// TestGetIloIPAddress verify get ip address for hardware
func TestGetIloIPAddress(t *testing.T) {
var (
d *OVTest
c *ov.OVClient
testData utils.Nstring
expectsData string
)
if os.Getenv("ONEVIEW_TEST_ACCEPTANCE") == "true" {
d, c = getTestDriverA("dev")
testData = utils.Nstring(d.Tc.GetTestData(d.Env, "ServerHardwareURI").(string))
expectsData = d.Tc.GetExpectsData(d.Env, "IloIPAddress").(string)
if c == nil {
t.Fatalf("Failed to execute getTestDriver() ")
}
s, err := c.GetServerHardware(testData)
assert.NoError(t, err, "GetServerHardware threw error -> %s", err)
ip := s.GetIloIPAddress()
log.Debugf("server -> %+v", s)
log.Debugf("ip -> %+v", ip)
assert.Equal(t, expectsData, ip)
}
}
// SetStaticInterface - converts an interface from NetConfig.Interface from dhcp to static
func (n *NetConfig) SetStaticInterface(
iface Interface,
ipv4gateway utils.Nstring,
ipv6gateway utils.Nstring,
staticiplist utils.Nstring,
isipv6 bool) {
var inet NetConfigInterface
var bupdated bool
bupdated = false
// update the existing interfaces in the list
for i, neti := range n.Interfaces {
if neti.MACAddr == iface.MACAddr {
inet = n.NewNetConfigInterface(
true, // enabled
iface.MACAddr, // mac address
false, // disable dhcp
isipv6, // ipv6
ipv6gateway, // ipv6 gateway
ipv4gateway, // ipv4 gateway
staticiplist, // static ip list
utils.Nstring(iface.Slot), // interface name
n.WINSList, // wins list
n.DNSNameList, // dns list
n.DNSSearchList, // dns search
i) // vlan id
n.Interfaces[i] = inet
bupdated = true
}
}
// append to the interfaces if we didn't update it
if !bupdated {
inet = n.NewNetConfigInterface(
true, // enabled
iface.MACAddr, // mac address
false, // disable dhcp
isipv6, // ipv6
ipv6gateway, // ipv6 gateway
ipv4gateway, // ipv4 gateway
staticiplist, // static ip list
utils.Nstring(iface.Slot), // interface name
n.WINSList, // wins list
n.DNSNameList, // dns list
n.DNSSearchList, // dns search list
len(n.Interfaces)) // vlan id
n.Interfaces = append(n.Interfaces, inet)
}
}
// get server hardware test
func TestGetAvailableHardware(t *testing.T) {
var (
d *OVTest
c *ov.OVClient
testHwType_URI utils.Nstring
testHWGroup_URI utils.Nstring
)
if os.Getenv("ONEVIEW_TEST_ACCEPTANCE") == "true" {
d, c = getTestDriverA("dev")
testHwType_URI = utils.Nstring(d.Tc.GetTestData(d.Env, "HardwareTypeURI").(string))
testHWGroup_URI = utils.Nstring(d.Tc.GetTestData(d.Env, "GroupURI").(string))
if c == nil {
t.Fatalf("Failed to execute getTestDriver() ")
}
data, err := c.GetAvailableHardware(testHwType_URI, testHWGroup_URI)
assert.NoError(t, err, "GetAvailableHardware threw error -> %s", err)
// fmt.Printf("data.Connections -> %+v\n", data)
log.Debugf("Abailable server -> %+v", data)
log.Infof("Server Name -> %+v", data.Name)
assert.NotEqual(t, "", data.Name)
}
}
// testing power state type
func TestPowerState(t *testing.T) {
var (
d *OVTest
c *ov.OVClient
testData utils.Nstring
expectsData string
)
if os.Getenv("ONEVIEW_TEST_ACCEPTANCE") == "true" {
d, c = getTestDriverA("dev")
testData = utils.Nstring(d.Tc.GetTestData(d.Env, "ServerHardwareURI").(string))
expectsData = d.Tc.GetExpectsData(d.Env, "SerialNumber").(string)
if c == nil {
t.Fatalf("Failed to execute getTestDriver() ")
}
// get a blade object
blade, err := c.GetServerHardware(testData)
assert.NoError(t, err, "GetServerHardware threw error -> %s", err)
assert.Equal(t, expectsData, blade.SerialNumber.String())
// get a power state object
var pt *ov.PowerTask
pt = pt.NewPowerTask(blade)
pt.Timeout = 46 // timeout is 20 sec
assert.Equal(t, expectsData, pt.Blade.SerialNumber.String())
// Test the power state executor to off
log.Info("------- Setting Power to Off")
err = pt.PowerExecutor(ov.P_OFF)
assert.NoError(t, err, "PowerExecutor threw no errors -> %s", err)
// Test the power state executor to on
log.Info("------- Setting Power to On")
err = pt.PowerExecutor(ov.P_ON)
assert.NoError(t, err, "PowerExecutor threw no errors -> %s", err)
// Test the power state executor to off and leave off
log.Info("------- Setting Power to Off")
err = pt.PowerExecutor(ov.P_OFF)
assert.NoError(t, err, "PowerExecutor threw no errors -> %s", err)
}
}
// get server hardware test
func TestServerHardware(t *testing.T) {
var (
d *OVTest
c *ov.OVClient
testData utils.Nstring
expectsData string
)
if os.Getenv("ONEVIEW_TEST_ACCEPTANCE") == "true" {
d, c = getTestDriverA("dev")
testData = utils.Nstring(d.Tc.GetTestData(d.Env, "ServerHardwareURI").(string))
expectsData = d.Tc.GetExpectsData(d.Env, "SerialNumber").(string)
if c == nil {
t.Fatalf("Failed to execute getTestDriver() ")
}
data, err := c.GetServerHardware(testData)
log.Debugf("%+v", data)
assert.NoError(t, err, "GetServerHardware threw error -> %s", err)
// fmt.Printf("data.Connections -> %+v\n", data)
assert.Equal(t, expectsData, data.SerialNumber.String())
}
}
// AddAllDHCP - make all the netconfig interfaces setup for dhcp
func (n *NetConfig) AddAllDHCP(interfaces []Interface, isipv6 bool, ipv6gateway utils.Nstring) {
var emptystring utils.Nstring
var netinterfaces []NetConfigInterface
for i, iface := range interfaces {
var niface NetConfigInterface
niface = n.NewNetConfigInterface(
true, // enabled
iface.MACAddr, // mac address
true, // dhcp
isipv6, // ipv6
ipv6gateway, // ipv6 gateway
emptystring, // ipv4 gateway
emptystring, // static nets
utils.Nstring(iface.Slot), // name
n.WINSList, //wins
n.DNSNameList, //dns
n.DNSSearchList, // dns search
i) // vlanid
netinterfaces = append(netinterfaces, niface)
}
n.Interfaces = netinterfaces
}