/**
* @param skip 跳过多少过字节进行插入数据
* @param str 要插入的字符串
* @param fileName 文件路径
*/
public static void writeSkip(long skip, String str, String fileName) throws IOException {
RandomAccessFile raf = null;
try {
raf = new RandomAccessFile(fileName, "rw");
if (skip < 0 || skip > raf.length()) {
System.out.println("跳过字节数无效");
return;
}
byte[] b = str.getBytes();
raf.setLength(raf.length() + b.length);
for (long i = raf.length() - 1; i > b.length + skip - 1; i--) {
raf.seek(i - b.length);
byte temp = raf.readByte();
raf.seek(i);
raf.writeByte(temp);
}
raf.seek(skip);
raf.write(b);
} catch (Exception e) {
throw new IOException(e);
} finally {
try {
raf.close();
} catch (IOException e) {
throw e;
}
}
}
public static void reconstructTurtle(File partFolder, File reconstructed) throws IOException {
Path tmpOut = Files.createTempFile(partFolder.toPath(), "reconstr", ".tmp");
FileOutputStream dstOut = new FileOutputStream(tmpOut.toFile());
FileChannel dstOutChannel = dstOut.getChannel();
try {
if (!Files.isDirectory(partFolder.toPath()))
throw new IOException("Not a directory: " + partFolder);
File[] fileList =
FileUtils.listFiles(partFolder, new PrefixFileFilter("part"), TrueFileFilter.TRUE)
.toArray(new File[0]);
Arrays.sort(fileList);
RandomAccessFile inputFile;
inputFile = new RandomAccessFile(fileList[0], "r");
inputFile.getChannel().transferTo(0, inputFile.length(), dstOutChannel);
inputFile.close();
for (int i = 1; i < fileList.length; i++) {
inputFile = new RandomAccessFile(fileList[i], "r");
long lastPrefix = findTurtlePrefixEnd(inputFile);
inputFile
.getChannel()
.transferTo(lastPrefix, inputFile.length() - lastPrefix, dstOutChannel);
inputFile.close();
}
} finally {
dstOut.close();
}
Files.move(
tmpOut,
reconstructed.toPath(),
StandardCopyOption.ATOMIC_MOVE,
StandardCopyOption.REPLACE_EXISTING);
FileUtils.deleteQuietly(tmpOut.toFile());
FileUtils.deleteQuietly(partFolder);
}
/**
* Returns the uncompressed size of the file in a quick, but unreliable manner. It will not
* report the correct size if:
*
* <ol>
* <li>The compressed size is larger than 2<sup>32</sup> bytes.
* <li>The file is broken or truncated.
* <li>The file has not been generated by a standard-conformant compressor.
* <li>It is a multi-volume GZIP stream.
* </ol>
*
* <p>The advantage of this approach is, that it only reads the first 2 and last 4 bytes of the
* target file. If the first 2 bytes are not the GZIP magic number, the raw length of the file
* is returned.
*
* @see #isGzipStream(File)
* @param file
* @return the size of the uncompressed file content.
*/
public static long getGzipStreamSize(File file) {
if (!isGzipStream(file)) {
return file.length();
}
RandomAccessFile raf = null;
try {
raf = new RandomAccessFile(file, "r");
if (raf.length() <= 4) {
raf.close();
return file.length();
}
raf.seek(raf.length() - 4);
int b4 = raf.read();
int b3 = raf.read();
int b2 = raf.read();
int b1 = raf.read();
return (b1 << 24) + (b2 << 16) + (b3 << 8) + b4;
} catch (IOException ex) {
return file.length();
} finally {
if (raf != null)
try {
raf.close();
} catch (IOException e) {
// ignore
}
}
}
/**
* Reads data from the given file into the given buffer, centered around the given file offset.
* The first half of the buffer will be filled with data right before the given offset, while the
* remainder of the buffer will contain data right after it (of course, containing the byte at the
* given offset).
*
* @param stream The stream to read from
* @param buffer The buffer to read data into
* @param fileReferenceOffset The offset to start reading from in the stream.
* @return The number of bytes reads, which could be less than the length of the input buffer if
* we can't read due to the beginning or the end of the file.
* @throws IOException Thrown if the stream being used is invalid or inaccessible.
*/
private static int readIntoBufferAroundReference(
RandomAccessFile stream, byte[] buffer, long fileReferenceOffset) throws IOException {
int length = buffer.length;
// calculate start offset
long fileStartOffset = fileReferenceOffset - length / 2;
if (fileStartOffset < 0) {
// offset is less than zero, adjust it, as well as the length we want to read
length += (int) fileStartOffset;
fileStartOffset = 0;
if (length <= 0) {
return 0;
}
}
if (fileStartOffset + length > stream.length()) {
// startOffset + length is beyond the end of the stream, adjust the length accordingly
length = (int) (stream.length() - fileStartOffset);
if (length <= 0) {
return 0;
}
}
// read the appropriate block of the file into the buffer, using symmetry with respect to its
// midpoint
// we always initiate a seek from the origin of the file.
stream.seek(0);
stream.seek(fileStartOffset);
int bufferOffset = 0;
while (bufferOffset < length) {
int bytesRead = stream.read(buffer, bufferOffset, length - bufferOffset);
bufferOffset += bytesRead;
}
return length;
}
public int copy(InputStream input, RandomAccessFile out, TTask.Task task)
throws Exception, IOException {
this.mBuffer = new byte[8192];
BufferedInputStream in = new BufferedInputStream(input, 8192);
TLog.v(this.TAG, "length" + out.length());
out.seek(out.length());
int count = 0;
int byteCount = 0;
long errorBlockTimePreviousTime = -1L;
long expireTime = 0L;
try {
while (!task.isCancel()) {
byteCount = in.read(this.mBuffer, 0, 8192);
if (byteCount == -1) {
break;
}
out.write(this.mBuffer, 0, byteCount);
count += byteCount;
if (!TMDownloadManager.getInstance().isOnline()) {
task.stopTask();
setErrorCode(2);
break;
}
if (this.mSpeed == 0L) {
if (errorBlockTimePreviousTime > 0L) {
expireTime = System.currentTimeMillis() - errorBlockTimePreviousTime;
if (expireTime > 30000L) {
setErrorCode(2);
task.stopTask();
}
} else {
errorBlockTimePreviousTime = System.currentTimeMillis();
}
} else {
expireTime = 0L;
errorBlockTimePreviousTime = -1L;
}
}
} finally {
try {
out.close();
} catch (IOException e) {
setErrorCode(3);
TLog.e(this.TAG, e.getMessage());
}
try {
in.close();
} catch (IOException e) {
setErrorCode(3);
TLog.e(this.TAG, e.getMessage());
}
}
this.mBuffer = null;
return count;
}
public int copy(InputStream input, RandomAccessFile out)
throws IOException, NetworkErrorException {
if (input == null || out == null) {
return -1;
}
byte[] buffer = new byte[BUFFER_SIZE];
BufferedInputStream in = new BufferedInputStream(input, BUFFER_SIZE);
if (DEBUG) {
Log.v(TAG, "length" + out.length());
}
int count = 0, n = 0;
long errorBlockTimePreviousTime = -1, expireTime = 0;
try {
out.seek(out.length());
while (!interrupt) {
n = in.read(buffer, 0, BUFFER_SIZE);
if (n == -1) {
break;
}
out.write(buffer, 0, n);
count += n;
/*
* check network
*/
if (!NetworkUtils.isNetworkAvailable(context)) {
throw new NetworkErrorException("Network blocked.");
}
if (networkSpeed == 0) {
if (errorBlockTimePreviousTime > 0) {
expireTime = System.currentTimeMillis() - errorBlockTimePreviousTime;
if (expireTime > TIME_OUT) {
throw new ConnectTimeoutException("connection time out.");
}
} else {
errorBlockTimePreviousTime = System.currentTimeMillis();
}
} else {
expireTime = 0;
errorBlockTimePreviousTime = -1;
}
}
} finally {
client.close(); // must close client first
client = null;
out.close();
in.close();
input.close();
}
return count;
}
private static RegionFile fixNegativeOffset(File regionFileFile) {
FMLLog.log(
Level.WARNING,
"Region file " + regionFileFile + " is corrupted: negative offset. Attempting to fix.");
try {
Files.copy(
regionFileFile,
new File(regionFileFile.getParentFile(), regionFileFile.getName() + ".bak"));
} catch (IOException e) {
FMLLog.log(Level.SEVERE, e, "Failed to back up corrupt region file.");
}
try {
RandomAccessFile dataFile = new RandomAccessFile(regionFileFile, "rw");
try {
int length;
if (dataFile.length() < 4096L) {
for (length = 0; length < 1024; ++length) {
dataFile.writeInt(0);
}
for (length = 0; length < 1024; ++length) {
dataFile.writeInt(0);
}
}
if ((dataFile.length() & 4095L) != 0L) {
for (length = 0; (long) length < (dataFile.length() & 4095L); ++length) {
dataFile.write(0);
}
}
length = (int) dataFile.length() / 4096;
dataFile.seek(0L);
for (int i = 0; i < 1024; ++i) {
int offset = dataFile.readInt();
if (offset != 0 && (offset >> 8) + (offset & 255) <= length) {
for (int var5 = 0; var5 < (offset & 255); ++var5) {
if ((offset >> 8) + var5 < 0) {
dataFile.seek(dataFile.getFilePointer() - 4);
dataFile.writeInt(0);
break;
}
}
}
}
} finally {
dataFile.close();
}
} catch (Throwable t) {
FMLLog.log(Level.SEVERE, t, "Failed to fix negative offset index in " + regionFileFile);
throw UnsafeUtil.throwIgnoreChecked(t);
}
return new RegionFile(regionFileFile);
}
/**
* Creates and initializes an SPV block store. Will create the given file if it's missing. This
* operation will block on disk.
*/
public SPVBlockStore(NetworkParameters params, File file) throws BlockStoreException {
checkNotNull(file);
this.params = checkNotNull(params);
try {
this.numHeaders = DEFAULT_NUM_HEADERS;
boolean exists = file.exists();
// Set up the backing file.
randomAccessFile = new RandomAccessFile(file, "rw");
long fileSize = getFileSize();
if (!exists) {
log.info("Creating new SPV block chain file " + file);
randomAccessFile.setLength(fileSize);
} else if (randomAccessFile.length() != fileSize) {
throw new BlockStoreException(
"File size on disk does not match expected size: "
+ randomAccessFile.length()
+ " vs "
+ fileSize);
}
FileChannel channel = randomAccessFile.getChannel();
fileLock = channel.tryLock();
if (fileLock == null)
throw new BlockStoreException("Store file is already locked by another process");
// Map it into memory read/write. The kernel will take care of flushing writes to disk at the
// most
// efficient times, which may mean that until the map is deallocated the data on disk is
// randomly
// inconsistent. However the only process accessing it is us, via this mapping, so our own
// view will
// always be correct. Once we establish the mmap the underlying file and channel can go away.
// Note that
// the details of mmapping vary between platforms.
buffer = channel.map(FileChannel.MapMode.READ_WRITE, 0, fileSize);
// Check or initialize the header bytes to ensure we don't try to open some random file.
byte[] header;
if (exists) {
header = new byte[4];
buffer.get(header);
if (!new String(header, "US-ASCII").equals(HEADER_MAGIC))
throw new BlockStoreException("Header bytes do not equal " + HEADER_MAGIC);
} else {
initNewStore(params);
}
} catch (Exception e) {
try {
if (randomAccessFile != null) randomAccessFile.close();
} catch (IOException e2) {
throw new BlockStoreException(e2);
}
throw new BlockStoreException(e);
}
}
/**
* reads the content of a group of existing files in a zipped block
*
* @param domain The namespace used to identify the application domain (1st level directory) to
* use
* @param paths The paths relative to the domain for the files to be read
* @param offset The offset in the file to start reading from
* @param len The length of the block in bytes in zipped form
* @return The contents of the file in zipped form together with the description of the files
*/
public MultiFileBlock readFromStreamZipped(String[] paths, long offset, int len) {
MultiFileBlock block = null;
try {
if (_isLocal) {
int startFileIndex =
Util.getStartFileIndex(
_rootFile.getCanonicalPath() + File.separatorChar, paths, offset);
long startFileOffset =
Util.getStartFileOffset(
_rootFile.getCanonicalPath() + File.separatorChar, paths, offset);
int i = startFileIndex;
long j = startFileOffset;
// int bufSize=0;
int totalBufSize = 0;
int readResult = 0;
ByteArrayOutputStream bOut = new ByteArrayOutputStream(len);
GZIPOutputStream zOut = new GZIPOutputStream(bOut, len);
block = new MultiFileBlock();
while (totalBufSize < len && i < paths.length) {
File tmpFile = new File(_rootFile.getCanonicalPath() + File.separatorChar + paths[i]);
if (tmpFile.isFile() && tmpFile.exists()) {
RandomAccessFile in = new RandomAccessFile(tmpFile, "r");
byte[] tmpBuf = new byte[len - totalBufSize];
in.seek(j);
while (totalBufSize < len && in.getFilePointer() < in.length()) {
readResult = in.read(tmpBuf);
if (readResult != -1) {
zOut.write(tmpBuf, 0, readResult);
// bufSize = bOut.size();
totalBufSize += readResult;
} else {
break;
}
}
BlockFileDescriptor des = new BlockFileDescriptor(_domain, paths[i], in.length());
block.addBlockFileDescriptor(des);
in.close();
i++;
j = 0;
} else {
return null;
}
}
zOut.close();
block.setBlockData(bOut.toByteArray());
} else {
block = _remote.readFromStreamZipped(_domain, paths, offset, len);
}
} catch (Exception ex) {
ex.printStackTrace();
}
return block;
}
protected static void persist(String content, String filePath, boolean append)
throws IOException {
// Remove string like <?xml version="1.0" encoding="UTF-8"?>
// Pattern p = Pattern.compile("(<Comment\\W.*?</Comment>)");
// Matcher m = p.matcher(content);
File f = new File(filePath);
File parent = f.getParentFile();
if (!parent.exists()) parent.mkdirs();
if (!f.exists()) f.createNewFile();
RandomAccessFile raf = null;
try {
raf = new RandomAccessFile(f, "rw");
if (!append) raf.setLength(0);
byte[] buffer = new byte[1024];
raf.read(buffer);
String leadingString = new String(buffer).trim();
Pattern p = Pattern.compile("(<\\?xml\\W.*?\\?>)");
Matcher m = p.matcher(leadingString);
String xmlMeta = ""; // Store the xml version meta data, used to insert to the xml file
// if needed.
if (m.find()) {
xmlMeta = m.group();
}
leadingString = m.replaceAll("");
leadingString =
leadingString
.substring(0, Math.min(leadingString.length(), "<CommentsDocument />".length()))
.replaceAll("\\s", "");
StringBuilder sb = new StringBuilder();
content = content.replaceAll(p.pattern(), "");
if (leadingString.startsWith("<CommentsDocument/>") || "".equals(leadingString)) {
// There is no comments yet.
raf.setLength(0);
sb.append(xmlMeta);
sb.append("<CommentsDocument>");
sb.append(content);
sb.append("</CommentsDocument>");
raf.write(sb.toString().getBytes());
} else if (leadingString.startsWith("<CommentsDocument>")) {
// There are some comments and append new comments.
long fileLen = raf.length() - "</CommentsDocument>".getBytes().length;
raf.setLength(fileLen);
raf.seek(raf.length());
sb.append(content);
sb.append("</CommentsDocument>");
raf.write(sb.toString().getBytes());
}
} finally {
if (raf != null) raf.close();
}
}
/*
crea el espacio en el archivo para el nuevo nodo y lo almacena
retorna la posicion en la que se almaceno
*/
public long almacenarComoNuevoNodo() {
try {
long posicion = _archivo.length();
_archivo.seek(_archivo.length());
_archivo.write(_buffer);
_miPosicion = posicion;
return posicion;
} catch (IOException ex) {
System.out.println("Error al almacenar un nodo!");
return -1;
}
}
private boolean endsWithNewline(RandomAccessFile randomAccessFile) throws IOException {
if (randomAccessFile.length() < 1) {
return false;
}
randomAccessFile.seek(randomAccessFile.length() - 1);
byte[] chars = new byte[1];
if (randomAccessFile.read(chars) < 1) {
return false;
}
String ch = new String(chars);
return "\n".equals(ch) || "\r".equals(ch);
}
private void update() throws DatabaseCorruptedException, IOException {
try (RandomAccessFile file = new RandomAccessFile(filePath.toString(), "r")) {
if (file.length() == 0) {
throw new DatabaseCorruptedException("Data base corrupted: empty file found");
}
List<String> keys = new LinkedList<>();
List<Integer> offsets = new LinkedList<>();
ByteArrayOutputStream bytes = new ByteArrayOutputStream();
byte b;
int counter = 0;
do { // Read keys.
while ((b = file.readByte()) != 0) {
counter++;
bytes.write(b);
}
++counter;
offsets.add(file.readInt());
counter += 4;
String key = bytes.toString(TableManager.CODE_FORMAT);
bytes.reset();
if (!checkKey(key)) {
throw new DatabaseCorruptedException("Wrong key found in file " + filePath.toString());
}
keys.add(key);
} while (counter < offsets.get(0));
offsets.add((int) file.length());
offsets.remove(0); // It's current position in file, we don't need it in list.
Iterator<String> keyIterator = keys.iterator();
for (int nextOffset : offsets) { // Read values.
while (counter < nextOffset) {
bytes.write(file.readByte());
counter++;
}
if (bytes.size() > 0) {
try {
fileMap.put(
keyIterator.next(),
provider.deserialize(table, bytes.toString(TableManager.CODE_FORMAT)));
} catch (ParseException e) {
throw new RuntimeException(
"Data corrupted in file " + filePath.toString() + " : " + e.getMessage());
}
bytes.reset();
} else {
throw new DatabaseCorruptedException("Data corrupted in file " + filePath.toString());
}
}
bytes.close();
}
}
/**
* reads the content of an existing file using the current domain
*
* @param domain The namespace used to identify the application domain (1st level directory) to
* use
* @param path The path relative to the domain for the file
* @param offset the offset from the beginning of the file.
* @param len The length of the block in bytes
* @return The contents of the file
*/
public byte[] readByteFromFile(String path, long offset, int len)
throws EOFException, FileAccessException {
try {
if (_isLocal) {
File tmpFile = new File(_rootFile.getCanonicalPath() + File.separatorChar + path);
if (tmpFile.isFile()) {
RandomAccessFile raf = new RandomAccessFile(tmpFile, "r");
byte[] buffer = new byte[len];
raf.seek(offset);
int totalByteRead = 0;
ByteArrayOutputStream out = new ByteArrayOutputStream();
int result = 0;
while (totalByteRead < len && raf.getFilePointer() < raf.length()) {
result = raf.read(buffer, 0, (len - totalByteRead));
if (result != -1) {
out.write(buffer, 0, result);
totalByteRead += result;
} else if (totalByteRead == 0) throw new EOFException("End of file reached!");
else break;
}
raf.close();
out.flush();
out.close();
return out.toByteArray();
} else throw new FileAccessException("Path is not a file");
} else return _remote.readByteFromFile(_domain, path, offset, len);
} catch (EOFException eofe) {
throw eofe;
} catch (FileAccessException fae) {
throw fae;
} catch (Exception e) {
throw new FileAccessException(e);
}
}
/**
* reads the content of an existing file using the current domain
*
* @param domain The namespace used to identify the application domain (1st level directory) to
* use
* @param path The path relative to the domain for the file
* @param block The sequential block number for the data to be read starting with 1
* @param len The length of the block in bytes
* @return The contents of the file
*/
public byte[] readFromFile(String path, int block, int len) {
byte[] buffer = null;
try {
if (_isLocal) {
File tmpFile = new File(_rootFile.getCanonicalPath() + File.separatorChar + path);
if (tmpFile.isFile()) {
RandomAccessFile in = new RandomAccessFile(tmpFile, "r");
in.seek((block - 1) * len);
int result = -1;
buffer = new byte[len];
if (in.getFilePointer() < in.length()) {
result = in.read(buffer);
ByteArrayOutputStream out = new ByteArrayOutputStream(result);
out.write(buffer, 0, result);
in.close();
return out.toByteArray();
} else {
in.close();
}
}
} else {
buffer = _remote.readFromFile(_domain, path, block, len);
}
} catch (Exception ex) {
ex.printStackTrace();
}
return buffer;
}
/**
* Here we need to make sure that the ZipFileIndex is valid. Check the timestamp of the file and
* if its the same as the one at the time the index was build we don't need to reopen anything.
*/
private void checkIndex() throws IOException {
boolean isUpToDate = true;
if (!isUpToDate()) {
closeFile();
isUpToDate = false;
}
if (zipRandomFile != null || isUpToDate) {
lastReferenceTimeStamp = System.currentTimeMillis();
return;
}
hasPopulatedData = true;
if (readIndex()) {
lastReferenceTimeStamp = System.currentTimeMillis();
return;
}
directories = Collections.<RelativeDirectory, DirectoryEntry>emptyMap();
allDirs = Collections.<RelativeDirectory>emptySet();
try {
openFile();
long totalLength = zipRandomFile.length();
ZipDirectory directory = new ZipDirectory(zipRandomFile, 0L, totalLength, this);
directory.buildIndex();
} finally {
if (zipRandomFile != null) {
closeFile();
}
}
lastReferenceTimeStamp = System.currentTimeMillis();
}
/**
* Reads and returns the full contents of the specified file.
*
* @param file File to read
* @return byte[] containing full contents of file
* @throws IOException if there is an I/O error while reading the file
*/
private byte[] readFile(File file) throws IOException {
RandomAccessFile raf = new RandomAccessFile(file, "r");
byte[] buffer = new byte[(int) raf.length()];
raf.readFully(buffer);
raf.close();
return buffer;
}
public ByteBuffer readBacking() throws IOException {
if (!_open) {
return null;
}
ByteBuffer dst = ByteBuffer.allocate((int) _backing.length());
int length;
// 4K buffer.
byte[] buf = new byte[4 * (2 ^ 10)];
_backing.seek(0);
// Read up to 4K blocks from the backing file
while ((length = _backing.read(buf)) > 0) {
try {
// store the block of the correct size into the ByteBuffer.
dst.put(buf, 0, length);
} catch (BufferOverflowException e) {
return null;
}
}
return dst;
}
/**
* 获取 byte 数据
*
* @param key
* @return byte 数据
*/
public byte[] getAsBinary(String key) {
RandomAccessFile RAFile = null;
boolean removeFile = false;
try {
File file = mCache.get(key);
if (!file.exists()) return null;
RAFile = new RandomAccessFile(file, "r");
byte[] byteArray = new byte[(int) RAFile.length()];
RAFile.read(byteArray);
if (!Utils.isDue(byteArray)) {
return Utils.clearDateInfo(byteArray);
} else {
removeFile = true;
return null;
}
} catch (Exception e) {
e.printStackTrace();
return null;
} finally {
if (RAFile != null) {
try {
RAFile.close();
} catch (IOException e) {
e.printStackTrace();
}
}
if (removeFile) remove(key);
}
}
public double getProgress() {
try {
return 1.0 * filein.getFilePointer() / (1.0 * filein.length());
} catch (IOException e) {
return 1.0;
}
}
private void le() {
// limpa a area de log para que tenha apenas uma leitura do arquivo na tela
if (!areaLog.getText().isEmpty()) {
areaLog.setText(defaults.getEMPTY_STRING());
}
// verifica a existencia do arquivo de log..
if (!f.exists()) {
Utilitarios.getInstance().showErrorMessage("O Arquivo : " + f.getPath() + " Nao Existe!");
} else {
try {
RandomAccessFile raf = new RandomAccessFile(f, "rw");
// verifica se a dados a serem mostrados
if (raf.length() == 0) {
Utilitarios.getInstance().showInfoMessage("Arquivo de Log Vazio!");
raf.close();
} else {
// preseguimos com a leitura..
String dados;
try (BufferedReader in = new BufferedReader(new FileReader(f.getPath()))) {
while ((dados = in.readLine()) != null) {
areaLog.append(dados + "\n");
}
} catch (IOException erro) {
ExceptionManager.ThrowException("Erro: ", erro);
}
}
} catch (IOException ex) {
Logger.getLogger(FrameLog.class.getName()).log(Level.SEVERE, null, ex);
}
}
}
/**
* Ensures that at least <code>pos</code> bytes are cached, or the end of the source is reached.
* The return value is equal to the smaller of <code>pos</code> and the length of the source file.
*/
private long readUntil(long pos) throws IOException {
// We've already got enough data cached
if (pos < length) {
return pos;
}
// pos >= length but length isn't getting any bigger, so return it
if (foundEOF) {
return length;
}
long len = pos - length;
cache.seek(length);
while (len > 0) {
// Copy a buffer's worth of data from the source to the cache
// bufLen will always fit into an int so this is safe
int nbytes = stream.read(buf, 0, (int) Math.min(len, (long) bufLen));
if (nbytes == -1) {
foundEOF = true;
return length;
}
cache.setLength(cache.length() + nbytes);
cache.write(buf, 0, nbytes);
len -= nbytes;
length += nbytes;
}
return pos;
}
/**
* Add the given text string to the end of a given file.
*
* @param inStr The string to be added.
* @param fileStr the name of the file to be added.
*/
public static void addStringToFile(String inStr, String fileStr) throws Exception {
RandomAccessFile raFile = new RandomAccessFile(fileStr, "rw");
raFile.seek(raFile.length());
raFile.writeBytes(inStr);
raFile.close();
}
private String readInstallationFileBad(File installation) throws IOException {
RandomAccessFile f = new RandomAccessFile(installation, "r");
byte[] bytes = new byte[(int) f.length()];
f.readFully(bytes);
f.close();
return new String(bytes);
}
public synchronized void open() throws IOException {
mRAF = new RandomAccessFile(mFile, mReadOnly ? "r" : "rw");
mIN = new RedoLogInput(mRAF, mFile.getPath());
mHeader.read(mRAF);
mHeaderRead = true;
mFileSizeAtOpen = mRAF.length();
}
public long length() {
try {
return image.length();
} catch (IOException e) {
return -1L;
}
}
/** 随机读取文件内容 */
public static void readFileByRandomAccess(String fileName) {
RandomAccessFile randomFile = null;
try {
log.debug("随机读取一段文件内容:");
// 打开一个随机访问文件流,按只读方式
randomFile = new RandomAccessFile(fileName, "r");
// 文件长度,字节数
long fileLength = randomFile.length();
// 读文件的起始位置
int beginIndex = (fileLength > 4) ? 4 : 0;
// 将读文件的开始位置移到beginIndex位置。
randomFile.seek(beginIndex);
byte[] bytes = new byte[10];
int byteread = 0;
// 一次读10个字节,如果文件内容不足10个字节,则读剩下的字节。
// 将一次读取的字节数赋给byteread
while ((byteread = randomFile.read(bytes)) != -1) {
System.out.write(bytes, 0, byteread);
}
} catch (IOException e) {
log.error("", e.fillInStackTrace());
} finally {
if (randomFile != null) {
try {
randomFile.close();
} catch (IOException e) {
log.error("", e.fillInStackTrace());
}
}
}
}
private static void parseData() throws IOException {
TreeSet<String> fs = scanPath();
parseMeta();
if (fs.size() == 0) return;
String absolutePath = new File(fs.first()).getCanonicalPath();
String absolutePath2 = new File(name).getCanonicalPath();
if (!absolutePath.equals(absolutePath2)) {
System.out.println("meta file name not match first file, use first file");
pos = 0;
}
for (String filename : fs) {
RandomAccessFile f = new RandomAccessFile(filename, "r");
MappedByteBuffer map = f.getChannel().map(MapMode.READ_ONLY, 0, f.length());
map.position((int) pos);
while (map.hasRemaining()) {
int size = map.getInt();
byte[] c = new byte[size];
map.get(c);
Message m = MessageFactory.getInstance().createMessageFrom(c);
m.decompress();
System.out.println("get content: " + asString(m));
}
map.clear();
map = null;
f.close();
pos = 0;
}
}
/**
* Flush the file, computing the hash if necessary. After this method completes the hash obtained
* in {@link #getHeader()} will be valid, but the file will not be closed. If you want the file to
* be closed, use {@link #close()} instead, which invokes this method.
*
* <p><b>Warning</b>: Because of the hash computation this method can be costly! After calling
* this the internal hash computation must be completely reset, so a subsequent write will cause
* the hash to be updated from scratch. Use caution with this method. In fact, this is the reason
* this method is not named {@code flush}.
*
* @throws IOException An error occurred writing the file.
*/
public void finish() throws IOException {
if (!_open) return;
// Save the current position so we can restore it later.
long pos = _backing.getFilePointer();
// If the hash is not valid, compute it now.
if (!_hashvalid) {
// The hash is not valid. Complete the computation now and store
// the resulting hash.
_backing.seek(_backing.length());
_updateDigest();
_head.hash = _digest.digest();
_hashvalid = true;
// Reset the digest now to force it to be re-computed next time.
// This must be done since we just "used up" the existing digest
// instance.
_resetDigest();
}
// Write the header to the backing store.
_backing.seek(PicoStructure.HEAD_START);
_backing.write(_head.putHeader());
// Restore the file position.
_backing.seek(pos);
}
public List<Entry> getLastPoints(int nb) throws IOException {
File file = getFile();
RandomAccessFile raf = null;
List<Entry> result = null;
try {
raf = new RandomAccessFile(file, "r");
long pos = raf.length() - (nb * DATA_LEN);
if (pos < 0) {
nb = nb + (int) (pos / DATA_LEN);
pos = 0;
}
raf.seek(pos);
result = new ArrayList<Entry>(nb);
Entry next = null;
for (int i = 0; i < nb; i++) {
next = new Entry();
next.timestamp = (long) raf.readInt();
next.value = raf.readFloat();
result.add(0, next);
}
} finally {
if (raf != null) raf.close();
}
return result;
}
