зеркало из https://github.com/mozilla/gecko-dev.git
446 строки
13 KiB
C++
446 строки
13 KiB
C++
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
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*
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* The contents of this file are subject to the Netscape Public
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* License Version 1.1 (the "License"); you may not use this file
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* except in compliance with the License. You may obtain a copy of
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* the License at http://www.mozilla.org/NPL/
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*
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* Software distributed under the License is distributed on an "AS
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* IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or
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* implied. See the License for the specific language governing
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* rights and limitations under the License.
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*
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* The Original Code is mozilla.org code.
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*
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* The Initial Developer of the Original Code is Netscape
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* Communications Corporation. Portions created by Netscape are
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* Copyright (C) 1998 Netscape Communications Corporation. All
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* Rights Reserved.
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*
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* Contributor(s):
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*/
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// Thread.cpp
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//
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// Bjorn Carlson
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#include "Thread.h"
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#include "Exceptions.h"
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#include "NativeCodeCache.h"
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#include "prprf.h"
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#include "SysCallsRuntime.h"
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#ifdef _WIN32
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#include "md/x86/x86Win32Thread.h"
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#elif defined LINUX || defined FREEBSD || defined NETBSD
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#include "x86UnixishThread.h"
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#else
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#define GetPassedException(E)
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void Thread::realHandle() {}
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void Thread::invoke(Method* m,JavaObject* obj,JavaObject* arr[],int sz) {
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m->invoke(obj,arr,sz);
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}
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void _suspendThread(HANDLE /*p*/) {}
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void _resumeThread(HANDLE /*p*/) {}
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bool _getThreadContext(HANDLE /*handle*/, ThreadContext& /*context*/) { return false; }
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void _setThreadContext(HANDLE /*handle*/, ThreadContext& /*context*/) {}
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Int32* _getFramePointer(ThreadContext& /*context*/) { return NULL; }
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void _setFramePointer(ThreadContext& /*context*/, Int32* /*v*/) {}
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Uint8* _getInstructionPointer(ThreadContext& /*context*/) { return NULL; }
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void _setInstructionPointer(ThreadContext& /*context*/, Uint8* /*v*/) {}
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#endif
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Pool* Thread::pool;
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PointerHashTable<Thread*>* Thread::table;
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/*
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We support threads in C++ as follows. Every instance of java.lang.Thread has a corresponding C++ peer.
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The peer represent all the low-level information we need to implement the native calls for Java threads,
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and is used to bridge between Java threads and native (NSPR/Win32/Solaris/...) threads. Most native
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methods (see Thread.cpp in Packages/java/lang/) check if the C++ instance has been creates and if not
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it is created on the fly (right now from Thread::pool).
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Every instance of java.lang.Thread has a property 'eetop' of type Int64 which is only used for native
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access to the thread object. We store a pointer to the C++ peer in 'eetop'. Hence, all native methods
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required by java.lang.Thread can pick up the peer using this field (see Thread.cpp in Packages/java/lang/).
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For every thread that we create, we keep a mapping between its identifier and the C++ object representing it.
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This is added in Thread::run() (see below).
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*/
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/*
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This is the static initializer for threads. It initializes the global structurs
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used by the C++ methods in here, and creates a Java object, 'obj', of class java.lang.Thread
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to represent the main thread in Java. It does this by setting up some of the properties
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of java.lang.Thread objects for 'obj', and then calling the 'init' method of java.lang.Thread
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on 'obj'. The Field and Method classes are used for reading and writing properties and
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methods of 'obj'. Also, staticInit() adds a mapping between the current thread id and the
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C++ peer of 'obj', named 'thr' below. Hence, current_thread() can use the thread
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id to lookup both the C++ object and the Java object representing the current thread.
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*/
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void Thread::staticInit() {
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pool = new Pool();
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table = new PointerHashTable<Thread*>(*pool);
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// create an object representing the main thread.
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Class& thrClass = Class::forName("java/lang/Thread");
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JavaObject& obj = thrClass.newInstance();
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Field& fl_daemon = thrClass.getDeclaredField("daemon");
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fl_daemon.setBoolean(&obj,false);
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Field& fl_prio = thrClass.getDeclaredField("priority");
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//Field& fl_normprio = thrClass.getDeclaredField("NORM_PRIORITY");
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//fl_prio.setInt(&obj,fl_normprio.getInt(NULL));
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fl_prio.setInt(&obj,5); // NORM_PRIORITY
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Class& tgClass = Class::forName("java/lang/ThreadGroup");
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const Type* typearr[1];
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JavaObject* objarr[1];
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JavaObject& tgobj = tgClass.getDeclaredConstructor(typearr,0).newInstance(objarr,0);
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Field& fl_group = thrClass.getDeclaredField("group");
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fl_group.set(&obj,tgobj);
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Thread* thr = new(*pool) Thread(&obj);
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Field& fl_eetop = thrClass.getDeclaredField("eetop");
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fl_eetop.setLong(&obj,(Int64)thr);
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thr->state = ALIVE;
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thr->id = getCurrentThread();
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thr->realHandle();
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table->add(thr->id,thr);
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const Type& ifc = Class::forName("java/lang/Runnable");
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const Type& strc = Class::forName("java/lang/String");
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const Type *typearr1[3] = {&tgClass,&ifc,&strc};
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Method& m = thrClass.getDeclaredMethod("init",typearr1,3);
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JavaObject* objarr1[3] = {NULL,NULL,JavaString::make("")};
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invoke(&m,&obj,objarr1,3);
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}
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// returns the current thread object using the peer pointer
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JavaObject* Thread::currentThread() {
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Thread* thr;
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if (table->get(getCurrentThread(),&thr))
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return thr->peer;
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else
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return NULL;
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}
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void Thread::yield() {
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PR_Sleep(PR_INTERVAL_NO_WAIT);
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}
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void Thread::sleep(Int64 i) {
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Int32 j = (Int32)i;
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#ifdef DEBUG
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PR_fprintf(PR_STDOUT,"About to sleep for %d\n",j);
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#endif
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PR_Sleep(PR_MillisecondsToInterval(j));
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#ifdef DEBUG
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PR_fprintf(PR_STDOUT,"Waking up from sleep (%d)\n",j);
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#endif
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}
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// this is called if a thread throws an uncaught exception. It calls back to
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// java.lang.ThreadGroup.uncaughtException() to give the thread group a chance to cleanup.
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void
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uncaughtException() {
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JavaObject* exc = NULL;
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Thread* thr;
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GetPassedException(exc);
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Thread::table->get(Thread::getCurrentThread(),&thr);
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if (thr->state == Thread::CLEANUP) // recursive invocation
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return;
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thr->state = Thread::CLEANUP;
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// call thr->peer->group->uncaughtException(thr->peer,exc);
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Class& thrClass = Class::forName("java/lang/Thread");
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Class& throwClass = Class::forName("java/lang/Throwable");
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const Type* typearr[2] = {&thrClass,&throwClass};
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Class& tgClass = Class::forName("java/lang/ThreadGroup");
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Method& m = tgClass.getDeclaredMethod("uncaughtException",typearr,2);
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JavaObject* objarr[2] = {thr->peer,exc};
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Field& fl_group = thrClass.getDeclaredField("group");
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JavaObject& tg = fl_group.get(thr->peer);
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m.invoke(&tg,objarr,2);
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}
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// entry point for threads where a callback through Method::invoke() is made to the Java peer's
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// run method. First we check that we haven't been killed or suspended already. Then, a call to
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// Monitor::threadInit() sets up thread local data used by the monitors. Finally, the callback is
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// made. This call will *always* return, whether an exception happened or not.
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void Thread::run(void* arg) {
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Thread* thr = (Thread*)arg;
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thr->lock();
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thr->id = getCurrentThread();
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thr->realHandle();
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table->add(thr->id,thr);
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while (thr->state == SUSPENDED) { // someone has suspended us
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thr->unlock();
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_suspendThread(thr->handle);
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thr->lock();
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}
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if (thr->state > SUSPENDED) {
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thr->unlock();
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sysThrowNamedException("java/lang/ThreadDeath");
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return;
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}
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thr->state = ALIVE;
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Monitor::threadInit();
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// call run through thr->peer
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const Type *typearr[1];
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Class* c = const_cast<Class*>(&thr->peer->getClass());
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Method& m = c->getMethod("run",typearr,0);
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JavaObject* objarr[1];
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thr->unlock();
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invoke(&m,thr->peer,objarr,0);
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table->remove(thr->id);
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thr->lock();
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if (thr->state < KILLED)
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thr->state = KILLED;
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thr->unlock();
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// recycle thr if not in pool.
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return;
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}
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void Thread::start() {
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PRThread* thr = PR_CreateThread(PR_USER_THREAD,run,(void*)this,
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PR_PRIORITY_NORMAL,PR_GLOBAL_THREAD,
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PR_UNJOINABLE_THREAD,0); // Later use join.
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assert(thr != NULL);
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PR_Sleep(PR_INTERVAL_NO_WAIT);
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//PR_Sleep(PR_MillisecondsToInterval(100));
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PR_SetThreadPriority(thr, prio);
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}
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// stops by:
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// if already killed, do nothing.
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// otherwise, set the state and call _stop() if the thread has been started.
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void Thread::stop(JavaObject* obj) {
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if (obj == NULL) {
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sysThrowNamedException("java/lang/NullPointerException");
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return;
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}
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lock();
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int ostate = state;
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if (state >= KILLED) {
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unlock();
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return;
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}
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state = KILLED;
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unlock();
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if (ostate == ALIVE)
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_stop(obj);
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}
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void Thread::interrupt() {
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lock();
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int ostate = state;
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if (state >= INTERRUPTED) {
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unlock();
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return;
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}
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state = INTERRUPTED;
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unlock();
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if (ostate == ALIVE)
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_stop(&const_cast<Class *>(&Standard::get(cInterruptedException))->newInstance());
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}
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bool Thread::isInterrupted(Uint32 /*f*/) {
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int ostate;
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lock();
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ostate = state;
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//if (f == 1)
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// state = ALIVE;
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unlock();
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return ostate == INTERRUPTED;
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}
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bool Thread::isAlive() {
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return state == ALIVE || state == SUSPENDED;
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}
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void Thread::setPriority(Int32 p) {
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switch (p) {
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case 1:
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case 2:
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case 3:
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prio = PR_PRIORITY_LOW;
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break;
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case 4:
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case 5:
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case 6:
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case 7:
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prio = PR_PRIORITY_NORMAL;
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break;
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case 8:
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case 9:
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case 10:
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prio = PR_PRIORITY_HIGH;
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break;
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default:
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return;
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}
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}
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// suspends thread by:
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// if not running return.
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// Otherwise, suspend the thread.
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void Thread::suspend() {
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lock();
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if (state > ALIVE) {
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unlock();
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return;
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}
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state = SUSPENDED;
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unlock();
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#ifndef __linux__
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if (handle != NULL)
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#else
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if (handle != 0)
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#endif
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_suspendThread(handle);
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}
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void Thread::resume() {
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lock();
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if (state != SUSPENDED) {
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unlock();
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return;
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}
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state = ALIVE;
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#ifndef __linux__
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if (handle != NULL)
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#else
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if (handle != 0)
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#endif
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_resumeThread(handle);
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unlock();
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}
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// counts by following EBP until 0 is reached.
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// First the thread is suspended.
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Int32 Thread::countStackFrames() {
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ThreadContext context;
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Int32* frame;
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Int32 i = 0;
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#ifndef __linux__
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if (handle == NULL)
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#else
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if (handle == 0)
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#endif
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return 0;
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if (id != getCurrentThread())
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_suspendThread(handle);
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if (!_getThreadContext(handle,context)) {
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_resumeThread(handle);
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return -1; // error
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}
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frame = _getFramePointer(context);
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while (frame != NULL) {
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i++;
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frame = (Int32*)*frame;
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}
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_resumeThread(handle);
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return i;
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}
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// support for killing a thread T
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// This is what needs to happen:
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// 1. Suspend all threads or just T
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// 2. copy the code of the current function of T (found through the saved eip)
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// 3. find the asynchronous checkpoints, and smash them with 'int 3'.
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// 4. add thread local data to the dying thread for the exception handling
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// 5. Set 'eip' of T to point to the instruction in the new code corresponding
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// to the old position. Resume T.
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// When the async. exception is thrown at runtime, free the code copy, and
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// throw a Java exception corresponding to the exception that was provided
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// by kill/stop (default: java.lang.ThreadDeath).
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// If an exception is thrown before the breakpoint is hit and which is not caught by
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// the local exception handler, before repeating the search a level up, free the
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// current code copy, make a copy as before of the receiving function (if one
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// exists), insert breakpoints, update the receiver's exception table,
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// and throw the exception. Again, the above must be repeated if another exception
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// is thrown before a breakpoint is hit (puh!).
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// How do we detect whether we should throw normally or not?
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// By checking whether the current function is in the cache?
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// By checking some thread local data?
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// In any way, we will use thread local data to carry state from the asynchronous/hardware
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// exceptions into the throw routines.
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// for now we simplify as follows:
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/*
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First, suspend the thread to be killed.
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Then, scan its stack to find the innermost return address which points to jitted code. Smash this
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return address to point to an illegal instruction, followed by a pointer to the exception
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being provided for the stopped thread. The illegal instruction will generate a hardware exception
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when the thread is resumed, which will initiate the exception handling.
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*/
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void Thread::_stop(JavaObject* exc)
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{
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Int32 *frame, *ret=NULL;
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ThreadContext context;
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Uint8* ip;
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#ifndef __linux__
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if (handle == NULL)
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#else
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if (handle == 0)
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#endif
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return;
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if (id != getCurrentThread())
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_suspendThread(handle);
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NativeCodeCache& ca = NativeCodeCache::getCache();
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if (_getThreadContext(handle,context)) {
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frame = _getFramePointer(context);
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ip = _getInstructionPointer(context);
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CacheEntry* ce = ca.lookupByRange(ip);
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while (ce == NULL && frame != NULL) { // scan to find innermost jit fram.
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ret = frame+1;
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ip = (Uint8*)*ret;
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frame = (Int32*)*frame;
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ce = ca.lookupByRange(ip);
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}
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if (ce != NULL) { // REPLACE
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#ifdef GENERATE_FOR_X86
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ip = new(*pool) Uint8[10];
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ip[0] = 0xf; // 0x0f0b is an illegal instruction
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ip[1] = 0xb;
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if (ret == NULL) {
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*(Int32*)(ip+2) = (Int32)_getInstructionPointer(context);
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_setInstructionPointer(context,ip);
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}
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else {
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*(Int32*)(ip+2) = *ret;
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*ret = (Int32)ip; // new return address is illegal instruction
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}
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*(Int32*)(ip+6) = (Int32)exc; // picked up by the code for illegal instructions in the hw-exception handler
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#else
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exc; // force use of exc to make compiler happy
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#endif
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_setThreadContext(handle,context);
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}
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}
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if (id != NULL)
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PR_Interrupt((PRThread*)id);
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_resumeThread(handle);
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}
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// later use something like the following in the above instead:
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/*
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if (ce != NULL) { // REPLACE
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Uint8* newcode = ce->asynchVersion(ca.mPool,ip);
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context.Eip = (DWORD)newcode;
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if (!SetThreadContext(handle,&context))
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assert(false);
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cache = new(*pool) ExceptionTableCache(ce->eTable,newcode,exc);
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}
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*/
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