/*
* Aerospike Client - Java Library
*
* Copyright 2012 by Aerospike, Inc. All rights reserved.
*
* Availability of this source code to partners and customers includes
* redistribution rights covered by individual contract. Please check your
* contract for exact rights and responsibilities.
*/
package com.aerospike.client.command;
import java.io.IOException;
import java.io.InputStream;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.Map;
import com.aerospike.client.AerospikeException;
import com.aerospike.client.Key;
import com.aerospike.client.Record;
import com.aerospike.client.ResultCode;
import com.aerospike.client.cluster.Cluster;
public final class ReadCommand extends SingleCommand {
private Record record;
private int resultCode;
public ReadCommand(Cluster cluster, Key key) {
super(cluster, key);
}
protected void parseResult(InputStream is) throws AerospikeException, IOException {
// Read header.
readFully(is, receiveBuffer, MSG_TOTAL_HEADER_SIZE);
// A number of these are commented out because we just don't care enough to read
// that section of the header. If we do care, uncomment and check!
long sz = Buffer.bytesToLong(receiveBuffer, 0);
byte headerLength = receiveBuffer[8];
// byte info1 = header[9];
// byte info2 = header[10];
// byte info3 = header[11];
// byte unused = header[12];
resultCode = receiveBuffer[13] & 0xFF;
int generation = Buffer.bytesToInt(receiveBuffer, 14);
int expiration = Buffer.bytesToInt(receiveBuffer, 18);
// int transactionTtl = get_ntohl(header, 22);
int fieldCount = Buffer.bytesToShort(receiveBuffer, 26); // almost certainly 0
int opCount = Buffer.bytesToShort(receiveBuffer, 28);
int receiveSize = ((int) (sz & 0xFFFFFFFFFFFFL)) - headerLength;
/*
byte version = (byte) (((int)(sz >> 56)) & 0xff);
if (version != MSG_VERSION) {
if (Log.debugEnabled()) {
Log.debug("read header: incorrect version.");
}
}
byte type = (byte) (((int)(sz >> 48)) & 0xff);
if (type != MSG_TYPE) {
if (Log.debugEnabled()) {
Log.debug("read header: incorrect message type, aborting receive");
}
}
if (headerLength != MSG_REMAINING_HEADER_SIZE) {
if (Log.debugEnabled()) {
Log.debug("read header: unexpected header size, aborting");
}
}*/
// Read remaining message bytes.
if (receiveSize > 0) {
resizeReceiveBuffer(receiveSize);
readFully(is, receiveBuffer, receiveSize);
}
if (resultCode != 0) {
if (resultCode == ResultCode.KEY_NOT_FOUND_ERROR) {
return;
}
if (resultCode == ResultCode.UDF_BAD_RESPONSE) {
record = parseRecord(opCount, fieldCount, generation, expiration);
handleUdfError();
}
throw new AerospikeException(resultCode);
}
if (opCount == 0) {
// Bin data was not returned.
record = new Record(null, null, generation, expiration);
return;
}
record = parseRecord(opCount, fieldCount, generation, expiration);
}
private void handleUdfError() throws AerospikeException {
String ret = (String)record.bins.get("FAILURE");
if (ret != null) {
String[] list;
String message;
int code;
try {
list = ret.split(":");
code = Integer.parseInt(list[2].trim());
message = list[0] + ':' + list[1] + ' ' + list[3];
}
catch (Exception e) {
// Use generic exception if parse error occurs.
throw new AerospikeException(resultCode, ret);
}
throw new AerospikeException(code, message);
}
}
private final Record parseRecord(
int opCount,
int fieldCount,
int generation,
int expiration
) throws AerospikeException {
Map<String,Object> bins = null;
ArrayList<Map<String, Object>> duplicates = null;
int receiveOffset = 0;
// There can be fields in the response (setname etc).
// But for now, ignore them. Expose them to the API if needed in the future.
if (fieldCount != 0) {
// Just skip over all the fields
for (int i = 0; i < fieldCount; i++) {
int fieldSize = Buffer.bytesToInt(receiveBuffer, receiveOffset);
receiveOffset += 4 + fieldSize;
}
}
for (int i = 0 ; i < opCount; i++) {
int opSize = Buffer.bytesToInt(receiveBuffer, receiveOffset);
byte particleType = receiveBuffer[receiveOffset+5];
byte version = receiveBuffer[receiveOffset+6];
byte nameSize = receiveBuffer[receiveOffset+7];
String name = Buffer.utf8ToString(receiveBuffer, receiveOffset+8, nameSize);
receiveOffset += 4 + 4 + nameSize;
int particleBytesSize = (int) (opSize - (4 + nameSize));
Object value = null;
value = Buffer.bytesToParticle(particleType, receiveBuffer, receiveOffset, particleBytesSize);
receiveOffset += particleBytesSize;
Map<String,Object> vmap = null;
if (version > 0 || duplicates != null) {
if (duplicates == null) {
duplicates = new ArrayList<Map<String,Object>>(4);
duplicates.add(bins);
bins = null;
for (int j = 0; j < version; j++) {
duplicates.add(null);
}
}
else {
for (int j = duplicates.size(); j < version + 1; j++)
duplicates.add(null);
}
vmap = duplicates.get(version);
if (vmap == null) {
vmap = new HashMap<String,Object>();
duplicates.set(version, vmap);
}
}
else {
if (bins == null) {
bins = new HashMap<String,Object>();
}
vmap = bins;
}
vmap.put(name, value);
}
// Remove null duplicates just in case there were holes in the version number space.
if (duplicates != null) {
while (duplicates.remove(null)) {
;
}
}
return new Record(bins, duplicates, generation, expiration);
}
public Record getRecord() {
return record;
}
public int getResultCode() {
return resultCode;
}
}