blob: 09c494f346505fef04a6813024a45d5584338f6c [file] [log] [blame]
package aQute.bnd.osgi;
/**
* This class can calculate the required headers for a (potential) JAR file. It
* analyzes a directory or JAR for the packages that are contained and that are
* referred to by the bytecodes. The user can the use regular expressions to
* define the attributes and directives. The matching is not fully regex for
* convenience. A * and ? get a . prefixed and dots are escaped.
*
* <pre>
* *;auto=true any
* org.acme.*;auto=true org.acme.xyz
* org.[abc]*;auto=true org.acme.xyz
* </pre>
*
* Additional, the package instruction can start with a '=' or a '!'. The '!'
* indicates negation. Any matching package is removed. The '=' is literal, the
* expression will be copied verbatim and no matching will take place.
*
* Any headers in the given properties are used in the output properties.
*/
import static aQute.libg.generics.Create.*;
import java.io.*;
import java.net.*;
import java.util.*;
import java.util.Map.Entry;
import java.util.jar.*;
import java.util.jar.Attributes.Name;
import java.util.regex.*;
import aQute.bnd.annotation.*;
import aQute.bnd.header.*;
import aQute.bnd.osgi.Descriptors.Descriptor;
import aQute.bnd.osgi.Descriptors.PackageRef;
import aQute.bnd.osgi.Descriptors.TypeRef;
import aQute.bnd.service.*;
import aQute.lib.base64.*;
import aQute.lib.collections.*;
import aQute.lib.filter.*;
import aQute.lib.hex.*;
import aQute.lib.io.*;
import aQute.libg.cryptography.*;
import aQute.libg.generics.*;
import aQute.libg.reporter.*;
public class Analyzer extends Processor {
private final SortedSet<Clazz.JAVA> ees = new TreeSet<Clazz.JAVA>();
static Properties bndInfo;
// Bundle parameters
private Jar dot;
private final Packages contained = new Packages();
private final Packages referred = new Packages();
private Packages exports;
private Packages imports;
private TypeRef activator;
// Global parameters
private final MultiMap<PackageRef,PackageRef> uses = new MultiMap<PackageRef,PackageRef>(
PackageRef.class, PackageRef.class,
true);
private final MultiMap<PackageRef,PackageRef> apiUses = new MultiMap<PackageRef,PackageRef>(
PackageRef.class, PackageRef.class,
true);
private final Packages classpathExports = new Packages();
private final Descriptors descriptors = new Descriptors();
private final List<Jar> classpath = list();
private final Map<TypeRef,Clazz> classspace = map();
private final Map<TypeRef,Clazz> importedClassesCache = map();
private boolean analyzed = false;
private boolean diagnostics = false;
private boolean inited = false;
final protected AnalyzerMessages msgs = ReporterMessages.base(this,
AnalyzerMessages.class);
public Analyzer(Processor parent) {
super(parent);
}
public Analyzer() {}
/**
* Specifically for Maven
*
* @param properties
* the properties
*/
public static Properties getManifest(File dirOrJar) throws Exception {
Analyzer analyzer = new Analyzer();
try {
analyzer.setJar(dirOrJar);
Properties properties = new Properties();
properties.put(IMPORT_PACKAGE, "*");
properties.put(EXPORT_PACKAGE, "*");
analyzer.setProperties(properties);
Manifest m = analyzer.calcManifest();
Properties result = new Properties();
for (Iterator<Object> i = m.getMainAttributes().keySet().iterator(); i.hasNext();) {
Attributes.Name name = (Attributes.Name) i.next();
result.put(name.toString(), m.getMainAttributes().getValue(name));
}
return result;
}
finally {
analyzer.close();
}
}
/**
* Calculates the data structures for generating a manifest.
*
* @throws IOException
*/
public void analyze() throws Exception {
if (!analyzed) {
analyzed = true;
uses.clear();
apiUses.clear();
classspace.clear();
classpathExports.clear();
// Parse all the class in the
// the jar according to the OSGi bcp
analyzeBundleClasspath();
//
// calculate class versions in use
//
for (Clazz c : classspace.values()) {
ees.add(c.getFormat());
}
//
// Get exported packages from the
// entries on the classpath
//
for (Jar current : getClasspath()) {
getExternalExports(current, classpathExports);
for (String dir : current.getDirectories().keySet()) {
PackageRef packageRef = getPackageRef(dir);
Resource resource = current.getResource(dir + "/packageinfo");
getExportVersionsFromPackageInfo(packageRef, resource, classpathExports);
}
}
// Handle the bundle activator
String s = getProperty(BUNDLE_ACTIVATOR);
if (s != null) {
activator = getTypeRefFromFQN(s);
referTo(activator);
trace("activator %s %s", s, activator);
}
// Execute any plugins
// TODO handle better reanalyze
doPlugins();
Jar extra = getExtra();
while (extra != null) {
dot.addAll(extra);
analyzeJar(extra, "", true);
extra = getExtra();
}
referred.keySet().removeAll(contained.keySet());
//
// EXPORTS
//
{
Set<Instruction> unused = Create.set();
Instructions filter = new Instructions(getExportPackage());
filter.append(getExportContents());
exports = filter(filter, contained, unused);
if (!unused.isEmpty()) {
warning("Unused Export-Package instructions: %s ", unused);
}
// See what information we can find to augment the
// exports. I.e. look on the classpath
augmentExports(exports);
}
//
// IMPORTS
// Imports MUST come after exports because we use information from
// the exports
//
{
// Add all exports that do not have an -noimport: directive
// to the imports.
Packages referredAndExported = new Packages(referred);
referredAndExported.putAll(doExportsToImports(exports));
removeDynamicImports(referredAndExported);
// Remove any Java references ... where are the closures???
for (Iterator<PackageRef> i = referredAndExported.keySet().iterator(); i.hasNext();) {
if (i.next().isJava())
i.remove();
}
Set<Instruction> unused = Create.set();
String h = getProperty(IMPORT_PACKAGE);
if (h == null) // If not set use a default
h = "*";
if (isPedantic() && h.trim().length() == 0)
warning("Empty Import-Package header");
Instructions filter = new Instructions(h);
imports = filter(filter, referredAndExported, unused);
if (!unused.isEmpty()) {
// We ignore the end wildcard catch
if (!(unused.size() == 1 && unused.iterator().next().toString().equals("*")))
warning("Unused Import-Package instructions: %s ", unused);
}
// See what information we can find to augment the
// imports. I.e. look in the exports
augmentImports(imports, exports);
}
//
// USES
//
// Add the uses clause to the exports
boolean api = isTrue(getProperty(EXPERIMENTS)) || true; // brave,
// lets see
doUses(exports, api ? apiUses : uses, imports);
//
// Verify that no exported package has a reference to a private
// package
// This can cause a lot of harm.
// TODO restrict the check to public API only, but even then
// exported packages
// should preferably not refer to private packages.
//
Set<PackageRef> privatePackages = getPrivates();
// References to java are not imported so they would show up as
// private
// packages, lets kill them as well.
for (Iterator<PackageRef> p = privatePackages.iterator(); p.hasNext();)
if (p.next().isJava())
p.remove();
for (PackageRef exported : exports.keySet()) {
List<PackageRef> used = uses.get(exported);
if (used != null) {
Set<PackageRef> privateReferences = new HashSet<PackageRef>(apiUses.get(exported));
privateReferences.retainAll(privatePackages);
if (!privateReferences.isEmpty())
msgs.Export_Has_PrivateReferences_(exported, privateReferences.size(), privateReferences);
}
}
//
// Checks
//
if (referred.containsKey(Descriptors.DEFAULT_PACKAGE)) {
error("The default package '.' is not permitted by the Import-Package syntax. \n"
+ " This can be caused by compile errors in Eclipse because Eclipse creates \n"
+ "valid class files regardless of compile errors.\n"
+ "The following package(s) import from the default package "
+ uses.transpose().get(Descriptors.DEFAULT_PACKAGE));
}
}
}
/**
* Discussed with BJ and decided to kill the .
*
* @param referredAndExported
*/
void removeDynamicImports(Packages referredAndExported) {
// // Remove any matching a dynamic import package instruction
// Instructions dynamicImports = new
// Instructions(getDynamicImportPackage());
// Collection<PackageRef> dynamic = dynamicImports.select(
// referredAndExported.keySet(), false);
// referredAndExported.keySet().removeAll(dynamic);
}
protected Jar getExtra() throws Exception {
return null;
}
/**
*
*/
void doPlugins() {
for (AnalyzerPlugin plugin : getPlugins(AnalyzerPlugin.class)) {
try {
boolean reanalyze = plugin.analyzeJar(this);
if (reanalyze) {
classspace.clear();
analyzeBundleClasspath();
}
}
catch (Exception e) {
error("Analyzer Plugin %s failed %s", plugin, e);
}
}
}
/**
* @return
*/
boolean isResourceOnly() {
return isTrue(getProperty(RESOURCEONLY));
}
/**
* One of the main workhorses of this class. This will analyze the current
* setp and calculate a new manifest according to this setup. This method
* will also set the manifest on the main jar dot
*
* @return
* @throws IOException
*/
public Manifest calcManifest() throws Exception {
analyze();
Manifest manifest = new Manifest();
Attributes main = manifest.getMainAttributes();
main.put(Attributes.Name.MANIFEST_VERSION, "1.0");
main.putValue(BUNDLE_MANIFESTVERSION, "2");
boolean noExtraHeaders = "true".equalsIgnoreCase(getProperty(NOEXTRAHEADERS));
if (!noExtraHeaders) {
main.putValue(CREATED_BY, System.getProperty("java.version") + " (" + System.getProperty("java.vendor")
+ ")");
main.putValue(TOOL, "Bnd-" + getBndVersion());
main.putValue(BND_LASTMODIFIED, "" + System.currentTimeMillis());
}
String exportHeader = printClauses(exports, true);
if (exportHeader.length() > 0)
main.putValue(EXPORT_PACKAGE, exportHeader);
else
main.remove(EXPORT_PACKAGE);
// Remove all the Java packages from the imports
if (!imports.isEmpty()) {
main.putValue(IMPORT_PACKAGE, printClauses(imports));
} else {
main.remove(IMPORT_PACKAGE);
}
Packages temp = new Packages(contained);
temp.keySet().removeAll(exports.keySet());
if (!temp.isEmpty())
main.putValue(PRIVATE_PACKAGE, printClauses(temp));
else
main.remove(PRIVATE_PACKAGE);
Parameters bcp = getBundleClasspath();
if (bcp.isEmpty() || (bcp.containsKey(".") && bcp.size() == 1))
main.remove(BUNDLE_CLASSPATH);
else
main.putValue(BUNDLE_CLASSPATH, printClauses(bcp));
doNamesection(dot, manifest);
for (Enumeration< ? > h = getProperties().propertyNames(); h.hasMoreElements();) {
String header = (String) h.nextElement();
if (header.trim().length() == 0) {
warning("Empty property set with value: " + getProperties().getProperty(header));
continue;
}
if (isMissingPlugin(header.trim())) {
error("Missing plugin for command %s", header);
}
if (!Character.isUpperCase(header.charAt(0))) {
if (header.charAt(0) == '@')
doNameSection(manifest, header);
continue;
}
if (header.equals(BUNDLE_CLASSPATH) || header.equals(EXPORT_PACKAGE) || header.equals(IMPORT_PACKAGE))
continue;
if (header.equalsIgnoreCase("Name")) {
error("Your bnd file contains a header called 'Name'. This interferes with the manifest name section.");
continue;
}
if (Verifier.HEADER_PATTERN.matcher(header).matches()) {
String value = getProperty(header);
if (value != null && main.getValue(header) == null) {
if (value.trim().length() == 0)
main.remove(header);
else if (value.trim().equals(EMPTY_HEADER))
main.putValue(header, "");
else
main.putValue(header, value);
}
} else {
// TODO should we report?
}
}
// Copy old values into new manifest, when they
// exist in the old one, but not in the new one
merge(manifest, dot.getManifest());
//
// Calculate the bundle symbolic name if it is
// not set.
// 1. set
// 2. name of properties file (must be != bnd.bnd)
// 3. name of directory, which is usualy project name
//
String bsn = getBsn();
if (main.getValue(BUNDLE_SYMBOLICNAME) == null) {
main.putValue(BUNDLE_SYMBOLICNAME, bsn);
}
//
// Use the same name for the bundle name as BSN when
// the bundle name is not set
//
if (main.getValue(BUNDLE_NAME) == null) {
main.putValue(BUNDLE_NAME, bsn);
}
if (main.getValue(BUNDLE_VERSION) == null)
main.putValue(BUNDLE_VERSION, "0");
// Remove all the headers mentioned in -removeheaders
Instructions instructions = new Instructions(getProperty(REMOVEHEADERS));
Collection<Object> result = instructions.select(main.keySet(), false);
main.keySet().removeAll(result);
// We should not set the manifest here, this is in general done
// by the caller.
// dot.setManifest(manifest);
return manifest;
}
/**
* Parse the namesection as instructions and then match them against the
* current set of resources For example:
*
* <pre>
* -namesection: *;baz=true, abc/def/bar/X.class=3
* </pre>
*
* The raw value of {@link Constants#NAMESECTION} is used but the values of
* the attributes are replaced where @ is set to the resource name. This
* allows macro to operate on the resource
*/
private void doNamesection(Jar dot, Manifest manifest) {
Parameters namesection = parseHeader(getProperties().getProperty(NAMESECTION));
Instructions instructions = new Instructions(namesection);
Set<String> resources = new HashSet<String>(dot.getResources().keySet());
//
// For each instruction, iterator over the resources and filter
// them. If a resource matches, it must be removed even if the
// instruction is negative. If positive, add a name section
// to the manifest for the given resource name. Then add all
// attributes from the instruction to that name section.
//
for (Map.Entry<Instruction,Attrs> instr : instructions.entrySet()) {
boolean matched = false;
// For each instruction
for (Iterator<String> i = resources.iterator(); i.hasNext();) {
String path = i.next();
// For each resource
if (instr.getKey().matches(path)) {
// Instruction matches the resource
matched = true;
if (!instr.getKey().isNegated()) {
// Positive match, add the attributes
Attributes attrs = manifest.getAttributes(path);
if (attrs == null) {
attrs = new Attributes();
manifest.getEntries().put(path, attrs);
}
//
// Add all the properties from the instruction to the
// name section
//
for (Map.Entry<String,String> property : instr.getValue().entrySet()) {
setProperty("@", path);
try {
String processed = getReplacer().process(property.getValue());
attrs.putValue(property.getKey(), processed);
}
finally {
unsetProperty("@");
}
}
}
i.remove();
}
}
if (!matched && resources.size() > 0)
warning("The instruction %s in %s did not match any resources", instr.getKey(), NAMESECTION);
}
}
/**
* This method is called when the header starts with a @, signifying a name
* section header. The name part is defined by replacing all the @ signs to
* a /, removing the first and the last, and using the last part as header
* name:
*
* <pre>
* &#064;org@osgi@service@event@Implementation-Title
* </pre>
*
* This will be the header Implementation-Title in the
* org/osgi/service/event named section.
*
* @param manifest
* @param header
*/
private void doNameSection(Manifest manifest, String header) {
String path = header.replace('@', '/');
int n = path.lastIndexOf('/');
// Must succeed because we start with @
String name = path.substring(n + 1);
// Skip first /
path = path.substring(1, n);
if (name.length() != 0 && path.length() != 0) {
Attributes attrs = manifest.getAttributes(path);
if (attrs == null) {
attrs = new Attributes();
manifest.getEntries().put(path, attrs);
}
attrs.putValue(name, getProperty(header));
} else {
warning("Invalid header (starts with @ but does not seem to be for the Name section): %s", header);
}
}
/**
* Clear the key part of a header. I.e. remove everything from the first ';'
*
* @param value
* @return
*/
public String getBsn() {
String value = getProperty(BUNDLE_SYMBOLICNAME);
if (value == null) {
if (getPropertiesFile() != null)
value = getPropertiesFile().getName();
String projectName = getBase().getName();
if (value == null || value.equals("bnd.bnd")) {
value = projectName;
} else if (value.endsWith(".bnd")) {
value = value.substring(0, value.length() - 4);
if (!value.startsWith(getBase().getName()))
value = projectName + "." + value;
}
}
if (value == null)
return "untitled";
int n = value.indexOf(';');
if (n > 0)
value = value.substring(0, n);
return value.trim();
}
public String _bsn(@SuppressWarnings("unused")
String args[]) {
return getBsn();
}
/**
* Calculate an export header solely based on the contents of a JAR file
*
* @param bundle
* The jar file to analyze
* @return
*/
public String calculateExportsFromContents(Jar bundle) {
String ddel = "";
StringBuilder sb = new StringBuilder();
Map<String,Map<String,Resource>> map = bundle.getDirectories();
for (Iterator<String> i = map.keySet().iterator(); i.hasNext();) {
String directory = i.next();
if (directory.equals("META-INF") || directory.startsWith("META-INF/"))
continue;
if (directory.equals("OSGI-OPT") || directory.startsWith("OSGI-OPT/"))
continue;
if (directory.equals("/"))
continue;
if (directory.endsWith("/"))
directory = directory.substring(0, directory.length() - 1);
directory = directory.replace('/', '.');
sb.append(ddel);
sb.append(directory);
ddel = ",";
}
return sb.toString();
}
public Packages getContained() {
return contained;
}
public Packages getExports() {
return exports;
}
public Packages getImports() {
return imports;
}
public Set<PackageRef> getPrivates() {
HashSet<PackageRef> privates = new HashSet<PackageRef>(contained.keySet());
privates.removeAll(exports.keySet());
privates.removeAll(imports.keySet());
return privates;
}
public Jar getJar() {
return dot;
}
public Packages getReferred() {
return referred;
}
/**
* Return the set of unreachable code depending on exports and the bundle
* activator.
*
* @return
*/
public Set<PackageRef> getUnreachable() {
Set<PackageRef> unreachable = new HashSet<PackageRef>(uses.keySet()); // all
for (Iterator<PackageRef> r = exports.keySet().iterator(); r.hasNext();) {
PackageRef packageRef = r.next();
removeTransitive(packageRef, unreachable);
}
if (activator != null) {
removeTransitive(activator.getPackageRef(), unreachable);
}
return unreachable;
}
public Map<PackageRef,List<PackageRef>> getUses() {
return uses;
}
public Map<PackageRef,List<PackageRef>> getAPIUses() {
return apiUses;
}
/**
* Get the version for this bnd
*
* @return version or unknown.
*/
public String getBndVersion() {
return getBndInfo("version", "<unknown>");
}
public long getBndLastModified() {
String time = getBndInfo("lastmodified", "0");
try {
return Long.parseLong(time);
}
catch (Exception e) {
// Ignore
}
return 0;
}
public String getBndInfo(String key, String defaultValue) {
if (bndInfo == null) {
try {
Properties bndInfoLocal = new Properties();
URL url = Analyzer.class.getResource("bnd.info");
if (url != null) {
InputStream in = url.openStream();
try {
bndInfoLocal.load(in);
}
finally {
in.close();
}
}
bndInfo = bndInfoLocal;
}
catch (Exception e) {
e.printStackTrace();
return defaultValue;
}
}
String value = bndInfo.getProperty(key);
if (value == null)
return defaultValue;
return value;
}
/**
* Merge the existing manifest with the instructions but do not override
* existing properties.
*
* @param manifest
* The manifest to merge with
* @throws IOException
*/
public void mergeManifest(Manifest manifest) throws IOException {
if (manifest != null) {
Attributes attributes = manifest.getMainAttributes();
for (Iterator<Object> i = attributes.keySet().iterator(); i.hasNext();) {
Name name = (Name) i.next();
String key = name.toString();
// Dont want instructions
if (key.startsWith("-"))
continue;
if (getProperty(key) == null)
setProperty(key, attributes.getValue(name));
}
}
}
public void setBase(File file) {
super.setBase(file);
getProperties().put("project.dir", getBase().getAbsolutePath());
}
/**
* Set the classpath for this analyzer by file.
*
* @param classpath
* @throws IOException
*/
public void setClasspath(File[] classpath) throws IOException {
List<Jar> list = new ArrayList<Jar>();
for (int i = 0; i < classpath.length; i++) {
if (classpath[i].exists()) {
Jar current = new Jar(classpath[i]);
list.add(current);
} else {
error("Missing file on classpath: %s", classpath[i]);
}
}
for (Iterator<Jar> i = list.iterator(); i.hasNext();) {
addClasspath(i.next());
}
}
public void setClasspath(Jar[] classpath) {
for (int i = 0; i < classpath.length; i++) {
addClasspath(classpath[i]);
}
}
public void setClasspath(String[] classpath) {
for (int i = 0; i < classpath.length; i++) {
Jar jar = getJarFromName(classpath[i], " setting classpath");
if (jar != null)
addClasspath(jar);
}
}
/**
* Set the JAR file we are going to work in. This will read the JAR in
* memory.
*
* @param jar
* @return
* @throws IOException
*/
public Jar setJar(File jar) throws IOException {
Jar jarx = new Jar(jar);
addClose(jarx);
return setJar(jarx);
}
/**
* Set the JAR directly we are going to work on.
*
* @param jar
* @return
*/
public Jar setJar(Jar jar) {
if (dot != null)
removeClose(dot);
this.dot = jar;
if (dot != null)
addClose(dot);
return jar;
}
protected void begin() {
if (inited == false) {
inited = true;
super.begin();
updateModified(getBndLastModified(), "bnd last modified");
verifyManifestHeadersCase(getProperties());
}
}
/**
* Try to get a Jar from a file name/path or a url, or in last resort from
* the classpath name part of their files.
*
* @param name
* URL or filename relative to the base
* @param from
* Message identifying the caller for errors
* @return null or a Jar with the contents for the name
*/
Jar getJarFromName(String name, String from) {
File file = new File(name);
if (!file.isAbsolute())
file = new File(getBase(), name);
if (file.exists())
try {
Jar jar = new Jar(file);
addClose(jar);
return jar;
}
catch (Exception e) {
error("Exception in parsing jar file for " + from + ": " + name + " " + e);
}
// It is not a file ...
try {
// Lets try a URL
URL url = new URL(name);
Jar jar = new Jar(fileName(url.getPath()));
addClose(jar);
URLConnection connection = url.openConnection();
InputStream in = connection.getInputStream();
long lastModified = connection.getLastModified();
if (lastModified == 0)
// We assume the worst :-(
lastModified = System.currentTimeMillis();
EmbeddedResource.build(jar, in, lastModified);
in.close();
return jar;
}
catch (IOException ee) {
// Check if we have files on the classpath
// that have the right name, allows us to specify those
// names instead of the full path.
for (Iterator<Jar> cp = getClasspath().iterator(); cp.hasNext();) {
Jar entry = cp.next();
if (entry.getSource() != null && entry.getSource().getName().equals(name)) {
return entry;
}
}
// error("Can not find jar file for " + from + ": " + name);
}
return null;
}
private String fileName(String path) {
int n = path.lastIndexOf('/');
if (n > 0)
return path.substring(n + 1);
return path;
}
/**
* @param manifests
* @throws Exception
*/
private void merge(Manifest result, Manifest old) {
if (old != null) {
for (Iterator<Map.Entry<Object,Object>> e = old.getMainAttributes().entrySet().iterator(); e.hasNext();) {
Map.Entry<Object,Object> entry = e.next();
Attributes.Name name = (Attributes.Name) entry.getKey();
String value = (String) entry.getValue();
if (name.toString().equalsIgnoreCase("Created-By"))
name = new Attributes.Name("Originally-Created-By");
if (!result.getMainAttributes().containsKey(name))
result.getMainAttributes().put(name, value);
}
// do not overwrite existing entries
Map<String,Attributes> oldEntries = old.getEntries();
Map<String,Attributes> newEntries = result.getEntries();
for (Iterator<Map.Entry<String,Attributes>> e = oldEntries.entrySet().iterator(); e.hasNext();) {
Map.Entry<String,Attributes> entry = e.next();
if (!newEntries.containsKey(entry.getKey())) {
newEntries.put(entry.getKey(), entry.getValue());
}
}
}
}
/**
* Bnd is case sensitive for the instructions so we better check people are
* not using an invalid case. We do allow this to set headers that should
* not be processed by us but should be used by the framework.
*
* @param properties
* Properties to verify.
*/
void verifyManifestHeadersCase(Properties properties) {
for (Iterator<Object> i = properties.keySet().iterator(); i.hasNext();) {
String header = (String) i.next();
for (int j = 0; j < headers.length; j++) {
if (!headers[j].equals(header) && headers[j].equalsIgnoreCase(header)) {
warning("Using a standard OSGi header with the wrong case (bnd is case sensitive!), using: "
+ header + " and expecting: " + headers[j]);
break;
}
}
}
}
/**
* We will add all exports to the imports unless there is a -noimport
* directive specified on an export. This directive is skipped for the
* manifest. We also remove any version parameter so that augmentImports can
* do the version policy. The following method is really tricky and evolved
* over time. Coming from the original background of OSGi, it was a weird
* idea for me to have a public package that should not be substitutable. I
* was so much convinced that this was the right rule that I rücksichtlos
* imported them all. Alas, the real world was more subtle than that. It
* turns out that it is not a good idea to always import. First, there must
* be a need to import, i.e. there must be a contained package that refers
* to the exported package for it to make use importing that package.
* Second, if an exported package refers to an internal package than it
* should not be imported. Additionally, it is necessary to treat the
* exports in groups. If an exported package refers to another exported
* packages than it must be in the same group. A framework can only
* substitute exports for imports for the whole of such a group. WHY?????
* Not clear anymore ...
*/
Packages doExportsToImports(Packages exports) {
// private packages = contained - exported.
Set<PackageRef> privatePackages = new HashSet<PackageRef>(contained.keySet());
privatePackages.removeAll(exports.keySet());
// private references = ∀ p : private packages | uses(p)
Set<PackageRef> privateReferences = newSet();
for (PackageRef p : privatePackages) {
Collection<PackageRef> uses = this.uses.get(p);
if (uses != null)
privateReferences.addAll(uses);
}
// Assume we are going to export all exported packages
Set<PackageRef> toBeImported = new HashSet<PackageRef>(exports.keySet());
// Remove packages that are not referenced privately
toBeImported.retainAll(privateReferences);
// Not necessary to import anything that is already
// imported in the Import-Package statement.
// TODO toBeImported.removeAll(imports.keySet());
// Remove exported packages that are referring to
// private packages.
// Each exported package has a uses clause. We just use
// the used packages for each exported package to find out
// if it refers to an internal package.
//
for (Iterator<PackageRef> i = toBeImported.iterator(); i.hasNext();) {
PackageRef next = i.next();
Collection<PackageRef> usedByExportedPackage = this.uses.get(next);
for (PackageRef privatePackage : privatePackages) {
if (usedByExportedPackage.contains(privatePackage)) {
i.remove();
break;
}
}
}
// Clean up attributes and generate result map
Packages result = new Packages();
for (Iterator<PackageRef> i = toBeImported.iterator(); i.hasNext();) {
PackageRef ep = i.next();
Attrs parameters = exports.get(ep);
String noimport = parameters == null ? null : parameters.get(NO_IMPORT_DIRECTIVE);
if (noimport != null && noimport.equalsIgnoreCase("true"))
continue;
// // we can't substitute when there is no version
// String version = parameters.get(VERSION_ATTRIBUTE);
// if (version == null) {
// if (isPedantic())
// warning(
// "Cannot automatically import exported package %s because it has no version defined",
// ep);
// continue;
// }
parameters = new Attrs();
parameters.remove(VERSION_ATTRIBUTE);
result.put(ep, parameters);
}
return result;
}
public boolean referred(PackageRef packageName) {
// return true;
for (Map.Entry<PackageRef,List<PackageRef>> contained : uses.entrySet()) {
if (!contained.getKey().equals(packageName)) {
if (contained.getValue().contains(packageName))
return true;
}
}
return false;
}
/**
* @param jar
*/
private void getExternalExports(Jar jar, Packages classpathExports) {
try {
Manifest m = jar.getManifest();
if (m != null) {
Domain domain = Domain.domain(m);
Parameters exported = domain.getExportPackage();
for (Entry<String,Attrs> e : exported.entrySet()) {
PackageRef ref = getPackageRef(e.getKey());
if (!classpathExports.containsKey(ref)) {
// TODO e.getValue().put(SOURCE_DIRECTIVE,
// jar.getBsn()+"-"+jar.getVersion());
classpathExports.put(ref, e.getValue());
}
}
}
}
catch (Exception e) {
warning("Erroneous Manifest for " + jar + " " + e);
}
}
/**
* Find some more information about imports in manifest and other places. It
* is assumed that the augmentsExports has already copied external attrs
* from the classpathExports.
*
* @throws Exception
*/
void augmentImports(Packages imports, Packages exports) throws Exception {
List<PackageRef> noimports = Create.list();
Set<PackageRef> provided = findProvidedPackages();
for (PackageRef packageRef : imports.keySet()) {
String packageName = packageRef.getFQN();
setProperty(CURRENT_PACKAGE, packageName);
try {
Attrs importAttributes = imports.get(packageRef);
Attrs exportAttributes = exports.get(packageRef, classpathExports.get(packageRef, new Attrs()));
String exportVersion = exportAttributes.getVersion();
String importRange = importAttributes.getVersion();
if (exportVersion == null) {
// TODO Should check if the source is from a bundle.
} else {
//
// Version Policy - Import version substitution. We
// calculate the export version and then allow the
// import version attribute to use it in a substitution
// by using a ${@} macro. The export version can
// be defined externally or locally
//
boolean provider = isTrue(importAttributes.get(PROVIDE_DIRECTIVE))
|| isTrue(exportAttributes.get(PROVIDE_DIRECTIVE)) || provided.contains(packageRef);
exportVersion = cleanupVersion(exportVersion);
try {
setProperty("@", exportVersion);
if (importRange != null) {
importRange = cleanupVersion(importRange);
importRange = getReplacer().process(importRange);
} else
importRange = getVersionPolicy(provider);
}
finally {
unsetProperty("@");
}
importAttributes.put(VERSION_ATTRIBUTE, importRange);
}
//
// Check if exporter has mandatory attributes
//
String mandatory = exportAttributes.get(MANDATORY_DIRECTIVE);
if (mandatory != null) {
String[] attrs = mandatory.split("\\s*,\\s*");
for (int i = 0; i < attrs.length; i++) {
if (!importAttributes.containsKey(attrs[i]))
importAttributes.put(attrs[i], exportAttributes.get(attrs[i]));
}
}
if (exportAttributes.containsKey(IMPORT_DIRECTIVE))
importAttributes.put(IMPORT_DIRECTIVE, exportAttributes.get(IMPORT_DIRECTIVE));
fixupAttributes(importAttributes);
removeAttributes(importAttributes);
String result = importAttributes.get(Constants.VERSION_ATTRIBUTE);
if (result == null)
noimports.add(packageRef);
}
finally {
unsetProperty(CURRENT_PACKAGE);
}
}
if (isPedantic() && noimports.size() != 0) {
warning("Imports that lack version ranges: %s", noimports);
}
}
/**
* Find the packages we depend on, where we implement an interface that is a
* Provider Type. These packages, when we import them, must use the provider
* policy.
*
* @throws Exception
*/
Set<PackageRef> findProvidedPackages() throws Exception {
Set<PackageRef> providers = Create.set();
Set<TypeRef> cached = Create.set();
for (Clazz c : classspace.values()) {
TypeRef[] interfaces = c.getInterfaces();
if (interfaces != null)
for (TypeRef t : interfaces)
if (cached.contains(t) || isProvider(t)) {
cached.add(t);
providers.add(t.getPackageRef());
}
}
return providers;
}
private boolean isProvider(TypeRef t) throws Exception {
Clazz c = findClass(t);
if (c == null)
return false;
if (c.annotations == null)
return false;
TypeRef pt = getTypeRefFromFQN(ProviderType.class.getName());
boolean result = c.annotations.contains(pt);
return result;
}
/**
* Provide any macro substitutions and versions for exported packages.
*/
void augmentExports(Packages exports) {
for (PackageRef packageRef : exports.keySet()) {
String packageName = packageRef.getFQN();
setProperty(CURRENT_PACKAGE, packageName);
try {
Attrs attributes = exports.get(packageRef);
Attrs exporterAttributes = classpathExports.get(packageRef);
if (exporterAttributes == null)
continue;
for (Map.Entry<String,String> entry : exporterAttributes.entrySet()) {
String key = entry.getKey();
if (key.equalsIgnoreCase(SPECIFICATION_VERSION))
key = VERSION_ATTRIBUTE;
// dont overwrite and no directives
if (!key.endsWith(":") && !attributes.containsKey(key)) {
attributes.put(key, entry.getValue());
}
}
fixupAttributes(attributes);
removeAttributes(attributes);
}
finally {
unsetProperty(CURRENT_PACKAGE);
}
}
}
/**
* Fixup Attributes Execute any macros on an export and
*/
void fixupAttributes(Attrs attributes) {
// Convert any attribute values that have macros.
for (String key : attributes.keySet()) {
String value = attributes.get(key);
if (value.indexOf('$') >= 0) {
value = getReplacer().process(value);
attributes.put(key, value);
}
}
}
/**
* Remove the attributes mentioned in the REMOVE_ATTRIBUTE_DIRECTIVE. You
* can add a remove-attribute: directive with a regular expression for
* attributes that need to be removed. We also remove all attributes that
* have a value of !. This allows you to use macros with ${if} to remove
* values.
*/
void removeAttributes(Attrs attributes) {
String remove = attributes.remove(REMOVE_ATTRIBUTE_DIRECTIVE);
if (remove != null) {
Instructions removeInstr = new Instructions(remove);
attributes.keySet().removeAll(removeInstr.select(attributes.keySet(), false));
}
// Remove any ! valued attributes
for (Iterator<Entry<String,String>> i = attributes.entrySet().iterator(); i.hasNext();) {
String v = i.next().getValue();
if (v.equals("!"))
i.remove();
}
}
/**
* Calculate a version from a version policy.
*
* @param version
* The actual exported version
* @param impl
* true for implementations and false for clients
*/
String calculateVersionRange(String version, boolean impl) {
setProperty("@", version);
try {
return getVersionPolicy(impl);
}
finally {
unsetProperty("@");
}
}
/**
* Add the uses clauses. This method iterates over the exports and cal
*
* @param exports
* @param uses
* @throws MojoExecutionException
*/
void doUses(Packages exports, Map<PackageRef,List<PackageRef>> uses, Packages imports) {
if ("true".equalsIgnoreCase(getProperty(NOUSES)))
return;
for (Iterator<PackageRef> i = exports.keySet().iterator(); i.hasNext();) {
PackageRef packageRef = i.next();
String packageName = packageRef.getFQN();
setProperty(CURRENT_PACKAGE, packageName);
try {
doUses(packageRef, exports, uses, imports);
}
finally {
unsetProperty(CURRENT_PACKAGE);
}
}
}
/**
* @param packageName
* @param exports
* @param uses
* @param imports
*/
protected void doUses(PackageRef packageRef, Packages exports, Map<PackageRef,List<PackageRef>> uses,
Packages imports) {
Attrs clause = exports.get(packageRef);
// Check if someone already set the uses: directive
String override = clause.get(USES_DIRECTIVE);
if (override == null)
override = USES_USES;
// Get the used packages
Collection<PackageRef> usedPackages = uses.get(packageRef);
if (usedPackages != null) {
// Only do a uses on exported or imported packages
// and uses should also not contain our own package
// name
Set<PackageRef> sharedPackages = new HashSet<PackageRef>();
sharedPackages.addAll(imports.keySet());
sharedPackages.addAll(exports.keySet());
sharedPackages.retainAll(usedPackages);
sharedPackages.remove(packageRef);
StringBuilder sb = new StringBuilder();
String del = "";
for (Iterator<PackageRef> u = sharedPackages.iterator(); u.hasNext();) {
PackageRef usedPackage = u.next();
if (!usedPackage.isJava()) {
sb.append(del);
sb.append(usedPackage.getFQN());
del = ",";
}
}
if (override.indexOf('$') >= 0) {
setProperty(CURRENT_USES, sb.toString());
override = getReplacer().process(override);
unsetProperty(CURRENT_USES);
} else
// This is for backward compatibility 0.0.287
// can be deprecated over time
override = override.replaceAll(USES_USES, Matcher.quoteReplacement(sb.toString())).trim();
if (override.endsWith(","))
override = override.substring(0, override.length() - 1);
if (override.startsWith(","))
override = override.substring(1);
if (override.length() > 0) {
clause.put(USES_DIRECTIVE, override);
}
}
}
/**
* Transitively remove all elemens from unreachable through the uses link.
*
* @param name
* @param unreachable
*/
void removeTransitive(PackageRef name, Set<PackageRef> unreachable) {
if (!unreachable.contains(name))
return;
unreachable.remove(name);
List<PackageRef> ref = uses.get(name);
if (ref != null) {
for (Iterator<PackageRef> r = ref.iterator(); r.hasNext();) {
PackageRef element = r.next();
removeTransitive(element, unreachable);
}
}
}
/**
* Helper method to set the package info resource
*
* @param dir
* @param key
* @param value
* @throws Exception
*/
void getExportVersionsFromPackageInfo(PackageRef packageRef, Resource r, Packages classpathExports)
throws Exception {
if (r == null)
return;
Properties p = new Properties();
try {
InputStream in = r.openInputStream();
try {
p.load(in);
}
finally {
in.close();
}
Attrs map = classpathExports.get(packageRef);
if (map == null) {
classpathExports.put(packageRef, map = new Attrs());
}
for (Enumeration<String> t = (Enumeration<String>) p.propertyNames(); t.hasMoreElements();) {
String key = t.nextElement();
String value = map.get(key);
if (value == null) {
value = p.getProperty(key);
// Messy, to allow directives we need to
// allow the value to start with a ':' since we cannot
// encode this in a property name
if (value.startsWith(":")) {
key = key + ":";
value = value.substring(1);
}
map.put(key, value);
}
}
}
catch (Exception e) {
msgs.NoSuchFile_(r);
}
}
public void close() {
if (diagnostics) {
PrintStream out = System.err;
out.printf("Current directory : %s%n", new File("").getAbsolutePath());
out.println("Classpath used");
for (Jar jar : getClasspath()) {
out.printf("File : %s%n", jar.getSource());
out.printf("File abs path : %s%n", jar.getSource().getAbsolutePath());
out.printf("Name : %s%n", jar.getName());
Map<String,Map<String,Resource>> dirs = jar.getDirectories();
for (Map.Entry<String,Map<String,Resource>> entry : dirs.entrySet()) {
Map<String,Resource> dir = entry.getValue();
String name = entry.getKey().replace('/', '.');
if (dir != null) {
out.printf(" %-30s %d%n", name, dir.size());
} else {
out.printf(" %-30s <<empty>>%n", name);
}
}
}
}
super.close();
if (dot != null)
dot.close();
if (classpath != null)
for (Iterator<Jar> j = classpath.iterator(); j.hasNext();) {
Jar jar = j.next();
jar.close();
}
}
/**
* Findpath looks through the contents of the JAR and finds paths that end
* with the given regular expression ${findpath (; reg-expr (; replacement)?
* )? }
*
* @param args
* @return
*/
public String _findpath(String args[]) {
return findPath("findpath", args, true);
}
public String _findname(String args[]) {
return findPath("findname", args, false);
}
String findPath(String name, String[] args, boolean fullPathName) {
if (args.length > 3) {
warning("Invalid nr of arguments to " + name + " " + Arrays.asList(args) + ", syntax: ${" + name
+ " (; reg-expr (; replacement)? )? }");
return null;
}
String regexp = ".*";
String replace = null;
switch (args.length) {
case 3 :
replace = args[2];
//$FALL-THROUGH$
case 2 :
regexp = args[1];
}
StringBuilder sb = new StringBuilder();
String del = "";
Pattern expr = Pattern.compile(regexp);
for (Iterator<String> e = dot.getResources().keySet().iterator(); e.hasNext();) {
String path = e.next();
if (!fullPathName) {
int n = path.lastIndexOf('/');
if (n >= 0) {
path = path.substring(n + 1);
}
}
Matcher m = expr.matcher(path);
if (m.matches()) {
if (replace != null)
path = m.replaceAll(replace);
sb.append(del);
sb.append(path);
del = ", ";
}
}
return sb.toString();
}
public void putAll(Map<String,String> additional, boolean force) {
for (Iterator<Map.Entry<String,String>> i = additional.entrySet().iterator(); i.hasNext();) {
Map.Entry<String,String> entry = i.next();
if (force || getProperties().get(entry.getKey()) == null)
setProperty(entry.getKey(), entry.getValue());
}
}
boolean firstUse = true;
public List<Jar> getClasspath() {
if (firstUse) {
firstUse = false;
String cp = getProperty(CLASSPATH);
if (cp != null)
for (String s : split(cp)) {
Jar jar = getJarFromName(s, "getting classpath");
if (jar != null)
addClasspath(jar);
else
warning("Cannot find entry on -classpath: %s", s);
}
}
return classpath;
}
public void addClasspath(Jar jar) {
if (isPedantic() && jar.getResources().isEmpty())
warning("There is an empty jar or directory on the classpath: " + jar.getName());
classpath.add(jar);
}
public void addClasspath(Collection< ? > jars) throws IOException {
for (Object jar : jars) {
if (jar instanceof Jar)
addClasspath((Jar) jar);
else if (jar instanceof File)
addClasspath((File) jar);
else if (jar instanceof String)
addClasspath(getFile((String) jar));
else
error("Cannot convert to JAR to add to classpath %s. Not a File, Jar, or String", jar);
}
}
public void addClasspath(File cp) throws IOException {
if (!cp.exists())
warning("File on classpath that does not exist: " + cp);
Jar jar = new Jar(cp);
addClose(jar);
classpath.add(jar);
}
public void clear() {
classpath.clear();
}
public Jar getTarget() {
return dot;
}
private void analyzeBundleClasspath() throws Exception {
Parameters bcp = getBundleClasspath();
if (bcp.isEmpty()) {
analyzeJar(dot, "", true);
} else {
boolean okToIncludeDirs = true;
for (String path : bcp.keySet()) {
if (dot.getDirectories().containsKey(path)) {
okToIncludeDirs = false;
break;
}
}
for (String path : bcp.keySet()) {
Attrs info = bcp.get(path);
if (path.equals(".")) {
analyzeJar(dot, "", okToIncludeDirs);
continue;
}
//
// There are 3 cases:
// - embedded JAR file
// - directory
// - error
//
Resource resource = dot.getResource(path);
if (resource != null) {
try {
Jar jar = new Jar(path);
addClose(jar);
EmbeddedResource.build(jar, resource);
analyzeJar(jar, "", true);
}
catch (Exception e) {
warning("Invalid bundle classpath entry: " + path + " " + e);
}
} else {
if (dot.getDirectories().containsKey(path)) {
// if directories are used, we should not have dot as we
// would have the classes in these directories on the
// class path twice.
if (bcp.containsKey("."))
warning("Bundle-ClassPath uses a directory '%s' as well as '.'. This means bnd does not know if a directory is a package.",
path, path);
analyzeJar(dot, Processor.appendPath(path) + "/", true);
} else {
if (!"optional".equals(info.get(RESOLUTION_DIRECTIVE)))
warning("No sub JAR or directory " + path);
}
}
}
}
}
/**
* We traverse through all the classes that we can find and calculate the
* contained and referred set and uses. This method ignores the Bundle
* classpath.
*
* @param jar
* @param contained
* @param referred
* @param uses
* @throws IOException
*/
private boolean analyzeJar(Jar jar, String prefix, boolean okToIncludeDirs) throws Exception {
Map<String,Clazz> mismatched = new HashMap<String,Clazz>();
next: for (String path : jar.getResources().keySet()) {
if (path.startsWith(prefix)) {
String relativePath = path.substring(prefix.length());
if (okToIncludeDirs) {
int n = relativePath.lastIndexOf('/');
if (n < 0)
n = relativePath.length();
String relativeDir = relativePath.substring(0, n);
PackageRef packageRef = getPackageRef(relativeDir);
if (!packageRef.isMetaData() && !contained.containsKey(packageRef)) {
contained.put(packageRef);
// For each package we encounter for the first
// time. Unfortunately we can only do this once
// we found a class since the bcp has a tendency
// to overlap
if (!packageRef.isMetaData()) {
Resource pinfo = jar.getResource(prefix + packageRef.getPath() + "/packageinfo");
getExportVersionsFromPackageInfo(packageRef, pinfo, classpathExports);
}
}
}
// Check class resources, we need to analyze them
if (path.endsWith(".class")) {
Resource resource = jar.getResource(path);
Clazz clazz;
Attrs info = null;
try {
InputStream in = resource.openInputStream();
clazz = new Clazz(this, path, resource);
try {
// Check if we have a package-info
if (relativePath.endsWith("/package-info.class")) {
// package-info can contain an Export annotation
info = new Attrs();
parsePackageInfoClass(clazz, info);
} else {
// Otherwise we just parse it simply
clazz.parseClassFile();
}
}
finally {
in.close();
}
}
catch (Throwable e) {
error("Invalid class file %s (%s)", e, relativePath, e);
e.printStackTrace();
continue next;
}
String calculatedPath = clazz.getClassName().getPath();
if (!calculatedPath.equals(relativePath)) {
// If there is a mismatch we
// warning
if (okToIncludeDirs) // assume already reported
mismatched.put(clazz.getAbsolutePath(), clazz);
} else {
classspace.put(clazz.getClassName(), clazz);
PackageRef packageRef = clazz.getClassName().getPackageRef();
if (!contained.containsKey(packageRef)) {
contained.put(packageRef);
if (!packageRef.isMetaData()) {
Resource pinfo = jar.getResource(prefix + packageRef.getPath() + "/packageinfo");
getExportVersionsFromPackageInfo(packageRef, pinfo, classpathExports);
}
}
if (info != null)
contained.merge(packageRef, false, info);
// Look at the referred packages
// and copy them to our baseline
Set<PackageRef> refs = Create.set();
for (PackageRef p : clazz.getReferred()) {
referred.put(p);
refs.add(p);
}
refs.remove(packageRef);
uses.addAll(packageRef, refs);
// Collect the API
apiUses.addAll(packageRef, clazz.getAPIUses());
}
}
}
}
if (mismatched.size() > 0) {
error("Classes found in the wrong directory: %s", mismatched);
return false;
}
return true;
}
static Pattern OBJECT_REFERENCE = Pattern.compile("L([^/]+/)*([^;]+);");
private void parsePackageInfoClass(final Clazz clazz, final Attrs info) throws Exception {
clazz.parseClassFileWithCollector(new ClassDataCollector() {
@Override
public void annotation(Annotation a) {
String name = a.name.getFQN();
if (aQute.bnd.annotation.Version.class.getName().equals(name)) {
// Check version
String version = a.get("value");
if (!info.containsKey(Constants.VERSION_ATTRIBUTE)) {
if (version != null) {
version = getReplacer().process(version);
if (Verifier.VERSION.matcher(version).matches())
info.put(VERSION_ATTRIBUTE, version);
else
error("Export annotation in %s has invalid version info: %s", clazz, version);
}
} else {
// Verify this matches with packageinfo
String presentVersion = info.get(VERSION_ATTRIBUTE);
try {
Version av = new Version(presentVersion);
Version bv = new Version(version);
if (!av.equals(bv)) {
error("Version from annotation for %s differs with packageinfo or Manifest", clazz
.getClassName().getFQN());
}
}
catch (Exception e) {
// Ignore
}
}
} else if (name.equals(Export.class.getName())) {
// Check mandatory attributes
Attrs attrs = doAttrbutes((Object[]) a.get(Export.MANDATORY), clazz, getReplacer());
if (!attrs.isEmpty()) {
info.putAll(attrs);
info.put(MANDATORY_DIRECTIVE, Processor.join(attrs.keySet()));
}
// Check optional attributes
attrs = doAttrbutes((Object[]) a.get(Export.OPTIONAL), clazz, getReplacer());
if (!attrs.isEmpty()) {
info.putAll(attrs);
}
// Check Included classes
Object[] included = a.get(Export.INCLUDE);
if (included != null && included.length > 0) {
StringBuilder sb = new StringBuilder();
String del = "";
for (Object i : included) {
Matcher m = OBJECT_REFERENCE.matcher((String) i);
if (m.matches()) {
sb.append(del);
sb.append(m.group(2));
del = ",";
}
}
info.put(INCLUDE_DIRECTIVE, sb.toString());
}
// Check Excluded classes
Object[] excluded = a.get(Export.EXCLUDE);
if (excluded != null && excluded.length > 0) {
StringBuilder sb = new StringBuilder();
String del = "";
for (Object i : excluded) {
Matcher m = OBJECT_REFERENCE.matcher((String) i);
if (m.matches()) {
sb.append(del);
sb.append(m.group(2));
del = ",";
}
}
info.put(EXCLUDE_DIRECTIVE, sb.toString());
}
// Check Uses
Object[] uses = a.get(Export.USES);
if (uses != null && uses.length > 0) {
String old = info.get(USES_DIRECTIVE);
if (old == null)
old = "";
StringBuilder sb = new StringBuilder(old);
String del = sb.length() == 0 ? "" : ",";
for (Object use : uses) {
sb.append(del);
sb.append(use);
del = ",";
}
info.put(USES_DIRECTIVE, sb.toString());
}
}
}
});
}
/**
* Clean up version parameters. Other builders use more fuzzy definitions of
* the version syntax. This method cleans up such a version to match an OSGi
* version.
*
* @param VERSION_STRING
* @return
*/
static Pattern fuzzyVersion = Pattern.compile("(\\d+)(\\.(\\d+)(\\.(\\d+))?)?([^a-zA-Z0-9](.*))?",
Pattern.DOTALL);
static Pattern fuzzyVersionRange = Pattern.compile(
"(\\(|\\[)\\s*([-\\da-zA-Z.]+)\\s*,\\s*([-\\da-zA-Z.]+)\\s*(\\]|\\))",
Pattern.DOTALL);
static Pattern fuzzyModifier = Pattern.compile("(\\d+[.-])*(.*)", Pattern.DOTALL);
static Pattern nummeric = Pattern.compile("\\d*");
static public String cleanupVersion(String version) {
Matcher m = Verifier.VERSIONRANGE.matcher(version);
if (m.matches()) {
return version;
}
m = fuzzyVersionRange.matcher(version);
if (m.matches()) {
String prefix = m.group(1);
String first = m.group(2);
String last = m.group(3);
String suffix = m.group(4);
return prefix + cleanupVersion(first) + "," + cleanupVersion(last) + suffix;
}
m = fuzzyVersion.matcher(version);
if (m.matches()) {
StringBuilder result = new StringBuilder();
String major = removeLeadingZeroes(m.group(1));
String minor = removeLeadingZeroes(m.group(3));
String micro = removeLeadingZeroes(m.group(5));
String qualifier = m.group(7);
if (major != null) {
result.append(major);
if (minor != null) {
result.append(".");
result.append(minor);
if (micro != null) {
result.append(".");
result.append(micro);
if (qualifier != null) {
result.append(".");
cleanupModifier(result, qualifier);
}
} else if (qualifier != null) {
result.append(".0.");
cleanupModifier(result, qualifier);
}
} else if (qualifier != null) {
result.append(".0.0.");
cleanupModifier(result, qualifier);
}
return result.toString();
}
}
return version;
}
private static String removeLeadingZeroes(String group) {
if (group == null)
return null;
int n = 0;
while (n < group.length() - 1 && group.charAt(n) == '0')
n++;
if (n == 0)
return group;
return group.substring(n);
}
static void cleanupModifier(StringBuilder result, String modifier) {
Matcher m = fuzzyModifier.matcher(modifier);
if (m.matches())
modifier = m.group(2);
for (int i = 0; i < modifier.length(); i++) {
char c = modifier.charAt(i);
if ((c >= '0' && c <= '9') || (c >= 'a' && c <= 'z') || (c >= 'A' && c <= 'Z') || c == '_' || c == '-')
result.append(c);
}
}
final static String DEFAULT_PROVIDER_POLICY = "${range;[==,=+)}";
final static String DEFAULT_CONSUMER_POLICY = "${range;[==,+)}";
public String getVersionPolicy(boolean implemented) {
if (implemented) {
return getProperty(PROVIDER_POLICY, DEFAULT_PROVIDER_POLICY);
}
return getProperty(CONSUMER_POLICY, DEFAULT_CONSUMER_POLICY);
}
/**
* The extends macro traverses all classes and returns a list of class names
* that extend a base class.
*/
static String _classesHelp = "${classes;'implementing'|'extending'|'importing'|'named'|'version'|'any';<pattern>}, Return a list of class fully qualified class names that extend/implement/import any of the contained classes matching the pattern\n";
public String _classes(String... args) throws Exception {
// Macro.verifyCommand(args, _classesHelp, new
// Pattern[]{null,Pattern.compile("(implementing|implements|extending|extends|importing|imports|any)"),
// null}, 3,3);
Collection<Clazz> matched = getClasses(args);
if (matched.isEmpty())
return "";
return join(matched);
}
public Collection<Clazz> getClasses(String... args) throws Exception {
Set<Clazz> matched = new HashSet<Clazz>(classspace.values());
for (int i = 1; i < args.length; i++) {
if (args.length < i + 1)
throw new IllegalArgumentException("${classes} macro must have odd number of arguments. "
+ _classesHelp);
String typeName = args[i];
if (typeName.equalsIgnoreCase("extending"))
typeName = "extends";
else if (typeName.equalsIgnoreCase("importing"))
typeName = "imports";
else if (typeName.equalsIgnoreCase("implementing"))
typeName = "implements";
Clazz.QUERY type = Clazz.QUERY.valueOf(typeName.toUpperCase());
if (type == null)
throw new IllegalArgumentException("${classes} has invalid type: " + typeName + ". " + _classesHelp);
Instruction instr = null;
if (Clazz.HAS_ARGUMENT.contains(type)) {
String s = args[++i];
instr = new Instruction(s);
}
for (Iterator<Clazz> c = matched.iterator(); c.hasNext();) {
Clazz clazz = c.next();
if (!clazz.is(type, instr, this)) {
c.remove();
}
}
}
return matched;
}
/**
* Get the exporter of a package ...
*/
public String _exporters(String args[]) throws Exception {
Macro.verifyCommand(args, "${exporters;<packagename>}, returns the list of jars that export the given package",
null, 2, 2);
StringBuilder sb = new StringBuilder();
String del = "";
String pack = args[1].replace('.', '/');
for (Jar jar : classpath) {
if (jar.getDirectories().containsKey(pack)) {
sb.append(del);
sb.append(jar.getName());
}
}
return sb.toString();
}
public Map<TypeRef,Clazz> getClassspace() {
return classspace;
}
/**
* Locate a resource on the class path.
*
* @param path
* Path of the reosurce
* @return A resource or <code>null</code>
*/
public Resource findResource(String path) {
for (Jar entry : getClasspath()) {
Resource r = entry.getResource(path);
if (r != null)
return r;
}
return null;
}
/**
* Find a clazz on the class path. This class has been parsed.
*
* @param path
* @return
*/
public Clazz findClass(TypeRef typeRef) throws Exception {
Clazz c = classspace.get(typeRef);
if (c != null)
return c;
c = importedClassesCache.get(typeRef);
if (c != null)
return c;
Resource r = findResource(typeRef.getPath());
if (r == null) {
getClass().getClassLoader();
URL url = ClassLoader.getSystemResource(typeRef.getPath());
if (url != null)
r = new URLResource(url);
}
if (r != null) {
c = new Clazz(this, typeRef.getPath(), r);
c.parseClassFile();
importedClassesCache.put(typeRef, c);
}
return c;
}
/**
* Answer the bundle version.
*
* @return
*/
public String getVersion() {
String version = getProperty(BUNDLE_VERSION);
if (version == null)
version = "0.0.0";
return version;
}
public boolean isNoBundle() {
return isTrue(getProperty(RESOURCEONLY)) || isTrue(getProperty(NOMANIFEST));
}
public void referTo(TypeRef ref) {
PackageRef pack = ref.getPackageRef();
if (!referred.containsKey(pack))
referred.put(pack, new Attrs());
}
public void referToByBinaryName(String binaryClassName) {
TypeRef ref = descriptors.getTypeRef(binaryClassName);
referTo(ref);
}
/**
* Ensure that we are running on the correct bnd.
*/
void doRequireBnd() {
Attrs require = OSGiHeader.parseProperties(getProperty(REQUIRE_BND));
if (require == null || require.isEmpty())
return;
Hashtable<String,String> map = new Hashtable<String,String>();
map.put(Constants.VERSION_FILTER, getBndVersion());
for (String filter : require.keySet()) {
try {
Filter f = new Filter(filter);
if (f.match(map))
continue;
error("%s fails %s", REQUIRE_BND, require.get(filter));
}
catch (Exception t) {
error("%s with value %s throws exception", t, REQUIRE_BND, require);
}
}
}
/**
* md5 macro
*/
static String _md5Help = "${md5;path}";
public String _md5(String args[]) throws Exception {
Macro.verifyCommand(args, _md5Help, new Pattern[] {
null, null, Pattern.compile("base64|hex")
}, 2, 3);
Digester<MD5> digester = MD5.getDigester();
Resource r = dot.getResource(args[1]);
if (r == null)
throw new FileNotFoundException("From " + digester + ", not found " + args[1]);
IO.copy(r.openInputStream(), digester);
boolean hex = args.length > 2 && args[2].equals("hex");
if (hex)
return Hex.toHexString(digester.digest().digest());
return Base64.encodeBase64(digester.digest().digest());
}
/**
* SHA1 macro
*/
static String _sha1Help = "${sha1;path}";
public String _sha1(String args[]) throws Exception {
Macro.verifyCommand(args, _sha1Help, new Pattern[] {
null, null, Pattern.compile("base64|hex")
}, 2, 3);
Digester<SHA1> digester = SHA1.getDigester();
Resource r = dot.getResource(args[1]);
if (r == null)
throw new FileNotFoundException("From sha1, not found " + args[1]);
IO.copy(r.openInputStream(), digester);
return Base64.encodeBase64(digester.digest().digest());
}
public Descriptor getDescriptor(String descriptor) {
return descriptors.getDescriptor(descriptor);
}
public TypeRef getTypeRef(String binaryClassName) {
return descriptors.getTypeRef(binaryClassName);
}
public PackageRef getPackageRef(String binaryName) {
return descriptors.getPackageRef(binaryName);
}
public TypeRef getTypeRefFromFQN(String fqn) {
return descriptors.getTypeRefFromFQN(fqn);
}
public TypeRef getTypeRefFromPath(String path) {
return descriptors.getTypeRefFromPath(path);
}
public boolean isImported(PackageRef packageRef) {
return imports.containsKey(packageRef);
}
/**
* Merge the attributes of two maps, where the first map can contain
* wildcarded names. The idea is that the first map contains instructions
* (for example *) with a set of attributes. These patterns are matched
* against the found packages in actual. If they match, the result is set
* with the merged set of attributes. It is expected that the instructions
* are ordered so that the instructor can define which pattern matches
* first. Attributes in the instructions override any attributes from the
* actual.<br/>
* A pattern is a modified regexp so it looks like globbing. The * becomes a
* .* just like the ? becomes a .?. '.' are replaced with \\. Additionally,
* if the pattern starts with an exclamation mark, it will remove that
* matches for that pattern (- the !) from the working set. So the following
* patterns should work:
* <ul>
* <li>com.foo.bar</li>
* <li>com.foo.*</li>
* <li>com.foo.???</li>
* <li>com.*.[^b][^a][^r]</li>
* <li>!com.foo.* (throws away any match for com.foo.*)</li>
* </ul>
* Enough rope to hang the average developer I would say.
*
* @param instructions
* the instructions with patterns.
* @param source
* the actual found packages, contains no duplicates
* @return Only the packages that were filtered by the given instructions
*/
Packages filter(Instructions instructions, Packages source, Set<Instruction> nomatch) {
Packages result = new Packages();
List<PackageRef> refs = new ArrayList<PackageRef>(source.keySet());
Collections.sort(refs);
List<Instruction> filters = new ArrayList<Instruction>(instructions.keySet());
if (nomatch == null)
nomatch = Create.set();
for (Instruction instruction : filters) {
boolean match = false;
for (Iterator<PackageRef> i = refs.iterator(); i.hasNext();) {
PackageRef packageRef = i.next();
if (packageRef.isMetaData()) {
i.remove(); // no use checking it again
continue;
}
String packageName = packageRef.getFQN();
if (instruction.matches(packageName)) {
match = true;
if (!instruction.isNegated()) {
result.merge(packageRef, instruction.isDuplicate(), source.get(packageRef),
instructions.get(instruction));
}
i.remove(); // Can never match again for another pattern
}
}
if (!match && !instruction.isAny())
nomatch.add(instruction);
}
/*
* Tricky. If we have umatched instructions they might indicate that we
* want to have multiple decorators for the same package. So we check
* the unmatched against the result list. If then then match and have
* actually interesting properties then we merge them
*/
for (Iterator<Instruction> i = nomatch.iterator(); i.hasNext();) {
Instruction instruction = i.next();
// We assume the user knows what he is
// doing and inserted a literal. So
// we ignore any not matched literals
if (instruction.isLiteral()) {
result.merge(getPackageRef(instruction.getLiteral()), true, instructions.get(instruction));
i.remove();
continue;
}
// Not matching a negated instruction looks
// like an error ...
if (instruction.isNegated()) {
continue;
}
// An optional instruction should not generate
// an error
if (instruction.isOptional()) {
i.remove();
continue;
}
// boolean matched = false;
// Set<PackageRef> prefs = new HashSet<PackageRef>(result.keySet());
// for (PackageRef ref : prefs) {
// if (instruction.matches(ref.getFQN())) {
// result.merge(ref, true, source.get(ref),
// instructions.get(instruction));
// matched = true;
// }
// }
// if (matched)
// i.remove();
}
return result;
}
public void setDiagnostics(boolean b) {
diagnostics = b;
}
public Clazz.JAVA getLowestEE() {
if (ees.isEmpty())
return Clazz.JAVA.JDK1_4;
return ees.first();
}
public String _ee(@SuppressWarnings("unused")
String args[]) {
return getLowestEE().getEE();
}
/**
* Calculate the output file for the given target. The strategy is:
*
* <pre>
* parameter given if not null and not directory
* if directory, this will be the output directory
* based on bsn-version.jar
* name of the source file if exists
* Untitled-[n]
* </pre>
*
* @param output
* may be null, otherwise a file path relative to base
*/
public File getOutputFile(String output) {
if (output == null)
output = get(Constants.OUTPUT);
File outputDir;
if (output != null) {
File outputFile = getFile(output);
if (outputFile.isDirectory())
outputDir = outputFile;
else
return outputFile;
} else
outputDir = getBase();
Entry<String,Attrs> name = getBundleSymbolicName();
if (name != null) {
String bsn = name.getKey();
String version = getBundleVersion();
Version v = Version.parseVersion(version);
String outputName = bsn + "-" + v.getWithoutQualifier() + Constants.DEFAULT_JAR_EXTENSION;
return new File(outputDir, outputName);
}
File source = getJar().getSource();
if (source != null) {
String outputName = source.getName();
return new File(outputDir, outputName);
}
error("Cannot establish an output name from %s, nor bsn, nor source file name, using Untitled", output);
int n = 0;
File f = getFile(outputDir, "Untitled");
while (f.isFile()) {
f = getFile(outputDir, "Untitled-" + n++);
}
return f;
}
/**
* Utility function to carefully save the file. Will create a backup if the
* source file has the same path as the output. It will also only save if
* the file was modified or the force flag is true
*
* @param output
* the output file, if null {@link #getOutputFile(String)} is
* used.
* @param force
* if it needs to be overwritten
* @throws Exception
*/
public boolean save(File output, boolean force) throws Exception {
if (output == null)
output = getOutputFile(null);
Jar jar = getJar();
File source = jar.getSource();
trace("check for modified build=%s file=%s, diff=%s", jar.lastModified(), output.lastModified(),
jar.lastModified() - output.lastModified());
if (!output.exists() || output.lastModified() <= jar.lastModified() || force) {
output.getParentFile().mkdirs();
if (source != null && output.getCanonicalPath().equals(source.getCanonicalPath())) {
File bak = new File(source.getParentFile(), source.getName() + ".bak");
if (!source.renameTo(bak)) {
error("Could not create backup file %s", bak);
} else
source.delete();
}
try {
trace("Saving jar to %s", output);
getJar().write(output);
}
catch (Exception e) {
output.delete();
error("Cannot write JAR file to %s due to %s", e, output, e.getMessage());
}
return true;
}
trace("Not modified %s", output);
return false;
}
/**
* Set default import and export instructions if none are set
*/
public void setDefaults(String bsn, Version version) {
if (getExportPackage() == null)
setExportPackage("*");
if (getImportPackage() == null)
setExportPackage("*");
if (bsn != null && getBundleSymbolicName() == null)
setBundleSymbolicName(bsn);
if (version != null && getBundleVersion() == null)
setBundleVersion(version);
}
/**
* Remove the own references and optional java references from the uses lib
*
* @param apiUses
* @param removeJava
* @return
*/
public Map<PackageRef,List<PackageRef>> cleanupUses(Map<PackageRef,List<PackageRef>> apiUses, boolean removeJava) {
MultiMap<PackageRef,PackageRef> map = new MultiMap<PackageRef,PackageRef>(apiUses);
for (Entry<PackageRef,List<PackageRef>> e : map.entrySet()) {
e.getValue().remove(e.getKey());
if (!removeJava)
continue;
for (Iterator<PackageRef> i = e.getValue().iterator(); i.hasNext();) {
if (i.next().isJava())
i.remove();
}
}
return map;
}
/**
* Return the classes for a given source package.
*
* @param source
* the source package
* @return a set of classes for the requested package.
*/
public Set<Clazz> getClassspace(PackageRef source) {
Set<Clazz> result = new HashSet<Clazz>();
for (Clazz c : getClassspace().values()) {
if (c.getClassName().getPackageRef() == source)
result.add(c);
}
return result;
}
/**
* Create a cross reference from package source, to packages in dest
* @param source
* @param dest
* @param sourceModifiers
* @return
* @throws Exception
*/
public Map<Clazz.Def, List<TypeRef>> getXRef(final PackageRef source, final Collection<PackageRef> dest, final int sourceModifiers)
throws Exception {
final MultiMap<Clazz.Def,TypeRef> xref = new MultiMap<Clazz.Def, TypeRef>(Clazz.Def.class, TypeRef.class, true);
for (final Clazz clazz : getClassspace().values()) {
if ((clazz.accessx & sourceModifiers) == 0)
continue;
if (source!=null && source != clazz.getClassName().getPackageRef())
continue;
clazz.parseClassFileWithCollector(new ClassDataCollector() {
Clazz.Def member;
public void extendsClass(TypeRef zuper) throws Exception {
if (dest.contains(zuper.getPackageRef()))
xref.add(clazz.getExtends(zuper), zuper);
}
public void implementsInterfaces(TypeRef[] interfaces) throws Exception {
for (TypeRef i : interfaces) {
if (dest.contains(i.getPackageRef()))
xref.add(clazz.getImplements(i), i);
}
}
public void referTo(TypeRef to, int modifiers) {
if (to.isJava())
return;
if (!dest.contains(to.getPackageRef()))
return;
if (member != null && ((modifiers & sourceModifiers) != 0)) {
xref.add(member, to);
}
}
public void method(Clazz.MethodDef defined) {
member = defined;
}
public void field(Clazz.FieldDef defined) {
member = defined;
}
});
}
return xref;
}
}