private Task <ShellContext> CreateStandaloneEnvironmentAsync(string tenant)
{
// Retrieve settings for speficified tenant.
var settingsList = _shellSettingsManager.LoadSettings();
if (settingsList.Any())
{
var settings = settingsList.SingleOrDefault(s => string.Equals(s.Name, tenant, StringComparison.OrdinalIgnoreCase));
if (settings == null)
{
throw new Exception(T["Tenant {0} does not exist", tenant]);
}
return(_orchardHost.CreateShellContextAsync(settings));
}
else
{
// In case of an uninitialized site (no default settings yet), we create a default settings instance.
var settings = new ShellSettings {
Name = ShellHelper.DefaultShellName, State = TenantState.Uninitialized
};
return(_orchardHost.CreateShellContextAsync(settings));
}
}
public async Task <string> SetupInternalAsync(SetupContext context)
{
string executionId;
if (_logger.IsEnabled(LogLevel.Information))
{
_logger.LogInformation("Running setup for tenant '{0}'.", _shellSettings.Name);
}
// Features to enable for Setup
string[] hardcoded =
{
"OrchardCore.Commons",
"OrchardCore.Features",
"OrchardCore.Recipes",
"OrchardCore.Scripting"
};
context.EnabledFeatures = hardcoded.Union(context.EnabledFeatures ?? Enumerable.Empty <string>()).Distinct().ToList();
// Set shell state to "Initializing" so that subsequent HTTP requests are responded to with "Service Unavailable" while Orchard is setting up.
_shellSettings.State = TenantState.Initializing;
var shellSettings = new ShellSettings(_shellSettings.Configuration);
if (string.IsNullOrEmpty(shellSettings.DatabaseProvider))
{
shellSettings.DatabaseProvider = context.DatabaseProvider;
shellSettings.ConnectionString = context.DatabaseConnectionString;
shellSettings.TablePrefix = context.DatabaseTablePrefix;
}
// Creating a standalone environment based on a "minimum shell descriptor".
// In theory this environment can be used to resolve any normal components by interface, and those
// components will exist entirely in isolation - no crossover between the safemode container currently in effect
// It is used to initialize the database before the recipe is run.
var shellDescriptor = new ShellDescriptor
{
Features = context.EnabledFeatures.Select(id => new ShellFeature {
Id = id
}).ToList()
};
using (var shellContext = await _shellContextFactory.CreateDescribedContextAsync(shellSettings, shellDescriptor))
{
using (var scope = shellContext.EnterServiceScope())
{
var store = scope.ServiceProvider.GetRequiredService <IStore>();
try
{
await store.InitializeAsync();
}
catch (Exception e)
{
// Tables already exist or database was not found
// The issue is that the user creation needs the tables to be present,
// if the user information is not valid, the next POST will try to recreate the
// tables. The tables should be rolled back if one of the steps is invalid,
// unless the recipe is executing?
_logger.LogError("An error occurred while initializing the datastore.", e);
context.Errors.Add("DatabaseProvider", T["An error occurred while initializing the datastore: {0}", e.Message]);
return(null);
}
// Create the "minimum shell descriptor"
await scope
.ServiceProvider
.GetService <IShellDescriptorManager>()
.UpdateShellDescriptorAsync(0,
shellContext.Blueprint.Descriptor.Features,
shellContext.Blueprint.Descriptor.Parameters);
var deferredTaskEngine = scope.ServiceProvider.GetService <IDeferredTaskEngine>();
if (deferredTaskEngine != null && deferredTaskEngine.HasPendingTasks)
{
var taskContext = new DeferredTaskContext(scope.ServiceProvider);
await deferredTaskEngine.ExecuteTasksAsync(taskContext);
}
}
executionId = Guid.NewGuid().ToString("n");
// Create a new scope for the recipe thread to prevent race issues with other scoped
// services from the request.
using (var scope = shellContext.EnterServiceScope())
{
var recipeExecutor = scope.ServiceProvider.GetService <IRecipeExecutor>();
// Right now we run the recipe in the same thread, later use polling from the setup screen
// to query the current execution.
//await Task.Run(async () =>
//{
await recipeExecutor.ExecuteAsync(executionId, context.Recipe, new
{
SiteName = context.SiteName,
AdminUsername = context.AdminUsername,
AdminEmail = context.AdminEmail,
AdminPassword = context.AdminPassword,
DatabaseProvider = context.DatabaseProvider,
DatabaseConnectionString = context.DatabaseConnectionString,
DatabaseTablePrefix = context.DatabaseTablePrefix
});
//});
}
}
// Reloading the shell context as the recipe has probably updated its features
using (var shellContext = await _orchardHost.CreateShellContextAsync(shellSettings))
{
using (var scope = shellContext.EnterServiceScope())
{
var hasErrors = false;
Action <string, string> reportError = (key, message) => {
hasErrors = true;
context.Errors[key] = message;
};
// Invoke modules to react to the setup event
var setupEventHandlers = scope.ServiceProvider.GetServices <ISetupEventHandler>();
var logger = scope.ServiceProvider.GetRequiredService <ILogger <SetupService> >();
await setupEventHandlers.InvokeAsync(x => x.Setup(
context.SiteName,
context.AdminUsername,
context.AdminEmail,
context.AdminPassword,
context.DatabaseProvider,
context.DatabaseConnectionString,
context.DatabaseTablePrefix,
reportError
), logger);
if (hasErrors)
{
return(executionId);
}
var deferredTaskEngine = scope.ServiceProvider.GetService <IDeferredTaskEngine>();
if (deferredTaskEngine != null && deferredTaskEngine.HasPendingTasks)
{
var taskContext = new DeferredTaskContext(scope.ServiceProvider);
await deferredTaskEngine.ExecuteTasksAsync(taskContext);
}
}
}
// Update the shell state
shellSettings.State = TenantState.Running;
_orchardHost.UpdateShellSettings(shellSettings);
return(executionId);
}
public async Task <string> SetupInternalAsync(SetupContext context)
{
string executionId;
if (_logger.IsEnabled(LogLevel.Information))
{
_logger.LogInformation("Running setup for tenant '{TenantName}'.", context.ShellSettings.Name);
}
// Features to enable for Setup
string[] hardcoded =
{
_applicationName,
"OrchardCore.Features",
"OrchardCore.Scripting",
"OrchardCore.Recipes"
};
context.EnabledFeatures = hardcoded.Union(context.EnabledFeatures ?? Enumerable.Empty <string>()).Distinct().ToList();
// Set shell state to "Initializing" so that subsequent HTTP requests are responded to with "Service Unavailable" while Orchard is setting up.
context.ShellSettings.State = TenantState.Initializing;
var shellSettings = new ShellSettings(context.ShellSettings);
if (string.IsNullOrEmpty(shellSettings["DatabaseProvider"]))
{
shellSettings["DatabaseProvider"] = context.DatabaseProvider;
shellSettings["ConnectionString"] = context.DatabaseConnectionString;
shellSettings["TablePrefix"] = context.DatabaseTablePrefix;
}
if (String.IsNullOrWhiteSpace(shellSettings["DatabaseProvider"]))
{
throw new ArgumentException($"{nameof(context.DatabaseProvider)} is required");
}
// Creating a standalone environment based on a "minimum shell descriptor".
// In theory this environment can be used to resolve any normal components by interface, and those
// components will exist entirely in isolation - no crossover between the safemode container currently in effect
// It is used to initialize the database before the recipe is run.
var shellDescriptor = new ShellDescriptor
{
Features = context.EnabledFeatures.Select(id => new ShellFeature {
Id = id
}).ToList()
};
using (var shellContext = await _shellContextFactory.CreateDescribedContextAsync(shellSettings, shellDescriptor))
{
await shellContext.CreateScope().UsingAsync(async scope =>
{
IStore store;
try
{
store = scope.ServiceProvider.GetRequiredService <IStore>();
}
catch (Exception e)
{
// Tables already exist or database was not found
// The issue is that the user creation needs the tables to be present,
// if the user information is not valid, the next POST will try to recreate the
// tables. The tables should be rolled back if one of the steps is invalid,
// unless the recipe is executing?
_logger.LogError(e, "An error occurred while initializing the datastore.");
context.Errors.Add("DatabaseProvider", T["An error occurred while initializing the datastore: {0}", e.Message]);
return;
}
// Create the "minimum shell descriptor"
await scope
.ServiceProvider
.GetService <IShellDescriptorManager>()
.UpdateShellDescriptorAsync(0,
shellContext.Blueprint.Descriptor.Features,
shellContext.Blueprint.Descriptor.Parameters);
});
if (context.Errors.Any())
{
return(null);
}
executionId = Guid.NewGuid().ToString("n");
var recipeExecutor = shellContext.ServiceProvider.GetRequiredService <IRecipeExecutor>();
await recipeExecutor.ExecuteAsync(executionId, context.Recipe, new
{
SiteName = context.SiteName,
AdminUsername = context.AdminUsername,
AdminEmail = context.AdminEmail,
AdminPassword = context.AdminPassword,
DatabaseProvider = context.DatabaseProvider,
DatabaseConnectionString = context.DatabaseConnectionString,
DatabaseTablePrefix = context.DatabaseTablePrefix
},
_applicationLifetime.ApplicationStopping);
}
// Reloading the shell context as the recipe has probably updated its features
using (var shellContext = await _shellHost.CreateShellContextAsync(shellSettings))
{
await shellContext.CreateScope().UsingAsync(async scope =>
{
void reportError(string key, string message)
{
context.Errors[key] = message;
}
// Invoke modules to react to the setup event
var setupEventHandlers = scope.ServiceProvider.GetServices <ISetupEventHandler>();
var logger = scope.ServiceProvider.GetRequiredService <ILogger <SetupService> >();
await setupEventHandlers.InvokeAsync(x => x.Setup(
context.SiteName,
context.AdminUsername,
context.AdminEmail,
context.AdminPassword,
context.DatabaseProvider,
context.DatabaseConnectionString,
context.DatabaseTablePrefix,
context.SiteTimeZone,
reportError
), logger);
});
if (context.Errors.Any())
{
return(executionId);
}
}
// Update the shell state
shellSettings.State = TenantState.Running;
await _shellHost.UpdateShellSettingsAsync(shellSettings);
return(executionId);
}