async Task SimpleParameterSetExecuteCmdlet(IAsyncCmdlet asyncCmdlet)
{
bool loadBalancerNamePassedIn = !String.IsNullOrWhiteSpace(LoadBalancerName);
ResourceGroupName = ResourceGroupName ?? VMScaleSetName;
VirtualNetworkName = VirtualNetworkName ?? VMScaleSetName;
SubnetName = SubnetName ?? VMScaleSetName;
PublicIpAddressName = PublicIpAddressName ?? VMScaleSetName;
SecurityGroupName = SecurityGroupName ?? VMScaleSetName;
LoadBalancerName = LoadBalancerName ?? VMScaleSetName;
FrontendPoolName = FrontendPoolName ?? VMScaleSetName;
BackendPoolName = BackendPoolName ?? VMScaleSetName;
var client = new Client(DefaultProfile.DefaultContext);
var parameters = new Parameters(this, client);
// If the user did not specify a load balancer name, mark the LB setting to ignore
// preexisting check. The most common scenario is users will let the cmdlet create and name the LB for them with the default
// config. We do not want to block that scenario in case the cmdlet failed mid operation and tthe user kicks it off again.
if (!loadBalancerNamePassedIn)
{
LoadBalancerStrategy.IgnorePreExistingConfigCheck = true;
}
else
{
LoadBalancerStrategy.IgnorePreExistingConfigCheck = false;
}
var result = await client.RunAsync(client.SubscriptionId, parameters, asyncCmdlet);
if (result != null)
{
var fqdn = PublicIPAddressStrategy.Fqdn(DomainNameLabel, Location);
var psObject = new PSVirtualMachineScaleSet();
ComputeAutomationAutoMapperProfile.Mapper.Map(result, psObject);
psObject.FullyQualifiedDomainName = fqdn;
var port = "<port>";
var connectionString = parameters.ImageAndOsType.GetConnectionString(
fqdn,
Credential.UserName,
port);
var range =
FirstPortRangeStart.ToString() +
".." +
(FirstPortRangeStart + InstanceCount * 2 - 1).ToString();
asyncCmdlet.WriteVerbose(
Resources.VmssUseConnectionString,
connectionString);
asyncCmdlet.WriteVerbose(
Resources.VmssPortRange,
port,
range);
asyncCmdlet.WriteObject(psObject);
}
}
async Task SimpleExecuteCmdlet(IAsyncCmdlet asyncCmdlet)
{
var client = new Client(DefaultProfile.DefaultContext);
var parameters = new Parameters(this);
var result = await client.RunAsync(
client.SubscriptionId, parameters, asyncCmdlet);
if (result != null)
{
var psResult = new PSSignalRResource(result);
asyncCmdlet.WriteObject(psResult);
}
}
async Task SimpleParameterSetExecuteCmdlet(IAsyncCmdlet asyncCmdlet)
{
ResourceGroupName = ResourceGroupName ?? VMScaleSetName;
VirtualNetworkName = VirtualNetworkName ?? VMScaleSetName;
SubnetName = SubnetName ?? VMScaleSetName;
PublicIpAddressName = PublicIpAddressName ?? VMScaleSetName;
SecurityGroupName = SecurityGroupName ?? VMScaleSetName;
LoadBalancerName = LoadBalancerName ?? VMScaleSetName;
FrontendPoolName = FrontendPoolName ?? VMScaleSetName;
BackendPoolName = BackendPoolName ?? VMScaleSetName;
var client = new Client(DefaultProfile.DefaultContext);
var parameters = new Parameters(this, client);
var result = await StrategyCmdlet.RunAsync(
client, parameters, asyncCmdlet, new CancellationToken());
if (result != null)
{
var fqdn = PublicIPAddressStrategy.Fqdn(DomainNameLabel, Location);
var psObject = new PSVirtualMachineScaleSet();
ComputeAutomationAutoMapperProfile.Mapper.Map(result, psObject);
psObject.FullyQualifiedDomainName = fqdn;
var port = "<port>";
var connectionString = parameters.ImageAndOsType.GetConnectionString(
fqdn,
Credential.UserName,
port);
var range =
FirstPortRangeStart.ToString() +
".." +
(FirstPortRangeStart + InstanceCount * 2).ToString();
asyncCmdlet.WriteVerbose(
Resources.VmssUseConnectionString,
connectionString);
asyncCmdlet.WriteVerbose(
Resources.VmssPortRange,
port,
range);
asyncCmdlet.WriteObject(psObject);
}
}
async Task SimpleParameterSetExecuteCmdlet(IAsyncCmdlet asyncCmdlet)
{
ResourceGroupName = ResourceGroupName ?? VMScaleSetName;
VirtualNetworkName = VirtualNetworkName ?? VMScaleSetName;
SubnetName = SubnetName ?? VMScaleSetName;
PublicIpAddressName = PublicIpAddressName ?? VMScaleSetName;
SecurityGroupName = SecurityGroupName ?? VMScaleSetName;
LoadBalancerName = LoadBalancerName ?? VMScaleSetName;
FrontendPoolName = FrontendPoolName ?? VMScaleSetName;
BackendPoolName = BackendPoolName ?? VMScaleSetName;
var imageAndOsType = new ImageAndOsType(OperatingSystemTypes.Windows, null);
var resourceGroup = ResourceGroupStrategy.CreateResourceGroupConfig(ResourceGroupName);
var publicIpAddress = resourceGroup.CreatePublicIPAddressConfig(
name: PublicIpAddressName,
getDomainNameLabel: () => DomainNameLabel,
allocationMethod: AllocationMethod);
var virtualNetwork = resourceGroup.CreateVirtualNetworkConfig(
name: VirtualNetworkName, addressPrefix: VnetAddressPrefix);
var subnet = virtualNetwork.CreateSubnet(SubnetName, SubnetAddressPrefix);
var loadBalancer = resourceGroup.CreateLoadBalancerConfig(
name: LoadBalancerName,
froontendPoolName: FrontendPoolName,
backendPoolName: BackendPoolName,
zones: Zone,
publicIPAddress: publicIpAddress,
subnet: subnet);
var frontendIpConfiguration = loadBalancer.CreateFrontendIPConfiguration(
name: FrontendPoolName,
zones: Zone,
publicIPAddress: publicIpAddress,
subnet: subnet);
var backendAddressPool = loadBalancer.CreateBackendAddressPool(
name: BackendPoolName);
var virtualMachineScaleSet = resourceGroup.CreateVirtualMachineScaleSetConfig(
name: VMScaleSetName,
subnet: subnet,
frontendIpConfigurations: new[] { frontendIpConfiguration },
backendAdressPool: backendAddressPool,
getImageAndOsType: () => imageAndOsType,
adminUsername: Credential.UserName,
adminPassword: new NetworkCredential(string.Empty, Credential.Password).Password,
vmSize: VmSize,
instanceCount: InstanceCount,
upgradeMode: MyInvocation.BoundParameters.ContainsKey("UpgradePolicyMode")
? UpgradePolicyMode
: (UpgradeMode?)null);
var client = new Client(DefaultProfile.DefaultContext);
// get current Azure state
var current = await virtualMachineScaleSet.GetStateAsync(client, new CancellationToken());
Location = current.UpdateLocation(Location, virtualMachineScaleSet);
imageAndOsType = await client.UpdateImageAndOsTypeAsync(ImageName, Location);
// generate a domain name label if it's not specified.
DomainNameLabel = await PublicIPAddressStrategy.UpdateDomainNameLabelAsync(
domainNameLabel : DomainNameLabel,
name : VMScaleSetName,
location : Location,
client : client);
var fqdn = PublicIPAddressStrategy.Fqdn(DomainNameLabel, Location);
var target = virtualMachineScaleSet.GetTargetState(current, client.SubscriptionId, Location);
var newState = await virtualMachineScaleSet
.UpdateStateAsync(
client,
target,
new CancellationToken(),
new ShouldProcess(asyncCmdlet),
asyncCmdlet.ReportTaskProgress);
var result = newState.Get(virtualMachineScaleSet);
if (result == null)
{
result = current.Get(virtualMachineScaleSet);
}
if (result != null)
{
var psObject = new PSVirtualMachineScaleSet();
ComputeAutomationAutoMapperProfile.Mapper.Map(result, psObject);
psObject.FullyQualifiedDomainName = fqdn;
asyncCmdlet.WriteObject(psObject);
}
}
async Task StrategyExecuteCmdletAsync(IAsyncCmdlet asyncCmdlet)
{
var client = new Client(DefaultProfile.DefaultContext);
ResourceGroupName = ResourceGroupName ?? Name;
VirtualNetworkName = VirtualNetworkName ?? Name;
SubnetName = SubnetName ?? Name;
PublicIpAddressName = PublicIpAddressName ?? Name;
SecurityGroupName = SecurityGroupName ?? Name;
var resourceClient = AzureSession.Instance.ClientFactory.CreateArmClient <ResourceManagementClient>(
DefaultProfile.DefaultContext,
AzureEnvironment.Endpoint.ResourceManager);
var parameters = new Parameters(this, client, resourceClient);
if (DiskFile != null)
{
if (!resourceClient.ResourceGroups.CheckExistence(ResourceGroupName))
{
Location = Location ?? parameters.DefaultLocation;
var st0 = resourceClient.ResourceGroups.CreateOrUpdate(
ResourceGroupName,
new ResourceGroup
{
Location = Location,
Name = ResourceGroupName
});
}
parameters.ImageAndOsType = new ImageAndOsType(
Linux ? OperatingSystemTypes.Linux : OperatingSystemTypes.Windows,
null,
null);
var storageClient = AzureSession.Instance.ClientFactory.CreateArmClient <StorageManagementClient>(
DefaultProfile.DefaultContext,
AzureEnvironment.Endpoint.ResourceManager);
var st1 = storageClient.StorageAccounts.Create(
ResourceGroupName,
Name,
new StorageAccountCreateParameters
{
Sku = new Microsoft.Azure.Management.Storage.Version2017_10_01.Models.Sku
{
Name = SkuName.PremiumLRS
},
Location = Location
});
var filePath = new FileInfo(SessionState.Path.GetUnresolvedProviderPathFromPSPath(DiskFile));
using (var vds = new VirtualDiskStream(filePath.FullName))
{
// 2 ^ 9 == 512
if (vds.DiskType == DiskType.Fixed && filePath.Length % 512 != 0)
{
throw new ArgumentOutOfRangeException(
"filePath",
string.Format("Given vhd file '{0}' is a corrupted fixed vhd", filePath));
}
}
var storageAccount = storageClient.StorageAccounts.GetProperties(ResourceGroupName, Name);
// BlobUri destinationUri = null;
BlobUri.TryParseUri(
new Uri(string.Format(
"{0}{1}/{2}{3}",
storageAccount.PrimaryEndpoints.Blob,
ResourceGroupName.ToLower(),
Name.ToLower(),
".vhd")),
out parameters.DestinationUri);
if (parameters.DestinationUri?.Uri == null)
{
throw new ArgumentNullException("destinationUri");
}
var storageCredentialsFactory = new StorageCredentialsFactory(
ResourceGroupName, storageClient, DefaultContext.Subscription);
var uploadParameters = new UploadParameters(parameters.DestinationUri, null, filePath, true, 2)
{
Cmdlet = this,
BlobObjectFactory = new CloudPageBlobObjectFactory(storageCredentialsFactory, TimeSpan.FromMinutes(1))
};
if (!string.Equals(
Environment.GetEnvironmentVariable("AZURE_TEST_MODE"), "Playback", StringComparison.OrdinalIgnoreCase))
{
var st2 = VhdUploaderModel.Upload(uploadParameters);
}
}
var result = await client.RunAsync(client.SubscriptionId, parameters, asyncCmdlet);
if (result != null)
{
var fqdn = PublicIPAddressStrategy.Fqdn(DomainNameLabel, Location);
var psResult = ComputeAutoMapperProfile.Mapper.Map <PSVirtualMachine>(result);
psResult.FullyQualifiedDomainName = fqdn;
var connectionString = parameters.ImageAndOsType.GetConnectionString(
fqdn,
Credential?.UserName);
asyncCmdlet.WriteVerbose(
Resources.VirtualMachineUseConnectionString,
connectionString);
asyncCmdlet.WriteObject(psResult);
}
}
async Task StrategyExecuteCmdletAsync(IAsyncCmdlet asyncCmdlet)
{
ResourceGroupName = ResourceGroupName ?? Name;
VirtualNetworkName = VirtualNetworkName ?? Name;
SubnetName = SubnetName ?? Name;
PublicIpAddressName = PublicIpAddressName ?? Name;
SecurityGroupName = SecurityGroupName ?? Name;
var imageAndOsType = new ImageAndOsType(OperatingSystemTypes.Windows, null);
var resourceGroup = ResourceGroupStrategy.CreateResourceGroupConfig(ResourceGroupName);
var virtualNetwork = resourceGroup.CreateVirtualNetworkConfig(
name: VirtualNetworkName, addressPrefix: AddressPrefix);
var subnet = virtualNetwork.CreateSubnet(SubnetName, SubnetAddressPrefix);
var publicIpAddress = resourceGroup.CreatePublicIPAddressConfig(
name: PublicIpAddressName,
getDomainNameLabel: () => DomainNameLabel,
allocationMethod: AllocationMethod);
var networkSecurityGroup = resourceGroup.CreateNetworkSecurityGroupConfig(
name: SecurityGroupName,
openPorts: OpenPorts,
getOsType: () => imageAndOsType.OsType);
var networkInterface = resourceGroup.CreateNetworkInterfaceConfig(
Name, subnet, publicIpAddress, networkSecurityGroup);
var availabilitySet = AvailabilitySetName == null
? null
: resourceGroup.CreateAvailabilitySetConfig(name: AvailabilitySetName);
ResourceConfig <VirtualMachine> virtualMachine = null;
if (DiskFile == null)
{
virtualMachine = resourceGroup.CreateVirtualMachineConfig(
name: Name,
networkInterface: networkInterface,
getImageAndOsType: () => imageAndOsType,
adminUsername: Credential.UserName,
adminPassword: new NetworkCredential(string.Empty, Credential.Password).Password,
size: Size,
availabilitySet: availabilitySet);
}
else
{
var resourceClient =
AzureSession.Instance.ClientFactory.CreateArmClient <ResourceManagementClient>(DefaultProfile.DefaultContext,
AzureEnvironment.Endpoint.ResourceManager);
if (!resourceClient.ResourceGroups.CheckExistence(ResourceGroupName))
{
var st0 = resourceClient.ResourceGroups.CreateOrUpdate(ResourceGroupName, new ResourceGroup
{
Location = Location,
Name = ResourceGroupName
});
}
imageAndOsType = new ImageAndOsType(
Linux ? OperatingSystemTypes.Linux : OperatingSystemTypes.Windows,
null);
var storageClient =
AzureSession.Instance.ClientFactory.CreateArmClient <StorageManagementClient>(DefaultProfile.DefaultContext,
AzureEnvironment.Endpoint.ResourceManager);
var st1 = storageClient.StorageAccounts.Create(
ResourceGroupName,
Name,
new StorageAccountCreateParameters
{
#if !NETSTANDARD
AccountType = AccountType.PremiumLRS,
#else
Sku = new Microsoft.Azure.Management.Storage.Models.Sku
{
Name = SkuName.PremiumLRS
},
#endif
Location = Location
});
var filePath = new FileInfo(SessionState.Path.GetUnresolvedProviderPathFromPSPath(DiskFile));
using (var vds = new VirtualDiskStream(filePath.FullName))
{
if (vds.DiskType == DiskType.Fixed)
{
long divisor = Convert.ToInt64(Math.Pow(2, 9));
long rem = 0;
Math.DivRem(filePath.Length, divisor, out rem);
if (rem != 0)
{
throw new ArgumentOutOfRangeException(
"filePath",
string.Format("Given vhd file '{0}' is a corrupted fixed vhd", filePath));
}
}
}
var storageAccount = storageClient.StorageAccounts.GetProperties(ResourceGroupName, Name);
BlobUri destinationUri = null;
BlobUri.TryParseUri(
new Uri(string.Format(
"{0}{1}/{2}{3}",
storageAccount.PrimaryEndpoints.Blob,
ResourceGroupName.ToLower(),
Name.ToLower(),
".vhd")),
out destinationUri);
if (destinationUri == null || destinationUri.Uri == null)
{
throw new ArgumentNullException("destinationUri");
}
var storageCredentialsFactory = new StorageCredentialsFactory(
this.ResourceGroupName, storageClient, DefaultContext.Subscription);
var parameters = new UploadParameters(destinationUri, null, filePath, true, 2)
{
Cmdlet = this,
BlobObjectFactory = new CloudPageBlobObjectFactory(storageCredentialsFactory, TimeSpan.FromMinutes(1))
};
if (!string.Equals(
Environment.GetEnvironmentVariable("AZURE_TEST_MODE"), "Playback", StringComparison.OrdinalIgnoreCase))
{
var st2 = VhdUploaderModel.Upload(parameters);
}
var disk = resourceGroup.CreateManagedDiskConfig(
name: Name,
sourceUri: destinationUri.Uri.ToString()
);
virtualMachine = resourceGroup.CreateVirtualMachineConfig(
name: Name,
networkInterface: networkInterface,
osType: imageAndOsType.OsType,
disk: disk,
size: Size,
availabilitySet: availabilitySet);
}
var client = new Client(DefaultProfile.DefaultContext);
// get current Azure state
var current = await virtualMachine.GetStateAsync(client, new CancellationToken());
Location = current.UpdateLocation(Location, virtualMachine);
// generate a domain name label if it's not specified.
DomainNameLabel = await PublicIPAddressStrategy.UpdateDomainNameLabelAsync(
domainNameLabel : DomainNameLabel,
name : Name,
location : Location,
client : client);
var fqdn = PublicIPAddressStrategy.Fqdn(DomainNameLabel, Location);
if (DiskFile == null)
{
imageAndOsType = await client.UpdateImageAndOsTypeAsync(ImageName, Location);
}
// create target state
var target = virtualMachine.GetTargetState(current, client.SubscriptionId, Location);
if (target.Get(availabilitySet) != null)
{
throw new InvalidOperationException("Availability set doesn't exist.");
}
// apply target state
var newState = await virtualMachine
.UpdateStateAsync(
client,
target,
new CancellationToken(),
new ShouldProcess(asyncCmdlet),
asyncCmdlet.ReportTaskProgress);
var result = newState.Get(virtualMachine);
if (result == null)
{
result = current.Get(virtualMachine);
}
if (result != null)
{
var psResult = ComputeAutoMapperProfile.Mapper.Map <PSVirtualMachine>(result);
psResult.FullyQualifiedDomainName = fqdn;
asyncCmdlet.WriteVerbose(imageAndOsType.OsType == OperatingSystemTypes.Windows
? "Use 'mstsc /v:" + fqdn + "' to connect to the VM."
: "Use 'ssh " + Credential.UserName + "@" + fqdn + "' to connect to the VM.");
asyncCmdlet.WriteObject(psResult);
}
}
async Task SimpleParameterSetExecuteCmdlet(IAsyncCmdlet asyncCmdlet)
{
ResourceGroupName = ResourceGroupName ?? VMScaleSetName;
VirtualNetworkName = VirtualNetworkName ?? VMScaleSetName;
SubnetName = SubnetName ?? VMScaleSetName;
PublicIpAddressName = PublicIpAddressName ?? VMScaleSetName;
DomainNameLabel = DomainNameLabel ?? (VMScaleSetName + ResourceGroupName).ToLower();
SecurityGroupName = SecurityGroupName ?? VMScaleSetName;
LoadBalancerName = LoadBalancerName ?? VMScaleSetName;
FrontendPoolName = FrontendPoolName ?? VMScaleSetName;
BackendPoolName = BackendPoolName ?? VMScaleSetName;
// get image
bool isWindows;
Commands.Common.Strategies.Compute.Image image;
if (ImageName.Contains(':'))
{
var imageArray = ImageName.Split(':');
if (imageArray.Length != 4)
{
throw new Exception("Invalid ImageName");
}
image = new Commands.Common.Strategies.Compute.Image
{
publisher = imageArray[0],
offer = imageArray[1],
sku = imageArray[2],
version = imageArray[3],
};
isWindows = image.publisher.ToLower() == "MicrosoftWindowsServer".ToLower();
}
else
{
// get image
var osTypeAndImage = Images
.Instance
.SelectMany(osAndMap => osAndMap
.Value
.Where(nameAndImage => nameAndImage.Key.ToLower() == ImageName.ToLower())
.Select(nameAndImage => new
{
OsType = osAndMap.Key,
Image = nameAndImage.Value
}))
.FirstOrDefault();
image = osTypeAndImage.Image;
isWindows = osTypeAndImage.OsType == "Windows";
}
BackendPort = BackendPort ?? (isWindows ? new[] { 3389, 5985 } : new[] { 22 });
var resourceGroup = ResourceGroupStrategy.CreateResourceGroupConfig(ResourceGroupName);
var publicIpAddress = resourceGroup.CreatePublicIPAddressConfig(
name: PublicIpAddressName,
domainNameLabel: DomainNameLabel,
allocationMethod: AllocationMethod);
var virtualNetwork = resourceGroup.CreateVirtualNetworkConfig(
name: VirtualNetworkName, addressPrefix: VnetAddressPrefix);
var subnet = virtualNetwork.CreateSubnet(SubnetName, SubnetAddressPrefix);
var loadBalancer = resourceGroup.CreateLoadBalancerConfig(
name: LoadBalancerName,
froontendPoolName: FrontendPoolName,
backendPoolName: BackendPoolName,
zones: Zone,
publicIPAddress: publicIpAddress,
subnet: subnet);
var frontendIpConfiguration = loadBalancer.CreateFrontendIPConfiguration(
name: FrontendPoolName,
zones: Zone,
publicIPAddress: publicIpAddress,
subnet: subnet);
var backendAddressPool = loadBalancer.CreateBackendAddressPool(
name: BackendPoolName);
var virtualMachineScaleSet = resourceGroup.CreateVirtualMachineScaleSetConfig(
name: VMScaleSetName,
subnet: subnet,
frontendIpConfigurations: new[] { frontendIpConfiguration },
backendAdressPool: backendAddressPool,
isWindows: isWindows,
adminUsername: Credential.UserName,
adminPassword: new NetworkCredential(string.Empty, Credential.Password).Password,
image: image,
vmSize: VmSize,
instanceCount: InstanceCount,
upgradeMode: (MyInvocation.BoundParameters.ContainsKey("UpgradePolicyMode") == true) ? UpgradePolicyMode : (UpgradeMode?)null);
var client = new Client(DefaultProfile.DefaultContext);
// get current Azure state
var current = await virtualMachineScaleSet.GetStateAsync(client, new CancellationToken());
if (Location == null)
{
Location = current.GetLocation(virtualMachineScaleSet);
if (Location == null)
{
Location = "eastus";
}
}
var target = virtualMachineScaleSet.GetTargetState(current, client.SubscriptionId, Location);
var newState = await virtualMachineScaleSet
.UpdateStateAsync(
client,
target,
new CancellationToken(),
new ShouldProcess(asyncCmdlet),
asyncCmdlet.ReportTaskProgress);
var result = newState.Get(virtualMachineScaleSet);
if (result == null)
{
result = current.Get(virtualMachineScaleSet);
}
if (result != null)
{
var psObject = new PSVirtualMachineScaleSet();
ComputeAutomationAutoMapperProfile.Mapper.Map <VirtualMachineScaleSet, PSVirtualMachineScaleSet>(result, psObject);
asyncCmdlet.WriteObject(psObject);
}
}
public async Task CreateWithSimpleParameters(IAsyncCmdlet adapter)
{
var parameters = new Parameters(this);
var client = new WebClient(DefaultContext);
var output = await client.RunAsync(client.SubscriptionId, parameters, adapter);
output.SiteConfig = WebsitesClient
.WrappedWebsitesClient
.WebApps()
.GetConfiguration(output.ResourceGroup, output.Name)
.ConvertToSiteConfig();
try
{
var appSettings = WebsitesClient
.WrappedWebsitesClient
.WebApps()
.ListApplicationSettings(output.ResourceGroup, output.Name);
output.SiteConfig.AppSettings = appSettings
.Properties
.Select(s => new NameValuePair {
Name = s.Key, Value = s.Value
})
.ToList();
var connectionStrings = WebsitesClient.WrappedWebsitesClient.WebApps().ListConnectionStrings(
output.ResourceGroup, output.Name);
output.SiteConfig.ConnectionStrings = connectionStrings
.Properties
.Select(s => new ConnStringInfo()
{
Name = s.Key,
ConnectionString = s.Value.Value,
Type = s.Value.Type
}).ToList();
}
catch
{
//ignore if this call fails as it will for reader RBAC
}
string userName = null, password = null;
try
{
var scmHostName = output.EnabledHostNames.FirstOrDefault(s => s.Contains(".scm."));
if (!string.IsNullOrWhiteSpace(scmHostName))
{
var profile = await WebsitesClient.WrappedWebsitesClient.WebApps.ListPublishingProfileXmlWithSecretsAsync(output.ResourceGroup, output.Name, new CsmPublishingProfileOptions { Format = "WebDeploy" });
var doc = new XmlDocument();
doc.Load(profile);
userName = doc.SelectSingleNode("//publishProfile[@publishMethod=\"MSDeploy\"]/@userName").Value;
password = doc.SelectSingleNode("//publishProfile[@publishMethod=\"MSDeploy\"]/@userPWD").Value;
var newOutput = new PSSite(output)
{
GitRemoteUri = $"https://{scmHostName}",
GitRemoteUsername = userName,
GitRemotePassword = SecureStringExtensions.ConvertToSecureString(password)
};
output = newOutput;
var git = new GitCommand(SessionState.Path, GitRepositoryPath);
var repository = await git.VerifyGitRepository();
if (repository != null)
{
if (!await git.CheckExistence())
{
adapter.WriteWarning(git.InstallationInstructions);
}
else if (!string.IsNullOrWhiteSpace(userName) && !string.IsNullOrWhiteSpace(password))
{
await git.AddRemoteRepository("azure", $"https://{userName}:{password}@{scmHostName}");
adapter.WriteVerbose(Properties.Resources.GitRemoteMessage);
newOutput.GitRemoteName = "azure";
}
}
}
}
catch (Exception exception)
{
// do not write errors for problems with adding git repository
var repoPath = GitRepositoryPath ?? SessionState?.Path?.CurrentFileSystemLocation?.Path;
adapter.WriteWarning(string.Format(
Properties.Resources.GitRemoteAddFailure,
repoPath,
exception.Message));
}
adapter.WriteObject(output);
}
async Task StrategyExecuteCmdletAsync(IAsyncCmdlet asyncCmdlet)
{
ResourceGroupName = ResourceGroupName ?? Name;
VirtualNetworkName = VirtualNetworkName ?? Name;
SubnetName = SubnetName ?? Name;
PublicIpAddressName = PublicIpAddressName ?? Name;
DomainNameLabel = DomainNameLabel ?? (Name + '-' + ResourceGroupName).ToLower();
SecurityGroupName = SecurityGroupName ?? Name;
bool isWindows;
Commands.Common.Strategies.Compute.Image image;
if (ImageName.Contains(':'))
{
var imageArray = ImageName.Split(':');
if (imageArray.Length != 4)
{
throw new Exception("Invalid ImageName");
}
image = new Commands.Common.Strategies.Compute.Image
{
publisher = imageArray[0],
offer = imageArray[1],
sku = imageArray[2],
version = imageArray[3],
};
isWindows = image.publisher.ToLower() == "MicrosoftWindowsServer".ToLower();
}
else
{
// get image
var osTypeAndImage = Images
.Instance
.SelectMany(osAndMap => osAndMap
.Value
.Where(nameAndImage => nameAndImage.Key.ToLower() == ImageName.ToLower())
.Select(nameAndImage => new
{
OsType = osAndMap.Key,
Image = nameAndImage.Value
}))
.FirstOrDefault();
image = osTypeAndImage.Image;
isWindows = osTypeAndImage.OsType == "Windows";
}
OpenPorts = OpenPorts ?? (isWindows ? new[] { 3389, 5985 } : new[] { 22 });
var resourceGroup = ResourceGroupStrategy.CreateResourceGroupConfig(ResourceGroupName);
var virtualNetwork = resourceGroup.CreateVirtualNetworkConfig(
name: VirtualNetworkName, addressPrefix: AddressPrefix);
var subnet = virtualNetwork.CreateSubnet(SubnetName, SubnetAddressPrefix);
var publicIpAddress = resourceGroup.CreatePublicIPAddressConfig(
name: PublicIpAddressName,
domainNameLabel: DomainNameLabel,
allocationMethod: AllocationMethod);
var networkSecurityGroup = resourceGroup.CreateNetworkSecurityGroupConfig(
name: SecurityGroupName,
openPorts: OpenPorts);
var networkInterface = resourceGroup.CreateNetworkInterfaceConfig(
Name, subnet, publicIpAddress, networkSecurityGroup);
var virtualMachine = resourceGroup.CreateVirtualMachineConfig(
name: Name,
networkInterface: networkInterface,
isWindows: isWindows,
adminUsername: Credential.UserName,
adminPassword: new NetworkCredential(string.Empty, Credential.Password).Password,
image: image,
size: Size);
var client = new Client(DefaultProfile.DefaultContext);
// get current Azure state
var current = await virtualMachine.GetStateAsync(client, new CancellationToken());
if (Location == null)
{
Location = current.GetLocation(virtualMachine);
if (Location == null)
{
Location = "eastus";
}
}
var fqdn = DomainNameLabel + "." + Location + ".cloudapp.azure.com";
// create target state
var target = virtualMachine.GetTargetState(current, client.SubscriptionId, Location);
// apply target state
var newState = await virtualMachine
.UpdateStateAsync(
client,
target,
new CancellationToken(),
new ShouldProcess(asyncCmdlet),
asyncCmdlet.ReportTaskProgress);
var result = newState.Get(virtualMachine);
if (result == null)
{
result = current.Get(virtualMachine);
}
if (result != null)
{
var psResult = ComputeAutoMapperProfile.Mapper.Map <PSVirtualMachine>(result);
psResult.FullyQualifiedDomainName = fqdn;
asyncCmdlet.WriteVerbose(isWindows
? "Use 'mstsc /v:" + fqdn + "' to connect to the VM."
: "Use 'ssh " + Credential.UserName + "@" + fqdn + "' to connect to the VM.");
asyncCmdlet.WriteObject(psResult);
}
}
async Task StrategyExecuteCmdletAsync(IAsyncCmdlet asyncCmdlet)
{
ResourceGroupName = ResourceGroupName ?? Name;
VirtualNetworkName = VirtualNetworkName ?? Name;
SubnetName = SubnetName ?? Name;
PublicIpAddressName = PublicIpAddressName ?? Name;
DomainNameLabel = DomainNameLabel ?? (Name + '-' + ResourceGroupName).ToLower();
SecurityGroupName = SecurityGroupName ?? Name;
bool isWindows;
Commands.Common.Strategies.Compute.Image image = null;
if (ImageName.Contains(':'))
{
var imageArray = ImageName.Split(':');
if (imageArray.Length != 4)
{
throw new Exception("Invalid ImageName");
}
image = new Commands.Common.Strategies.Compute.Image
{
publisher = imageArray[0],
offer = imageArray[1],
sku = imageArray[2],
version = imageArray[3],
};
isWindows = image.publisher.ToLower() == "MicrosoftWindowsServer".ToLower();
}
else if (!string.IsNullOrEmpty(DiskFile))
{
// disk file parameter set requires the OS type input
isWindows = !Linux;
}
else
{
// get image
var osTypeAndImage = Images
.Instance
.SelectMany(osAndMap => osAndMap
.Value
.Where(nameAndImage => nameAndImage.Key.ToLower() == ImageName.ToLower())
.Select(nameAndImage => new
{
OsType = osAndMap.Key,
Image = nameAndImage.Value
}))
.FirstOrDefault();
image = osTypeAndImage.Image;
isWindows = osTypeAndImage.OsType == "Windows";
}
OpenPorts = OpenPorts ?? (isWindows ? new[] { 3389, 5985 } : new[] { 22 });
var resourceGroup = ResourceGroupStrategy.CreateResourceGroupConfig(ResourceGroupName);
var virtualNetwork = resourceGroup.CreateVirtualNetworkConfig(
name: VirtualNetworkName, addressPrefix: AddressPrefix);
var subnet = virtualNetwork.CreateSubnet(SubnetName, SubnetAddressPrefix);
var publicIpAddress = resourceGroup.CreatePublicIPAddressConfig(
name: PublicIpAddressName,
domainNameLabel: DomainNameLabel,
allocationMethod: AllocationMethod);
var networkSecurityGroup = resourceGroup.CreateNetworkSecurityGroupConfig(
name: SecurityGroupName,
openPorts: OpenPorts);
var networkInterface = resourceGroup.CreateNetworkInterfaceConfig(
Name, subnet, publicIpAddress, networkSecurityGroup);
ResourceConfig <VirtualMachine> virtualMachine = null;
if (image != null)
{
virtualMachine = resourceGroup.CreateVirtualMachineConfig(
name: Name,
networkInterface: networkInterface,
isWindows: isWindows,
adminUsername: Credential.UserName,
adminPassword: new NetworkCredential(string.Empty, Credential.Password).Password,
image: image,
size: Size);
}
else
{
var storageClient =
AzureSession.Instance.ClientFactory.CreateArmClient <StorageManagementClient>(DefaultProfile.DefaultContext,
AzureEnvironment.Endpoint.ResourceManager);
var st1 = storageClient.StorageAccounts.Create(ResourceGroupName, Name, new StorageAccountCreateParameters
{
#if !NETSTANDARD
AccountType = AccountType.PremiumLRS,
#else
Sku = new SM.Sku
{
Name = SkuName.PremiumLRS
},
#endif
Location = Location
});
var filePath = new FileInfo(SessionState.Path.GetUnresolvedProviderPathFromPSPath(DiskFile));
using (var vds = new VirtualDiskStream(filePath.FullName))
{
if (vds.DiskType == DiskType.Fixed)
{
long divisor = Convert.ToInt64(Math.Pow(2, 9));
long rem = 0;
Math.DivRem(filePath.Length, divisor, out rem);
if (rem != 0)
{
throw new ArgumentOutOfRangeException("filePath", string.Format("Given vhd file '{0}' is a corrupted fixed vhd", filePath));
}
}
}
var storageAccount = storageClient.StorageAccounts.GetProperties(ResourceGroupName, Name);
BlobUri destinationUri = null;
BlobUri.TryParseUri(new Uri(string.Format("{0}{1}/{2}{3}", storageAccount.PrimaryEndpoints.Blob, Name.ToLower(), Name.ToLower(), ".vhd")), out destinationUri);
if (destinationUri == null || destinationUri.Uri == null)
{
throw new ArgumentNullException("destinationUri");
}
var storageCredentialsFactory = new StorageCredentialsFactory(this.ResourceGroupName, storageClient, DefaultContext.Subscription);
var parameters = new UploadParameters(destinationUri, null, filePath, true, 2)
{
Cmdlet = this,
BlobObjectFactory = new CloudPageBlobObjectFactory(storageCredentialsFactory, TimeSpan.FromMinutes(1))
};
if (!string.Equals(Environment.GetEnvironmentVariable("AZURE_TEST_MODE"), "Playback", StringComparison.OrdinalIgnoreCase))
{
var st2 = VhdUploaderModel.Upload(parameters);
}
var disk = resourceGroup.CreateManagedDiskConfig(
name: Name,
sourceUri: destinationUri.Uri.ToString()
);
virtualMachine = resourceGroup.CreateVirtualMachineConfig(
name: Name,
networkInterface: networkInterface,
isWindows: isWindows,
disk: disk,
size: Size);
}
var client = new Client(DefaultProfile.DefaultContext);
// get current Azure state
var current = await virtualMachine.GetStateAsync(client, new CancellationToken());
if (Location == null)
{
Location = current.GetLocation(virtualMachine);
if (Location == null)
{
Location = "eastus";
}
}
var fqdn = DomainNameLabel + "." + Location + ".cloudapp.azure.com";
// create target state
var target = virtualMachine.GetTargetState(current, client.SubscriptionId, Location);
// apply target state
var newState = await virtualMachine
.UpdateStateAsync(
client,
target,
new CancellationToken(),
new ShouldProcess(asyncCmdlet),
asyncCmdlet.ReportTaskProgress);
var result = newState.Get(virtualMachine);
if (result == null)
{
result = current.Get(virtualMachine);
}
if (result != null)
{
var psResult = ComputeAutoMapperProfile.Mapper.Map <PSVirtualMachine>(result);
psResult.FullyQualifiedDomainName = fqdn;
asyncCmdlet.WriteVerbose(isWindows
? "Use 'mstsc /v:" + fqdn + "' to connect to the VM."
: "Use 'ssh " + Credential.UserName + "@" + fqdn + "' to connect to the VM.");
asyncCmdlet.WriteObject(psResult);
}
}
async Task SimpleParameterSetExecuteCmdlet(IAsyncCmdlet asyncCmdlet)
{
ResourceGroupName = ResourceGroupName ?? VMScaleSetName;
VirtualNetworkName = VirtualNetworkName ?? VMScaleSetName;
SubnetName = SubnetName ?? VMScaleSetName;
PublicIpAddressName = PublicIpAddressName ?? VMScaleSetName;
SecurityGroupName = SecurityGroupName ?? VMScaleSetName;
LoadBalancerName = LoadBalancerName ?? VMScaleSetName;
FrontendPoolName = FrontendPoolName ?? VMScaleSetName;
BackendPoolName = BackendPoolName ?? VMScaleSetName;
var imageAndOsType = new ImageAndOsType(OperatingSystemTypes.Windows, null);
var resourceGroup = ResourceGroupStrategy.CreateResourceGroupConfig(ResourceGroupName);
var publicIpAddress = resourceGroup.CreatePublicIPAddressConfig(
name: PublicIpAddressName,
getDomainNameLabel: () => DomainNameLabel,
allocationMethod: AllocationMethod);
var virtualNetwork = resourceGroup.CreateVirtualNetworkConfig(
name: VirtualNetworkName, addressPrefix: VnetAddressPrefix);
var subnet = virtualNetwork.CreateSubnet(SubnetName, SubnetAddressPrefix);
var loadBalancer = resourceGroup.CreateLoadBalancerConfig(
name: LoadBalancerName);
var frontendIpConfiguration = loadBalancer.CreateFrontendIPConfiguration(
name: FrontendPoolName,
zones: Zone,
publicIpAddress: publicIpAddress);
var backendAddressPool = loadBalancer.CreateBackendAddressPool(
name: BackendPoolName);
if (BackendPort != null)
{
var LoadBalancingRuleName = LoadBalancerName;
foreach (var backendPort in BackendPort)
{
loadBalancer.CreateLoadBalancingRule(
name: LoadBalancingRuleName + backendPort.ToString(),
fronendIpConfiguration: frontendIpConfiguration,
backendAddressPool: backendAddressPool,
frontendPort: backendPort,
backendPort: backendPort);
}
}
var inboundNatPools = new List <NestedResourceConfig <InboundNatPool, LoadBalancer> >();
var virtualMachineScaleSet = resourceGroup.CreateVirtualMachineScaleSetConfig(
name: VMScaleSetName,
subnet: subnet,
frontendIpConfigurations: new[] { frontendIpConfiguration },
backendAdressPool: backendAddressPool,
inboundNatPools: inboundNatPools,
getImageAndOsType: () => imageAndOsType,
adminUsername: Credential.UserName,
adminPassword: new NetworkCredential(string.Empty, Credential.Password).Password,
vmSize: VmSize,
instanceCount: InstanceCount,
upgradeMode: MyInvocation.BoundParameters.ContainsKey(nameof(UpgradePolicyMode))
? UpgradePolicyMode
: (UpgradeMode?)null);
var client = new Client(DefaultProfile.DefaultContext);
// get current Azure state
var current = await virtualMachineScaleSet.GetStateAsync(client, new CancellationToken());
Location = current.UpdateLocation(Location, virtualMachineScaleSet);
imageAndOsType = await client.UpdateImageAndOsTypeAsync(ImageName, Location);
NatBackendPort = imageAndOsType.OsType.UpdatePorts(NatBackendPort);
var inboundNatPoolName = VMScaleSetName;
const int FirstPortRangeStart = 50000;
var portRangeStart = FirstPortRangeStart;
var PortRangeSize = InstanceCount * 2;
foreach (var natBackendPort in NatBackendPort)
{
inboundNatPools.Add(
loadBalancer.CreateInboundNatPool(
name: inboundNatPoolName + natBackendPort.ToString(),
frontendIpConfiguration: frontendIpConfiguration,
frontendPortRangeStart: portRangeStart,
frontendPortRangeEnd: portRangeStart + PortRangeSize,
backendPort: natBackendPort));
portRangeStart += 2000;
}
// generate a domain name label if it's not specified.
DomainNameLabel = await PublicIPAddressStrategy.UpdateDomainNameLabelAsync(
domainNameLabel : DomainNameLabel,
name : VMScaleSetName,
location : Location,
client : client);
var fqdn = PublicIPAddressStrategy.Fqdn(DomainNameLabel, Location);
var engine = new SdkEngine(client.SubscriptionId);
var target = virtualMachineScaleSet.GetTargetState(current, engine, Location);
var newState = await virtualMachineScaleSet
.UpdateStateAsync(
client,
target,
new CancellationToken(),
new ShouldProcess(asyncCmdlet),
asyncCmdlet.ReportTaskProgress);
var result = newState.Get(virtualMachineScaleSet);
if (result == null)
{
result = current.Get(virtualMachineScaleSet);
}
if (result != null)
{
var psObject = new PSVirtualMachineScaleSet();
ComputeAutomationAutoMapperProfile.Mapper.Map(result, psObject);
psObject.FullyQualifiedDomainName = fqdn;
var port = "<port>";
var connectionString = imageAndOsType.GetConnectionString(
fqdn,
Credential.UserName,
port);
var range =
FirstPortRangeStart.ToString() +
".." +
(FirstPortRangeStart + PortRangeSize).ToString();
asyncCmdlet.WriteVerbose(
Resources.VmssUseConnectionString,
connectionString);
asyncCmdlet.WriteVerbose(
Resources.VmssPortRange,
port,
range);
asyncCmdlet.WriteObject(psObject);
}
}