public DiagnosticController(IContentItemRepository repository, IHost host, IDefinitionManager definitions, ILinkGenerator linkGenerator, IUrlParser parser, DatabaseSection config, IFlushable flushable, IReplicationStorage repstore, IFileSystemFactory fileSystemFactory) { _repository = repository; _host = host; _definitions = definitions; _linkGenerator = linkGenerator; _parser = parser; _flushable = flushable; _tablePrefix = config.TablePrefix; _repstore = repstore; if (_forceWriteLockManager != null) return; // Create Force Write Lock Manager var storageConfig = (FileSystemNamespace) Enum.Parse(typeof (FileSystemNamespace), ConfigurationManager.AppSettings["AzureReplicationStorageContainerName"] ?? "ReplicationStorageDebug"); var fileSystem = fileSystemFactory.Create(storageConfig); _forceWriteLockManager = new ReplicationForceWriteLockManager(fileSystem); _writeLockManager = new ReplicationWriteLockManager(fileSystem); }
public DiagnosticController(IContentItemRepository repository, IHost host, IDefinitionManager definitions, ILinkGenerator linkGenerator, IUrlParser parser, DatabaseSection config, IFlushable flushable, IReplicationStorage repstore, IFileSystemFactory fileSystemFactory) { _repository = repository; _host = host; _definitions = definitions; _linkGenerator = linkGenerator; _parser = parser; _flushable = flushable; _tablePrefix = config.TablePrefix; _repstore = repstore; if (_forceWriteLockManager != null) { return; } // Create Force Write Lock Manager var storageConfig = (FileSystemNamespace)Enum.Parse(typeof(FileSystemNamespace), ConfigurationManager.AppSettings["AzureReplicationStorageContainerName"] ?? "ReplicationStorageDebug"); var fileSystem = fileSystemFactory.Create(storageConfig); _forceWriteLockManager = new ReplicationForceWriteLockManager(fileSystem); _writeLockManager = new ReplicationWriteLockManager(fileSystem); }
public override void SetUp() { base.SetUp(); // create a filesystem for replication and use it as storage fsf = CreateFileSystemFactory(); Storage = new ReplicationStorageFileSystemN2(activator, fsf, definitions, persister); // create a master replicator MasterFlushable = new FakeFlushable(); Master = new ReplicationManager(persister, new XmlFinder(repository), Storage, fsf, new DatabaseSection(), new FakeSecurityManager(), null, MasterFlushable); Master.SetUnitTestMode(true); // create a separate slave repository SlaveRepo = new XmlContentItemRepository(activator, fs, definitions, null, null); var slavesource = TestSupport.SetupContentSource(SlaveRepo); SlavePersister = new ContentPersister(slavesource, SlaveRepo); new BehaviorInvoker(SlavePersister, new DefinitionMap()).Start(); // create a slave replicator SlaveFlushable = new FakeFlushable(); Slave = new ReplicationManager(SlavePersister, new XmlFinder(SlaveRepo), Storage, fsf, new DatabaseSection(), new FakeSecurityManager(), null, SlaveFlushable); Slave.SetUnitTestMode(false); }
public ReplicationManager( IPersister persister, IItemFinder finder, IReplicationStorage repstore, IFileSystemFactory fileSystemFactory, DatabaseSection dataBaseSection, ISecurityManager security ) : this(persister, finder, repstore, fileSystemFactory, dataBaseSection, security, null, null) { // needed to be able to execute N2 unit tests w/o additional dependecies }
public ReplicationManager( IPersister persister, IItemFinder finder, IReplicationStorage repstore, IFileSystemFactory fileSystemFactory, DatabaseSection dataBaseSection, ISecurityManager security, IIndexer indexer, // optional IFlushable flushable // optional ) { _repstore = repstore; _security = security; _persister = persister; _finder = finder; _indexer = indexer; _flushable = flushable; // detect sync direction from Database Type and double check via config string value = ConfigurationManager.AppSettings["XmlReplication"] ?? "false"; IsSlave = value.Equals("Slave", StringComparison.InvariantCultureIgnoreCase) & (dataBaseSection.Flavour == DatabaseFlavour.Xml); IsMaster = value.Equals("Master", StringComparison.InvariantCultureIgnoreCase) & !IsSlave; if (IsMaster || IsSlave) { // only initialize if replication is active var storageConfig = (FileSystemNamespace)Enum.Parse(typeof(FileSystemNamespace), ConfigurationManager.AppSettings["AzureReplicationStorageContainerName"] ?? "ReplicationStorageDebug"); _fileSystem = fileSystemFactory.Create(storageConfig); // constructing these dependencies to ensure same filesystem and simplify construction _replicationWriteLockManager = new ReplicationWriteLockManager(_fileSystem); _replicationReadLockManager = new ReplicationReadLockManager(_fileSystem); } _replicationLogPath = "/_Xml_Sync_Log"; }
public ReplicationManager( IPersister persister, IItemFinder finder, IReplicationStorage repstore, IFileSystemFactory fileSystemFactory, DatabaseSection dataBaseSection, ISecurityManager security, IIndexer indexer, // optional IFlushable flushable // optional ) { _repstore = repstore; _security = security; _persister = persister; _finder = finder; _indexer = indexer; _flushable = flushable; // detect sync direction from Database Type and double check via config string value = ConfigurationManager.AppSettings["XmlReplication"] ?? "false"; IsSlave = value.Equals("Slave", StringComparison.InvariantCultureIgnoreCase) & (dataBaseSection.Flavour == DatabaseFlavour.Xml); IsMaster = value.Equals("Master", StringComparison.InvariantCultureIgnoreCase) & !IsSlave; if (IsMaster || IsSlave) { // only initialize if replication is active var storageConfig = (FileSystemNamespace) Enum.Parse(typeof (FileSystemNamespace), ConfigurationManager.AppSettings["AzureReplicationStorageContainerName"] ?? "ReplicationStorageDebug"); _fileSystem = fileSystemFactory.Create(storageConfig); // constructing these dependencies to ensure same filesystem and simplify construction _replicationWriteLockManager = new ReplicationWriteLockManager(_fileSystem); _replicationReadLockManager = new ReplicationReadLockManager(_fileSystem); } _replicationLogPath = "/_Xml_Sync_Log"; }