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jclcinit.c
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/*******************************************************************************
* Copyright IBM Corp. and others 1998
*
* This program and the accompanying materials are made available under
* the terms of the Eclipse Public License 2.0 which accompanies this
* distribution and is available at https://www.eclipse.org/legal/epl-2.0/
* or the Apache License, Version 2.0 which accompanies this distribution and
* is available at https://www.apache.org/licenses/LICENSE-2.0.
*
* This Source Code may also be made available under the following
* Secondary Licenses when the conditions for such availability set
* forth in the Eclipse Public License, v. 2.0 are satisfied: GNU
* General Public License, version 2 with the GNU Classpath
* Exception [1] and GNU General Public License, version 2 with the
* OpenJDK Assembly Exception [2].
*
* [1] https://www.gnu.org/software/classpath/license.html
* [2] https://openjdk.org/legal/assembly-exception.html
*
* SPDX-License-Identifier: EPL-2.0 OR Apache-2.0 OR GPL-2.0-only WITH Classpath-exception-2.0 OR GPL-2.0-only WITH OpenJDK-assembly-exception-1.0
*******************************************************************************/
#include <string.h>
#include <ctype.h>
#include "jcl.h"
#include "j9consts.h"
#include "jvminit.h"
#include "omrgcconsts.h"
#include "jni.h"
#include "j9protos.h"
#include "j9cp.h"
#include "jclprots.h"
#include "exelib_api.h"
#include "util_api.h"
#if defined(J9VM_OPT_SIDECAR)
#include "j2sever.h"
#endif
#include "ut_j9jcl.h"
#include "jclglob.h"
#include "j9version.h"
#include "omrversionstrings.h"
#include "j9modron.h"
#include "omr.h"
#include "vendor_version.h"
/* The vm version which must match the JCL.
* It has the format 0xAABBCCCC
* AA - vm version, BB - jcl version, CCCC - main version
* CCCC must match exactly with the JCL
* Up the vm version (AA) when adding natives
* BB is the required level of JCL to run the vm
*/
#define JCL_VERSION 0x06040270
extern void *jclConfig;
static UDATA
doJCLCheck(J9JavaVM *vm, J9Class *j9VMInternalsClass);
/*
Calculate the value for java.vm.info (and java.fullversion) system/vm properties.
Currently allocates into a fixed-size buffer. This really should be fixed.
*/
jint computeFullVersionString(J9JavaVM* vm)
{
VMI_ACCESS_FROM_JAVAVM((JavaVM*)vm);
PORT_ACCESS_FROM_JAVAVM(vm);
const char *osarch = NULL;
const char *osname = NULL;
const char *j2se_version_info = NULL;
const char *jitEnabled = "";
const char *aotEnabled = "";
const char *memInfo = NULL;
#define BUFFER_SIZE 512
/* The actual allowed BUFFER_SIZE is 512, the extra 1 char is added to check for overflow */
char vminfo[BUFFER_SIZE + 1];
#if defined(J9VM_INTERP_NATIVE_SUPPORT)
J9JITConfig *jitConfig = vm->jitConfig;
jitEnabled = "dis";
aotEnabled = "dis";
if (NULL != jitConfig) {
if (J9_ARE_ALL_BITS_SET(jitConfig->runtimeFlags, J9JIT_JIT_ATTACHED)) {
jitEnabled = "en";
}
if (J9_ARE_ALL_BITS_SET(jitConfig->runtimeFlags, J9JIT_AOT_ATTACHED)) {
aotEnabled = "en";
}
}
#define JIT_INFO " (JIT %sabled, AOT %sabled)\nOpenJ9 - "
#else
#define JIT_INFO "%s%s"
#endif /* J9VM_INTERP_NATIVE_SUPPORT */
#if JAVA_SPEC_VERSION == 8
if ((J2SE_VERSION(vm) & J2SE_RELEASE_MASK) == J2SE_18) {
j2se_version_info = "1.8.0";
} else {
j2se_version_info = "1.8.?";
}
#else /* JAVA_SPEC_VERSION == 8 */
if ((J2SE_VERSION(vm) & J2SE_RELEASE_MASK) == J2SE_CURRENT_VERSION) {
j2se_version_info = JAVA_SPEC_VERSION_STRING;
} else {
j2se_version_info = JAVA_SPEC_VERSION_STRING ".?";
}
#endif /* JAVA_SPEC_VERSION == 8 */
osname = j9sysinfo_get_OS_type();
osarch = j9sysinfo_get_CPU_architecture();
#ifdef J9VM_ENV_DATA64
memInfo = J9JAVAVM_COMPRESS_OBJECT_REFERENCES(vm) ? "64-Bit Compressed References": "64-Bit";
#else
#if defined(J9ZOS390) || defined(S390)
memInfo = "31-Bit";
#else
memInfo = "32-Bit";
#endif
#endif
#if defined(J9VM_GC_MODRON_GC)
#define OMR_INFO "\nOMR - " OMR_VERSION_STRING
#else
#define OMR_INFO ""
#endif /* J9VM_GC_MODRON_GC */
#if defined(OPENJDK_TAG) && defined(OPENJDK_SHA)
#define OPENJDK_INFO "\nJCL - " OPENJDK_SHA " based on " OPENJDK_TAG
#else
#define OPENJDK_INFO ""
#endif /* OPENJDK_TAG && OPENJDK_SHA */
#if defined(VENDOR_SHORT_NAME) && defined(VENDOR_SHA)
#define VENDOR_INFO "\n" VENDOR_SHORT_NAME " - " VENDOR_SHA
#else
#define VENDOR_INFO ""
#endif /* VENDOR_SHORT_NAME && VENDOR_SHA */
if (BUFFER_SIZE <= j9str_printf(PORTLIB, vminfo, BUFFER_SIZE + 1,
"JRE %s %s %s-%s %s" JIT_INFO J9VM_VERSION_STRING OMR_INFO VENDOR_INFO OPENJDK_INFO,
j2se_version_info,
(NULL != osname ? osname : " "),
osarch,
memInfo,
EsBuildVersionString,
jitEnabled,
aotEnabled)) {
j9tty_err_printf(PORTLIB, "\n%s - %d: %s: Error: Java VM info string exceeds buffer size\n", __FILE__, __LINE__, __FUNCTION__);
return JNI_ERR;
}
#undef BUFFER_SIZE
#undef JIT_INFO
#undef MEM_INFO
#undef OMR_INFO
#undef VENDOR_INFO
(*VMI)->SetSystemProperty(VMI, "java.vm.info", vminfo);
(*VMI)->SetSystemProperty(VMI, "java.fullversion", vminfo);
return JNI_OK;
}
static jint initializeStaticMethod(J9JavaVM* vm, UDATA offset)
{
J9ConstantPool * jclConstantPool = (J9ConstantPool *) vm->jclConstantPool;
J9RAMStaticMethodRef * staticMethodConstantPool = (J9RAMStaticMethodRef *) vm->jclConstantPool;
J9ROMMethodRef * romMethodConstantPool = (J9ROMMethodRef *) jclConstantPool->romConstantPool;
J9ROMClass * jclROMClass = jclConstantPool->ramClass->romClass;
UDATA cpType = J9_CP_TYPE(J9ROMCLASS_CPSHAPEDESCRIPTION(jclROMClass), offset);
if ((J9CPTYPE_STATIC_METHOD == cpType) || (J9CPTYPE_INTERFACE_STATIC_METHOD == cpType)) {
if (NULL == vm->internalVMFunctions->resolveStaticMethodRef(vm->mainThread, jclConstantPool, offset, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL | J9_RESOLVE_FLAG_JCL_CONSTANT_POOL)) {
if (NULL == J9VMCONSTANTPOOL_CLASSREF_AT(vm, romMethodConstantPool[offset].classRefCPIndex)->value) {
Trc_JCL_initializeKnownClasses_ClassRefNotResolvedForMethodRef(vm->mainThread, romMethodConstantPool[offset].classRefCPIndex, offset);
} else {
Trc_JCL_initializeKnownClasses_ExitError(vm->mainThread, offset);
return JNI_ERR;
}
} else {
Trc_JCL_initializeKnownClasses_ResolvedStaticMethodRef(vm->mainThread, offset, staticMethodConstantPool[offset].method);
}
}
return JNI_OK;
}
#if 0
static jint
initializeInstanceField(J9JavaVM* vm, UDATA offset)
{
J9ConstantPool * jclConstantPool = (J9ConstantPool *) vm->jclConstantPool;
J9RAMFieldRef * instanceFieldConstantPool = (J9RAMFieldRef *) vm->jclConstantPool;
J9ROMFieldRef * romFieldConstantPool = (J9ROMFieldRef *) jclConstantPool->romConstantPool;
J9ROMClass * jclROMClass = jclConstantPool->ramClass->romClass;
U_32 * cpShapeDescription = J9ROMCLASS_CPSHAPEDESCRIPTION(jclROMClass);
if (J9CPTYPE_FIELD == J9_CP_TYPE(cpShapeDescription, offset)) {
if (-1 == vm->internalVMFunctions->resolveInstanceFieldRef(vm->mainThread, NULL, jclConstantPool, offset, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL, NULL)) {
if (NULL == J9VMCONSTANTPOOL_CLASSREF_AT(vm, romFieldConstantPool[offset].classRefCPIndex)->value) {
Trc_JCL_initializeKnownClasses_ClassRefNotResolvedForInstanceFieldRef(vm->mainThread, romFieldConstantPool[offset].classRefCPIndex, offset);
} else {
Trc_JCL_initializeKnownClasses_ExitError(vm->mainThread, offset);
return JNI_ERR;
}
} else {
Trc_JCL_initializeKnownClasses_ResolvedInstanceFieldRef(vm->mainThread, offset, instanceFieldConstantPool[offset].valueOffset);
}
return JNI_OK;
}
return JNI_EINVAL;
}
#endif
static jint
initializeStaticField(J9JavaVM* vm, UDATA offset, UDATA resolveFlags)
{
J9ConstantPool * jclConstantPool = (J9ConstantPool *) vm->jclConstantPool;
J9RAMStaticFieldRef * staticFieldConstantPool = (J9RAMStaticFieldRef *) vm->jclConstantPool;
J9ROMFieldRef * romFieldConstantPool = (J9ROMFieldRef *) jclConstantPool->romConstantPool;
J9ROMClass * jclROMClass = jclConstantPool->ramClass->romClass;
U_32 * cpShapeDescription = J9ROMCLASS_CPSHAPEDESCRIPTION(jclROMClass);
if (J9CPTYPE_FIELD == J9_CP_TYPE(cpShapeDescription, offset)) {
if (NULL == vm->internalVMFunctions->resolveStaticFieldRef(vm->mainThread, NULL, jclConstantPool, offset, resolveFlags, NULL)) {
if (NULL == J9VMCONSTANTPOOL_CLASSREF_AT(vm, romFieldConstantPool[offset].classRefCPIndex)->value) {
Trc_JCL_initializeKnownClasses_ClassRefNotResolvedForStaticFieldRef(vm->mainThread, romFieldConstantPool[offset].classRefCPIndex, offset);
} else {
Trc_JCL_initializeKnownClasses_ExitError(vm->mainThread, offset);
return JNI_ERR;
}
} else {
Trc_JCL_initializeKnownClasses_ResolvedStaticFieldRef(vm->mainThread, offset, J9RAMSTATICFIELDREF_VALUEADDRESS(staticFieldConstantPool + offset));
}
return JNI_OK;
}
return JNI_EINVAL;
}
jint initializeKnownClasses(J9JavaVM* vm, U_32 runtimeFlags)
{
J9InternalVMFunctions *vmFuncs = vm->internalVMFunctions;
J9ConstantPool * jclConstantPool = (J9ConstantPool *) vm->jclConstantPool;
J9RAMFieldRef * instanceFieldConstantPool = (J9RAMFieldRef *) vm->jclConstantPool;
J9RAMStaticFieldRef * staticFieldConstantPool = (J9RAMStaticFieldRef *) vm->jclConstantPool;
J9RAMStaticMethodRef * staticMethodConstantPool = (J9RAMStaticMethodRef *) vm->jclConstantPool;
J9RAMVirtualMethodRef * virtualMethodConstantPool = (J9RAMVirtualMethodRef *) vm->jclConstantPool;
J9RAMSpecialMethodRef * specialMethodConstantPool = (J9RAMSpecialMethodRef *) vm->jclConstantPool;
J9RAMInterfaceMethodRef * interfaceMethodConstantPool = (J9RAMInterfaceMethodRef *) vm->jclConstantPool;
J9ROMFieldRef * romFieldConstantPool = (J9ROMFieldRef *) jclConstantPool->romConstantPool;
J9ROMMethodRef * romMethodConstantPool = (J9ROMMethodRef *) jclConstantPool->romConstantPool;
J9ROMClassRef * romClassConstantPool = (J9ROMClassRef *) jclConstantPool->romConstantPool;
J9ROMClass * jclROMClass = jclConstantPool->ramClass->romClass;
U_32 * cpShapeDescription = J9ROMCLASS_CPSHAPEDESCRIPTION(jclROMClass);
U_32 constPoolCount = jclROMClass->romConstantPoolCount;
U_32 i;
Trc_JCL_initializeKnownClasses_Entry(vm->mainThread);
for (i = 0; i < constPoolCount; i++) {
if (J9CPTYPE_FIELD == J9_CP_TYPE(cpShapeDescription, i)) {
J9ROMClassRef* romClassRef = &romClassConstantPool[romMethodConstantPool[i].classRefCPIndex];
if (0 == (romClassRef->runtimeFlags & runtimeFlags)) {
Trc_JCL_initializeKnownClasses_SkippingResolve(vm->mainThread, i, romClassRef, romClassRef->runtimeFlags, runtimeFlags);
} else {
/* Try resolving as a static fieldref, then as an instance fieldref. */
if (NULL != vmFuncs->resolveStaticFieldRef(vm->mainThread, NULL, jclConstantPool, i, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL, NULL)) {
Trc_JCL_initializeKnownClasses_ResolvedStaticFieldRef(vm->mainThread, i, J9RAMSTATICFIELDREF_VALUEADDRESS(staticFieldConstantPool + i));
} else if (-1 != vmFuncs->resolveInstanceFieldRef(vm->mainThread, NULL, jclConstantPool, i, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL, NULL)) {
Trc_JCL_initializeKnownClasses_ResolvedInstanceFieldRef(vm->mainThread, i, instanceFieldConstantPool[i].valueOffset);
} else if (NULL == J9VMCONSTANTPOOL_CLASSREF_AT(vm, romFieldConstantPool[i].classRefCPIndex)->value) {
/* TODO replace this tracepoint with Trc_JCL_initializeKnownClasses_ClassRefNotResolvedForFieldRef */
Trc_JCL_initializeKnownClasses_ClassRefNotResolvedForInstanceFieldRef(vm->mainThread, romFieldConstantPool[i].classRefCPIndex, i);
} else {
Trc_JCL_initializeKnownClasses_ExitError(vm->mainThread, i);
Trc_JCL_Assert_StartupFailure();
return JNI_ERR;
}
}
} else if ((J9CPTYPE_INSTANCE_METHOD == J9_CP_TYPE(cpShapeDescription, i))
|| (J9CPTYPE_INTERFACE_INSTANCE_METHOD == J9_CP_TYPE(cpShapeDescription, i))
) {
J9ROMClassRef* romClassRef = &romClassConstantPool[romMethodConstantPool[i].classRefCPIndex];
if (0 == (romClassRef->runtimeFlags & runtimeFlags)) {
Trc_JCL_initializeKnownClasses_SkippingResolve(vm->mainThread, i, romClassRef, romClassRef->runtimeFlags, runtimeFlags);
} else {
/* Resolve as both special and virtual method. It is an error for both to fail, but not for one to fail. */
BOOLEAN resolved = FALSE;
J9Method *resolvedMethod;
if (0 != vmFuncs->resolveVirtualMethodRef(vm->mainThread, jclConstantPool, i, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL | J9_RESOLVE_FLAG_JCL_CONSTANT_POOL, &resolvedMethod)) {
Trc_JCL_initializeKnownClasses_ResolvedVirtualMethodRef(vm->mainThread, i, virtualMethodConstantPool[i].methodIndexAndArgCount);
resolved = TRUE;
}
if (NULL != vmFuncs->resolveSpecialMethodRef(vm->mainThread, jclConstantPool, i, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL | J9_RESOLVE_FLAG_JCL_CONSTANT_POOL)) {
Trc_JCL_initializeKnownClasses_ResolvedSpecialMethodRef(vm->mainThread, i, specialMethodConstantPool[i].method);
resolved = TRUE;
}
if (!resolved) {
if (NULL == J9VMCONSTANTPOOL_CLASSREF_AT(vm, romMethodConstantPool[i].classRefCPIndex)->value) {
Trc_JCL_initializeKnownClasses_ClassRefNotResolvedForMethodRef(vm->mainThread, romMethodConstantPool[i].classRefCPIndex, i);
} else {
Trc_JCL_initializeKnownClasses_ExitError(vm->mainThread, i);
Trc_JCL_Assert_StartupFailure();
return JNI_ERR;
}
}
}
} else if (J9CPTYPE_STATIC_METHOD == J9_CP_TYPE(cpShapeDescription, i)
|| (J9CPTYPE_INTERFACE_STATIC_METHOD == J9_CP_TYPE(cpShapeDescription, i))
) {
J9ROMClassRef* romClassRef = &romClassConstantPool[romMethodConstantPool[i].classRefCPIndex];
if (0 == (romClassRef->runtimeFlags & runtimeFlags)) {
Trc_JCL_initializeKnownClasses_SkippingResolve(vm->mainThread, i, romClassRef, romClassRef->runtimeFlags, runtimeFlags);
} else {
if (NULL == vmFuncs->resolveStaticMethodRef(vm->mainThread, jclConstantPool, i, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL | J9_RESOLVE_FLAG_JCL_CONSTANT_POOL)) {
if (NULL == J9VMCONSTANTPOOL_CLASSREF_AT(vm, romMethodConstantPool[i].classRefCPIndex)->value) {
Trc_JCL_initializeKnownClasses_ClassRefNotResolvedForMethodRef(vm->mainThread, romMethodConstantPool[i].classRefCPIndex, i);
} else {
Trc_JCL_initializeKnownClasses_ExitError(vm->mainThread, i);
Trc_JCL_Assert_StartupFailure();
return JNI_ERR;
}
} else {
Trc_JCL_initializeKnownClasses_ResolvedStaticMethodRef(vm->mainThread, i, staticMethodConstantPool[i].method);
}
}
} else if (J9CPTYPE_INTERFACE_METHOD == J9_CP_TYPE(cpShapeDescription, i)) {
J9ROMClassRef* romClassRef = &romClassConstantPool[romMethodConstantPool[i].classRefCPIndex];
if (0 == (romClassRef->runtimeFlags & runtimeFlags)) {
Trc_JCL_initializeKnownClasses_SkippingResolve(vm->mainThread, i, romClassRef, romClassRef->runtimeFlags, runtimeFlags);
} else {
if (NULL == vmFuncs->resolveInterfaceMethodRef(vm->mainThread, jclConstantPool, i, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL | J9_RESOLVE_FLAG_JCL_CONSTANT_POOL)) {
if (NULL == J9VMCONSTANTPOOL_CLASSREF_AT(vm, romMethodConstantPool[i].classRefCPIndex)->value) {
Trc_JCL_initializeKnownClasses_ClassRefNotResolvedForMethodRef(vm->mainThread, romMethodConstantPool[i].classRefCPIndex, i);
} else {
Trc_JCL_initializeKnownClasses_ExitError(vm->mainThread, i);
Trc_JCL_Assert_StartupFailure();
return JNI_ERR;
}
} else {
Trc_JCL_initializeKnownClasses_ResolvedInterfaceMethodRef(vm->mainThread, i, interfaceMethodConstantPool[i].methodIndexAndArgCount);
}
}
}
}
Trc_JCL_initializeKnownClasses_Exit(vm->mainThread);
return JNI_OK;
}
static UDATA
doJCLCheck(J9JavaVM *vm, J9Class *j9VMInternalsClass)
{
J9VMThread *vmThread = vm->mainThread;
J9InternalVMFunctions *vmFuncs = vm->internalVMFunctions;
J9ROMStaticFieldShape *jclField;
U_8 *cConfigPtr;
U_8 *jclConfigPtr = NULL;
UDATA jclVersion = -1;
/* get the jcl specified by the class library (i.e. java.lang.J9VMInternals) */
vmFuncs->staticFieldAddress(vmThread, j9VMInternalsClass, (U_8*)"j9Config", sizeof("j9Config") - 1, (U_8*)"J", 1, NULL, (UDATA *)&jclField, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL, NULL);
if (jclField != NULL) {
jclConfigPtr = (U_8 *)&jclField->initialValue;
/* get the jcl version from the class library (i.e. java.lang.J9VMInternals) */
vmFuncs->staticFieldAddress(vmThread, j9VMInternalsClass, (U_8*)"j9Version", sizeof("j9Version") - 1, (U_8*)"I", 1, NULL, (UDATA *)&jclField, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL, NULL);
if (jclField != NULL) {
jclVersion = jclField->initialValue;
}
}
/* get the jcl specified by the DLL */
cConfigPtr = (U_8 *)&jclConfig;
/* check the values and report any errors */
return checkJCL(vmThread, cConfigPtr, jclConfigPtr, JCL_VERSION, jclVersion);
}
/**
* Initialize a static int field in a Class.
*
* @param[in] *vmThread the J9VMThread
* @param[in] *clazz the J9Class containing the static field
* @param[in] vmCPIndex the VM constant pool index of the static field ref
* @param[in] value the int value to store in the field
*
* @return a JNI result code
*/
static jint
initializeStaticIntField(J9VMThread *vmThread, J9Class *clazz, UDATA vmCPIndex, I_32 value)
{
jint rc = initializeStaticField(vmThread->javaVM, vmCPIndex, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL);
if (JNI_OK == rc) {
J9STATIC_I32_STORE(vmThread, clazz, J9VMCONSTANTPOOL_STATICFIELD_ADDRESS(vmThread->javaVM, vmCPIndex), value);
}
return rc;
}
typedef struct {
const UDATA vmCPIndex;
const I_32 value;
} J9IntConstantMapping;
static const J9IntConstantMapping intVMConstants[] = {
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_WRITE_BARRIER_TYPE_NONE, J9_GC_WRITE_BARRIER_TYPE_NONE },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_WRITE_BARRIER_TYPE_ALWAYS, J9_GC_WRITE_BARRIER_TYPE_ALWAYS },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_WRITE_BARRIER_TYPE_OLDCHECK, J9_GC_WRITE_BARRIER_TYPE_OLDCHECK },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_WRITE_BARRIER_TYPE_CARDMARK, J9_GC_WRITE_BARRIER_TYPE_CARDMARK },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_WRITE_BARRIER_TYPE_CARDMARK_INCREMENTAL, J9_GC_WRITE_BARRIER_TYPE_CARDMARK_INCREMENTAL },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_WRITE_BARRIER_TYPE_CARDMARK_AND_OLDCHECK, J9_GC_WRITE_BARRIER_TYPE_CARDMARK_AND_OLDCHECK },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_WRITE_BARRIER_TYPE_SATB, J9_GC_WRITE_BARRIER_TYPE_SATB },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_WRITE_BARRIER_TYPE_SATB_AND_OLDCHECK, J9_GC_WRITE_BARRIER_TYPE_SATB_AND_OLDCHECK },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_ALLOCATION_TYPE_TLH, J9_GC_ALLOCATION_TYPE_TLH },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_ALLOCATION_TYPE_SEGREGATED, J9_GC_ALLOCATION_TYPE_SEGREGATED },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_POLICY_OPTTHRUPUT, J9_GC_POLICY_OPTTHRUPUT },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_POLICY_OPTAVGPAUSE, J9_GC_POLICY_OPTAVGPAUSE },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_POLICY_GENCON, J9_GC_POLICY_GENCON },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_POLICY_BALANCED, J9_GC_POLICY_BALANCED },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_POLICY_METRONOME, J9_GC_POLICY_METRONOME },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_POLICY_NOGC, J9_GC_POLICY_NOGC },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_JAVA_CLASS_RAM_SHAPE_SHIFT, J9AccClassRAMShapeShift },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_OBJECT_HEADER_SHAPE_MASK, OBJECT_HEADER_SHAPE_MASK },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_INSTANCESIZE_OFFSET, offsetof(J9Class, totalInstanceSize) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_INSTANCE_DESCRIPTION_OFFSET, offsetof(J9Class, instanceDescription) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_LOCK_OFFSET_OFFSET, offsetof(J9Class, lockOffset) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_LOCK_RESERVATION_HISTORY_RESERVED_COUNTER_OFFSET, offsetof(J9Class, reservedCounter) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_LOCK_RESERVATION_HISTORY_CANCEL_COUNTER_OFFSET, offsetof(J9Class, cancelCounter) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_INITIALIZE_STATUS_OFFSET, offsetof(J9Class, initializeStatus) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_SIZE, (I_32)sizeof(J9Class) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_ADDRESS_SIZE, (I_32)sizeof(UDATA) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_CLASS_DEPTH_AND_FLAGS_OFFSET, offsetof(J9Class, classDepthAndFlags) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_INIT_SUCCEEDED, J9ClassInitSucceeded },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_SUPERCLASSES_OFFSET, offsetof(J9Class, superclasses) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_ROMCLASS_OFFSET, offsetof(J9Class, romClass) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9ROMCLASS_MODIFIERS_OFFSET, offsetof(J9ROMClass, modifiers) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_JAVA_CLASS_DEPTH_MASK, J9AccClassDepthMask },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_JAVA_CLASS_MASK, ~(J9_REQUIRED_CLASS_ALIGNMENT - 1) },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_ACC_CLASS_INTERNAL_PRIMITIVE_TYPE, J9AccClassInternalPrimitiveType },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_ACC_CLASS_ARRAY, J9AccClassArray },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_OBJECT_HEADER_HAS_BEEN_MOVED_IN_CLASS, OBJECT_HEADER_HAS_BEEN_MOVED_IN_CLASS },
#if defined(J9VM_ENV_LITTLE_ENDIAN)
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_IS_BIG_ENDIAN, JNI_FALSE},
#else
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_IS_BIG_ENDIAN, JNI_TRUE},
#endif
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_CLASSLOADER_TYPE_OTHERS, J9_CLASSLOADER_TYPE_OTHERS },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_CLASSLOADER_TYPE_BOOT, J9_CLASSLOADER_TYPE_BOOT },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_CLASSLOADER_TYPE_PLATFORM, J9_CLASSLOADER_TYPE_PLATFORM },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9CLASS_RESERVABLE_LOCK_WORD_INIT, J9ClassReservableLockWordInit },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_OBJECT_HEADER_LOCK_RESERVED, OBJECT_HEADER_LOCK_RESERVED },
{ J9VMCONSTANTPOOL_COMIBMOTIVMVM_OBJECT_HEADER_LOCK_LEARNING, OBJECT_HEADER_LOCK_LEARNING },
};
/**
* Initialize all of the constants in com.ibm.oti.vm.VM
*
* @param[in] *currentThread the current J9VMThread
*
* @return a JNI result code
*/
static jint
intializeVMConstants(J9VMThread *currentThread)
{
J9JavaVM *vm = currentThread->javaVM;
OMR_VM *omrVM = (OMR_VM *)vm->omrVM;
jint rc = JNI_ERR;
UDATA i = 0;
/* Load the VM class and mark it as initialized to prevent running the <clinit> */
J9Class *vmClass = vm->internalVMFunctions->internalFindKnownClass(currentThread, J9VMCONSTANTPOOL_COMIBMOTIVMVM, J9_FINDKNOWNCLASS_FLAG_NON_FATAL);
if ((NULL == vmClass) || (NULL != currentThread->currentException)) {
goto done;
}
vmClass->initializeStatus = J9ClassInitSucceeded;
/* Initialize non-constant fields */
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_WRITE_BARRIER_TYPE, (I_32)vm->gcWriteBarrierType);
if (JNI_OK != rc) {
goto done;
}
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_ALLOCATION_TYPE, (I_32)vm->gcAllocationType);
if (JNI_OK != rc) {
goto done;
}
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_GC_POLICY, (I_32)omrVM->gcPolicy);
if (JNI_OK != rc) {
goto done;
}
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_JIT_STRING_DEDUP_POLICY, vm->memoryManagerFunctions->j9gc_get_jit_string_dedup_policy(vm));
if (JNI_OK != rc) {
goto done;
}
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_J9_STRING_COMPRESSION_ENABLED, (I_32)IS_STRING_COMPRESSION_ENABLED_VM(vm));
if (JNI_OK != rc) {
goto done;
}
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_OBJECT_HEADER_SIZE, (I_32)J9JAVAVM_OBJECT_HEADER_SIZE(vm));
if (JNI_OK != rc) {
goto done;
}
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_FJ9OBJECT_SIZE, (I_32)J9JAVAVM_REFERENCE_SIZE(vm));
if (JNI_OK != rc) {
goto done;
}
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_GLR_ENABLE_GLOBAL_LOCK_RESERVATION, (I_32)vm->enableGlobalLockReservation);
if (JNI_OK != rc) {
goto done;
}
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_GLR_RESERVED_ABSOLUTE_THRESHOLD, (I_32)vm->reservedAbsoluteThreshold);
if (JNI_OK != rc) {
goto done;
}
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_GLR_MINIMUM_RESERVED_RATIO, (I_32)vm->minimumReservedRatio);
if (JNI_OK != rc) {
goto done;
}
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_GLR_CANCEL_ABSOLUTE_THRESHOLD, (I_32)vm->cancelAbsoluteThreshold);
if (JNI_OK != rc) {
goto done;
}
rc = initializeStaticIntField(currentThread, vmClass, J9VMCONSTANTPOOL_COMIBMOTIVMVM_GLR_MINIMUM_LEARNING_RATIO, (I_32)vm->minimumLearningRatio);
if (JNI_OK != rc) {
goto done;
}
/* Initialize constant int fields */
for (i = 0; i < sizeof(intVMConstants) / sizeof(J9IntConstantMapping); ++i) {
UDATA vmCPIndex = intVMConstants[i].vmCPIndex;
I_32 value = intVMConstants[i].value;
rc = initializeStaticIntField(currentThread, vmClass, vmCPIndex, value);
if (JNI_OK != rc) {
goto done;
}
}
done:
return rc;
}
#define ADDMODS_PROPERTY_BASE "jdk.module.addmods."
UDATA
initializeRequiredClasses(J9VMThread *vmThread, char* dllName)
{
J9JavaVM *vm = vmThread->javaVM;
J9InternalVMFunctions *vmFuncs = vm->internalVMFunctions;
J9MemoryManagerFunctions *gcFuncs = vm->memoryManagerFunctions;
UDATA jniVersion, i;
J9Class *objectClass;
J9Class *vmInternalsClass;
J9Class *classClass;
J9Class *clazz;
J9Class *stringClass;
J9Class *lockClass;
J9ClassWalkState state;
J9NativeLibrary* nativeLibrary = NULL;
j9object_t oom;
PORT_ACCESS_FROM_JAVAVM(vm);
static UDATA requiredClasses[] = {
J9VMCONSTANTPOOL_JAVALANGTHREAD,
J9VMCONSTANTPOOL_JAVALANGCLASSLOADER,
J9VMCONSTANTPOOL_JAVALANGSTACKTRACEELEMENT,
J9VMCONSTANTPOOL_JAVALANGTHROWABLE,
J9VMCONSTANTPOOL_JAVALANGSTACKOVERFLOWERROR,
J9VMCONSTANTPOOL_JAVALANGCLASSNOTFOUNDEXCEPTION,
J9VMCONSTANTPOOL_JAVALANGLINKAGEERROR,
J9VMCONSTANTPOOL_JAVALANGNOCLASSDEFFOUNDERROR,
J9VMCONSTANTPOOL_JAVALANGNULLPOINTEREXCEPTION,
#if JAVA_SPEC_VERSION >= 15
J9VMCONSTANTPOOL_JDKINTERNALLOADERNATIVELIBRARIES,
J9VMCONSTANTPOOL_JDKINTERNALLOADERNATIVELIBRARIESNATIVELIBRARYIMPL,
#endif /* JAVA_SPEC_VERSION >= 15 */
#if JAVA_SPEC_VERSION >= 18
J9VMCONSTANTPOOL_JAVALANGINVOKEMETHODHANDLENATIVES,
#endif /* JAVA_SPEC_VERSION >= 18 */
#if JAVA_SPEC_VERSION >= 19
J9VMCONSTANTPOOL_JAVALANGTHREADFIELDHOLDER,
J9VMCONSTANTPOOL_JAVALANGBASEVIRTUALTHREAD,
#endif /* JAVA_SPEC_VERSION >= 19 */
};
/* Determine java/lang/String.value signature before any required class is initialized */
if (J2SE_VERSION(vm) >= J2SE_V11) {
vm->runtimeFlags |= J9_RUNTIME_STRING_BYTE_ARRAY;
}
/* CANNOT hold VM Access while calling registerBootstrapLibrary */
vmFuncs->internalReleaseVMAccess(vmThread);
if (vmFuncs->registerBootstrapLibrary(vmThread, dllName, &nativeLibrary, FALSE) != J9NATIVELIB_LOAD_OK) {
return 1;
}
/* If we have a JitConfig, add the JIT dll to the bootstrap loader so we can add JNI natives in the JIT */
if (NULL != vm->jitConfig) {
J9NativeLibrary* jitLibrary = NULL;
if (vmFuncs->registerBootstrapLibrary(vmThread, J9_JIT_DLL_NAME, &jitLibrary, FALSE) != J9NATIVELIB_LOAD_OK) {
return 1;
}
}
vmFuncs->internalAcquireVMAccess(vmThread);
/* request an extra slot in java/lang/Module which we will use to connect native data to the Module object */
if (0 != vmFuncs->addHiddenInstanceField(vm, "java/lang/Module", "modulePointer", "J", &vm->modulePointerOffset)) {
return 1;
}
#ifdef J9VM_OPT_OPENJDK_METHODHANDLE
if (0 != vmFuncs->addHiddenInstanceField(vm, "java/lang/invoke/MemberName", "vmindex", "J", &vm->vmindexOffset)) {
return 1;
}
if (0 != vmFuncs->addHiddenInstanceField(vm, "java/lang/invoke/MemberName", "vmtarget", "J", &vm->vmtargetOffset)) {
return 1;
}
if (0 != vmFuncs->addHiddenInstanceField(vm, "java/lang/invoke/MutableCallSite", "invalidationCookie", "J", &vm->mutableCallSiteInvalidationCookieOffset)) {
return 1;
}
if (0 != vmFuncs->addHiddenInstanceField(vm, "java/lang/invoke/MethodHandle", "jitVMEntryKeepAlive", "Ljava/lang/invoke/MemberName;", &vm->jitVMEntryKeepAliveOffset)) {
return 1;
}
#endif /* defined(J9VM_OPT_OPENJDK_METHODHANDLE) */
#if JAVA_SPEC_VERSION >= 19
/* TLS hidden field points to an array holding jvmti thread local data. */
if (0 != vmFuncs->addHiddenInstanceField(vm, "java/lang/Thread", "tls", "J", &vm->tlsOffset)) {
return 1;
}
/* Counter to track if the virtual thread is being inspected by JVMTI. */
if (0 != vmFuncs->addHiddenInstanceField(vm, "java/lang/VirtualThread", "inspectorCount", "J", &vm->virtualThreadInspectorCountOffset)) {
return 1;
}
/* Stores a non-zero value if the virtual or carrier thread is suspended by JVMTI. */
if (0 != vmFuncs->addHiddenInstanceField(vm, "java/lang/Thread", "isSuspendedInternal", "I", &vm->isSuspendedInternalOffset)) {
return 1;
}
#endif /* JAVA_SPEC_VERSION >= 19 */
vmThread->privateFlags |= J9_PRIVATE_FLAGS_REPORT_ERROR_LOADING_CLASS;
objectClass = vmFuncs->internalFindKnownClass(vmThread, J9VMCONSTANTPOOL_JAVALANGOBJECT, J9_FINDKNOWNCLASS_FLAG_NON_FATAL);
if (NULL == objectClass) {
return 1;
}
vmInternalsClass = vmFuncs->internalFindKnownClass(vmThread, J9VMCONSTANTPOOL_JAVALANGJ9VMINTERNALS, J9_FINDKNOWNCLASS_FLAG_NON_FATAL);
if ((NULL == vmInternalsClass) || (NULL != vmThread->currentException)) {
return 1;
}
vmInternalsClass->initializeStatus = J9ClassInitSucceeded;
if (JNI_OK != intializeVMConstants(vmThread)) {
return 1;
}
if (doJCLCheck(vm, vmInternalsClass) != 0) {
return 1;
}
/* Load ClassInitializationLock as early as possible */
lockClass = vmFuncs->internalFindKnownClass(vmThread, J9VMCONSTANTPOOL_JAVALANGJ9VMINTERNALSCLASSINITIALIZATIONLOCK, J9_FINDKNOWNCLASS_FLAG_NON_FATAL);
if ((NULL == lockClass) || (NULL != vmThread->currentException)) {
return 1;
}
lockClass->initializeStatus = J9ClassInitSucceeded;
/* Load java.lang.Class. This makes sure that the slot in the known class array is filled in. Since
* the slot was previously uninitialized, set the class of all existing classes java.lang.Class. Subsequent
* class creations will correctly initialize the value from the slot in the known class array. This code
* runs only in JNI_CreateJavaVM, so no need to mutex the class table access.
*/
classClass = vmFuncs->internalFindKnownClass(vmThread, J9VMCONSTANTPOOL_JAVALANGCLASS, J9_FINDKNOWNCLASS_FLAG_NON_FATAL);
if ((NULL == classClass) || (NULL != vmThread->currentException)) {
return 1;
}
clazz = vmFuncs->allClassesStartDo(&state, vm, vm->systemClassLoader);
do {
j9object_t classObj = gcFuncs->J9AllocateObject(vmThread, classClass, J9_GC_ALLOCATE_OBJECT_TENURED | J9_GC_ALLOCATE_OBJECT_NON_INSTRUMENTABLE | J9_GC_ALLOCATE_OBJECT_HASHED);
j9object_t lockObject;
UDATA allocateFlags = J9_GC_ALLOCATE_OBJECT_NON_INSTRUMENTABLE;
if (NULL == classObj) {
return 1;
}
J9VMJAVALANGCLASS_SET_VMREF(vmThread, classObj, clazz);
clazz->classObject = classObj;
lockObject = gcFuncs->J9AllocateObject(vmThread, lockClass, allocateFlags);
classObj = clazz->classObject;
if (lockObject == NULL) {
return 1;
}
J9VMJAVALANGJ9VMINTERNALSCLASSINITIALIZATIONLOCK_SET_THECLASS(vmThread, lockObject, (j9object_t)classObj);
J9VMJAVALANGCLASS_SET_INITIALIZATIONLOCK(vmThread, (j9object_t)classObj, lockObject);
} while ((clazz = vmFuncs->allClassesNextDo(&state)) != NULL);
vmFuncs->allClassesEndDo(&state);
/* This runtime flag indicates that j.l.Class has been loaded, and all classes have a valid classObject.
* It is not safe to invoke GC before this point.
*/
vm->extendedRuntimeFlags |= J9_EXTENDED_RUNTIME_CLASS_OBJECT_ASSIGNED;
if (vmFuncs->internalCreateBaseTypePrimitiveAndArrayClasses(vmThread) != 0) {
return 1;
}
/* Initialize early since sendInitialize() uses this */
if (initializeStaticMethod(vm, J9VMCONSTANTPOOL_JAVALANGJ9VMINTERNALS_INITIALIZATIONALREADYFAILED)) {
return 1;
}
if (initializeStaticMethod(vm, J9VMCONSTANTPOOL_JAVALANGJ9VMINTERNALS_RECORDINITIALIZATIONFAILURE)) {
return 1;
}
/* Load java.lang.String. This makes sure that the slot in the known class array is filled in.
* String may be needed to initialize Object.
*/
stringClass = vmFuncs->internalFindKnownClass(vmThread, J9VMCONSTANTPOOL_JAVALANGSTRING, J9_FINDKNOWNCLASS_FLAG_NON_FATAL);
if ((NULL == stringClass) || (NULL != vmThread->currentException)) {
return 1;
}
/* Initialize the java.lang.String.compressionFlag static field early enough so that we have
* access to it during the resolution of other classes in which Strings may need to be created
* in StringTable.cpp
*/
if (initializeStaticField(vm, J9VMCONSTANTPOOL_JAVALANGSTRING_COMPRESSIONFLAG, J9_RESOLVE_FLAG_NO_THROW_ON_FAIL | J9_RESOLVE_FLAG_NO_CLASS_INIT)) {
return 1;
}
/* Run the JCL initialization code (what used to be JNI_OnLoad) */
jniVersion = nativeLibrary->send_lifecycle_event(vmThread, nativeLibrary, "JCL_OnLoad", JNI_VERSION_1_1);
if (!vmFuncs->jniVersionIsValid(jniVersion)) {
return 1;
}
/* Initialize java.lang.String which will also initialize java.lang.Object. */
vmFuncs->initializeClass(vmThread, stringClass);
if (vmThread->currentException != NULL) {
return 1;
}
/* Initialize java.lang.Class. */
vmFuncs->initializeClass(vmThread, classClass);
if (vmThread->currentException != NULL) {
return 1;
}
/* Load some other needed classes. */
for (i=0; i < sizeof(requiredClasses) / sizeof(UDATA); i++) {
clazz = vmFuncs->internalFindKnownClass(vmThread, requiredClasses[i], J9_FINDKNOWNCLASS_FLAG_NON_FATAL);
if ((NULL == clazz) || (NULL != vmThread->currentException)) {
Trc_JCL_initializeRequiredClasses_ExitError(vmThread, i);
Trc_JCL_Assert_StartupFailure();
return 1;
}
vmFuncs->initializeClass(vmThread, clazz);
if (NULL != vmThread->currentException) {
return 1;
}
}
if (J9_ARE_ANY_BITS_SET(vm->extendedRuntimeFlags2, J9_EXTENDED_RUNTIME2_LOAD_AGENT_MODULE)
&& (NULL != vm->modulesPathEntry->extraInfo))
{
const char *packageName = "jdk/internal/agent";
const char *expectedModuleName = "jdk.management.agent";
const char *moduleName = vm->jimageIntf->jimagePackageToModule(
vm->jimageIntf, (UDATA) vm->modulesPathEntry->extraInfo,
packageName);
if (NULL == moduleName) {
Trc_JCL_initializeRequiredClasses_moduleForPackageNotFound(vmThread, packageName);
} else if (0 != strcmp(expectedModuleName, moduleName)) {
Trc_JCL_initializeRequiredClasses_unexpectedModuleForPackage(vmThread, packageName, moduleName, expectedModuleName);
} else {
J9VMSystemProperty *systemProperty = NULL;
Trc_JCL_initializeRequiredClasses_addAgentModuleEntry(vmThread, moduleName);
/* Handle the case where there are no user-specified modules. In this case, there
* is typically one system property but no user-set "add-modules" arguments.
*/
if ((0 == vm->addModulesCount)
&& (J9SYSPROP_ERROR_NONE == vmFuncs->getSystemProperty(vm, ADDMODS_PROPERTY_BASE "0", &systemProperty)))
{
/* this is implicitly an unused property */
vmFuncs->setSystemProperty(vm, systemProperty, moduleName);
} else {
UDATA indexLen = j9str_printf(PORTLIB, NULL, 0, "%zu", vm->addModulesCount); /* get the length of the number string */
char *propNameBuffer = j9mem_allocate_memory(sizeof(ADDMODS_PROPERTY_BASE) + indexLen, OMRMEM_CATEGORY_VM);
if (NULL == propNameBuffer) {
Trc_JCL_initializeRequiredClasses_addAgentModuleOutOfMemory(vmThread);
return 1;
}
j9str_printf(PORTLIB, propNameBuffer, sizeof(ADDMODS_PROPERTY_BASE) + indexLen, ADDMODS_PROPERTY_BASE "%zu", vm->addModulesCount);
Trc_JCL_initializeRequiredClasses_addAgentModuleSetProperty(vmThread, propNameBuffer, moduleName);
vmFuncs->addSystemProperty(vm, propNameBuffer, moduleName, J9SYSPROP_FLAG_NAME_ALLOCATED);
}
vm->addModulesCount += 1;
}
}
if (J9_ARE_ANY_BITS_SET(vm->extendedRuntimeFlags2, J9_EXTENDED_RUNTIME2_LOAD_HEALTHCENTER_MODULE)
&& (NULL != vm->modulesPathEntry->extraInfo))
{
const char *packageName = "com/ibm/java/diagnostics/healthcenter/agent";
const char *expectedModuleName = "ibm.healthcenter";
const char *moduleName = vm->jimageIntf->jimagePackageToModule(
vm->jimageIntf, (UDATA) vm->modulesPathEntry->extraInfo,
packageName);
if (NULL == moduleName) {
Trc_JCL_initializeRequiredClasses_moduleForPackageNotFound(vmThread, packageName);
} else if (0 != strcmp(expectedModuleName, moduleName)) {
// package %s found in module %s (expected %s) - not loading"
Trc_JCL_initializeRequiredClasses_unexpectedModuleForPackage(vmThread, packageName, moduleName, expectedModuleName);
} else {
J9VMSystemProperty *systemProperty = NULL;
Trc_JCL_initializeRequiredClasses_addAgentModuleEntry(vmThread, moduleName);
/* Handle the case where there are no user-specified modules. In this case, there
* is typically one system property but no user-set "add-modules" arguments.
*/
if ((0 == vm->addModulesCount)
&& (J9SYSPROP_ERROR_NONE == vmFuncs->getSystemProperty(vm, ADDMODS_PROPERTY_BASE "0", &systemProperty)))
{
/* this is implicitly an unused property */
vmFuncs->setSystemProperty(vm, systemProperty, moduleName);
} else {
UDATA indexLen = j9str_printf(PORTLIB, NULL, 0, "%zu", vm->addModulesCount); /* get the length of the number string */
char *propNameBuffer = j9mem_allocate_memory(sizeof(ADDMODS_PROPERTY_BASE) + indexLen, OMRMEM_CATEGORY_VM);
if (NULL == propNameBuffer) {
Trc_JCL_initializeRequiredClasses_addAgentModuleOutOfMemory(vmThread);
return 1;
}
j9str_printf(PORTLIB, propNameBuffer, sizeof(ADDMODS_PROPERTY_BASE) + indexLen, ADDMODS_PROPERTY_BASE "%zu", vm->addModulesCount);
Trc_JCL_initializeRequiredClasses_addAgentModuleSetProperty(vmThread, propNameBuffer, moduleName);
vmFuncs->addSystemProperty(vm, propNameBuffer, moduleName, J9SYSPROP_FLAG_NAME_ALLOCATED);
}
vm->addModulesCount += 1;
}
}
vmThread->privateFlags &= (~J9_PRIVATE_FLAGS_REPORT_ERROR_LOADING_CLASS);
/* Create an OutOfMemoryError now in case we run out during startup
* (1GDH3HI: J9VM:Neutrino - GPF reading manifest file during class loading).
*/
oom = vmFuncs->createCachedOutOfMemoryError(vmThread, NULL);
if (NULL == oom) {
return 1;
}
vmThread->outOfMemoryError = oom;
return 0;
}
#undef ADDMODS_PROPERTY_BASE