// see DbFile.java for javadocs public Page readPage(PageId pid) { int offset = BufferPool.PAGE_SIZE * pid.pageNumber(); byte[] b = new byte[BufferPool.PAGE_SIZE]; try { InputStream is = new FileInputStream(m_file); is.skip(offset); is.read(b, 0, BufferPool.PAGE_SIZE); is.close(); return new HeapPage((HeapPageId) pid, b); } catch (IOException ioe) { ioe.printStackTrace(); return null; } }
void cleanup() throws IOException { if (headerReader != null) { headerReader.close(); headerReader = null; } if (eventReader != null) { eventReader.close(); eventReader = null; } if (dataReader != null) { dataReader.close(); dataReader = null; } run = false; }
private boolean unpackFile(ZipFile zip, byte[] buf, ZipEntry fileEntry, String name) throws IOException, FileNotFoundException { if (fileEntry == null) fileEntry = zip.getEntry(name); if (fileEntry == null) throw new FileNotFoundException("Can't find " + name + " in " + zip.getName()); File outFile = new File(sGREDir, name); if (outFile.lastModified() == fileEntry.getTime() && outFile.length() == fileEntry.getSize()) return false; File dir = outFile.getParentFile(); if (!dir.exists()) dir.mkdirs(); InputStream fileStream; fileStream = zip.getInputStream(fileEntry); OutputStream outStream = new FileOutputStream(outFile); while (fileStream.available() > 0) { int read = fileStream.read(buf, 0, buf.length); outStream.write(buf, 0, read); } fileStream.close(); outStream.close(); outFile.setLastModified(fileEntry.getTime()); return true; }
/** * Checks if a given file exists and, if not, create it by copying a default template from * resources; used to create default conf files. * * @param file The path of the file that needs to exist * @param template The path of the template for the file */ public static void ensureFileExists(final String file, final String template) { if (LAUNCHED_FROM_JAR && !Files.exists(Paths.get(file))) { if (Debug.on) printDebug("[Meta] " + file + " does not exist: creating a default one."); InputStream stream = Meta.class.getResourceAsStream(template); if (stream == null) { printDebug( "[ WARNING ] template for " + template + " not found. Won't create a default " + file + "."); } else { int readBytes; byte[] buffer = new byte[4096]; try (OutputStream outStream = new FileOutputStream(new File(file))) { while ((readBytes = stream.read(buffer)) > 0) { outStream.write(buffer, 0, readBytes); } if (Debug.on) printDebug("[Meta] created default file " + file + " from " + template + "."); } catch (IOException e) { e.printStackTrace(); } finally { try { stream.close(); } catch (IOException ignore) { } } } } else { if (Meta.LAUNCHED_FROM_JAR && Debug.on) printDebug("[Meta] file exists: " + file + "."); } }
public static void main(String[] args) throws Exception { //////////////////// STAGE A////////////////////////////////////////// int portNum = 12235; // InetAddress ip=InetAddress.getLocalHost(); InetAddress ip = InetAddress.getByName("attu2.cs.washington.edu"); DatagramSocket sock = new DatagramSocket(); byte[] response = new byte[HEADER_SIZE + 16]; String partA = "hello world\0"; byte[] buf = createBuffer(partA.getBytes(), 0, STEP1); DatagramPacket packet = new DatagramPacket(buf, buf.length, ip, portNum); sock.send(packet); packet = new DatagramPacket(response, response.length); sock.receive(packet); int[] a2 = partA(response); // putting the 4 ints from server into int[] // for (int i = 0; i < a2.length; i++) { // System.out.println(a2[i]); // } ////////////////////// STAGE B//////////////////////////////////////// int numSent = 0; int send = a2[0]; int len = a2[1]; portNum = a2[2]; int secretA = a2[3]; System.out.println("The secrets:\nA: " + secretA); sock.setSoTimeout(500); // .5s while (numSent < send) { // create packet buf = createBuffer(partB(numSent, len), secretA, STEP1); packet = new DatagramPacket(buf, buf.length, ip, portNum); sock.send(packet); // send packet try { sock.receive(new DatagramPacket(response, response.length)); numSent++; ByteBuffer temp = ByteBuffer.wrap(response); checkHeader(temp, 4, secretA, STEP1); // System.out.println(temp.getInt()); // For debug. See if counts up by 1 } catch (SocketTimeoutException e) { // if there's a timeout, try again continue; } } response = new byte[HEADER_SIZE + 8]; // 8 bytes -- 2 integers sock.receive(new DatagramPacket(response, response.length)); ByteBuffer bb = ByteBuffer.wrap(response); // Header checkHeader(bb, 8, secretA, STEP2); // reset the port number to the one given portNum = bb.getInt(); int secretB = bb.getInt(); System.out.println("B: " + secretB); // close the UDP socket sock.close(); /////////////////////////// STAGE C/////////////////////////////////// Socket socket = new Socket(ip, portNum); InputStream in = socket.getInputStream(); OutputStream out = socket.getOutputStream(); response = new byte[HEADER_SIZE + 16]; // 4 ints given to us this time in.read(response); bb = ByteBuffer.wrap(response); // Header checkHeader(bb, 13, secretB, STEP2); // num2 len2 secretC and char c numSent = bb.getInt(); len = bb.getInt(); int secretC = bb.getInt(); System.out.println("C: " + secretC); // stage d byte c = (byte) bb.getChar(); buf = new byte[len]; Arrays.fill(buf, c); for (int i = 0; i < numSent; i++) { byte[] b = createBuffer(buf, secretC, STEP1); out.write(b); } response = new byte[12 + 4]; // one integer. secretD plus header in.read(response); bb = ByteBuffer.wrap(response); checkHeader(bb, 4, secretC, STEP2); int secretD = bb.getInt(); socket.close(); in.close(); out.close(); System.out.println("D: " + secretD); }