconnectGroup))
}
}
func TestGetLogicalInterconnectGroupByName(t *testing.T) {
var (
d *OVTest
c *ov.OVClient
testName string
)
if os.Getenv("ONEVIEW_TEST_ACCEPTANCE") == "true" {
d, c = getTestDriverA("test_logical_interconnect_group")
if c == nil {
t.Fatalf("Failed to execute getTestDriver() ")
}
testName = d.Tc.GetTestData(d.Env, "Name").(string)
testLogicalInterconnectGroup, err := c.GetLogicalInterconnectGroupByName(testName)
assert.NoError(t, err, "GetLogicalInterconnectGroupByName thew an error -> %s", err)
assert.Equal(t, testName, testLogicalInterconnectGroup.Name)
testLogicalInterconnectGroup, err = c.GetLogicalInterconnectGroupByName("bad")
assert.NoError(t, err, "GetLogicalInterconnectGroupByName with fake name -> %s", err)
assert.Equal(t, "", testLogicalInterconnectGroup.Name)
} else {
d, c = getTestDriverU("test_logical_interconnect_group")
testName = d.Tc.GetTestData(d.Env, "Name").(string)
data, err := c.GetLogicalInterconnectGroupByName(testName)
assert.Error(t, err, fmt.Sprintf("ALL ok, no error, caught as expected: %s,%+v\n", err, data))
}
}
func TestCreateLogicalInterconnectGroup(t *testing.T) {
var (
d *OVTest
interconnectData *OVTest
c *ov.OVClient
testName string
)
if os.Getenv("ONEVIEW_TEST_ACCEPTANCE") == "true" {
d, c = getTestDriverA("test_logical_interconnect_group")
if c == nil {
t.Fatalf("Failed to execute getTestDriver() ")
}
interconnectData, c = getTestDriverA("test_interconnect_type")
if c == nil || interconnectData == nil {
t.Fatalf("Failed to execute getTestDriver() ")
}
testName = d.Tc.GetTestData(d.Env, "Name").(string)
testLogicalInterconnectGroup, err := c.GetLogicalInterconnectGroupByName(testName)
assert.NoError(t, err, "CreateLogicalInterconnectGroup get the LogicalInterconnectError error -> %s", err)
if testLogicalInterconnectGroup.URI.IsNil() {
/*
interconnectMapEntryTemplates := make([]ov.InterconnectMapEntryTemplate, 8)
for i := 0; i < 8; i++ {
locationEntry1 := ov.LocationEntry{
RelativeValue: i + 1,
Type: "Bay",
}
locationEntry2 := ov.LocationEntry{
RelativeValue: i + 2,
Type: "Enclosure",
}
locationEntries := make([]ov.LocationEntry, 2)
locationEntries[0] = locationEntry1
locationEntries[1] = locationEntry2
logicalLocation := ov.LogicalLocation{
LocationEntries: locationEntries,
}
interconnectMapEntryTemplate := ov.InterconnectMapEntryTemplate{
LogicalLocation: logicalLocation,
PermittedInterconnectTypeUri: utils.NewNstring(interconnectData.Tc.GetTestData(interconnectData.Env, "URI").(string)),
}
interconnectMapEntryTemplates[i] = interconnectMapEntryTemplate
}
interconnectMapTemplate := ov.InterconnectMapTemplate{
InterconnectMapEntryTemplates: interconnectMapEntryTemplates,
}
f := false
tr := true
ethernetSettings := ov.EthernetSettings{
Type: "EthernetInterconnectSettingsV3",
EnableFastMacCacheFailover: &f,
EnableIgmpSnooping: &tr,
EnableRichTLV: &tr,
MacRefreshInterval: 10,
IgmpIdleTimeoutInterval: 250,
}
telemetryConfig := ov.TelemetryConfiguration{
Type: "telemetry-configuration",
EnableTelemetry: &tr,
SampleCount: 12,
SampleInterval: 150,
}
snmpConfiguration := ov.SnmpConfiguration{
Type: "snmp-configuration",
Enabled: &f,
ReadCommunity: "test",
SystemContact: "sys contact",
SnmpAccess: []string{"192.168.1.0/24"},
}
qosTrafficClassifiers := make([]ov.QosTrafficClassifier, 4)
qosTrafficClass := ov.QosTrafficClass{
BandwidthShare: "10",
EgressDot1pValue: 5,
MaxBandwidth: 10,
RealTime: &tr,
ClassName: "RealTime",
Enabled: &tr,
}
qosClassificationMap1 := ov.QosClassificationMap{
Dot1pClassMapping: []int{5, 6, 7},
DscpClassMapping: []string{"DSCP 46, EF", "DSCP 40, CS5", "DSCP 48, CS6", "DSCP 56, CS7"},
}
qosTrafficClassifier := ov.QosTrafficClassifier{
QosTrafficClass: qosTrafficClass,
QosClassificationMapping: &qosClassificationMap1,
}
qosTrafficClassifiers[0] = qosTrafficClassifier
qosTrafficClass = ov.QosTrafficClass{
BandwidthShare: "fcoe",
EgressDot1pValue: 3,
MaxBandwidth: 100,
RealTime: &f,
ClassName: "FCoE lossless",
Enabled: &tr,
}
qosClassificationMap2 := ov.QosClassificationMap{
Dot1pClassMapping: []int{3},
DscpClassMapping: []string{},
}
qosTrafficClassifier = ov.QosTrafficClassifier{
QosTrafficClass: qosTrafficClass,
QosClassificationMapping: &qosClassificationMap2,
}
qosTrafficClassifiers[1] = qosTrafficClassifier
qosTrafficClass = ov.QosTrafficClass{
BandwidthShare: "65",
EgressDot1pValue: 0,
MaxBandwidth: 100,
RealTime: &f,
ClassName: "Best effort",
Enabled: &tr,
}
qosClassificationMap3 := ov.QosClassificationMap{
Dot1pClassMapping: []int{1, 0},
DscpClassMapping: []string{"DSCP 10, AF11", "DSCP 12, AF12", "DSCP 14, AF13", "DSCP 8, CS1", "DSCP 0, CS0"},
}
qosTrafficClassifier = ov.QosTrafficClassifier{
QosTrafficClass: qosTrafficClass,
QosClassificationMapping: &qosClassificationMap3,
}
qosTrafficClassifiers[2] = qosTrafficClassifier
qosTrafficClass = ov.QosTrafficClass{
BandwidthShare: "25",
EgressDot1pValue: 2,
MaxBandwidth: 100,
RealTime: &f,
ClassName: "Medium",
Enabled: &tr,
}
qosClassificationMap4 := ov.QosClassificationMap{
Dot1pClassMapping: []int{4, 3, 2},
DscpClassMapping: []string{"DSCP 18, AF21",
"DSCP 20, AF22",
"DSCP 22, AF23",
"DSCP 26, AF31",
"DSCP 28, AF32",
"DSCP 30, AF33",
"DSCP 34, AF41",
"DSCP 36, AF42",
"DSCP 38, AF43",
"DSCP 16, CS2",
"DSCP 24, CS3",
"DSCP 32, CS4"},
}
qosTrafficClassifier = ov.QosTrafficClassifier{
QosTrafficClass: qosTrafficClass,
QosClassificationMapping: &qosClassificationMap4,
}
qosTrafficClassifiers[3] = qosTrafficClassifier
activeQosConfig := ov.ActiveQosConfig{
Type: "QosConfiguration",
ConfigType: "CustomWithFCoE",
QosTrafficClassifiers: qosTrafficClassifiers,
UplinkClassificationType: "DOT1P",
DownlinkClassificationType: "DOT1P_AND_DSCP",
}
qosConfiguration := ov.QosConfiguration{
Type: "qos-aggregated-configuration",
ActiveQosConfig: activeQosConfig,
}*/
testLogicalInterconnectGroup := ov.LogicalInterconnectGroup{
Name: testName,
Type: d.Tc.GetTestData(d.Env, "Type").(string),
EnclosureType: d.Tc.GetTestData(d.Env, "EnclosureType").(string),
//InterconnectMapTemplate: &interconnectMapTemplate,
//EthernetSettings: ðernetSettings,
//TelemetryConfiguration: &telemetryConfig,
//SnmpConfiguration: &snmpConfiguration,
//QosConfiguration: &qosConfiguration,
}
err := c.CreateLogicalInterconnectGroup(testLogicalInterconnectGroup)
assert.NoError(t, err, "CreateLogicalInterconnectGroup error -> %s", err)
err = c.CreateLogicalInterconnectGroup(testLogicalInterconnectGroup)
assert.Error(t, err, "CreateLogicalInterconnectGroup should error because the LogicalInterconnectGroup already exists, err-")
} else {
log.Warnf("The logicalInterconnectGroup already exists, so skipping CreateLogicalInterconnectGroup test for %s", testName)
}
}
}
