internal VerificationFile(IEnumerable<ManifestEntry> parentChain, FilenameStrategy str)
{
m_doc = new System.Xml.XmlDocument();
System.Xml.XmlNode root = m_doc.AppendChild(m_doc.CreateElement("Verify"));
root.Attributes.Append(m_doc.CreateAttribute("hash-algorithm")).Value = Utility.Utility.HashAlgorithm;
root.Attributes.Append(m_doc.CreateAttribute("version")).Value = "1";
m_node = root.AppendChild(m_doc.CreateElement("Files"));
foreach (ManifestEntry mfe in parentChain)
{
System.Xml.XmlNode f = m_node.AppendChild(m_doc.CreateElement("File"));
f.Attributes.Append(m_doc.CreateAttribute("type")).Value = "manifest";
f.Attributes.Append(m_doc.CreateAttribute("name")).Value = mfe.Filename;
f.Attributes.Append(m_doc.CreateAttribute("size")).Value = mfe.Filesize.ToString();
f.InnerText = Utility.Utility.ByteArrayAsHexString(Convert.FromBase64String(mfe.RemoteHash));
for (int i = 0; i < mfe.ParsedManifest.SignatureHashes.Count; i++)
{
string sigfilename = mfe.ParsedManifest.SignatureHashes[i].Name;
string contentfilename = mfe.ParsedManifest.ContentHashes[i].Name;
bool missing = i >= mfe.Volumes.Count;
if (string.IsNullOrEmpty(sigfilename) || string.IsNullOrEmpty(contentfilename))
{
if (missing)
{
sigfilename = str.GenerateFilename(new SignatureEntry(mfe.Time, mfe.IsFull, i + 1));
contentfilename = str.GenerateFilename(new ContentEntry(mfe.Time, mfe.IsFull, i + 1));
//Since these files are missing, we have to guess what their real names were
string compressionGuess;
if (mfe.Volumes.Count <= 0)
compressionGuess = ".zip"; //Default if we have no knowledge
else
compressionGuess = "." + mfe.Volumes[0].Key.Compression; //Most likely the same as all the others
//Encryption will likely be the same as the one the manifest uses
string encryptionGuess = string.IsNullOrEmpty(mfe.EncryptionMode) ? "" : "." + mfe.EncryptionMode;
sigfilename += compressionGuess + encryptionGuess;
contentfilename += compressionGuess + encryptionGuess;
}
else
{
sigfilename = mfe.Volumes[i].Key.Filename;
contentfilename = mfe.Volumes[i].Value.Filename;
}
}
f = m_node.AppendChild(m_doc.CreateElement("File"));
f.Attributes.Append(m_doc.CreateAttribute("type")).Value = "signature";
f.Attributes.Append(m_doc.CreateAttribute("name")).Value = sigfilename;
f.Attributes.Append(m_doc.CreateAttribute("size")).Value = mfe.ParsedManifest.SignatureHashes[i].Size.ToString();
if (missing) f.Attributes.Append(m_doc.CreateAttribute("missing")).Value = "true";
f.InnerText = Utility.Utility.ByteArrayAsHexString(Convert.FromBase64String(mfe.ParsedManifest.SignatureHashes[i].Hash));
f = m_node.AppendChild(m_doc.CreateElement("File"));
f.Attributes.Append(m_doc.CreateAttribute("type")).Value = "content";
f.Attributes.Append(m_doc.CreateAttribute("name")).Value = contentfilename;
f.Attributes.Append(m_doc.CreateAttribute("size")).Value = mfe.ParsedManifest.ContentHashes[i].Size.ToString();
if (missing) f.Attributes.Append(m_doc.CreateAttribute("missing")).Value = "true";
f.InnerText = Utility.Utility.ByteArrayAsHexString(Convert.FromBase64String(mfe.ParsedManifest.ContentHashes[i].Hash));
}
}
}
/// <summary>
/// Constructs a new BackendWrapper
/// </summary>
/// <param name="statistics">The statistics logging module, may be null</param>
/// <param name="backend">The url to the backend to wrap</param>
/// <param name="options">A set of backend options</param>
public BackendWrapper(CommunicationStatistics statistics, string backend, Options options)
{
m_statistics = statistics;
m_options = options;
m_filenamestrategy = new FilenameStrategy(m_options);
m_backendUrl = backend;
m_backend = XervBackup.Library.DynamicLoader.BackendLoader.GetBackend(backend, m_options.RawOptions);
if (m_backend == null)
throw new Exception(string.Format(Strings.BackendWrapper.BackendNotFoundError, backend));
m_reuse_backend = !m_options.NoConnectionReuse;
m_first_backend_use = true;
m_backendSupportsCreateFolder = m_backend is Library.Interface.IBackend_v2;
if (m_options.AutoCleanup)
m_orphans = new List<BackupEntryBase>();
if (!string.IsNullOrEmpty(m_options.SignatureCachePath) && !System.IO.Directory.Exists(m_options.SignatureCachePath))
System.IO.Directory.CreateDirectory(m_options.SignatureCachePath);
if (!string.IsNullOrEmpty(m_options.Backendlogdatabase))
{
m_backendInterfaceLogger = new StateVerification.StateDatabase(m_options.Backendlogdatabase, statistics);
m_backendInterfaceLogger.BeginOperation(m_options.MainAction.ToString());
}
m_async = m_options.AsynchronousUpload;
if (m_async)
{
//If we are using async operations, the entire class is actually threadsafe,
//utilizing a common exclusive lock on all operations. But the implementation does
//not prevent starvation, so it should not be called by multiple threads.
m_pendingOperations = new Queue<KeyValuePair<BackupEntryBase, string>>();
m_asyncItemProcessed = new System.Threading.AutoResetEvent(false);
m_asyncItemReady = new System.Threading.AutoResetEvent(false);
m_workerThread = new System.Threading.Thread(ProcessQueue);
m_workerThread.Name = "AsyncUploaderThread";
m_queuelock = new object();
m_workerThread.Start();
}
}