com.sun.grizzly.http.FileCache Maven / Gradle / Ivy
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package com.sun.grizzly.http;
import com.sun.grizzly.tcp.ActionCode;
import com.sun.grizzly.tcp.Adapter;
import com.sun.grizzly.tcp.Request;
import com.sun.grizzly.tcp.Response;
import com.sun.grizzly.tcp.StaticResourcesAdapter;
import com.sun.grizzly.util.OutputWriter;
import com.sun.grizzly.util.WorkerThreadImpl;
import java.io.File;
import java.io.FileInputStream;
import java.io.IOException;
import java.net.InetAddress;
import java.nio.ByteBuffer;
import java.nio.MappedByteBuffer;
import java.nio.channels.FileChannel;
import java.util.concurrent.ConcurrentHashMap;
import java.util.concurrent.Future;
import java.util.concurrent.ScheduledThreadPoolExecutor;
import java.util.concurrent.ThreadFactory;
import java.util.concurrent.TimeUnit;
import com.sun.grizzly.util.http.MimeHeaders;
import java.util.Queue;
import java.util.StringTokenizer;
/**
* This class implements a file caching mechanism used to cache static resources.
*
* @author Jeanfrancois Arcand
* @author Scott Oaks
*/
public class FileCache{
public final static String DEFAULT_SERVLET_NAME = "default";
/**
* A {@link ByteBuffer} cache of static pages.
*/
private final ConcurrentHashMap fileCache =
new ConcurrentHashMap();
/**
* A dummy instance of {@link ByteBuffer}
*/
protected final static ByteBuffer nullByteBuffer = ByteBuffer.allocate(0);
/**
* A connection: close of {@link ByteBuffer}
*/
protected final static ByteBuffer connectionCloseBB =
ByteBuffer.wrap("Connection: close\r\n\r\n".getBytes());
/**
* A connection: keep-alive of {@link ByteBuffer}
*/
protected final static ByteBuffer connectionKaBB =
ByteBuffer.wrap("Connection: keep-alive\r\n\r\n".getBytes());
/**
* HTTP end line.
*/
private final static String NEWLINE = "\r\n";
/**
* HTTP OK header
*/
public final static String OK = "HTTP/1.1 200 OK" + NEWLINE;
/**
* The port associated with this cache.
*/
private int port = 8080;
private InetAddress address;
/**
* Scheduled Thread that clean the cache every XX seconds.
*/
private ScheduledThreadPoolExecutor cacheResourcesThread
= new ScheduledThreadPoolExecutor(1,new ThreadFactory(){
public Thread newThread(Runnable r) {
return new WorkerThreadImpl(new ThreadGroup("Grizzly"),r);
}
});
/**
* FileCacheEntry cache
*/
private Queue cacheManager;
/**
* Timeout before remove the static resource from the cache.
*/
private int secondsMaxAge = -1;
/**
* The maximum entries in the {@link FileCache}
*/
private int maxCacheEntries = 1024;
/**
* The maximum size of a cached resources.
*/
private long minEntrySize = Long.MIN_VALUE;
/**
* The maximum size of a cached resources.
*/
private long maxEntrySize = Long.MAX_VALUE;
/**
* The maximum memory mapped bytes
*/
private long maxLargeFileCacheSize = Long.MAX_VALUE;
/**
* The maximum cached bytes
*/
private long maxSmallFileCacheSize = 1048576;
/**
* The current cache size in bytes
*/
private long mappedMemorySize = 0;
/**
* The current cache size in bytes
*/
private long heapSize = 0;
/**
* Is the file cache enabled.
*/
private boolean isEnabled = true;
/**
* Is the large FileCache enabled.
*/
private boolean isLargeFileCacheEnabled = true;
/**
* Is monitoring enabled.
*/
private boolean isMonitoringEnabled = false;
/**
* The number of current open cache entries
*/
private int openCacheEntries = 0;
/**
* The number of max current open cache entries
*/
private int maxOpenCacheEntries = 0;
/**
* Max heap space used for cache
*/
private long maxHeapCacheSize = 0;
/**
* Max mapped memory used for cache
*/
private long maxMappedMemory = 0;
/**
* Number of cache lookup hits
*/
private int countHits = 0;
/**
* Number of cache lookup misses
*/
private int countMisses = 0;
/**
* Number of hits on cached file info
*/
private int countCacheHits;
/**
* Number of misses on cached file info
*/
private int countCacheMisses;
/**
* Number of hits on cached file info
*/
private int countMappedHits;
/**
* Number of misses on cached file info
*/
private int countMappedMisses;
/**
* The Header ByteBuffer default size.
*/
private int headerBBSize = 4096;
/**
* Status code (304) indicating that a conditional GET operation
* found that the resource was available and not modified.
*/
public static final int SC_NOT_MODIFIED = 304;
/**
* Status code (412) indicating that the precondition given in one
* or more of the request-header fields evaluated to false when it
* was tested on the server.
*/
public static final int SC_PRECONDITION_FAILED = 412;
// ---------------------------------------------------- Methods ----------//
/**
* Add a resource to the cache. Currently, only static resources served
* by the DefaultServlet can be cached.
*/
public synchronized void add(String mappedServlet,
String baseDir,
String requestURI,
String host,
MimeHeaders headers,
boolean xPoweredBy){
if (requestURI == null || fileCache.get(requestURI) != null) return;
// cache is full.
if ( fileCache.size() > maxCacheEntries) {
return;
}
if ( mappedServlet.equals(DEFAULT_SERVLET_NAME) ){
File file = new File(baseDir + requestURI);
ByteBuffer bb = mapFile(file);
SelectorThread selectorThread =
SelectorThread.getSelector(address, port);
String root = selectorThread.getWebAppRootPath();
if (bb == null && !root.equals(baseDir)){
Adapter a = selectorThread.getAdapter();
Queue rootFolders;
if (a instanceof StaticResourcesAdapter){
rootFolders = ((StaticResourcesAdapter)a).getRootFolders();
for (String s:rootFolders){
file = new File(s + requestURI);
if (file.exists()){
break;
}
}
} else {
// Backward Compatibility with < 1.9.18
file = new File(root + requestURI);
}
bb = mapFile(file);
}
// Always put the answer into the map. If it's null, then
// we know that it doesn't fit into the cache, so there's no
// reason to go through this code again.
if (bb == null)
bb = nullByteBuffer;
FileCacheEntry entry = cacheManager.poll();
if (entry == null){
entry = new FileCacheEntry();
}
entry.bb = bb;
entry.requestURI = requestURI;
if (bb != nullByteBuffer){
String ifModif = headers.getHeader("Last-Modified") ;
entry.lastModified = (ifModif == null ?
String.valueOf(file.lastModified()):ifModif);
entry.contentType = headers.getHeader("Content-type");
entry.xPoweredBy = xPoweredBy;
entry.isInHeap = (file.length() < minEntrySize);
entry.date = headers.getHeader("Date");
entry.Etag = headers.getHeader("Etag");
entry.contentLength = headers.getHeader("Content-Length");
entry.host = host;
incOpenCacheEntries();
if ( isMonitoringEnabled ) {
if ( openCacheEntries > maxOpenCacheEntries){
maxOpenCacheEntries = openCacheEntries;
}
if ( heapSize > maxHeapCacheSize){
maxHeapCacheSize = heapSize;
}
if ( mappedMemorySize > maxMappedMemory){
maxMappedMemory = mappedMemorySize;
}
}
if ( secondsMaxAge > 0 ) {
entry.future = cacheResourcesThread.schedule(entry,
secondsMaxAge, TimeUnit.SECONDS);
}
}
fileCache.put(requestURI,entry);
}
}
/**
* Map the file to a {@link ByteBuffer}
* @return the {@link ByteBuffer}
*/
private ByteBuffer mapFile(File file){
FileChannel fileChannel = null;
FileInputStream stream = null;
try {
stream = new FileInputStream(file);
fileChannel = stream.getChannel();
long size = fileChannel.size();
if ( size > maxEntrySize){
return null;
}
if ( size > minEntrySize )
addMappedMemorySize(size);
else
addHeapSize(size);
// Cache full
if ( mappedMemorySize > maxLargeFileCacheSize ) {
subMappedMemorySize(size);
return null;
} else if ( heapSize > maxSmallFileCacheSize ) {
subHeapSize(size);
return null;
}
ByteBuffer bb =
fileChannel.map(FileChannel.MapMode.READ_ONLY,0,size);
if ( size < minEntrySize) {
((MappedByteBuffer)bb).load();
}
return bb;
} catch (IOException ioe) {
return null;
} finally {
if (stream != null) {
try {
stream.close();
} catch (IOException ignored) {
}
}
if (fileChannel != null) {
try {
fileChannel.close();
} catch (IOException ignored) {
}
}
}
}
/**
* Return true if the file is cached.
*/
protected final FileCacheEntry map(Request request){
FileCacheEntry entry = null;
if ( !fileCache.isEmpty() ){
String uri = request.requestURI().toString();
entry = fileCache.get(uri);
if (entry != null) {
String host = request.serverName().toString();
if (!host.equals(entry.host)) {
entry = null;
}
}
recalcCacheStatsIfMonitoring(entry);
} else {
recalcCacheStatsIfMonitoring(null);
}
return entry;
}
protected void recalcCacheStatsIfMonitoring(final FileCacheEntry entry) {
if (isMonitoringEnabled) {
recalcCacheStats(entry);
}
}
protected final void recalcCacheStats(final FileCacheEntry entry) {
if (entry != null && entry.bb != null && entry.bb != nullByteBuffer) {
if (entry.isInHeap) {
countInfoHit();
} else {
countContentHit();
}
countHit();
} else {
countMiss();
}
}
/**
* Send the cache.
*/
public boolean sendCache(Request req){
if (req.method().toString().equalsIgnoreCase("HEAD")) return false;
try{
FileCacheEntry entry = map(req);
if (entry != null && entry.bb != nullByteBuffer){
sendCache(req,entry);
return true;
}
} catch (Throwable t){
t.printStackTrace();
// If an unexpected exception occurs, try to serve the page
// as if it wasn't in a cache.
SelectorThread.logger()
.fine("File Cache exception:" + t.getMessage());
}
return false;
}
/**
* Set the cache manager used by this instance.
*/
public void setCacheManager(Queue cacheManager){
this.cacheManager = cacheManager;
}
// -------------------------------------------------- Static cache -------/
/**
* Send the cached resource.
*/
protected void sendCache(Request request, FileCacheEntry entry) throws IOException{
boolean flushBody = checkIfHeaders(request, entry);
request.getResponse().setContentType(entry.contentType);
request.getResponse().setContentLength(Integer.valueOf(entry.contentLength));
if (flushBody) {
ByteBuffer sliced = entry.bb.slice();
ByteBuffer ob = ((SocketChannelOutputBuffer)request.getResponse()
.getOutputBuffer()).getOutputByteBuffer();
int left = ob.remaining();
// It's better to execute a byte copy than two network operation.
if (left > sliced.limit()){
request.getResponse().action(ActionCode.ACTION_COMMIT, null);
ob.put(sliced);
((SocketChannelOutputBuffer)request.getResponse()
.getOutputBuffer()).flushBuffer();
} else {
request.getResponse().flush();
OutputWriter.flushChannel(request.getResponse().getChannel(),sliced);
}
} else {
request.getResponse().flush();
}
}
/**
* @return the port
*/
public int getPort() {
return port;
}
/**
* @param port the port to set
*/
public void setPort(int port) {
this.port = port;
}
/**
* @return the network address associated with this cache instance.
*/
public InetAddress getAddress() {
return address;
}
/**
*
* Associates the specified network address with this cache instance.
*
*
* @param address the network address
*/
public void setAddress(InetAddress address) {
this.address = address;
}
public final class FileCacheEntry implements Runnable{
public String host;
public String requestURI;
public String lastModified = "";
public String contentType;
public ByteBuffer bb;
public boolean xPoweredBy;
public boolean isInHeap = false;
public String date;
public String Etag;
public Future future;
public String contentLength;
public String keepAlive;
public void run(){
fileCache.remove(requestURI);
if (requestURI == null) return;
if (bb != null) {
/**
* If the position !=0, it means the ByteBuffer has a view
* that is still used. If that's the case, wait another 10 seconds
* before marking the ByteBuffer for garbage collection
*/
if ( bb.position() != 0 ){
future = cacheResourcesThread
.schedule(this, 10, TimeUnit.SECONDS);
return;
}
if ( !isInHeap )
subMappedMemorySize(bb.limit());
else
subHeapSize(bb.limit());
bb = null;
decOpenCacheEntries();
}
if ( future != null ) {
future.cancel(false);
future = null;
}
requestURI = null;
cacheManager.offer(this);
}
}
// ---------------------------------------------------- Monitoring --------//
/**
* Returns flag indicating whether file cache has been enabled
* @return 1 if file cache has been enabled, 0 otherwise
*/
public int getFlagEnabled() {
return (isEnabled ? 1 : 0);
}
/**
* Return the maximum age of a valid cache entry
* @return cache entry maximum age
*/
public int getSecondsMaxAge() {
return secondsMaxAge;
}
/**
* Return the number of current cache entries.
* @return current cache entries
*/
public long getCountEntries() {
return fileCache.size();
}
/**
* Return the maximum number of cache entries
* @return maximum cache entries
*/
public long getMaxEntries() {
return maxCacheEntries;
}
protected void incOpenCacheEntries() {
openCacheEntries++;
}
protected void decOpenCacheEntries() {
openCacheEntries--;
}
/**
* The number of current open cache entries
* @return open cache entries
*/
public long getCountOpenEntries() {
return openCacheEntries;
}
/**
* Return the maximum number of open cache entries
* @return maximum open cache entries
*/
public long getMaxOpenEntries() {
return maxOpenCacheEntries;
}
protected void addHeapSize(long size) {
heapSize += size;
}
protected void subHeapSize(long size) {
heapSize -= size;
}
/**
* Return the heap space used for cache
* @return heap size
*/
public long getSizeHeapCache() {
return heapSize;
}
/**
* Return the maximum heap space used for cache
* @return maximum heap size
*/
public long getMaxHeapCacheSize() {
return maxHeapCacheSize;
}
protected void addMappedMemorySize(long size) {
mappedMemorySize += size;
}
protected void subMappedMemorySize(long size) {
mappedMemorySize -= size;
}
/**
* Return the size of Mapped memory used for caching
* @return Mapped memory size
*/
public long getSizeMmapCache() {
return mappedMemorySize;
}
/**
* Return the Maximum Memory Map size to be used for caching
* @return maximum Memory Map size
*/
public long getMaxMmapCacheSize() {
return maxMappedMemory;
}
protected void countHit() {
countHits++;
}
/**
* Return the Number of cache lookup hits
* @return cache hits
*/
public long getCountHits() {
return countHits;
}
protected void countMiss() {
countMisses++;
}
/**
* Return the Number of cache lookup misses
* @return cache misses
*/
public long getCountMisses() {
return countMisses;
}
protected void countInfoHit() {
countCacheHits++;
}
/**
* The Number of hits on cached file info
* @return hits on cached file info
*/
public long getCountInfoHits() {
return countCacheHits;
}
protected void countInfoMiss() {
countCacheMisses++;
}
/**
* Return the number of misses on cached file info
* @return misses on cache file info
*/
public long getCountInfoMisses() {
return countCacheMisses;
}
protected void countContentHit() {
countMappedHits++;
}
/**
* Return the Number of hits on cached file content
* @return hits on cache file content
*/
public long getCountContentHits() {
return countMappedHits;
}
protected void countContentMiss() {
countMappedMisses++;
}
/**
* Return the Number of misses on cached file content
* @return missed on cached file content
*/
public int getCountContentMisses() {
return countMappedMisses;
}
// ---------------------------------------------------- Properties ----- //
/**
* Turn monitoring on/off
*/
public void setIsMonitoringEnabled(boolean isMe){
isMonitoringEnabled = isMe;
}
/**
* The timeout in seconds before remove a {@link FileCacheEntry}
* from the {@link FileCache}
*/
public void setSecondsMaxAge(int sMaxAges){
secondsMaxAge = sMaxAges;
}
/**
* Set the maximum entries this cache can contains.
*/
public void setMaxCacheEntries(int mEntries){
maxCacheEntries = mEntries;
}
/**
* Return the maximum entries this cache can contains.
*/
public int getMaxCacheEntries(){
return maxCacheEntries;
}
/**
* Set the maximum size a {@link FileCacheEntry} can have.
*/
public void setMinEntrySize(long mSize){
minEntrySize = mSize;
}
/**
* Get the maximum size a {@link FileCacheEntry} can have.
*/
public long getMinEntrySize(){
return minEntrySize;
}
/**
* Set the maximum size a {@link FileCacheEntry} can have.
*/
public void setMaxEntrySize(long mEntrySize){
maxEntrySize = mEntrySize;
}
/**
* Get the maximum size a {@link FileCacheEntry} can have.
*/
public long getMaxEntrySize(){
return maxEntrySize;
}
/**
* Set the maximum cache size
*/
public void setMaxLargeCacheSize(long mCacheSize){
maxLargeFileCacheSize = mCacheSize;
}
/**
* Get the maximum cache size
*/
public long getMaxLargeCacheSize(){
return maxLargeFileCacheSize;
}
/**
* Set the maximum cache size
*/
public void setMaxSmallCacheSize(long mCacheSize){
maxSmallFileCacheSize = mCacheSize;
}
/**
* Get the maximum cache size
*/
public long getMaxSmallCacheSize(){
return maxSmallFileCacheSize;
}
/**
* Is the fileCache enabled.
*/
public boolean isEnabled(){
return isEnabled;
}
/**
* Is the file caching mechanism enabled.
*/
public void setIsEnabled(boolean isEnabled){
this.isEnabled = isEnabled;
}
/**
* Is the large file cache support enabled.
*/
public void setLargeFileCacheEnabled(boolean isLargeEnabled){
this.isLargeFileCacheEnabled = isLargeEnabled;
}
/**
* Is the large file cache support enabled.
*/
public boolean getLargeFileCacheEnabled(){
return isLargeFileCacheEnabled;
}
/**
* Return the FileCache
*/
public ConcurrentHashMap getCache(){
return fileCache;
}
/**
* Retunr the header size buffer.
*/
public int getHeaderBBSize() {
return headerBBSize;
}
/**
* Set the size of the header ByteBuffer.
*/
public void setHeaderBBSize(int headerBBSize) {
this.headerBBSize = headerBBSize;
}
/**
* Check if the if-modified-since condition is satisfied.
*
* @return boolean true if the resource meets the specified condition,
* and false if the condition is not satisfied, in which case request
* processing is stopped
*/
private boolean checkIfModifiedSince(Request request, FileCacheEntry entry)
throws IOException {
try {
Response response = request.getResponse();
String h = request.getHeader("If-Modified-Since");
long headerValue = (h == null ? -1: Long.parseLong(h));
if (headerValue != -1) {
long lastModified = Long.parseLong(entry.lastModified);
// If an If-None-Match header has been specified,
// If-Modified-Since is ignored.
if ((request.getHeader("If-None-Match") == null)
&& (lastModified < headerValue + 1000)) {
// The entity has not been modified since the date
// specified by the client. This is not an error case.
response.setStatus(SC_NOT_MODIFIED);
response.setHeader("ETag", getETag(entry));
return false;
}
}
} catch(IllegalArgumentException illegalArgument) {
return true;
}
return true;
}
/**
* Check if the if-none-match condition is satisfied.
* @return boolean true if the resource meets the specified condition,
* and false if the condition is not satisfied, in which case request
* processing is stopped
*/
private boolean checkIfNoneMatch(Request request, FileCacheEntry entry)
throws IOException {
Response response = request.getResponse();
String eTag = getETag(entry);
String headerValue = request.getHeader("If-None-Match");
if (headerValue != null) {
boolean conditionSatisfied = false;
if (!headerValue.equals("*")) {
StringTokenizer commaTokenizer =
new StringTokenizer(headerValue, ",");
while (!conditionSatisfied && commaTokenizer.hasMoreTokens()) {
String currentToken = commaTokenizer.nextToken();
if (currentToken.trim().equals(eTag))
conditionSatisfied = true;
}
} else {
conditionSatisfied = true;
}
if (conditionSatisfied) {
// For GET and HEAD, we should respond with
// 304 Not Modified.
// For every other method, 412 Precondition Failed is sent
// back.
if ( ("GET".equals(request.method().getString()))
|| ("HEAD".equals(request.method().getString())) ) {
response.setStatus(SC_NOT_MODIFIED);
response.setHeader("ETag", eTag);
return false;
} else {
response.setStatus
(SC_PRECONDITION_FAILED);
return false;
}
}
}
return true;
}
/**
* Check if the if-unmodified-since condition is satisfied.
*
* @return boolean true if the resource meets the specified condition,
* and false if the condition is not satisfied, in which case request
* processing is stopped
*/
protected boolean checkIfUnmodifiedSince(Request request, FileCacheEntry entry)
throws IOException {
try {
Response response = request.getResponse();
long lastModified = Long.parseLong(entry.lastModified);
String h = request.getHeader("If-Unmodified-Since");
long headerValue = (h == null? -1: Long.parseLong(h));
if (headerValue != -1) {
if ( lastModified >= (headerValue + 1000)) {
// The entity has not been modified since the date
// specified by the client. This is not an error case.
response.setStatus(SC_PRECONDITION_FAILED);
return false;
}
}
} catch(IllegalArgumentException illegalArgument) {
return true;
}
return true;
}
/**
* Get ETag.
*
* @return strong ETag if available, else weak ETag
*/
private String getETag(FileCacheEntry entry) {
String result = entry.Etag;
if (result == null) {
long contentLength = Long.parseLong(entry.contentLength);
long lastModified = Long.parseLong(entry.lastModified);
if ((contentLength >= 0) || (lastModified >= 0)) {
result = "W/\"" + contentLength + "-" +
lastModified + "\"";
entry.Etag = result;
}
}
return result;
}
/**
* Check if the conditions specified in the optional If headers are
* satisfied.
*
* @return boolean true if the resource meets all the specified conditions,
* and false if any of the conditions is not satisfied, in which case
* request processing is stopped
*/
protected boolean checkIfHeaders(Request request, FileCacheEntry entry)
throws IOException {
return checkIfMatch(request,entry)
&& checkIfModifiedSince(request,entry)
&& checkIfNoneMatch(request,entry)
&& checkIfUnmodifiedSince(request,entry);
}
/**
* Check if the if-match condition is satisfied.
*
* @param request The servlet request we are processing
* @param entry the FileCacheEntry to validate
* @return true if the resource meets the specified condition,
* and false if the condition is not satisfied, in which case request
* processing is stopped
*/
protected boolean checkIfMatch(Request request, FileCacheEntry entry)
throws IOException {
Response response = request.getResponse();
String eTag = getETag(entry);
String headerValue = request.getHeader("If-Match");
if (headerValue != null) {
if (headerValue.indexOf('*') == -1) {
StringTokenizer commaTokenizer = new StringTokenizer
(headerValue, ",");
boolean conditionSatisfied = false;
while (!conditionSatisfied && commaTokenizer.hasMoreTokens()) {
String currentToken = commaTokenizer.nextToken();
if (currentToken.trim().equals(eTag))
conditionSatisfied = true;
}
// If none of the given ETags match, 412 Precodition failed is
// sent back
if (!conditionSatisfied) {
response.setStatus
(SC_PRECONDITION_FAILED);
return false;
}
}
}
return true;
}
}
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