Timezone code was broken in the Android class library bootimage build
because the code we use to intercept loading the tzdata file wasn't
working. The reason is have no way of intercepting static methods at
runtime in the bootimage build without telling the bootimage-generator
we're going to do it ahead of time. So now we do tell it so.
This commit also removes the need to intercept Thread methods since we
can update Thread.vmThread in VMThread.create instead.
In order for a thread to enter the "exclusive" state such that no
other threads are active in the VM, it must wait for all active
threads to enter the "idle" state. In order for this to happen in a
timely manner, threads must check frequently to see if a thread is
waiting to enter the exclusive state. These checks happen at every
memory allocation, wait, sleep, native call, etc. However, if a
thread is in a busy loop that does none of those things, it will block
any other thread from entering that state.
The proper way to address this is to detect such loops (or tail
recursion in tail-call-optimized builds) at compile or interpret time
and insert explicit checks. This hasn't been a high priority thus
far, though, since we had yet to encounter such code in the wild.
Now, however, we find that scala.concurrent.forkjoin.ForkJoinPool.scan
(and possibly some versions of java.util.concurrent.ForkJoinPool.scan,
on which we assume the former is based) has just such a loop.
Fortunately, that loop calls Unsafe.getObjectVolatile, which the VM
implements and thus can treat as a checkpoint. That's the workaround
we use in this patch.
In the OpenJDK library, ThreadGroup maintains an array of all Threads
in that group, so the VM must explicitly remove threads as they exit
or else neither they nor any objects they reference will be eligable
for GC.
This is necessary to avoid name conflicts on various platforms. For
example, iOS has its own util.h, and Windows has a process.h. By
including our version as e.g. "avian/util.h", we avoid confusion with
the system version.
Method.invoke must throw an IllegalArgumentException if it receives
the wrong number or types of arguments, and since this isn't done by
the OpenJDK class library, we must do it in the VM.
This library is placed in the xawt subdirectory of jre/lib/$arch on
POSIX systems, so it isn't found automatically when third-party
libraries which depend on it are loaded. The simplest way to ensure
that it's found seems to be to just load it when the VM starts up.
The original stub implementation just echoed back its argument, but
that confused URLClassLoader when dealing with sealed JARs --
returning a non-null value for a non-system class from
JVM_GetSystemPackage made URLClassloader think it had already loaded a
class from a package which was supposed to be sealed, resulting in
SecurityExceptions which ultimately triggered NoClassDefFoundErrors.
The solution is to only return non-null values for actual system
classes.
We weren't wrapping exceptions thrown by invoked methods in
InvocationTargetExceptions in JVM_InvokeMethod or
JVM_NewInstanceFromConstructor. Also, JVM_GetCallerClass is supposed
to ignore Method.invoke frames when walking the stack.
The existing code did not handle static field lookups for
synchronization on 32-bit systems, which is necessary because such
systems generally don't support atomic operations on 64-bit values.
set java.vm.version based on makefile version=
in order to display relevant OpenJDK -version information.
Signed-off-by: Matthias Klose <doko@ubuntu.com>
Signed-off-by: Xerxes Rånby <xerxes@zafena.se>
Some apps refuse to run if Runtime.maxMemory returns a value that's
"too small", so our stub implementation returning zero was not
sufficient. Now we return the actual heap size limit in bytes.
sun.misc.Launcher has its own idea about what the application
classloader should be, but we need to override it with the system
classloader created by the VM. This is achieved by running
Launcher.getLauncher (which has the side effect of setting
Thread.contextClassLoader) and then overriding it.
Our implementation uses Object.wait(long) to implement Thread.sleep,
which had the side effect of interpreting zero as infinity. However,
for Thread.sleep, zero just means zero. I assume that doesn't mean
"don't sleep at all", though, or else the app wouldn't have called
Thread.sleep in the first place, so this patch sleeps for one
millisecond when zero is passed -- just enough to yield the processor
for a bit. Thread.yield might be a better choice in this case, but I
assume the app would have called that directly if that's what it
wanted.
OpenJDK 7 has refactored this code relative to OpenJDK 6, and now
FontManager is an interface, with SunFontManager providing a (partial)
implementation.
On the ARM platform, Avian compiled to use OpenJDK gets this error on
startup:
java/lang/UnsatisfiedLinkError: no zip in java.library.path
at java/lang/ClassLoader.loadLibrary (line 1860)
at java/lang/Runtime.loadLibrary0 (line 845)
at java/lang/System.loadLibrary (line 1084)
at java/lang/System.initializeSystemClass (line 1145)
Using strace shows why:
[pid 22431]
stat64("/usr/lib/jvm/java-7-openjdk-armhf/jre/lib/i386/libzip.so",
0xbee377e0) = -1 ENOENT (No such file or directory)
The attached patch uses "arm" instead of "i386" in that path. This fixes the
problem.
sun.misc.Unsafe now has two native getByte methods: one which takes a
long and another which takes an Object and a long. Thus, we need to
decorate each version with its parameter signature so we don't
accidentally call the wrong one at runtime.
As of the latest code from the jdk7u-dev Mercurial repository,
java.lang.String no longer has offset or length fields. Instead, the
content fits exactly into the backing char array, so offset is
implicitly zero and length is the length of the array. The VM
previously relied on those fields being present, whereas this commit
handles the case where they are not.
In addition, I've made some changes to openjdk-src.mk to ensure that
we can build against both a stock OpenJDK 7 and an IcedTea-patched
version.
The JRE lib dir for OpenJDK 7 on OS X seems to be just "lib", not
e.g. "lib/amd64" by default, so we use that now. Also, the default
library compatibility version for libjvm.dylib is 0.0.0, but OpenJDK
wants 1.0.0, so we set it explicitly.
The bug here is that when a thread exits and becomes a "zombie", the
OS resources associated with it are not necessarily released until we
actually join and dispose of that thread. Since that only happens
during garbage collection, and collection normally only happens in
response to heap memory pressure, there's no guarantee that we'll GC
frequently enough to clean up zombies promptly and avoid running out
of resources.
The solution is to force a GC whenever we start a new thread and there
are at least N zombies waiting to be disposed, where N=16 for now.
We never define atomicCompareAndSwap64 for ARM or PowerPC, and
apparently only very recent ARM chips support it, so we must fall back
to synchronization-based emulation.
There were a couple of problems with the Avian_sun_misc_Unsafe_park
implementation in classpath-openjdk.cpp. First, the wait time should
be interpreted as milliseconds if absolute, but as nanoseconds
otherwise, whereas we were treating it as milliseconds in both cases.
Second, there was no mechanism to exit the while loop after the
specified time; the only way we could exit was via an unpark or
interrupt.
If we fail to resolve a given class (e.g. due to ProGuard obfuscating
or eliminating it), just move on to the next one rather than return
immediately. Otherwise, we may miss intercepting methods of classes
we can resolve.
sun.font.FontManager.initIDs is a native method defined in
libfontmanager.so, yet there seems to be no mechanism in OpenJDK's
class library to actually load that library, so we lazily load it
before trying to resolve the method.
Internally, the VM augments the method tables for abstract classes
with any inherited abstract methods to make code simpler elsewhere,
but that means we can't use that table to construct the result of
Class.getDeclaredMethods since it would include methods not actually
declared in the class. This commit ensures that we preserve and use
the original, un-augmented table for that purpose.
The result of Class.getInterfaces should not include interfaces
declared to be implemented/extended by superclasses/superinterfaces,
only those declared by the class itself. This is important because it
influences how java.io.ObjectStreamClass calculates serial version
IDs.
This includes a proper implementation of JVM_ActiveProcessorCount, as
well as JVM_SetLength and JVM_NewMultiArray. Also, we now accept up
to JNI_VERSION_1_6 in JVM_IsSupportedJNIVersion.
