Example 6 with LoadBalancer
use of com.microsoft.azure.management.network.LoadBalancer in project azure-sdk-for-java by Azure.
the class ManageInternalLoadBalancer method runSample.
/**
* Main function which runs the actual sample.
* @param azure instance of the azure client
* @return true if sample runs successfully
*/
public static boolean runSample(Azure azure) {
final String rgName = SdkContext.randomResourceName("rgNEML", 15);
final String vnetName = SdkContext.randomResourceName("vnet", 24);
final String loadBalancerName3 = SdkContext.randomResourceName("intlb3" + "-", 18);
final String loadBalancerName4 = SdkContext.randomResourceName("intlb4" + "-", 18);
final String privateFrontEndName = loadBalancerName3 + "-BE";
final String backendPoolName3 = loadBalancerName3 + "-BAP3";
final int orcaleSQLNodePort = 1521;
final String httpProbe = "httpProbe";
final String tcpLoadBalancingRule = "tcpRule";
final String natRule6000to22forVM3 = "nat6000to22forVM3";
final String natRule6001to23forVM3 = "nat6001to23forVM3";
final String natRule6002to22forVM4 = "nat6002to22forVM4";
final String natRule6003to23forVM4 = "nat6003to23forVM4";
final String networkInterfaceName3 = SdkContext.randomResourceName("nic3", 24);
final String networkInterfaceName4 = SdkContext.randomResourceName("nic4", 24);
final String availSetName = SdkContext.randomResourceName("av2", 24);
final String vmName3 = SdkContext.randomResourceName("lVM3", 24);
final String vmName4 = SdkContext.randomResourceName("lVM4", 24);
final String userName = "tirekicker";
final String sshKey = "ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQCfSPC2K7LZcFKEO+/t3dzmQYtrJFZNxOsbVgOVKietqHyvmYGHEC0J2wPdAqQ/63g/hhAEFRoyehM+rbeDri4txB3YFfnOK58jqdkyXzupWqXzOrlKY4Wz9SKjjN765+dqUITjKRIaAip1Ri137szRg71WnrmdP3SphTRlCx1Bk2nXqWPsclbRDCiZeF8QOTi4JqbmJyK5+0UqhqYRduun8ylAwKKQJ1NJt85sYIHn9f1Rfr6Tq2zS0wZ7DHbZL+zB5rSlAr8QyUdg/GQD+cmSs6LvPJKL78d6hMGk84ARtFo4A79ovwX/Fj01znDQkU6nJildfkaolH2rWFG/qttD azjava@javalib.com";
try {
//=============================================================
// Create a virtual network with a frontend and a backend subnets
System.out.println("Creating virtual network with a frontend and a backend subnets...");
Network network = azure.networks().define(vnetName).withRegion(Region.US_EAST).withNewResourceGroup(rgName).withAddressSpace("172.16.0.0/16").defineSubnet("Front-end").withAddressPrefix("172.16.1.0/24").attach().defineSubnet("Back-end").withAddressPrefix("172.16.3.0/24").attach().create();
System.out.println("Created a virtual network");
// Print the virtual network details
Utils.print(network);
//=============================================================
// Create an internal load balancer
// Create a frontend IP address
// Two backend address pools which contain network interfaces for the virtual
// machines to receive HTTP and HTTPS network traffic from the load balancer
// Two load balancing rules for HTTP and HTTPS to map public ports on the load
// balancer to ports in the backend address pool
// Two probes which contain HTTP and HTTPS health probes used to check availability
// of virtual machines in the backend address pool
// Two inbound NAT rules which contain rules that map a public port on the load
// balancer to a port for a specific virtual machine in the backend address pool
// - this provides direct VM connectivity for SSH to port 22 and TELNET to port 23
System.out.println("Creating an internal facing load balancer with ...");
System.out.println("- A private IP address");
System.out.println("- One backend address pool which contain network interfaces for the virtual\n" + " machines to receive 1521 network traffic from the load balancer");
System.out.println("- One load balancing rules for 1521 to map public ports on the load\n" + " balancer to ports in the backend address pool");
System.out.println("- One probe which contains HTTP health probe used to check availability\n" + " of virtual machines in the backend address pool");
System.out.println("- Two inbound NAT rules which contain rules that map a port on the load\n" + " balancer to a port for a specific virtual machine in the backend address pool\n" + " - this provides direct VM connectivity for SSH to port 22 and TELNET to port 23");
LoadBalancer loadBalancer3 = azure.loadBalancers().define(loadBalancerName3).withRegion(Region.US_EAST).withExistingResourceGroup(rgName).definePrivateFrontend(privateFrontEndName).withExistingSubnet(network, "Back-end").withPrivateIPAddressStatic("172.16.3.5").attach().defineBackend(backendPoolName3).attach().defineHttpProbe("httpProbe").withRequestPath("/").attach().defineLoadBalancingRule(tcpLoadBalancingRule).withProtocol(TransportProtocol.TCP).withFrontend(privateFrontEndName).withFrontendPort(orcaleSQLNodePort).withProbe(httpProbe).withBackend(backendPoolName3).attach().defineInboundNatRule(natRule6000to22forVM3).withProtocol(TransportProtocol.TCP).withFrontend(privateFrontEndName).withFrontendPort(6000).withBackendPort(22).attach().defineInboundNatRule(natRule6001to23forVM3).withProtocol(TransportProtocol.TCP).withFrontend(privateFrontEndName).withFrontendPort(6001).withBackendPort(23).attach().defineInboundNatRule(natRule6002to22forVM4).withProtocol(TransportProtocol.TCP).withFrontend(privateFrontEndName).withFrontendPort(6002).withBackendPort(22).attach().defineInboundNatRule(natRule6003to23forVM4).withProtocol(TransportProtocol.TCP).withFrontend(privateFrontEndName).withFrontendPort(6003).withBackendPort(23).attach().create();
// Print load balancer details
System.out.println("Created an internal load balancer");
Utils.print(loadBalancer3);
//=============================================================
// Define two network interfaces in the backend subnet
// associate network interfaces to NAT rules, backend pools
Creatable<NetworkInterface> networkInterface3Creatable = azure.networkInterfaces().define(networkInterfaceName3).withRegion(Region.US_EAST).withNewResourceGroup(rgName).withExistingPrimaryNetwork(network).withSubnet("Back-end").withPrimaryPrivateIPAddressDynamic().withExistingLoadBalancerBackend(loadBalancer3, backendPoolName3).withExistingLoadBalancerInboundNatRule(loadBalancer3, natRule6000to22forVM3).withExistingLoadBalancerInboundNatRule(loadBalancer3, natRule6001to23forVM3);
Creatable<NetworkInterface> networkInterface4Creatable = azure.networkInterfaces().define(networkInterfaceName4).withRegion(Region.US_EAST).withNewResourceGroup(rgName).withExistingPrimaryNetwork(network).withSubnet("Back-end").withPrimaryPrivateIPAddressDynamic().withExistingLoadBalancerBackend(loadBalancer3, backendPoolName3).withExistingLoadBalancerInboundNatRule(loadBalancer3, natRule6002to22forVM4).withExistingLoadBalancerInboundNatRule(loadBalancer3, natRule6003to23forVM4);
//=============================================================
// Define an availability set
Creatable<AvailabilitySet> availSet2Definition = azure.availabilitySets().define(availSetName).withRegion(Region.US_EAST).withNewResourceGroup(rgName).withFaultDomainCount(2).withUpdateDomainCount(4).withSku(AvailabilitySetSkuTypes.MANAGED);
//=============================================================
// Create two virtual machines and assign network interfaces
System.out.println("Creating two virtual machines in the frontend subnet ...");
System.out.println("- And assigning network interfaces");
List<Creatable<VirtualMachine>> virtualMachineCreateables2 = new ArrayList<Creatable<VirtualMachine>>();
Creatable<VirtualMachine> virtualMachine3Creatable = azure.virtualMachines().define(vmName3).withRegion(Region.US_EAST).withExistingResourceGroup(rgName).withNewPrimaryNetworkInterface(networkInterface3Creatable).withPopularLinuxImage(KnownLinuxVirtualMachineImage.UBUNTU_SERVER_16_04_LTS).withRootUsername(userName).withSsh(sshKey).withSize(VirtualMachineSizeTypes.STANDARD_D3_V2).withNewAvailabilitySet(availSet2Definition);
virtualMachineCreateables2.add(virtualMachine3Creatable);
Creatable<VirtualMachine> virtualMachine4Creatable = azure.virtualMachines().define(vmName4).withRegion(Region.US_EAST).withExistingResourceGroup(rgName).withNewPrimaryNetworkInterface(networkInterface4Creatable).withPopularLinuxImage(KnownLinuxVirtualMachineImage.UBUNTU_SERVER_16_04_LTS).withRootUsername(userName).withSsh(sshKey).withSize(VirtualMachineSizeTypes.STANDARD_D3_V2).withNewAvailabilitySet(availSet2Definition);
virtualMachineCreateables2.add(virtualMachine4Creatable);
StopWatch stopwatch = new StopWatch();
stopwatch.start();
Collection<VirtualMachine> virtualMachines = azure.virtualMachines().create(virtualMachineCreateables2).values();
stopwatch.stop();
System.out.println("Created 2 Linux VMs: (took " + (stopwatch.getTime() / 1000) + " seconds) ");
System.out.println();
// Print virtual machine details
for (VirtualMachine vm : virtualMachines) {
Utils.print(vm);
System.out.println();
}
//=============================================================
// Update a load balancer
// configure TCP idle timeout to 15 minutes
System.out.println("Updating the load balancer ...");
loadBalancer3.update().updateLoadBalancingRule(tcpLoadBalancingRule).withIdleTimeoutInMinutes(15).parent().apply();
System.out.println("Update the load balancer with a TCP idle timeout to 15 minutes");
//=============================================================
// Create another internal load balancer
// Create a frontend IP address
// Two backend address pools which contain network interfaces for the virtual
// machines to receive HTTP and HTTPS network traffic from the load balancer
// Two load balancing rules for HTTP and HTTPS to map public ports on the load
// balancer to ports in the backend address pool
// Two probes which contain HTTP and HTTPS health probes used to check availability
// of virtual machines in the backend address pool
// Two inbound NAT rules which contain rules that map a public port on the load
// balancer to a port for a specific virtual machine in the backend address pool
// - this provides direct VM connectivity for SSH to port 22 and TELNET to port 23
System.out.println("Creating another internal facing load balancer with ...");
System.out.println("- A private IP address");
System.out.println("- One backend address pool which contain network interfaces for the virtual\n" + " machines to receive 1521 network traffic from the load balancer");
System.out.println("- One load balancing rules for 1521 to map public ports on the load\n" + " balancer to ports in the backend address pool");
System.out.println("- One probe which contains HTTP health probe used to check availability\n" + " of virtual machines in the backend address pool");
System.out.println("- Two inbound NAT rules which contain rules that map a port on the load\n" + " balancer to a port for a specific virtual machine in the backend address pool\n" + " - this provides direct VM connectivity for SSH to port 22 and TELNET to port 23");
LoadBalancer loadBalancer4 = azure.loadBalancers().define(loadBalancerName4).withRegion(Region.US_EAST).withExistingResourceGroup(rgName).definePrivateFrontend(privateFrontEndName).withExistingSubnet(network, "Back-end").withPrivateIPAddressStatic("172.16.3.15").attach().defineBackend(backendPoolName3).attach().defineHttpProbe("httpProbe").withRequestPath("/").attach().defineLoadBalancingRule(tcpLoadBalancingRule).withProtocol(TransportProtocol.TCP).withFrontend(privateFrontEndName).withFrontendPort(orcaleSQLNodePort).withProbe(httpProbe).withBackend(backendPoolName3).attach().defineInboundNatRule(natRule6000to22forVM3).withProtocol(TransportProtocol.TCP).withFrontend(privateFrontEndName).withFrontendPort(6000).withBackendPort(22).attach().defineInboundNatRule(natRule6001to23forVM3).withProtocol(TransportProtocol.TCP).withFrontend(privateFrontEndName).withFrontendPort(6001).withBackendPort(23).attach().defineInboundNatRule(natRule6002to22forVM4).withProtocol(TransportProtocol.TCP).withFrontend(privateFrontEndName).withFrontendPort(6002).withBackendPort(22).attach().defineInboundNatRule(natRule6003to23forVM4).withProtocol(TransportProtocol.TCP).withFrontend(privateFrontEndName).withFrontendPort(6003).withBackendPort(23).attach().create();
// Print load balancer details
System.out.println("Created an internal load balancer");
Utils.print(loadBalancer4);
//=============================================================
// List load balancers
List<LoadBalancer> loadBalancers = azure.loadBalancers().list();
System.out.println("Walking through the list of load balancers");
for (LoadBalancer loadBalancer : loadBalancers) {
Utils.print(loadBalancer);
System.out.println();
}
//=============================================================
// Remove a load balancer
System.out.println("Deleting load balancer " + loadBalancerName4 + "(" + loadBalancer4.id() + ")");
azure.loadBalancers().deleteById(loadBalancer4.id());
System.out.println("Deleted load balancer" + loadBalancerName4);
return true;
} catch (Exception f) {
System.out.println(f.getMessage());
f.printStackTrace();
} finally {
try {
System.out.println("Deleting Resource Group: " + rgName);
azure.resourceGroups().deleteByName(rgName);
System.out.println("Deleted Resource Group: " + rgName);
} catch (NullPointerException npe) {
System.out.println("Did not create any resources in Azure. No clean up is necessary");
} catch (Exception g) {
g.printStackTrace();
}
}
return false;
}
Also used :
ArrayList(java.util.ArrayList)
LoadBalancer(com.microsoft.azure.management.network.LoadBalancer)
NetworkInterface(com.microsoft.azure.management.network.NetworkInterface)
StopWatch(org.apache.commons.lang3.time.StopWatch)
Network(com.microsoft.azure.management.network.Network)
Creatable(com.microsoft.azure.management.resources.fluentcore.model.Creatable)
AvailabilitySet(com.microsoft.azure.management.compute.AvailabilitySet)
VirtualMachine(com.microsoft.azure.management.compute.VirtualMachine)
Example 7 with LoadBalancer
use of com.microsoft.azure.management.network.LoadBalancer in project azure-sdk-for-java by Azure.
the class ManageInternetFacingLoadBalancer method runSample.
/**
* Main function which runs the actual sample.
* @param azure instance of the azure client
* @return true if sample runs successfully
*/
public static boolean runSample(Azure azure) {
final String rgName = SdkContext.randomResourceName("rgNEML", 15);
final String vnetName = SdkContext.randomResourceName("vnet", 24);
final String loadBalancerName1 = SdkContext.randomResourceName("intlb1" + "-", 18);
final String loadBalancerName2 = SdkContext.randomResourceName("intlb2" + "-", 18);
final String publicIpName1 = "pip1-" + loadBalancerName1;
final String publicIpName2 = "pip2-" + loadBalancerName1;
final String frontendName = loadBalancerName1 + "-FE1";
final String backendPoolName1 = loadBalancerName1 + "-BAP1";
final String backendPoolName2 = loadBalancerName1 + "-BAP2";
final String httpProbe = "httpProbe";
final String httpsProbe = "httpsProbe";
final String httpLoadBalancingRule = "httpRule";
final String httpsLoadBalancingRule = "httpsRule";
final String natRule5000to22forVM1 = "nat5000to22forVM1";
final String natRule5001to23forVM1 = "nat5001to23forVM1";
final String natRule5002to22forVM2 = "nat5002to22forVM2";
final String natRule5003to23forVM2 = "nat5003to23forVM2";
final String networkInterfaceName1 = SdkContext.randomResourceName("nic1", 24);
final String networkInterfaceName2 = SdkContext.randomResourceName("nic2", 24);
final String availSetName = SdkContext.randomResourceName("av", 24);
final String userName = "tirekicker";
final String sshKey = "ssh-rsa AAAAB3NzaC1yc2EAAAADAQABAAABAQCfSPC2K7LZcFKEO+/t3dzmQYtrJFZNxOsbVgOVKietqHyvmYGHEC0J2wPdAqQ/63g/hhAEFRoyehM+rbeDri4txB3YFfnOK58jqdkyXzupWqXzOrlKY4Wz9SKjjN765+dqUITjKRIaAip1Ri137szRg71WnrmdP3SphTRlCx1Bk2nXqWPsclbRDCiZeF8QOTi4JqbmJyK5+0UqhqYRduun8ylAwKKQJ1NJt85sYIHn9f1Rfr6Tq2zS0wZ7DHbZL+zB5rSlAr8QyUdg/GQD+cmSs6LvPJKL78d6hMGk84ARtFo4A79ovwX/Fj01znDQkU6nJildfkaolH2rWFG/qttD azjava@javalib.com";
try {
//=============================================================
// Create a virtual network with a frontend and a backend subnets
System.out.println("Creating virtual network with a frontend and a backend subnets...");
Network network = azure.networks().define(vnetName).withRegion(Region.US_EAST).withNewResourceGroup(rgName).withAddressSpace("172.16.0.0/16").defineSubnet("Front-end").withAddressPrefix("172.16.1.0/24").attach().defineSubnet("Back-end").withAddressPrefix("172.16.3.0/24").attach().create();
System.out.println("Created a virtual network");
// Print the virtual network details
Utils.print(network);
//=============================================================
// Create a public IP address
System.out.println("Creating a public IP address...");
PublicIPAddress publicIPAddress = azure.publicIPAddresses().define(publicIpName1).withRegion(Region.US_EAST).withExistingResourceGroup(rgName).withLeafDomainLabel(publicIpName1).create();
System.out.println("Created a public IP address");
// Print the virtual network details
Utils.print(publicIPAddress);
//=============================================================
// Create an Internet facing load balancer
// Create a frontend IP address
// Two backend address pools which contain network interfaces for the virtual
// machines to receive HTTP and HTTPS network traffic from the load balancer
// Two load balancing rules for HTTP and HTTPS to map public ports on the load
// balancer to ports in the backend address pool
// Two probes which contain HTTP and HTTPS health probes used to check availability
// of virtual machines in the backend address pool
// Two inbound NAT rules which contain rules that map a public port on the load
// balancer to a port for a specific virtual machine in the backend address pool
// - this provides direct VM connectivity for SSH to port 22 and TELNET to port 23
System.out.println("Creating a Internet facing load balancer with ...");
System.out.println("- A frontend IP address");
System.out.println("- Two backend address pools which contain network interfaces for the virtual\n" + " machines to receive HTTP and HTTPS network traffic from the load balancer");
System.out.println("- Two load balancing rules for HTTP and HTTPS to map public ports on the load\n" + " balancer to ports in the backend address pool");
System.out.println("- Two probes which contain HTTP and HTTPS health probes used to check availability\n" + " of virtual machines in the backend address pool");
System.out.println("- Two inbound NAT rules which contain rules that map a public port on the load\n" + " balancer to a port for a specific virtual machine in the backend address pool\n" + " - this provides direct VM connectivity for SSH to port 22 and TELNET to port 23");
LoadBalancer loadBalancer1 = azure.loadBalancers().define(loadBalancerName1).withRegion(Region.US_EAST).withExistingResourceGroup(rgName).definePublicFrontend(frontendName).withExistingPublicIPAddress(publicIPAddress).attach().defineBackend(backendPoolName1).attach().defineBackend(backendPoolName2).attach().defineHttpProbe(httpProbe).withRequestPath("/").withPort(80).attach().defineHttpProbe(httpsProbe).withRequestPath("/").withPort(443).attach().defineLoadBalancingRule(httpLoadBalancingRule).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(80).withProbe(httpProbe).withBackend(backendPoolName1).attach().defineLoadBalancingRule(httpsLoadBalancingRule).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(443).withProbe(httpsProbe).withBackend(backendPoolName2).attach().defineInboundNatRule(natRule5000to22forVM1).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(5000).withBackendPort(22).attach().defineInboundNatRule(natRule5001to23forVM1).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(5001).withBackendPort(23).attach().defineInboundNatRule(natRule5002to22forVM2).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(5002).withBackendPort(22).attach().defineInboundNatRule(natRule5003to23forVM2).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(5003).withBackendPort(23).attach().create();
// Print load balancer details
System.out.println("Created a load balancer");
Utils.print(loadBalancer1);
//=============================================================
// Define two network interfaces in the frontend subnet
// associate network interfaces to NAT rules, backend pools
System.out.println("Creating two network interfaces in the frontend subnet ...");
System.out.println("- And associating network interfaces to backend pools and NAT rules");
List<Creatable<NetworkInterface>> networkInterfaceCreatables = new ArrayList<Creatable<NetworkInterface>>();
Creatable<NetworkInterface> networkInterface1Creatable = azure.networkInterfaces().define(networkInterfaceName1).withRegion(Region.US_EAST).withNewResourceGroup(rgName).withExistingPrimaryNetwork(network).withSubnet("Front-end").withPrimaryPrivateIPAddressDynamic().withExistingLoadBalancerBackend(loadBalancer1, backendPoolName1).withExistingLoadBalancerBackend(loadBalancer1, backendPoolName2).withExistingLoadBalancerInboundNatRule(loadBalancer1, natRule5000to22forVM1).withExistingLoadBalancerInboundNatRule(loadBalancer1, natRule5001to23forVM1);
networkInterfaceCreatables.add(networkInterface1Creatable);
Creatable<NetworkInterface> networkInterface2Creatable = azure.networkInterfaces().define(networkInterfaceName2).withRegion(Region.US_EAST).withNewResourceGroup(rgName).withExistingPrimaryNetwork(network).withSubnet("Front-end").withPrimaryPrivateIPAddressDynamic().withExistingLoadBalancerBackend(loadBalancer1, backendPoolName1).withExistingLoadBalancerBackend(loadBalancer1, backendPoolName2).withExistingLoadBalancerInboundNatRule(loadBalancer1, natRule5002to22forVM2).withExistingLoadBalancerInboundNatRule(loadBalancer1, natRule5003to23forVM2);
networkInterfaceCreatables.add(networkInterface2Creatable);
//=============================================================
// Define an availability set
Creatable<AvailabilitySet> availSet1Definition = azure.availabilitySets().define(availSetName).withRegion(Region.US_EAST).withNewResourceGroup(rgName).withFaultDomainCount(2).withUpdateDomainCount(4).withSku(AvailabilitySetSkuTypes.MANAGED);
//=============================================================
// Create two virtual machines and assign network interfaces
System.out.println("Creating two virtual machines in the frontend subnet ...");
System.out.println("- And assigning network interfaces");
List<Creatable<VirtualMachine>> virtualMachineCreateables1 = new ArrayList<Creatable<VirtualMachine>>();
for (Creatable<NetworkInterface> nicDefinition : networkInterfaceCreatables) {
virtualMachineCreateables1.add(azure.virtualMachines().define(SdkContext.randomResourceName("lVM1", 24)).withRegion(Region.US_EAST).withExistingResourceGroup(rgName).withNewPrimaryNetworkInterface(nicDefinition).withPopularLinuxImage(KnownLinuxVirtualMachineImage.UBUNTU_SERVER_16_04_LTS).withRootUsername(userName).withSsh(sshKey).withSize(VirtualMachineSizeTypes.STANDARD_D3_V2).withNewAvailabilitySet(availSet1Definition));
}
StopWatch stopwatch = new StopWatch();
stopwatch.start();
Collection<VirtualMachine> virtualMachines = azure.virtualMachines().create(virtualMachineCreateables1).values();
stopwatch.stop();
System.out.println("Created 2 Linux VMs: (took " + (stopwatch.getTime() / 1000) + " seconds) ");
System.out.println();
// Print virtual machine details
for (VirtualMachine vm : virtualMachines) {
Utils.print(vm);
System.out.println();
}
//=============================================================
// Update a load balancer
// configure TCP idle timeout to 15 minutes
System.out.println("Updating the load balancer ...");
loadBalancer1.update().updateLoadBalancingRule(httpLoadBalancingRule).withIdleTimeoutInMinutes(15).parent().updateLoadBalancingRule(httpsLoadBalancingRule).withIdleTimeoutInMinutes(15).parent().apply();
System.out.println("Update the load balancer with a TCP idle timeout to 15 minutes");
//=============================================================
// Create another public IP address
System.out.println("Creating another public IP address...");
PublicIPAddress publicIPAddress2 = azure.publicIPAddresses().define(publicIpName2).withRegion(Region.US_EAST).withExistingResourceGroup(rgName).withLeafDomainLabel(publicIpName2).create();
System.out.println("Created another public IP address");
// Print the virtual network details
Utils.print(publicIPAddress2);
//=============================================================
// Create another Internet facing load balancer
// Create a frontend IP address
// Two backend address pools which contain network interfaces for the virtual
// machines to receive HTTP and HTTPS network traffic from the load balancer
// Two load balancing rules for HTTP and HTTPS to map public ports on the load
// balancer to ports in the backend address pool
// Two probes which contain HTTP and HTTPS health probes used to check availability
// of virtual machines in the backend address pool
// Two inbound NAT rules which contain rules that map a public port on the load
// balancer to a port for a specific virtual machine in the backend address pool
// - this provides direct VM connectivity for SSH to port 22 and TELNET to port 23
System.out.println("Creating another Internet facing load balancer with ...");
System.out.println("- A frontend IP address");
System.out.println("- Two backend address pools which contain network interfaces for the virtual\n" + " machines to receive HTTP and HTTPS network traffic from the load balancer");
System.out.println("- Two load balancing rules for HTTP and HTTPS to map public ports on the load\n" + " balancer to ports in the backend address pool");
System.out.println("- Two probes which contain HTTP and HTTPS health probes used to check availability\n" + " of virtual machines in the backend address pool");
System.out.println("- Two inbound NAT rules which contain rules that map a public port on the load\n" + " balancer to a port for a specific virtual machine in the backend address pool\n" + " - this provides direct VM connectivity for SSH to port 22 and TELNET to port 23");
LoadBalancer loadBalancer2 = azure.loadBalancers().define(loadBalancerName2).withRegion(Region.US_EAST).withExistingResourceGroup(rgName).definePublicFrontend(frontendName).withExistingPublicIPAddress(publicIPAddress2).attach().defineBackend(backendPoolName1).attach().defineBackend(backendPoolName2).attach().defineHttpProbe(httpProbe).withRequestPath("/").withPort(80).attach().defineHttpProbe(httpsProbe).withRequestPath("/").withPort(443).attach().defineLoadBalancingRule(httpLoadBalancingRule).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(80).withProbe(httpProbe).withBackend(backendPoolName1).attach().defineLoadBalancingRule(httpsLoadBalancingRule).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(443).withProbe(httpsProbe).withBackend(backendPoolName2).attach().defineInboundNatRule(natRule5000to22forVM1).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(5000).withBackendPort(22).attach().defineInboundNatRule(natRule5001to23forVM1).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(5001).withBackendPort(23).attach().defineInboundNatRule(natRule5002to22forVM2).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(5002).withBackendPort(22).attach().defineInboundNatRule(natRule5003to23forVM2).withProtocol(TransportProtocol.TCP).withFrontend(frontendName).withFrontendPort(5003).withBackendPort(23).attach().create();
// Print load balancer details
System.out.println("Created another load balancer");
Utils.print(loadBalancer2);
//=============================================================
// List load balancers
List<LoadBalancer> loadBalancers = azure.loadBalancers().list();
System.out.println("Walking through the list of load balancers");
for (LoadBalancer loadBalancer : loadBalancers) {
Utils.print(loadBalancer);
}
//=============================================================
// Remove a load balancer
System.out.println("Deleting load balancer " + loadBalancerName2 + "(" + loadBalancer2.id() + ")");
azure.loadBalancers().deleteById(loadBalancer2.id());
System.out.println("Deleted load balancer" + loadBalancerName2);
return true;
} catch (Exception f) {
System.out.println(f.getMessage());
f.printStackTrace();
} finally {
try {
System.out.println("Deleting Resource Group: " + rgName);
azure.resourceGroups().deleteByName(rgName);
System.out.println("Deleted Resource Group: " + rgName);
} catch (NullPointerException npe) {
System.out.println("Did not create any resources in Azure. No clean up is necessary");
} catch (Exception g) {
g.printStackTrace();
}
}
return false;
}
Also used :
ArrayList(java.util.ArrayList)
LoadBalancer(com.microsoft.azure.management.network.LoadBalancer)
NetworkInterface(com.microsoft.azure.management.network.NetworkInterface)
PublicIPAddress(com.microsoft.azure.management.network.PublicIPAddress)
StopWatch(org.apache.commons.lang3.time.StopWatch)
Network(com.microsoft.azure.management.network.Network)
Creatable(com.microsoft.azure.management.resources.fluentcore.model.Creatable)
AvailabilitySet(com.microsoft.azure.management.compute.AvailabilitySet)
VirtualMachine(com.microsoft.azure.management.compute.VirtualMachine)
Example 8 with LoadBalancer
use of com.microsoft.azure.management.network.LoadBalancer in project azure-sdk-for-java by Azure.
the class NicIPConfigurationBaseImpl method listAssociatedLoadBalancerInboundNatRules.
public List<LoadBalancerInboundNatRule> listAssociatedLoadBalancerInboundNatRules() {
final List<InboundNatRuleInner> inboundNatPoolRefs = this.inner().loadBalancerInboundNatRules();
if (inboundNatPoolRefs == null) {
return Collections.unmodifiableList(new ArrayList<LoadBalancerInboundNatRule>());
}
final Map<String, LoadBalancer> loadBalancers = new HashMap<>();
final List<LoadBalancerInboundNatRule> rules = new ArrayList<>();
for (InboundNatRuleInner ref : inboundNatPoolRefs) {
String loadBalancerId = ResourceUtils.parentResourceIdFromResourceId(ref.id());
LoadBalancer loadBalancer = loadBalancers.get(loadBalancerId);
if (loadBalancer == null) {
loadBalancer = this.networkManager.loadBalancers().getById(loadBalancerId);
loadBalancers.put(loadBalancerId, loadBalancer);
}
String ruleName = ResourceUtils.nameFromResourceId(ref.id());
rules.add(loadBalancer.inboundNatRules().get(ruleName));
}
return Collections.unmodifiableList(rules);
}
Also used :
HashMap(java.util.HashMap)
ArrayList(java.util.ArrayList)
LoadBalancer(com.microsoft.azure.management.network.LoadBalancer)
LoadBalancerInboundNatRule(com.microsoft.azure.management.network.LoadBalancerInboundNatRule)
Example 9 with LoadBalancer
use of com.microsoft.azure.management.network.LoadBalancer in project azure-sdk-for-java by Azure.
the class NicIPConfigurationBaseImpl method listAssociatedLoadBalancerBackends.
public List<LoadBalancerBackend> listAssociatedLoadBalancerBackends() {
final List<BackendAddressPoolInner> backendRefs = this.inner().loadBalancerBackendAddressPools();
if (backendRefs == null) {
return Collections.unmodifiableList(new ArrayList<LoadBalancerBackend>());
}
final Map<String, LoadBalancer> loadBalancers = new HashMap<>();
final List<LoadBalancerBackend> backends = new ArrayList<>();
for (BackendAddressPoolInner backendRef : backendRefs) {
String loadBalancerId = ResourceUtils.parentResourceIdFromResourceId(backendRef.id());
LoadBalancer loadBalancer = loadBalancers.get(loadBalancerId);
if (loadBalancer == null) {
loadBalancer = this.networkManager.loadBalancers().getById(loadBalancerId);
loadBalancers.put(loadBalancerId, loadBalancer);
}
String backendName = ResourceUtils.nameFromResourceId(backendRef.id());
backends.add(loadBalancer.backends().get(backendName));
}
return Collections.unmodifiableList(backends);
}
Also used :
HashMap(java.util.HashMap)
ArrayList(java.util.ArrayList)
LoadBalancer(com.microsoft.azure.management.network.LoadBalancer)
LoadBalancerBackend(com.microsoft.azure.management.network.LoadBalancerBackend)
Example 10 with LoadBalancer
use of com.microsoft.azure.management.network.LoadBalancer in project azure-sdk-for-java by Azure.
the class TestPublicIPAddress method printPIP.
public static void printPIP(PublicIPAddress resource) {
StringBuilder info = new StringBuilder().append("Public IP Address: ").append(resource.id()).append("\n\tName: ").append(resource.name()).append("\n\tResource group: ").append(resource.resourceGroupName()).append("\n\tRegion: ").append(resource.region()).append("\n\tTags: ").append(resource.tags()).append("\n\tIP Address: ").append(resource.ipAddress()).append("\n\tLeaf domain label: ").append(resource.leafDomainLabel()).append("\n\tFQDN: ").append(resource.fqdn()).append("\n\tReverse FQDN: ").append(resource.reverseFqdn()).append("\n\tIdle timeout (minutes): ").append(resource.idleTimeoutInMinutes()).append("\n\tIP allocation method: ").append(resource.ipAllocationMethod().toString()).append("\n\tIP version: ").append(resource.version().toString());
// Show the associated load balancer if any
info.append("\n\tLoad balancer association: ");
if (resource.hasAssignedLoadBalancer()) {
final LoadBalancerPublicFrontend frontend = resource.getAssignedLoadBalancerFrontend();
final LoadBalancer lb = frontend.parent();
info.append("\n\t\tLoad balancer ID: ").append(lb.id()).append("\n\t\tFrontend name: ").append(frontend.name());
} else {
info.append("(None)");
}
// Show the associated NIC if any
info.append("\n\tNetwork interface association: ");
if (resource.hasAssignedNetworkInterface()) {
final NicIPConfiguration nicIp = resource.getAssignedNetworkInterfaceIPConfiguration();
final NetworkInterface nic = nicIp.parent();
info.append("\n\t\tNetwork interface ID: ").append(nic.id()).append("\n\t\tIP config name: ").append(nicIp.name());
} else {
info.append("(None)");
}
System.out.println(info.toString());
}
Also used :
LoadBalancerPublicFrontend(com.microsoft.azure.management.network.LoadBalancerPublicFrontend)
LoadBalancer(com.microsoft.azure.management.network.LoadBalancer)
NetworkInterface(com.microsoft.azure.management.network.NetworkInterface)
NicIPConfiguration(com.microsoft.azure.management.network.NicIPConfiguration)
Aggregations
LoadBalancer (com.microsoft.azure.management.network.LoadBalancer)16
Network (com.microsoft.azure.management.network.Network)7
PublicIPAddress (com.microsoft.azure.management.network.PublicIPAddress)7
ArrayList (java.util.ArrayList)7
LoadBalancerInboundNatRule (com.microsoft.azure.management.network.LoadBalancerInboundNatRule)4
VirtualMachineScaleSet (com.microsoft.azure.management.compute.VirtualMachineScaleSet)3
VirtualMachineScaleSetVM (com.microsoft.azure.management.compute.VirtualMachineScaleSetVM)3
NetworkInterface (com.microsoft.azure.management.network.NetworkInterface)3
VirtualMachineScaleSetNetworkInterface (com.microsoft.azure.management.network.VirtualMachineScaleSetNetworkInterface)3
VirtualMachineScaleSetNicIPConfiguration (com.microsoft.azure.management.network.VirtualMachineScaleSetNicIPConfiguration)3
Region (com.microsoft.azure.management.resources.fluentcore.arm.Region)3
Date (java.util.Date)3
AvailabilitySet (com.microsoft.azure.management.compute.AvailabilitySet)2
VirtualMachine (com.microsoft.azure.management.compute.VirtualMachine)2
LoadBalancerPublicFrontend (com.microsoft.azure.management.network.LoadBalancerPublicFrontend)2
ResourceGroup (com.microsoft.azure.management.resources.ResourceGroup)2
Creatable (com.microsoft.azure.management.resources.fluentcore.model.Creatable)2
HashMap (java.util.HashMap)2
StopWatch (org.apache.commons.lang3.time.StopWatch)2
Test (org.junit.Test)2
