@Override public void initialize() { ByteBuffer b = null; b = ByteBuffer.allocate(KeyUtil.getKeyBytes(key).length + String.valueOf(exp).length() + OVERHEAD); b.put(("touch " + key + " " + exp + "\r\n").getBytes()); b.flip(); setBuffer(b); }
@Override public void initialize() { ByteBuffer b = null; b = ByteBuffer.allocate(KeyUtil.getKeyBytes(key).length + String.valueOf(exp).length() + OVERHEAD); b.put(("touch " + key + " " + exp + "\r\n").getBytes()); b.flip(); setBuffer(b); }
@Override public void initialize() { byte[] keyBytes = KeyUtil.getKeyBytes(key); prepareBuffer("", 0x0, EMPTY_BYTES, (short) index, (short) keyBytes.length, keyBytes); }
@Override public void initialize() { byte[] keyBytes = KeyUtil.getKeyBytes(key); prepareBuffer("", 0x0, EMPTY_BYTES, (short) index, (short) keyBytes.length, keyBytes); }
/** * Add a key (and return its new opaque value). */ protected int addKey(String k) { Integer rv=rkeys.get(k); if(rv == null) { rv=generateOpaque(); keys.put(rv, k); bkeys.put(rv, KeyUtil.getKeyBytes(k)); rkeys.put(k, rv); } return rv; }
@Override public void initialize() { ByteBuffer bb = ByteBuffer.allocate(data.length + KeyUtil.getKeyBytes(key).length + OVERHEAD); setArguments(bb, type, key, flags, exp, data.length); assert bb.remaining() >= data.length + 2 : "Not enough room in buffer," + " need another " + (2 + data.length - bb.remaining()); bb.put(data); bb.put(CRLF); bb.flip(); setBuffer(bb); }
@Override public void initialize() { ByteBuffer bb = ByteBuffer.allocate(data.length + KeyUtil.getKeyBytes(key).length + OVERHEAD); setArguments(bb, type, key, flags, exp, data.length); assert bb.remaining() >= data.length + 2 : "Not enough room in buffer," + " need another " + (2 + data.length - bb.remaining()); bb.put(data); bb.put(CRLF); bb.flip(); setBuffer(bb); }
@Override public void initialize() { ByteBuffer bb = ByteBuffer.allocate(data.length + KeyUtil.getKeyBytes(key).length + OVERHEAD); setArguments(bb, "cas", key, flags, exp, data.length, casValue); assert bb.remaining() >= data.length + 2 : "Not enough room in buffer," + " need another " + (2 + data.length - bb.remaining()); bb.put(data); bb.put(CRLF); bb.flip(); setBuffer(bb); }
@Override public void initialize() { ByteBuffer bb = ByteBuffer.allocate(data.length + KeyUtil.getKeyBytes(key).length + OVERHEAD); setArguments(bb, type, key, flags, exp, data.length); assert bb.remaining() >= data.length + 2 : "Not enough room in buffer," + " need another " + (2 + data.length - bb.remaining()); bb.put(data); bb.put(CRLF); bb.flip(); setBuffer(bb); }
@Override public void initialize() { ByteBuffer bb = ByteBuffer.allocate(data.length + KeyUtil.getKeyBytes(key).length + OVERHEAD); setArguments(bb, "cas", key, flags, exp, data.length, casValue); assert bb.remaining() >= data.length + 2 : "Not enough room in buffer," + " need another " + (2 + data.length - bb.remaining()); bb.put(data); bb.put(CRLF); bb.flip(); setBuffer(bb); }
@Override public void initialize() { ByteBuffer bb = ByteBuffer.allocate(data.length + KeyUtil.getKeyBytes(key).length + OVERHEAD); setArguments(bb, "cas", key, flags, exp, data.length, casValue); assert bb.remaining() >= data.length + 2 : "Not enough room in buffer," + " need another " + (2 + data.length - bb.remaining()); bb.put(data); bb.put(CRLF); bb.flip(); setBuffer(bb); }
@Override public void initialize() { ByteBuffer bb=ByteBuffer.allocate(data.length + KeyUtil.getKeyBytes(key).length + OVERHEAD); setArguments(bb, "cas", key, flags, exp, data.length, casValue); assert bb.remaining() >= data.length + 2 : "Not enough room in buffer, need another " + (2 + data.length - bb.remaining()); bb.put(data); bb.put(CRLF); bb.flip(); setBuffer(bb); }
@Override public void initialize() { ByteBuffer bb=ByteBuffer.allocate(data.length + KeyUtil.getKeyBytes(key).length + OVERHEAD); setArguments(bb, type, key, flags, exp, data.length); assert bb.remaining() >= data.length + 2 : "Not enough room in buffer, need another " + (2 + data.length - bb.remaining()); bb.put(data); bb.put(CRLF); bb.flip(); setBuffer(bb); }
public void addOperation(CASOperation op) { ops.add(op); // Count the bytes required by this operation. Iterator<String> is = op.getKeys().iterator(); String k = is.next(); int keylen = KeyUtil.getKeyBytes(k).length; byteCount += MIN_RECV_PACKET + StoreOperationImpl.EXTRA_LEN + keylen + op.getData().length; }
public void addOperation(CASOperation op) { ops.add(op); // Count the bytes required by this operation. Iterator<String> is = op.getKeys().iterator(); String k = is.next(); int keylen = KeyUtil.getKeyBytes(k).length; byteCount += MIN_RECV_PACKET + StoreOperationImpl.EXTRA_LEN + keylen + op.getBytes().length; }
public void addOperation(CASOperation op) { ops.add(op); // Count the bytes required by this operation. Iterator<String> is = op.getKeys().iterator(); String k = is.next(); int keylen = KeyUtil.getKeyBytes(k).length; byteCount += MIN_RECV_PACKET + StoreOperationImpl.EXTRA_LEN + keylen + op.getData().length; }
public void addOperation(CASOperation op) { ops.add(op); // Count the bytes required by this operation. Iterator<String> is = op.getKeys().iterator(); String k = is.next(); int keylen = KeyUtil.getKeyBytes(k).length; byteCount += MIN_RECV_PACKET + StoreOperationImpl.EXTRA_LEN + keylen + op.getBytes().length; }
public void addOperation(CASOperation op) { ops.add(op); // Count the bytes required by this operation. Iterator<String> is = op.getKeys().iterator(); String k = is.next(); int keylen = KeyUtil.getKeyBytes(k).length; byteCount += MIN_RECV_PACKET + StoreOperationImpl.EXTRA_LEN + keylen + op.getData().length; }
@Override public void initialize() { ByteBuffer b = ByteBuffer.allocate(KeyUtil.getKeyBytes(key).length + OVERHEAD); setArguments(b, "delete", key); b.flip(); setBuffer(b); }
public void addOperation(CASOperation op) { ops.add(op); // Count the bytes required by this operation. Iterator<String> is = op.getKeys().iterator(); String k = is.next(); int keylen = KeyUtil.getKeyBytes(k).length; byteCount += MIN_RECV_PACKET + StoreOperationImpl.EXTRA_LEN + keylen + op.getBytes().length; }