values() {
checkInitialized();
return Collections.unmodifiableCollection(super.values());
}
/**
* Sets the {@code key} property to have the specified
* {@code value}.
*
* If a security manager is enabled, its {@code checkSecurityAccess}
* method is called with the string {@code "putProviderProperty."+name},
* where {@code name} is the provider name, to see if it's ok to set this
* provider's property values.
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method
* denies access to set property values.
*
* @since 1.2
*/
@Override
public synchronized Object put(Object key, Object value) {
check("putProviderProperty."+name);
if (debug != null) {
debug.println("Set " + name + " provider property [" +
key + "/" + value +"]");
}
return implPut(key, value);
}
/**
* If the specified key is not already associated with a value (or is mapped
* to {@code null}) associates it with the given value and returns
* {@code null}, else returns the current value.
*
*
If a security manager is enabled, its {@code checkSecurityAccess}
* method is called with the string {@code "putProviderProperty."+name},
* where {@code name} is the provider name, to see if it's ok to set this
* provider's property values.
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method
* denies access to set property values.
*
* @since 1.8
*/
@Override
public synchronized Object putIfAbsent(Object key, Object value) {
check("putProviderProperty."+name);
if (debug != null) {
debug.println("Set " + name + " provider property [" +
key + "/" + value +"]");
}
return implPutIfAbsent(key, value);
}
/**
* Removes the {@code key} property (and its corresponding
* {@code value}).
*
*
If a security manager is enabled, its {@code checkSecurityAccess}
* method is called with the string {@code "removeProviderProperty."+name},
* where {@code name} is the provider name, to see if it's ok to remove this
* provider's properties.
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method
* denies access to remove this provider's properties.
*
* @since 1.2
*/
@Override
public synchronized Object remove(Object key) {
check("removeProviderProperty."+name);
if (debug != null) {
debug.println("Remove " + name + " provider property " + key);
}
return implRemove(key);
}
/**
* Removes the entry for the specified key only if it is currently
* mapped to the specified value.
*
*
If a security manager is enabled, its {@code checkSecurityAccess}
* method is called with the string {@code "removeProviderProperty."+name},
* where {@code name} is the provider name, to see if it's ok to remove this
* provider's properties.
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method
* denies access to remove this provider's properties.
*
* @since 1.8
*/
@Override
public synchronized boolean remove(Object key, Object value) {
check("removeProviderProperty."+name);
if (debug != null) {
debug.println("Remove " + name + " provider property " + key);
}
return implRemove(key, value);
}
/**
* Replaces the entry for the specified key only if currently
* mapped to the specified value.
*
*
If a security manager is enabled, its {@code checkSecurityAccess}
* method is called with the string {@code "putProviderProperty."+name},
* where {@code name} is the provider name, to see if it's ok to set this
* provider's property values.
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method
* denies access to set property values.
*
* @since 1.8
*/
@Override
public synchronized boolean replace(Object key, Object oldValue,
Object newValue) {
check("putProviderProperty." + name);
if (debug != null) {
debug.println("Replace " + name + " provider property " + key);
}
return implReplace(key, oldValue, newValue);
}
/**
* Replaces the entry for the specified key only if it is
* currently mapped to some value.
*
*
If a security manager is enabled, its {@code checkSecurityAccess}
* method is called with the string {@code "putProviderProperty."+name},
* where {@code name} is the provider name, to see if it's ok to set this
* provider's property values.
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method
* denies access to set property values.
*
* @since 1.8
*/
@Override
public synchronized Object replace(Object key, Object value) {
check("putProviderProperty." + name);
if (debug != null) {
debug.println("Replace " + name + " provider property " + key);
}
return implReplace(key, value);
}
/**
* Replaces each entry's value with the result of invoking the given
* function on that entry, in the order entries are returned by an entry
* set iterator, until all entries have been processed or the function
* throws an exception.
*
*
If a security manager is enabled, its {@code checkSecurityAccess}
* method is called with the string {@code "putProviderProperty."+name},
* where {@code name} is the provider name, to see if it's ok to set this
* provider's property values.
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method
* denies access to set property values.
*
* @since 1.8
*/
@Override
public synchronized void replaceAll(BiFunction super Object, ? super Object, ? extends Object> function) {
check("putProviderProperty." + name);
if (debug != null) {
debug.println("ReplaceAll " + name + " provider property ");
}
implReplaceAll(function);
}
/**
* Attempts to compute a mapping for the specified key and its
* current mapped value (or {@code null} if there is no current
* mapping).
*
*
If a security manager is enabled, its {@code checkSecurityAccess}
* method is called with the strings {@code "putProviderProperty."+name}
* and {@code "removeProviderProperty."+name}, where {@code name} is the
* provider name, to see if it's ok to set this provider's property values
* and remove this provider's properties.
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method
* denies access to set property values or remove properties.
*
* @since 1.8
*/
@Override
public synchronized Object compute(Object key,
BiFunction super Object, ? super Object, ? extends Object> remappingFunction) {
check("putProviderProperty." + name);
check("removeProviderProperty" + name);
if (debug != null) {
debug.println("Compute " + name + " provider property " + key);
}
return implCompute(key, remappingFunction);
}
/**
* If the specified key is not already associated with a value (or
* is mapped to {@code null}), attempts to compute its value using
* the given mapping function and enters it into this map unless
* {@code null}.
*
*
If a security manager is enabled, its {@code checkSecurityAccess}
* method is called with the strings {@code "putProviderProperty."+name}
* and {@code "removeProviderProperty."+name}, where {@code name} is the
* provider name, to see if it's ok to set this provider's property values
* and remove this provider's properties.
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method
* denies access to set property values and remove properties.
*
* @since 1.8
*/
@Override
public synchronized Object computeIfAbsent(Object key, Function super Object, ? extends Object> mappingFunction) {
check("putProviderProperty." + name);
check("removeProviderProperty" + name);
if (debug != null) {
debug.println("ComputeIfAbsent " + name + " provider property " +
key);
}
return implComputeIfAbsent(key, mappingFunction);
}
/**
* If the value for the specified key is present and non-null, attempts to
* compute a new mapping given the key and its current mapped value.
*
*
If a security manager is enabled, its {@code checkSecurityAccess}
* method is called with the strings {@code "putProviderProperty."+name}
* and {@code "removeProviderProperty."+name}, where {@code name} is the
* provider name, to see if it's ok to set this provider's property values
* and remove this provider's properties.
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method
* denies access to set property values or remove properties.
*
* @since 1.8
*/
@Override
public synchronized Object computeIfPresent(Object key, BiFunction super Object, ? super Object, ? extends Object> remappingFunction) {
check("putProviderProperty." + name);
check("removeProviderProperty" + name);
if (debug != null) {
debug.println("ComputeIfPresent " + name + " provider property " +
key);
}
return implComputeIfPresent(key, remappingFunction);
}
/**
* If the specified key is not already associated with a value or is
* associated with null, associates it with the given value. Otherwise,
* replaces the value with the results of the given remapping function,
* or removes if the result is null. This method may be of use when
* combining multiple mapped values for a key.
*
*
If a security manager is enabled, its {@code checkSecurityAccess}
* method is called with the strings {@code "putProviderProperty."+name}
* and {@code "removeProviderProperty."+name}, where {@code name} is the
* provider name, to see if it's ok to set this provider's property values
* and remove this provider's properties.
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method
* denies access to set property values or remove properties.
*
* @since 1.8
*/
@Override
public synchronized Object merge(Object key, Object value, BiFunction super Object, ? super Object, ? extends Object> remappingFunction) {
check("putProviderProperty." + name);
check("removeProviderProperty" + name);
if (debug != null) {
debug.println("Merge " + name + " provider property " + key);
}
return implMerge(key, value, remappingFunction);
}
// let javadoc show doc from superclass
@Override
public Object get(Object key) {
checkInitialized();
return super.get(key);
}
/**
* @since 1.8
*/
@Override
public synchronized Object getOrDefault(Object key, Object defaultValue) {
checkInitialized();
return super.getOrDefault(key, defaultValue);
}
/**
* @since 1.8
*/
@Override
public synchronized void forEach(BiConsumer super Object, ? super Object> action) {
checkInitialized();
super.forEach(action);
}
// let javadoc show doc from superclass
@Override
public Enumeration keys() {
checkInitialized();
return super.keys();
}
// let javadoc show doc from superclass
@Override
public Enumeration elements() {
checkInitialized();
return super.elements();
}
// let javadoc show doc from superclass
public String getProperty(String key) {
checkInitialized();
return super.getProperty(key);
}
private void checkInitialized() {
if (!initialized) {
throw new IllegalStateException();
}
}
private void check(String directive) {
checkInitialized();
SecurityManager security = System.getSecurityManager();
if (security != null) {
security.checkSecurityAccess(directive);
}
}
// legacy properties changed since last call to any services method?
private transient boolean legacyChanged;
// serviceMap changed since last call to getServices()
private transient boolean servicesChanged;
// Map
private transient Map legacyStrings;
// Map
// used for services added via putService(), initialized on demand
private transient Map serviceMap;
// Map
// used for services added via legacy methods, init on demand
private transient Map legacyMap;
// Set
// Unmodifiable set of all services. Initialized on demand.
private transient Set serviceSet;
// register the id attributes for this provider
// this is to ensure that equals() and hashCode() do not incorrectly
// report to different provider objects as the same
private void putId() {
// note: name and info may be null
super.put("Provider.id name", String.valueOf(name));
super.put("Provider.id version", String.valueOf(version));
super.put("Provider.id info", String.valueOf(info));
super.put("Provider.id className", this.getClass().getName());
}
private void readObject(ObjectInputStream in)
throws IOException, ClassNotFoundException {
// Android-added: Provider registration.
registered = false;
Map copy = new HashMap<>();
for (Map.Entry entry : super.entrySet()) {
copy.put(entry.getKey(), entry.getValue());
}
defaults = null;
in.defaultReadObject();
implClear();
initialized = true;
putAll(copy);
}
private boolean checkLegacy(Object key) {
// Android-added: Provider registration.
if (registered) {
Security.increaseVersion();
}
String keyString = (String)key;
if (keyString.startsWith("Provider.")) {
return false;
}
legacyChanged = true;
if (legacyStrings == null) {
legacyStrings = new LinkedHashMap();
}
return true;
}
/**
* Copies all of the mappings from the specified Map to this provider.
* Internal method to be called AFTER the security check has been
* performed.
*/
private void implPutAll(Map,?> t) {
for (Map.Entry,?> e : t.entrySet()) {
implPut(e.getKey(), e.getValue());
}
// Android-added: Provider registration.
if (registered) {
Security.increaseVersion();
}
}
private Object implRemove(Object key) {
if (key instanceof String) {
if (!checkLegacy(key)) {
return null;
}
legacyStrings.remove((String)key);
}
return super.remove(key);
}
private boolean implRemove(Object key, Object value) {
if (key instanceof String && value instanceof String) {
if (!checkLegacy(key)) {
return false;
}
legacyStrings.remove((String)key, value);
}
return super.remove(key, value);
}
private boolean implReplace(Object key, Object oldValue, Object newValue) {
if ((key instanceof String) && (oldValue instanceof String) &&
(newValue instanceof String)) {
if (!checkLegacy(key)) {
return false;
}
legacyStrings.replace((String)key, (String)oldValue,
(String)newValue);
}
return super.replace(key, oldValue, newValue);
}
private Object implReplace(Object key, Object value) {
if ((key instanceof String) && (value instanceof String)) {
if (!checkLegacy(key)) {
return null;
}
legacyStrings.replace((String)key, (String)value);
}
return super.replace(key, value);
}
private void implReplaceAll(BiFunction super Object, ? super Object, ? extends Object> function) {
legacyChanged = true;
if (legacyStrings == null) {
legacyStrings = new LinkedHashMap();
} else {
legacyStrings.replaceAll((BiFunction super String, ? super String, ? extends String>) function);
}
super.replaceAll(function);
}
private Object implMerge(Object key, Object value, BiFunction super Object, ? super Object, ? extends Object> remappingFunction) {
if ((key instanceof String) && (value instanceof String)) {
if (!checkLegacy(key)) {
return null;
}
legacyStrings.merge((String)key, (String)value,
(BiFunction super String, ? super String, ? extends String>) remappingFunction);
}
return super.merge(key, value, remappingFunction);
}
private Object implCompute(Object key, BiFunction super Object, ? super Object, ? extends Object> remappingFunction) {
if (key instanceof String) {
if (!checkLegacy(key)) {
return null;
}
// BEGIN Android-changed: use compute(), not computeIfAbsent(), to avoid cast fails.
// The upstream code cannot ever succeed as the cast from BiFunction to Function
// always fails.
// legacyStrings.computeIfAbsent((String) key,
// (Function super String, ? extends String>) remappingFunction);
legacyStrings.compute((String) key,
(BiFunction super String, ? super String, ? extends String>)
remappingFunction);
// END Android-changed: use compute(), not computeIfAbsent(), to avoid cast fails.
}
return super.compute(key, remappingFunction);
}
private Object implComputeIfAbsent(Object key, Function super Object, ? extends Object> mappingFunction) {
if (key instanceof String) {
if (!checkLegacy(key)) {
return null;
}
legacyStrings.computeIfAbsent((String) key,
(Function super String, ? extends String>) mappingFunction);
}
return super.computeIfAbsent(key, mappingFunction);
}
private Object implComputeIfPresent(Object key, BiFunction super Object, ? super Object, ? extends Object> remappingFunction) {
if (key instanceof String) {
if (!checkLegacy(key)) {
return null;
}
legacyStrings.computeIfPresent((String) key,
(BiFunction super String, ? super String, ? extends String>) remappingFunction);
}
return super.computeIfPresent(key, remappingFunction);
}
private Object implPut(Object key, Object value) {
if ((key instanceof String) && (value instanceof String)) {
if (!checkLegacy(key)) {
return null;
}
legacyStrings.put((String)key, (String)value);
}
return super.put(key, value);
}
private Object implPutIfAbsent(Object key, Object value) {
if ((key instanceof String) && (value instanceof String)) {
if (!checkLegacy(key)) {
return null;
}
legacyStrings.putIfAbsent((String)key, (String)value);
}
return super.putIfAbsent(key, value);
}
private void implClear() {
if (legacyStrings != null) {
legacyStrings.clear();
}
if (legacyMap != null) {
legacyMap.clear();
}
if (serviceMap != null) {
serviceMap.clear();
}
legacyChanged = false;
servicesChanged = false;
serviceSet = null;
super.clear();
putId();
// Android-added: Provider registration.
if (registered) {
Security.increaseVersion();
}
}
// used as key in the serviceMap and legacyMap HashMaps
private static class ServiceKey {
private final String type;
private final String algorithm;
private final String originalAlgorithm;
private ServiceKey(String type, String algorithm, boolean intern) {
this.type = type;
this.originalAlgorithm = algorithm;
algorithm = algorithm.toUpperCase(ENGLISH);
this.algorithm = intern ? algorithm.intern() : algorithm;
}
public int hashCode() {
return type.hashCode() + algorithm.hashCode();
}
public boolean equals(Object obj) {
if (this == obj) {
return true;
}
if (obj instanceof ServiceKey == false) {
return false;
}
ServiceKey other = (ServiceKey)obj;
return this.type.equals(other.type)
&& this.algorithm.equals(other.algorithm);
}
boolean matches(String type, String algorithm) {
return (this.type == type) && (this.originalAlgorithm == algorithm);
}
}
/**
* Ensure all the legacy String properties are fully parsed into
* service objects.
*/
private void ensureLegacyParsed() {
if ((legacyChanged == false) || (legacyStrings == null)) {
return;
}
serviceSet = null;
if (legacyMap == null) {
legacyMap = new LinkedHashMap();
} else {
legacyMap.clear();
}
for (Map.Entry entry : legacyStrings.entrySet()) {
parseLegacyPut(entry.getKey(), entry.getValue());
}
removeInvalidServices(legacyMap);
legacyChanged = false;
}
/**
* Remove all invalid services from the Map. Invalid services can only
* occur if the legacy properties are inconsistent or incomplete.
*/
private void removeInvalidServices(Map map) {
for (Iterator> t =
map.entrySet().iterator(); t.hasNext(); ) {
Service s = t.next().getValue();
if (s.isValid() == false) {
t.remove();
}
}
}
private String[] getTypeAndAlgorithm(String key) {
int i = key.indexOf(".");
if (i < 1) {
if (debug != null) {
debug.println("Ignoring invalid entry in provider "
+ name + ":" + key);
}
return null;
}
String type = key.substring(0, i);
String alg = key.substring(i + 1);
return new String[] {type, alg};
}
private final static String ALIAS_PREFIX = "Alg.Alias.";
private final static String ALIAS_PREFIX_LOWER = "alg.alias.";
private final static int ALIAS_LENGTH = ALIAS_PREFIX.length();
private void parseLegacyPut(String name, String value) {
if (name.toLowerCase(ENGLISH).startsWith(ALIAS_PREFIX_LOWER)) {
// e.g. put("Alg.Alias.MessageDigest.SHA", "SHA-1");
// aliasKey ~ MessageDigest.SHA
String stdAlg = value;
String aliasKey = name.substring(ALIAS_LENGTH);
String[] typeAndAlg = getTypeAndAlgorithm(aliasKey);
if (typeAndAlg == null) {
return;
}
String type = getEngineName(typeAndAlg[0]);
String aliasAlg = typeAndAlg[1].intern();
ServiceKey key = new ServiceKey(type, stdAlg, true);
Service s = legacyMap.get(key);
if (s == null) {
s = new Service(this);
s.type = type;
s.algorithm = stdAlg;
legacyMap.put(key, s);
}
legacyMap.put(new ServiceKey(type, aliasAlg, true), s);
s.addAlias(aliasAlg);
} else {
String[] typeAndAlg = getTypeAndAlgorithm(name);
if (typeAndAlg == null) {
return;
}
int i = typeAndAlg[1].indexOf(' ');
if (i == -1) {
// e.g. put("MessageDigest.SHA-1", "sun.security.provider.SHA");
String type = getEngineName(typeAndAlg[0]);
String stdAlg = typeAndAlg[1].intern();
String className = value;
ServiceKey key = new ServiceKey(type, stdAlg, true);
Service s = legacyMap.get(key);
if (s == null) {
s = new Service(this);
s.type = type;
s.algorithm = stdAlg;
legacyMap.put(key, s);
}
s.className = className;
} else { // attribute
// e.g. put("MessageDigest.SHA-1 ImplementedIn", "Software");
String attributeValue = value;
String type = getEngineName(typeAndAlg[0]);
String attributeString = typeAndAlg[1];
String stdAlg = attributeString.substring(0, i).intern();
String attributeName = attributeString.substring(i + 1);
// kill additional spaces
while (attributeName.startsWith(" ")) {
attributeName = attributeName.substring(1);
}
attributeName = attributeName.intern();
ServiceKey key = new ServiceKey(type, stdAlg, true);
Service s = legacyMap.get(key);
if (s == null) {
s = new Service(this);
s.type = type;
s.algorithm = stdAlg;
legacyMap.put(key, s);
}
s.addAttribute(attributeName, attributeValue);
}
}
}
/**
* Get the service describing this Provider's implementation of the
* specified type of this algorithm or alias. If no such
* implementation exists, this method returns null. If there are two
* matching services, one added to this provider using
* {@link #putService putService()} and one added via {@link #put put()},
* the service added via {@link #putService putService()} is returned.
*
* @param type the type of {@link Service service} requested
* (for example, {@code MessageDigest})
* @param algorithm the case insensitive algorithm name (or alternate
* alias) of the service requested (for example, {@code SHA-1})
*
* @return the service describing this Provider's matching service
* or null if no such service exists
*
* @throws NullPointerException if type or algorithm is null
*
* @since 1.5
*/
public synchronized Service getService(String type, String algorithm) {
checkInitialized();
// avoid allocating a new key object if possible
ServiceKey key = previousKey;
if (key.matches(type, algorithm) == false) {
key = new ServiceKey(type, algorithm, false);
previousKey = key;
}
if (serviceMap != null) {
Service service = serviceMap.get(key);
if (service != null) {
return service;
}
}
ensureLegacyParsed();
return (legacyMap != null) ? legacyMap.get(key) : null;
}
// ServiceKey from previous getService() call
// by re-using it if possible we avoid allocating a new object
// and the toUpperCase() call.
// re-use will occur e.g. as the framework traverses the provider
// list and queries each provider with the same values until it finds
// a matching service
private static volatile ServiceKey previousKey =
new ServiceKey("", "", false);
/**
* Get an unmodifiable Set of all services supported by
* this Provider.
*
* @return an unmodifiable Set of all services supported by
* this Provider
*
* @since 1.5
*/
public synchronized Set getServices() {
checkInitialized();
if (legacyChanged || servicesChanged) {
serviceSet = null;
}
if (serviceSet == null) {
ensureLegacyParsed();
Set set = new LinkedHashSet<>();
if (serviceMap != null) {
set.addAll(serviceMap.values());
}
if (legacyMap != null) {
set.addAll(legacyMap.values());
}
serviceSet = Collections.unmodifiableSet(set);
servicesChanged = false;
}
return serviceSet;
}
/**
* Add a service. If a service of the same type with the same algorithm
* name exists and it was added using {@link #putService putService()},
* it is replaced by the new service.
* This method also places information about this service
* in the provider's Hashtable values in the format described in the
*
* Java Cryptography Architecture API Specification & Reference .
*
* Also, if there is a security manager, its
* {@code checkSecurityAccess} method is called with the string
* {@code "putProviderProperty."+name}, where {@code name} is
* the provider name, to see if it's ok to set this provider's property
* values. If the default implementation of {@code checkSecurityAccess}
* is used (that is, that method is not overriden), then this results in
* a call to the security manager's {@code checkPermission} method with
* a {@code SecurityPermission("putProviderProperty."+name)}
* permission.
*
* @param s the Service to add
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method denies
* access to set property values.
* @throws NullPointerException if s is null
*
* @since 1.5
*/
protected synchronized void putService(Service s) {
check("putProviderProperty." + name);
if (debug != null) {
debug.println(name + ".putService(): " + s);
}
if (s == null) {
throw new NullPointerException();
}
if (s.getProvider() != this) {
throw new IllegalArgumentException
("service.getProvider() must match this Provider object");
}
if (serviceMap == null) {
serviceMap = new LinkedHashMap();
}
servicesChanged = true;
String type = s.getType();
String algorithm = s.getAlgorithm();
ServiceKey key = new ServiceKey(type, algorithm, true);
// remove existing service
implRemoveService(serviceMap.get(key));
serviceMap.put(key, s);
for (String alias : s.getAliases()) {
serviceMap.put(new ServiceKey(type, alias, true), s);
}
putPropertyStrings(s);
}
/**
* Put the string properties for this Service in this Provider's
* Hashtable.
*/
private void putPropertyStrings(Service s) {
String type = s.getType();
String algorithm = s.getAlgorithm();
// use super() to avoid permission check and other processing
super.put(type + "." + algorithm, s.getClassName());
for (String alias : s.getAliases()) {
super.put(ALIAS_PREFIX + type + "." + alias, algorithm);
}
for (Map.Entry entry : s.attributes.entrySet()) {
String key = type + "." + algorithm + " " + entry.getKey();
super.put(key, entry.getValue());
}
// Android-added: Provider registration.
if (registered) {
Security.increaseVersion();
}
}
/**
* Remove the string properties for this Service from this Provider's
* Hashtable.
*/
private void removePropertyStrings(Service s) {
String type = s.getType();
String algorithm = s.getAlgorithm();
// use super() to avoid permission check and other processing
super.remove(type + "." + algorithm);
for (String alias : s.getAliases()) {
super.remove(ALIAS_PREFIX + type + "." + alias);
}
for (Map.Entry entry : s.attributes.entrySet()) {
String key = type + "." + algorithm + " " + entry.getKey();
super.remove(key);
}
// Android-added: Provider registration.
if (registered) {
Security.increaseVersion();
}
}
/**
* Remove a service previously added using
* {@link #putService putService()}. The specified service is removed from
* this provider. It will no longer be returned by
* {@link #getService getService()} and its information will be removed
* from this provider's Hashtable.
*
* Also, if there is a security manager, its
* {@code checkSecurityAccess} method is called with the string
* {@code "removeProviderProperty."+name}, where {@code name} is
* the provider name, to see if it's ok to remove this provider's
* properties. If the default implementation of
* {@code checkSecurityAccess} is used (that is, that method is not
* overriden), then this results in a call to the security manager's
* {@code checkPermission} method with a
* {@code SecurityPermission("removeProviderProperty."+name)}
* permission.
*
* @param s the Service to be removed
*
* @throws SecurityException
* if a security manager exists and its {@link
* java.lang.SecurityManager#checkSecurityAccess} method denies
* access to remove this provider's properties.
* @throws NullPointerException if s is null
*
* @since 1.5
*/
protected synchronized void removeService(Service s) {
check("removeProviderProperty." + name);
if (debug != null) {
debug.println(name + ".removeService(): " + s);
}
if (s == null) {
throw new NullPointerException();
}
implRemoveService(s);
}
private void implRemoveService(Service s) {
if ((s == null) || (serviceMap == null)) {
return;
}
String type = s.getType();
String algorithm = s.getAlgorithm();
ServiceKey key = new ServiceKey(type, algorithm, false);
Service oldService = serviceMap.get(key);
if (s != oldService) {
return;
}
servicesChanged = true;
serviceMap.remove(key);
for (String alias : s.getAliases()) {
serviceMap.remove(new ServiceKey(type, alias, false));
}
removePropertyStrings(s);
}
// Wrapped String that behaves in a case insensitive way for equals/hashCode
private static class UString {
final String string;
final String lowerString;
UString(String s) {
this.string = s;
this.lowerString = s.toLowerCase(ENGLISH);
}
public int hashCode() {
return lowerString.hashCode();
}
public boolean equals(Object obj) {
if (this == obj) {
return true;
}
if (obj instanceof UString == false) {
return false;
}
UString other = (UString)obj;
return lowerString.equals(other.lowerString);
}
public String toString() {
return string;
}
}
// describe relevant properties of a type of engine
private static class EngineDescription {
final String name;
final boolean supportsParameter;
final String constructorParameterClassName;
private volatile Class> constructorParameterClass;
EngineDescription(String name, boolean sp, String paramName) {
this.name = name;
this.supportsParameter = sp;
this.constructorParameterClassName = paramName;
}
Class> getConstructorParameterClass() throws ClassNotFoundException {
Class> clazz = constructorParameterClass;
if (clazz == null) {
clazz = Class.forName(constructorParameterClassName);
constructorParameterClass = clazz;
}
return clazz;
}
}
// built in knowledge of the engine types shipped as part of the JDK
private static final Map knownEngines;
private static void addEngine(String name, boolean sp, String paramName) {
EngineDescription ed = new EngineDescription(name, sp, paramName);
// also index by canonical name to avoid toLowerCase() for some lookups
knownEngines.put(name.toLowerCase(ENGLISH), ed);
knownEngines.put(name, ed);
}
static {
knownEngines = new HashMap();
// JCA
addEngine("AlgorithmParameterGenerator", false, null);
addEngine("AlgorithmParameters", false, null);
addEngine("KeyFactory", false, null);
addEngine("KeyPairGenerator", false, null);
addEngine("KeyStore", false, null);
addEngine("MessageDigest", false, null);
addEngine("SecureRandom", false, null);
addEngine("Signature", true, null);
addEngine("CertificateFactory", false, null);
addEngine("CertPathBuilder", false, null);
addEngine("CertPathValidator", false, null);
addEngine("CertStore", false,
"java.security.cert.CertStoreParameters");
// JCE
addEngine("Cipher", true, null);
addEngine("ExemptionMechanism", false, null);
addEngine("Mac", true, null);
addEngine("KeyAgreement", true, null);
addEngine("KeyGenerator", false, null);
addEngine("SecretKeyFactory", false, null);
// JSSE
addEngine("KeyManagerFactory", false, null);
addEngine("SSLContext", false, null);
addEngine("TrustManagerFactory", false, null);
// JGSS
addEngine("GssApiMechanism", false, null);
// SASL
addEngine("SaslClientFactory", false, null);
addEngine("SaslServerFactory", false, null);
// POLICY
addEngine("Policy", false,
"java.security.Policy$Parameters");
// CONFIGURATION
addEngine("Configuration", false,
"javax.security.auth.login.Configuration$Parameters");
// XML DSig
addEngine("XMLSignatureFactory", false, null);
addEngine("KeyInfoFactory", false, null);
addEngine("TransformService", false, null);
// Smart Card I/O
addEngine("TerminalFactory", false,
"java.lang.Object");
}
// get the "standard" (mixed-case) engine name for arbitary case engine name
// if there is no known engine by that name, return s
private static String getEngineName(String s) {
// try original case first, usually correct
EngineDescription e = knownEngines.get(s);
if (e == null) {
e = knownEngines.get(s.toLowerCase(ENGLISH));
}
return (e == null) ? s : e.name;
}
/**
* The description of a security service. It encapsulates the properties
* of a service and contains a factory method to obtain new implementation
* instances of this service.
*
* Each service has a provider that offers the service, a type,
* an algorithm name, and the name of the class that implements the
* service. Optionally, it also includes a list of alternate algorithm
* names for this service (aliases) and attributes, which are a map of
* (name, value) String pairs.
*
*
This class defines the methods {@link #supportsParameter
* supportsParameter()} and {@link #newInstance newInstance()}
* which are used by the Java security framework when it searches for
* suitable services and instantiates them. The valid arguments to those
* methods depend on the type of service. For the service types defined
* within Java SE, see the
*
* Java Cryptography Architecture API Specification & Reference
* for the valid values.
* Note that components outside of Java SE can define additional types of
* services and their behavior.
*
*
Instances of this class are immutable.
*
* @since 1.5
*/
public static class Service {
private String type, algorithm, className;
private final Provider provider;
private List aliases;
private Map attributes;
// Reference to the cached implementation Class object
private volatile Reference> classRef;
// flag indicating whether this service has its attributes for
// supportedKeyFormats or supportedKeyClasses set
// if null, the values have not been initialized
// if TRUE, at least one of supportedFormats/Classes is non null
private volatile Boolean hasKeyAttributes;
// supported encoding formats
private String[] supportedFormats;
// names of the supported key (super) classes
private Class[] supportedClasses;
// whether this service has been registered with the Provider
private boolean registered;
private static final Class>[] CLASS0 = new Class>[0];
// this constructor and these methods are used for parsing
// the legacy string properties.
private Service(Provider provider) {
this.provider = provider;
aliases = Collections.emptyList();
attributes = Collections.emptyMap();
}
private boolean isValid() {
return (type != null) && (algorithm != null) && (className != null);
}
private void addAlias(String alias) {
if (aliases.isEmpty()) {
aliases = new ArrayList(2);
}
aliases.add(alias);
}
void addAttribute(String type, String value) {
if (attributes.isEmpty()) {
attributes = new HashMap(8);
}
attributes.put(new UString(type), value);
}
/**
* Construct a new service.
*
* @param provider the provider that offers this service
* @param type the type of this service
* @param algorithm the algorithm name
* @param className the name of the class implementing this service
* @param aliases List of aliases or null if algorithm has no aliases
* @param attributes Map of attributes or null if this implementation
* has no attributes
*
* @throws NullPointerException if provider, type, algorithm, or
* className is null
*/
public Service(Provider provider, String type, String algorithm,
String className, List aliases,
Map attributes) {
if ((provider == null) || (type == null) ||
(algorithm == null) || (className == null)) {
throw new NullPointerException();
}
this.provider = provider;
this.type = getEngineName(type);
this.algorithm = algorithm;
this.className = className;
if (aliases == null) {
this.aliases = Collections.emptyList();
} else {
this.aliases = new ArrayList(aliases);
}
if (attributes == null) {
this.attributes = Collections.emptyMap();
} else {
this.attributes = new HashMap();
for (Map.Entry entry : attributes.entrySet()) {
this.attributes.put(new UString(entry.getKey()), entry.getValue());
}
}
}
/**
* Get the type of this service. For example, {@code MessageDigest}.
*
* @return the type of this service
*/
public final String getType() {
return type;
}
/**
* Return the name of the algorithm of this service. For example,
* {@code SHA-1}.
*
* @return the algorithm of this service
*/
public final String getAlgorithm() {
return algorithm;
}
/**
* Return the Provider of this service.
*
* @return the Provider of this service
*/
public final Provider getProvider() {
return provider;
}
/**
* Return the name of the class implementing this service.
*
* @return the name of the class implementing this service
*/
public final String getClassName() {
return className;
}
// internal only
private final List getAliases() {
return aliases;
}
/**
* Return the value of the specified attribute or null if this
* attribute is not set for this Service.
*
* @param name the name of the requested attribute
*
* @return the value of the specified attribute or null if the
* attribute is not present
*
* @throws NullPointerException if name is null
*/
public final String getAttribute(String name) {
if (name == null) {
throw new NullPointerException();
}
return attributes.get(new UString(name));
}
/**
* Return a new instance of the implementation described by this
* service. The security provider framework uses this method to
* construct implementations. Applications will typically not need
* to call it.
*
* The default implementation uses reflection to invoke the
* standard constructor for this type of service.
* Security providers can override this method to implement
* instantiation in a different way.
* For details and the values of constructorParameter that are
* valid for the various types of services see the
*
* Java Cryptography Architecture API Specification &
* Reference .
*
* @param constructorParameter the value to pass to the constructor,
* or null if this type of service does not use a constructorParameter.
*
* @return a new implementation of this service
*
* @throws InvalidParameterException if the value of
* constructorParameter is invalid for this type of service.
* @throws NoSuchAlgorithmException if instantiation failed for
* any other reason.
*/
public Object newInstance(Object constructorParameter)
throws NoSuchAlgorithmException {
if (registered == false) {
if (provider.getService(type, algorithm) != this) {
throw new NoSuchAlgorithmException
("Service not registered with Provider "
+ provider.getName() + ": " + this);
}
registered = true;
}
try {
EngineDescription cap = knownEngines.get(type);
if (cap == null) {
// unknown engine type, use generic code
// this is the code path future for non-core
// optional packages
return newInstanceGeneric(constructorParameter);
}
if (cap.constructorParameterClassName == null) {
if (constructorParameter != null) {
throw new InvalidParameterException
("constructorParameter not used with " + type
+ " engines");
}
Class> clazz = getImplClass();
Class>[] empty = {};
Constructor> con = clazz.getConstructor(empty);
return con.newInstance();
} else {
Class> paramClass = cap.getConstructorParameterClass();
if (constructorParameter != null) {
Class> argClass = constructorParameter.getClass();
if (paramClass.isAssignableFrom(argClass) == false) {
throw new InvalidParameterException
("constructorParameter must be instanceof "
+ cap.constructorParameterClassName.replace('$', '.')
+ " for engine type " + type);
}
}
Class> clazz = getImplClass();
Constructor> cons = clazz.getConstructor(paramClass);
return cons.newInstance(constructorParameter);
}
} catch (NoSuchAlgorithmException e) {
throw e;
} catch (InvocationTargetException e) {
throw new NoSuchAlgorithmException
("Error constructing implementation (algorithm: "
+ algorithm + ", provider: " + provider.getName()
+ ", class: " + className + ")", e.getCause());
} catch (Exception e) {
throw new NoSuchAlgorithmException
("Error constructing implementation (algorithm: "
+ algorithm + ", provider: " + provider.getName()
+ ", class: " + className + ")", e);
}
}
// return the implementation Class object for this service
private Class> getImplClass() throws NoSuchAlgorithmException {
try {
Reference> ref = classRef;
Class> clazz = (ref == null) ? null : ref.get();
if (clazz == null) {
ClassLoader cl = provider.getClass().getClassLoader();
if (cl == null) {
clazz = Class.forName(className);
} else {
clazz = cl.loadClass(className);
}
if (!Modifier.isPublic(clazz.getModifiers())) {
throw new NoSuchAlgorithmException
("class configured for " + type + " (provider: " +
provider.getName() + ") is not public.");
}
classRef = new WeakReference>(clazz);
}
return clazz;
} catch (ClassNotFoundException e) {
throw new NoSuchAlgorithmException
("class configured for " + type + " (provider: " +
provider.getName() + ") cannot be found.", e);
}
}
/**
* Generic code path for unknown engine types. Call the
* no-args constructor if constructorParameter is null, otherwise
* use the first matching constructor.
*/
private Object newInstanceGeneric(Object constructorParameter)
throws Exception {
Class> clazz = getImplClass();
if (constructorParameter == null) {
// create instance with public no-arg constructor if it exists
try {
Class>[] empty = {};
Constructor> con = clazz.getConstructor(empty);
return con.newInstance();
} catch (NoSuchMethodException e) {
throw new NoSuchAlgorithmException("No public no-arg "
+ "constructor found in class " + className);
}
}
Class> argClass = constructorParameter.getClass();
Constructor[] cons = clazz.getConstructors();
// find first public constructor that can take the
// argument as parameter
for (Constructor> con : cons) {
Class>[] paramTypes = con.getParameterTypes();
if (paramTypes.length != 1) {
continue;
}
if (paramTypes[0].isAssignableFrom(argClass) == false) {
continue;
}
return con.newInstance(constructorParameter);
}
throw new NoSuchAlgorithmException("No public constructor matching "
+ argClass.getName() + " found in class " + className);
}
/**
* Test whether this Service can use the specified parameter.
* Returns false if this service cannot use the parameter. Returns
* true if this service can use the parameter, if a fast test is
* infeasible, or if the status is unknown.
*
* The security provider framework uses this method with
* some types of services to quickly exclude non-matching
* implementations for consideration.
* Applications will typically not need to call it.
*
*
For details and the values of parameter that are valid for the
* various types of services see the top of this class and the
*
* Java Cryptography Architecture API Specification &
* Reference .
* Security providers can override it to implement their own test.
*
* @param parameter the parameter to test
*
* @return false if this this service cannot use the specified
* parameter; true if it can possibly use the parameter
*
* @throws InvalidParameterException if the value of parameter is
* invalid for this type of service or if this method cannot be
* used with this type of service
*/
public boolean supportsParameter(Object parameter) {
EngineDescription cap = knownEngines.get(type);
if (cap == null) {
// unknown engine type, return true by default
return true;
}
if (cap.supportsParameter == false) {
throw new InvalidParameterException("supportsParameter() not "
+ "used with " + type + " engines");
}
// allow null for keys without attributes for compatibility
if ((parameter != null) && (parameter instanceof Key == false)) {
throw new InvalidParameterException
("Parameter must be instanceof Key for engine " + type);
}
if (hasKeyAttributes() == false) {
return true;
}
if (parameter == null) {
return false;
}
Key key = (Key)parameter;
if (supportsKeyFormat(key)) {
return true;
}
if (supportsKeyClass(key)) {
return true;
}
return false;
}
/**
* Return whether this service has its Supported* properties for
* keys defined. Parses the attributes if not yet initialized.
*/
private boolean hasKeyAttributes() {
Boolean b = hasKeyAttributes;
if (b == null) {
synchronized (this) {
String s;
s = getAttribute("SupportedKeyFormats");
if (s != null) {
supportedFormats = s.split("\\|");
}
s = getAttribute("SupportedKeyClasses");
if (s != null) {
String[] classNames = s.split("\\|");
List> classList =
new ArrayList<>(classNames.length);
for (String className : classNames) {
Class> clazz = getKeyClass(className);
if (clazz != null) {
classList.add(clazz);
}
}
supportedClasses = classList.toArray(CLASS0);
}
boolean bool = (supportedFormats != null)
|| (supportedClasses != null);
b = Boolean.valueOf(bool);
hasKeyAttributes = b;
}
}
return b.booleanValue();
}
// get the key class object of the specified name
private Class> getKeyClass(String name) {
try {
return Class.forName(name);
} catch (ClassNotFoundException e) {
// ignore
}
try {
ClassLoader cl = provider.getClass().getClassLoader();
if (cl != null) {
return cl.loadClass(name);
}
} catch (ClassNotFoundException e) {
// ignore
}
return null;
}
private boolean supportsKeyFormat(Key key) {
if (supportedFormats == null) {
return false;
}
String format = key.getFormat();
if (format == null) {
return false;
}
for (String supportedFormat : supportedFormats) {
if (supportedFormat.equals(format)) {
return true;
}
}
return false;
}
private boolean supportsKeyClass(Key key) {
if (supportedClasses == null) {
return false;
}
Class> keyClass = key.getClass();
for (Class> clazz : supportedClasses) {
if (clazz.isAssignableFrom(keyClass)) {
return true;
}
}
return false;
}
/**
* Return a String representation of this service.
*
* @return a String representation of this service.
*/
public String toString() {
String aString = aliases.isEmpty()
? "" : "\r\n aliases: " + aliases.toString();
String attrs = attributes.isEmpty()
? "" : "\r\n attributes: " + attributes.toString();
return provider.getName() + ": " + type + "." + algorithm
+ " -> " + className + aString + attrs + "\r\n";
}
}
// BEGIN Android-added: Provider registration.
/**
* @hide
*/
public void setRegistered() {
registered = true;
}
/**
* @hide
*/
public void setUnregistered() {
registered = false;
}
/**
* @hide
*/
public boolean isRegistered() {
return registered;
}
/**
* Ensure the values cached by {@link #getServices} and {@link #getService} are already computed
*
* Used by the zygote so that initialization is performed during preload for the providers
* available at that point.
*
* @hide
*/
public synchronized void warmUpServiceProvision() {
checkInitialized();
// Further calls do nothing if the services didn't change. If not called here, it would
// parse legacy strings the first time that a service is requested.
ensureLegacyParsed();
// This call to getServices will update fields so that further calls will just return a
// stored field, if the services didn't change in the meantime.
getServices();
}
// END Android-added: Provider registration.
}