public processingThread(Program.logString logger, AutoResetEvent poller, ConcurrentQueue <downloadThread.downloadedUpdate> inputQueue, AutoResetEvent downloadRequestEvent, archiveThread archiver, asyncsqlthread sqlThread) : base(logger, poller) { this.threadname = "Update processing thread"; this.queue = inputQueue; this.asyncSQLParams = sqlThread; this.archiver = archiver; this.UpdateProcessingStarted = downloadRequestEvent; }
public static void Main(string[] args) { using (logDB = new updateDB(connstr, dbName)) { ConcurrentQueue <downloadThread.downloadedUpdate> toProcessQueue = new ConcurrentQueue <downloadThread.downloadedUpdate>(); ConcurrentQueue <string> toArchiveQueue = new ConcurrentQueue <string>(); AutoResetEvent downloadRequestEvent = new AutoResetEvent(false); AutoResetEvent downloadCompleteEvent = new AutoResetEvent(false); using (threadLifetimeCollection threads = new threadLifetimeCollection()) { asyncsqlthread sqlparams = new asyncsqlthread(logger); threads.add(sqlparams.start()); updateReserverThread updateGetterThread = new updateReserverThread(logger); threads.add(updateGetterThread.start()); archiveThread archiver = new archiveThread(logger, toArchiveQueue); threads.add(archiver.start()); downloadThread[] downloadThreads = new downloadThread[downloadThreadCount]; for (int i = 0; i < downloadThreads.Length; i++) { downloadThreads[i] = new downloadThread(logger, downloadRequestEvent, toProcessQueue, updateGetterThread); downloadThreads[i].threadname += $" ({i})"; downloadThreads[i].outqueue = toProcessQueue; downloadThreads[i].maxFinishedDownloads = maxPendingDownloads; downloadThreads[i].downloadComplete = downloadCompleteEvent; threads.add(downloadThreads[i].start()); } processingThread[] processingThreads = new processingThread[processingThreadCount]; for (int i = 0; i < processingThreads.Length; i++) { processingThreads[i] = new processingThread(logger, downloadCompleteEvent, toProcessQueue, downloadRequestEvent, archiver, sqlparams); processingThreads[i].threadname += $" ({i})"; threads.add(processingThreads[i].start()); } while (true) { // have we finished it all? if (updateGetterThread.allUpdatesExhausted()) { Console.WriteLine("all done"); // Once the update-getter signals completion, it has already passed pending updates to the download threads, so it's safe to // tear down threads without fear of missing updates. foreach (downloadThread dt in downloadThreads) { dt.stop(); } foreach (processingThread pt in processingThreads) { pt.stop(); } archiver.stop(); sqlparams.stop(); break; } // OK, show some stats. Thread.Sleep(TimeSpan.FromSeconds(1)); //Console.Clear(); Console.WriteLine( $"Processing queue: {toProcessQueue.Count}, reserved updates {updateGetterThread.claimedUpdates.Count}, " + $"async sql queue {sqlparams.batches.Count} / {sqlparams.batches_wim.Count} / {sqlparams.toMarkComplete.Count}"); for (int i = 0; i < downloadThreads.Length; i++) { var current = downloadThreads[i].currentlydownloading; if (current != null) { Console.WriteLine( $"Download thread {i}: downloading {current.downloadURI} ({current.sizeMB} MB)"); } else { Console.WriteLine($"Download thread {i}: idle"); } } for (int i = 0; i < processingThreads.Length; i++) { string cur = processingThreads[i].currentlyProcessing; if (cur != null) { Console.WriteLine($"Processing thread {i}: processing {cur}"); } else { Console.WriteLine($"Processing thread {i}: idle"); } } } } } }