/*############################################################################## HPCC SYSTEMS software Copyright (C) 2012 HPCC Systems®. Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. ############################################################################## */ #include "platform.h" #include #include "jexcept.hpp" #include "jthread.hpp" #include "hqlplugins.hpp" #include "deftype.hpp" #include "eclhelper.hpp" #include "eclrtl.hpp" #include "eclrtl_imp.hpp" #include "rtlfield_imp.hpp" #include "rtlds_imp.hpp" #include "jprop.hpp" #include "build-config.h" #include "roxiemem.hpp" #include "nbcd.hpp" #include "thorxmlwrite.hpp" #include "esdl_def.hpp" #ifdef _WIN32 #define EXPORT __declspec(dllexport) #else #define EXPORT #endif static const char * compatibleVersions[] = { "Java Embed Helper 1.0.0", NULL }; static const char *version = "Java Embed Helper 1.0.0"; extern "C" EXPORT bool getECLPluginDefinition(ECLPluginDefinitionBlock *pb) { if (pb->size == sizeof(ECLPluginDefinitionBlockEx)) { ECLPluginDefinitionBlockEx * pbx = (ECLPluginDefinitionBlockEx *) pb; pbx->compatibleVersions = compatibleVersions; } else if (pb->size != sizeof(ECLPluginDefinitionBlock)) return false; pb->magicVersion = PLUGIN_VERSION; pb->version = version; pb->moduleName = "java"; pb->ECL = NULL; pb->flags = PLUGIN_MULTIPLE_VERSIONS; pb->description = "Java Embed Helper"; return true; } static void UNSUPPORTED(const char *feature) __attribute__((noreturn)); static void UNSUPPORTED(const char *feature) { throw MakeStringException(-1, "UNSUPPORTED feature: %s not supported in java plugin", feature); } namespace javaembed { // Use a global object to ensure that the Java VM is initialized once only. // We would like to create it lazily for two reasons: // 1. So that we only get a JVM if we need one (even if we have loaded the plugin) // 2. It's important for the JVM to be initialized AFTER we have set up signal handlers, as it // likes to set its own (in particular, it seems to intercept and ignore some SIGSEGV during the // garbage collection). // Unfortunately, it seems that the design of the JNI interface is such that JNI_CreateJavaVM has to be called on the 'main thread'. // So we can't achieve 1, and 2 requires that we create via the INIT_MODULE mechanism (rather than just a static object), and that // any engines that call InitModuleObjects() or load plugins dynamically do so AFTER setting any signal handlers or calling // EnableSEHtoExceptionMapping // static class JavaGlobalState { public: JavaGlobalState() { JavaVMInitArgs vm_args; /* JDK/JRE 6 VM initialization arguments */ StringArray optionStrings; const char* origPath = getenv("CLASSPATH"); StringBuffer newPath; newPath.append("-Djava.class.path="); if (origPath && *origPath) { newPath.append(origPath).append(ENVSEPCHAR); } StringBuffer envConf; envConf.append(CONFIG_DIR).append(PATHSEPSTR).append("environment.conf"); Owned conf = createProperties(envConf.str(), true); if (conf && conf->hasProp("classpath")) { conf->getProp("classpath", newPath); newPath.append(ENVSEPCHAR); } else { newPath.append(INSTALL_DIR).append(PATHSEPCHAR).append("classes").append(ENVSEPCHAR); } newPath.append("."); optionStrings.append(newPath); if (conf && conf->hasProp("jvmlibpath")) { StringBuffer libPath; libPath.append("-Djava.library.path="); conf->getProp("jvmlibpath", libPath); optionStrings.append(libPath); } // Options we should set (but allow for override with jvmoptions below) optionStrings.append("-XX:-UseLargePages"); if (conf && conf->hasProp("jvmoptions")) { // Use space as field sep as ':' and ';' are valid optionStrings.appendList(conf->queryProp("jvmoptions"), " "); } // Options we know we always want set optionStrings.append("-Xrs"); // These may be useful for debugging #ifdef _DEBUG // optionStrings.append("-Xcheck:jni"); // optionStrings.append("-verbose:jni"); #endif JavaVMOption* options = new JavaVMOption[optionStrings.length()]; ForEachItemIn(idx, optionStrings) { // DBGLOG("javaembed: Setting JVM option: %s",(char *)optionStrings.item(idx)); options[idx].optionString = (char *) optionStrings.item(idx); options[idx].extraInfo = NULL; } vm_args.nOptions = optionStrings.length(); vm_args.options = options; vm_args.ignoreUnrecognized = true; vm_args.version = JNI_VERSION_1_6; /* load and initialize a Java VM, return a JNI interface pointer in env */ JNIEnv *env; /* receives pointer to native method interface */ int createResult = JNI_CreateJavaVM(&javaVM, (void**)&env, &vm_args); delete [] options; if (createResult != 0) throw MakeStringException(0, "javaembed: Unable to initialize JVM (%d)",createResult); } ~JavaGlobalState() { // We don't attempt to destroy the Java VM, as it's buggy... } JavaVM *javaVM; /* denotes a Java VM */ } *globalState; static char helperLibraryName[_MAX_PATH]; #ifdef _WIN32 EXTERN_C IMAGE_DOS_HEADER __ImageBase; #endif MODULE_INIT(INIT_PRIORITY_STANDARD) { globalState = new JavaGlobalState; // Make sure we are never unloaded (as JVM does not support it) // we do this by doing a dynamic load of the javaembed library #ifdef _WIN32 ::GetModuleFileName((HINSTANCE)&__ImageBase, helperLibraryName, _MAX_PATH); if (strstr(path, "javaembed")) { HINSTANCE h = LoadSharedObject(helperLibraryName, false, false); DBGLOG("LoadSharedObject returned %p", h); } #else FILE *diskfp = fopen("/proc/self/maps", "r"); if (diskfp) { char ln[_MAX_PATH]; while (fgets(ln, sizeof(ln), diskfp)) { if (strstr(ln, "libjavaembed")) { const char *fullName = strchr(ln, '/'); if (fullName) { char *tail = (char *) strstr(fullName, SharedObjectExtension); if (tail) { tail[strlen(SharedObjectExtension)] = 0; strcpy(helperLibraryName, fullName); HINSTANCE h = LoadSharedObject(fullName, false, false); break; } } } } fclose(diskfp); } #endif return true; } MODULE_EXIT() { // We don't attempt to destroy the Java VM, as it's buggy... // delete globalState; // globalState = NULL; } static void checkType(type_t javatype, size32_t javasize, type_t ecltype, size32_t eclsize) { if (javatype != ecltype || javasize != eclsize) throw MakeStringException(0, "javaembed: Type mismatch"); // MORE - could provide some details! } static void checkException(JNIEnv *JNIenv, bool fail=true) { if (JNIenv->ExceptionCheck()) { jthrowable exception = JNIenv->ExceptionOccurred(); JNIenv->ExceptionClear(); jclass throwableClass = JNIenv->FindClass("java/lang/Throwable"); jmethodID throwableToString = JNIenv->GetMethodID(throwableClass, "toString", "()Ljava/lang/String;"); jstring cause = (jstring) JNIenv->CallObjectMethod(exception, throwableToString); const char *text = JNIenv->GetStringUTFChars(cause, 0); VStringBuffer message("javaembed: %s", text); JNIenv->ReleaseStringUTFChars(cause, text); if (fail) rtlFail(0, message); throw MakeStringExceptionDirect(0, message); } } //------------------------------------------- // A JavaObject accessor has common functionality shared by both the builders below (Java-> ECL and ECL->Java) class JavaObjectAccessor : public CInterface { protected: JavaObjectAccessor(JNIEnv *_JNIenv, const RtlFieldInfo *_outerRow, jobject _row) : JNIenv(_JNIenv), row(_row), outerRow(_outerRow), idx(0), limit(0), inSet(false), inDataSet(false) { Class = (jclass) JNIenv->NewGlobalRef(JNIenv->GetObjectClass(row)); } JavaObjectAccessor(JNIEnv *_JNIenv, const RtlFieldInfo *_outerRow) : JNIenv(_JNIenv), outerRow(_outerRow), idx(0), limit(0), inSet(false), inDataSet(false) { row = NULL; Class = NULL; } ~JavaObjectAccessor() { // Unwind anything left on the stack (in case we had exceptions), to make sure the Class we release is the global one if (stack.length()) Class = (jclass) stack.item(0); if (Class) JNIenv->DeleteGlobalRef(Class); } void push() { stack.append(Class); stack.append(row); } void pop() { row = (jobject) stack.popGet(); Class = (jclass) stack.popGet(); } jfieldID getFieldId(const RtlFieldInfo * field, const char *sig, const char *expected) { // MORE - if we are going to stream a dataset we really should be caching these somehow JNIenv->ExceptionClear(); jfieldID fieldId = 0; if (sig) { if (inSet) { VStringBuffer arraySig("[%s", sig); fieldId = JNIenv->GetFieldID(Class, str(field->name), arraySig.str()); } else fieldId = JNIenv->GetFieldID(Class, str(field->name), sig); } else { // Do it the hard way via reflection API // Equivalent java: // Field field = object.getClass().getDeclaredField(fieldName); jclass classClass =JNIenv->GetObjectClass(Class); checkException(); jmethodID getDeclaredField = JNIenv->GetMethodID(classClass, "getDeclaredField", "(Ljava/lang/String;)Ljava/lang/reflect/Field;" ); checkException(); jstring fieldName = JNIenv->NewStringUTF(str(field->name)); checkException(); jobject reflectedField = JNIenv->CallObjectMethod(Class, getDeclaredField, fieldName); checkException(); fieldId = JNIenv->FromReflectedField(reflectedField); } if (!fieldId && expected) throw MakeStringException(0, "javaembed: Unable to retrieve field %s of type %s", str(field->name), expected); if (expected) checkException(); else JNIenv->ExceptionClear(); return fieldId; } void checkException() { javaembed::checkException(JNIenv); } JNIEnv *JNIenv; jobject row; const RtlFieldInfo *outerRow; jclass Class; ConstPointerArray stack; unsigned idx; UnsignedArray idxStack; unsigned limit; bool inSet; bool inDataSet; }; // A JavaRowBuilder object is used to construct an ECL row from a Java object class JavaRowBuilder : public JavaObjectAccessor, implements IFieldSource { public: IMPLEMENT_IINTERFACE; JavaRowBuilder(JNIEnv *_JNIenv, const RtlFieldInfo *_outerRow, jobject _row) : JavaObjectAccessor(_JNIenv, _outerRow, _row) { } virtual bool getBooleanResult(const RtlFieldInfo *field) { jboolean b; if (inSet) { JNIenv->GetBooleanArrayRegion((jbooleanArray) row, idx, 1, &b); } else { jfieldID fieldId = getFieldId(field, "Z", "boolean"); b = JNIenv->GetBooleanField(row, fieldId); } checkException(); return b; } virtual void getDataResult(const RtlFieldInfo *field, size32_t &__len, void * &__result) { jbyteArray array; if (inSet) { array = (jbyteArray) JNIenv->GetObjectArrayElement((jobjectArray) row, idx); } else { jfieldID fieldId = getFieldId(field, "[B", "DATA"); array = (jbyteArray) JNIenv->GetObjectField(row, fieldId); } checkException(); __len = (array != NULL ? JNIenv->GetArrayLength(array) : 0); __result = (__len > 0 ? rtlMalloc(__len) : NULL); if (__result) JNIenv->GetByteArrayRegion(array, 0, __len, (jbyte *) __result); checkException(); } virtual double getRealResult(const RtlFieldInfo *field) { double d; if (inSet) { float f; switch (field->size(NULL, NULL)) { case 4: JNIenv->GetFloatArrayRegion((jfloatArray) row, idx, 1, &f); d = f; break; case 8: JNIenv->GetDoubleArrayRegion((jdoubleArray) row, idx, 1, &d); break; default: throwUnexpected(); } } else { jfieldID fieldId; switch (field->size(NULL, NULL)) { case 4: fieldId = getFieldId(field, "F", "float"); d = JNIenv->GetFloatField(row, fieldId); break; case 8: fieldId = getFieldId(field, "D", "double"); d = JNIenv->GetDoubleField(row, fieldId); break; default: throwUnexpected(); } } checkException(); return d; } virtual __int64 getSignedResult(const RtlFieldInfo *field) { __int64 ret; if (inSet) { jbyte b; jshort s; jint i; jlong l; switch (field->size(NULL, NULL)) { case 1: JNIenv->GetByteArrayRegion((jbyteArray) row, idx, 1, &b); ret = b; break; case 2: JNIenv->GetShortArrayRegion((jshortArray) row, idx, 1, &s); ret = s; break; case 4: JNIenv->GetIntArrayRegion((jintArray) row, idx, 1, &i); ret = i; break; case 8: JNIenv->GetLongArrayRegion((jlongArray) row, idx, 1, &l); ret = l; break; default: UNSUPPORTED("non-standard integer sizes"); } } else { jfieldID fieldId; switch (field->size(NULL, NULL)) { case 1: fieldId = getFieldId(field, "B", "byte"); ret = JNIenv->GetByteField(row, fieldId); break; case 2: fieldId = getFieldId(field, "S", "short"); ret = JNIenv->GetShortField(row, fieldId); break; case 4: fieldId = getFieldId(field, "I", "int"); ret = JNIenv->GetIntField(row, fieldId); break; case 8: fieldId = getFieldId(field, "J", "long"); ret = JNIenv->GetLongField(row, fieldId); break; default: UNSUPPORTED("non-standard integer sizes"); } } checkException(); return ret; } virtual unsigned __int64 getUnsignedResult(const RtlFieldInfo *field) { UNSUPPORTED("unsigned fields"); // No unsigned types in Java } virtual void getStringResult(const RtlFieldInfo *field, size32_t &__len, char * &__result) { jstring result; if (inSet) { // MORE - set of string1 mapping to Java array of char ? Not sure it's worth it. result = (jstring) JNIenv->GetObjectArrayElement((jobjectArray) row, idx); } else { if (field->isFixedSize() && field->size(NULL, NULL)==1) { // See if there's a char field jfieldID charFieldId = getFieldId(field, "C", NULL); if (charFieldId) { jchar resultChar = JNIenv->GetCharField(row, charFieldId); rtlUnicodeToStrX(__len, __result, 1, &resultChar); return; } } jfieldID fieldId = getFieldId(field, "Ljava/lang/String;", "String"); result = (jstring) JNIenv->GetObjectField(row, fieldId); } if (!result) { __len = 0; __result = NULL; return; } size_t size = JNIenv->GetStringUTFLength(result); // in bytes const char *text = JNIenv->GetStringUTFChars(result, NULL); size32_t chars = rtlUtf8Length(size, text); rtlUtf8ToStrX(__len, __result, chars, text); JNIenv->ReleaseStringUTFChars(result, text); JNIenv->DeleteLocalRef(result); } virtual void getUTF8Result(const RtlFieldInfo *field, size32_t &__len, char * &__result) { jstring result; if (inSet) { // MORE - set of string1 mapping to Java array of char ? Not sure it's worth it. result = (jstring) JNIenv->GetObjectArrayElement((jobjectArray) row, idx); } else { if (field->isFixedSize() && field->size(NULL, NULL)==1) { // See if there's a char field jfieldID charFieldId = getFieldId(field, "C", NULL); if (charFieldId) { jchar resultChar = JNIenv->GetCharField(row, charFieldId); rtlUnicodeToUtf8X(__len, __result, 1, &resultChar); return; } } jfieldID fieldId = getFieldId(field, "Ljava/lang/String;", "String"); result = (jstring) JNIenv->GetObjectField(row, fieldId); } if (!result) { __len = 0; __result = NULL; return; } size_t size = JNIenv->GetStringUTFLength(result); // in bytes const char *text = JNIenv->GetStringUTFChars(result, NULL); size32_t chars = rtlUtf8Length(size, text); rtlUtf8ToUtf8X(__len, __result, chars, text); JNIenv->ReleaseStringUTFChars(result, text); JNIenv->DeleteLocalRef(result); } virtual void getUnicodeResult(const RtlFieldInfo *field, size32_t &__len, UChar * &__result) { jstring result; if (inSet) { // MORE - set of string1 mapping to Java array of char ? Not sure it's worth it. result = (jstring) JNIenv->GetObjectArrayElement((jobjectArray) row, idx); } else { if (field->isFixedSize() && field->size(NULL, NULL)==1) { // See if there's a char field jfieldID charFieldId = getFieldId(field, "C", NULL); if (charFieldId) { jchar resultChar = JNIenv->GetCharField(row, charFieldId); rtlUnicodeToUnicodeX(__len, __result, 1, &resultChar); return; } } jfieldID fieldId = getFieldId(field, "Ljava/lang/String;", "String"); result = (jstring) JNIenv->GetObjectField(row, fieldId); } if (!result) { __len = 0; __result = NULL; return; } size_t size = JNIenv->GetStringUTFLength(result); // in bytes const char *text = JNIenv->GetStringUTFChars(result, NULL); size32_t chars = rtlUtf8Length(size, text); rtlUtf8ToUnicodeX(__len, __result, chars, text); JNIenv->ReleaseStringUTFChars(result, text); JNIenv->DeleteLocalRef(result); } virtual void getDecimalResult(const RtlFieldInfo *field, Decimal &value) { double ret = getRealResult(field); value.setReal(ret); } virtual void processBeginSet(const RtlFieldInfo * field, bool &isAll) { isAll = false; // No concept of an 'all' set in Java push(); jfieldID fieldId = getFieldId(field, NULL, "object"); // We assume it will be an array, but not sure of what... row = JNIenv->GetObjectField(row, fieldId); inSet = true; idx = -1; // First call to next() increments it to 0 limit = row != NULL ? JNIenv->GetArrayLength((jarray) row) : 0; checkException(); } virtual bool processNextSet(const RtlFieldInfo * field) { assertex(inSet); idx++; return idx < limit; } virtual void processBeginDataset(const RtlFieldInfo * field) { push(); jfieldID fieldId = getFieldId(field, NULL, "object"); // We assume it will be an array, but not sure of what... row = JNIenv->GetObjectField(row, fieldId); inDataSet = true; idx = -1; // First call to next() increments it to 0 limit = row != NULL ? JNIenv->GetArrayLength((jarray) row) : 0; checkException(); } virtual void processBeginRow(const RtlFieldInfo * field) { if (field != outerRow) { push(); if (inDataSet) { row = JNIenv->GetObjectArrayElement((jobjectArray) row, idx); } else { jfieldID fieldId = getFieldId(field, NULL, "object"); row = JNIenv->GetObjectField(row, fieldId); } if (!row) rtlFail(0, "javaembed: child dataset object should not be NULL"); Class = JNIenv->GetObjectClass(row); } } virtual bool processNextRow(const RtlFieldInfo * field) { assertex(inDataSet); idx++; return idx < limit; } virtual void processEndSet(const RtlFieldInfo * field) { inSet = false; JNIenv->DeleteLocalRef(row); pop(); } virtual void processEndDataset(const RtlFieldInfo * field) { inDataSet = false; JNIenv->DeleteLocalRef(row); pop(); } virtual void processEndRow(const RtlFieldInfo * field) { if (field != outerRow) { JNIenv->DeleteLocalRef(row); JNIenv->DeleteLocalRef(Class); pop(); } } }; //------------------------------------------- // A JavaObjectBuilder object is used to construct a Java object from an ECL row class JavaObjectBuilder : public JavaObjectAccessor, implements IFieldProcessor { public: IMPLEMENT_IINTERFACE; JavaObjectBuilder(JNIEnv *_JNIenv, const RtlFieldInfo *_outerRow, const char *className) : JavaObjectAccessor(_JNIenv, _outerRow) { JNIenv->ExceptionClear(); Class = (jclass) JNIenv->NewGlobalRef(JNIenv->FindClass(className)); // MORE - should use the custom classloader, once that fix is merged checkException(); setConstructor(); } virtual void processString(unsigned numchars, const char *text, const RtlFieldInfo * field) { if (field->isFixedSize() && field->size(NULL, NULL)==1 && !inSet) // SET OF STRING1 is not mapped to array of char... { // See if there's a char field jfieldID charFieldId = getFieldId(field, "C", NULL); if (charFieldId) { assertex(numchars==1); jchar c; rtlStrToUnicode(1, &c, 1, text); JNIenv->SetCharField(row, charFieldId, c); checkException(); return; } } jfieldID fieldId = getFieldId(field, "Ljava/lang/String;", "String"); size32_t numchars16; rtlDataAttr unicode16; rtlStrToUnicodeX(numchars16, unicode16.refustr(), numchars, text); jstring value = JNIenv->NewString(unicode16.getustr(), numchars16); checkException(); if (inSet) JNIenv->SetObjectArrayElement((jobjectArray) row, idx, value); else JNIenv->SetObjectField(row, fieldId, value); JNIenv->DeleteLocalRef(value); checkException(); } virtual void processBool(bool value, const RtlFieldInfo * field) { jfieldID fieldId = getFieldId(field, "Z", "boolean"); JNIenv->SetBooleanField(row, fieldId, value); checkException(); } virtual void processData(unsigned len, const void *value, const RtlFieldInfo * field) { jfieldID fieldId = getFieldId(field, "[B", "data"); jbyteArray javaData = JNIenv->NewByteArray(len); JNIenv->SetByteArrayRegion(javaData, 0, len, (jbyte *) value); checkException(); if (inSet) JNIenv->SetObjectArrayElement((jobjectArray) row, idx, javaData); else JNIenv->SetObjectField(row, fieldId, javaData); checkException(); } virtual void processInt(__int64 value, const RtlFieldInfo * field) { jfieldID fieldId; switch (field->size(NULL, NULL)) { case 1: fieldId = getFieldId(field, "B", "byte"); JNIenv->SetByteField(row, fieldId, value); break; case 2: fieldId = getFieldId(field, "S", "short"); JNIenv->SetShortField(row, fieldId, value); break; case 4: fieldId = getFieldId(field, "I", "int"); JNIenv->SetIntField(row, fieldId, value); break; case 8: fieldId = getFieldId(field, "J", "long"); JNIenv->SetLongField(row, fieldId, value); break; default: UNSUPPORTED("non-standard integer sizes"); break; } checkException(); } virtual void processUInt(unsigned __int64 value, const RtlFieldInfo * field) { UNSUPPORTED("unsigned fields"); // No unsigned types in Java } virtual void processReal(double value, const RtlFieldInfo * field) { jfieldID fieldId; switch (field->size(NULL, NULL)) { case 4: fieldId = getFieldId(field, "F", "float"); JNIenv->SetFloatField(row, fieldId, (float) value); break; case 8: fieldId = getFieldId(field, "D", "double"); JNIenv->SetDoubleField(row, fieldId, value); break; default: throwUnexpected(); } checkException(); } virtual void processDecimal(const void *value, unsigned digits, unsigned precision, const RtlFieldInfo * field) { // we could map to doubles, but probably better to let the ECL programmer do that themselves UNSUPPORTED("DECIMAL fields"); } virtual void processUDecimal(const void *value, unsigned digits, unsigned precision, const RtlFieldInfo * field) { UNSUPPORTED("UDECIMAL fields"); } virtual void processUnicode(unsigned numchars, const UChar *text, const RtlFieldInfo * field) { jfieldID fieldId = getFieldId(field, "Ljava/lang/String;", "String"); jstring value = JNIenv->NewString(text, numchars); checkException(); if (inSet) JNIenv->SetObjectArrayElement((jobjectArray) row, idx, value); else JNIenv->SetObjectField(row, fieldId, value); JNIenv->DeleteLocalRef(value); checkException(); } virtual void processQString(unsigned len, const char *value, const RtlFieldInfo * field) { size32_t charCount; rtlDataAttr text; rtlQStrToStrX(charCount, text.refstr(), len, value); processString(charCount, text.getstr(), field); } virtual void processUtf8(unsigned numchars, const char *text, const RtlFieldInfo * field) { jfieldID fieldId = getFieldId(field, "Ljava/lang/String;", "String"); size32_t numchars16; rtlDataAttr unicode16; rtlUtf8ToUnicodeX(numchars16, unicode16.refustr(), numchars, text); jstring value = JNIenv->NewString(unicode16.getustr(), numchars16); checkException(); if (inSet) JNIenv->SetObjectArrayElement((jobjectArray) row, idx, value); else JNIenv->SetObjectField(row, fieldId, value); JNIenv->DeleteLocalRef(value); checkException(); } virtual bool processBeginSet(const RtlFieldInfo * field, unsigned numElems, bool isAll, const byte *data) { push(); idx = 0; limit = numElems; const char *javaTypeSignature = NULL; bool processElements = false; // row needs to be created as an array of if (isAll) UNSUPPORTED("ALL sets"); const RtlTypeInfo *childType = field->type->queryChildType(); jobject newRow; switch(childType->fieldType & RFTMkind) { case type_boolean: newRow = JNIenv->NewBooleanArray(numElems); JNIenv->SetBooleanArrayRegion((jbooleanArray) newRow, 0, numElems, (jboolean *) data); javaTypeSignature = "[Z"; break; case type_int: if (childType->fieldType & RFTMunsigned) UNSUPPORTED("unsigned integers"); switch (childType->length) { case 1: newRow = JNIenv->NewByteArray(numElems); JNIenv->SetByteArrayRegion((jbyteArray) newRow, 0, numElems, (jbyte *) data); javaTypeSignature = "[B"; break; case 2: newRow = JNIenv->NewShortArray(numElems); JNIenv->SetShortArrayRegion((jshortArray) newRow, 0, numElems, (jshort *) data); javaTypeSignature = "[S"; break; case 4: newRow = JNIenv->NewIntArray(numElems); JNIenv->SetIntArrayRegion((jintArray) newRow, 0, numElems, (jint *) data); javaTypeSignature = "[I"; break; case 8: newRow = JNIenv->NewLongArray(numElems); JNIenv->SetLongArrayRegion((jlongArray) newRow, 0, numElems, (jlong *) data); javaTypeSignature = "[J"; break; default: UNSUPPORTED("non-standard integer sizes"); break; } break; case type_real: switch (childType->length) { case 4: newRow = JNIenv->NewFloatArray(numElems); JNIenv->SetFloatArrayRegion((jfloatArray) newRow, 0, numElems, (float *) data); javaTypeSignature = "[F"; break; case 8: newRow = JNIenv->NewDoubleArray(numElems); JNIenv->SetDoubleArrayRegion((jdoubleArray) newRow, 0, numElems, (double *) data); javaTypeSignature = "[D"; break; default: throwUnexpected(); break; } break; case type_string: case type_varstring: case type_unicode: case type_utf8: newRow = JNIenv->NewObjectArray(numElems, JNIenv->FindClass("java/lang/String"), NULL); javaTypeSignature = "[Ljava/lang/String;"; processElements = true; break; case type_data: newRow = JNIenv->NewObjectArray(numElems, JNIenv->FindClass("[B"), NULL); javaTypeSignature = "[[B"; processElements = true; break; default: throwUnexpected(); } checkException(); jfieldID fieldId = getFieldId(field, javaTypeSignature, "Array"); JNIenv->SetObjectField(row, fieldId, newRow); row = newRow; inSet = true; return processElements; } virtual bool processBeginDataset(const RtlFieldInfo * field, unsigned numRows) { push(); idxStack.append(idx); idx = 0; inDataSet = true; // Create an empty array jfieldID childId = getFieldId( field, NULL, "RECORD"); jobject newRow = NULL; if (numRows) { jclass arrayClass = getClassForChild(childId); jmethodID isArrayMethod = JNIenv->GetMethodID(JNIenv->GetObjectClass(arrayClass), "isArray", "()Z" ); checkException(); if (!JNIenv->CallBooleanMethod(arrayClass, isArrayMethod)) { JNIenv->ExceptionClear(); VStringBuffer message("javaembed: Array expected for field %s", str(field->name)); rtlFail(0, message.str()); } // Set up constructor etc for the child rows, so we don't do it per row jmethodID getTypeMethod = JNIenv->GetMethodID(JNIenv->GetObjectClass(arrayClass), "getComponentType", "()Ljava/lang/Class;" ); checkException(); Class = (jclass) JNIenv->CallObjectMethod(arrayClass, getTypeMethod); checkException(); setConstructor(); // Now we need to create the array newRow = JNIenv->NewObjectArray(numRows, Class, NULL); checkException(); } JNIenv->SetObjectField(row, childId, newRow); checkException(); row = newRow; return true; } virtual bool processBeginRow(const RtlFieldInfo * field) { if (field == outerRow) row = JNIenv->NewObject(Class, constructor); else { push(); stack.append(constructor); // Now we have to create the child object jobject newRow = NULL; if (inDataSet) { newRow = JNIenv->NewObject(Class, constructor); checkException(); JNIenv->SetObjectArrayElement((jobjectArray) row, idx++, newRow); } else { // All this is done once per dataset in the nested dataset case. But for embedded record case we have to do it here jfieldID childId = getFieldId( field, NULL, "RECORD"); Class = getClassForChild(childId); setConstructor(); newRow = JNIenv->NewObject(Class, constructor); checkException(); JNIenv->SetObjectField(row, childId, newRow); } row = newRow; } checkException(); return true; } virtual void processEndSet(const RtlFieldInfo * field) { JNIenv->DeleteLocalRef(row); pop(); inSet = false; } virtual void processEndDataset(const RtlFieldInfo * field) { inDataSet = false; idx = idxStack.popGet(); pop(); } virtual void processEndRow(const RtlFieldInfo * field) { if (field != outerRow) { constructor = (jmethodID) stack.popGet(); JNIenv->DeleteLocalRef(row); pop(); } } inline jobject getObject() { return row; } protected: jclass getClassForChild(jfieldID childId) { jobject reflectedField = JNIenv->ToReflectedField(Class, childId, false); checkException(); jclass fieldClass =JNIenv->GetObjectClass(reflectedField); checkException(); jmethodID getTypeMethod = JNIenv->GetMethodID(fieldClass, "getType", "()Ljava/lang/Class;" ); checkException(); jclass result = (jclass) JNIenv->CallObjectMethod(reflectedField, getTypeMethod); checkException(); JNIenv->DeleteLocalRef(reflectedField); JNIenv->DeleteLocalRef(fieldClass); return result; } void setConstructor() { constructor = JNIenv->GetMethodID(Class, "", "()V"); if (!constructor) { JNIenv->ExceptionClear(); jmethodID getNameMethod = JNIenv->GetMethodID(JNIenv->GetObjectClass(Class), "getName", "()Ljava/lang/String;" ); checkException(); jstring name = (jstring) JNIenv->CallObjectMethod(Class, getNameMethod); checkException(); const char *nameText = JNIenv->GetStringUTFChars(name, NULL); VStringBuffer message("javaembed: no suitable constructor for field %s", nameText); JNIenv->ReleaseStringUTFChars(name, nameText); rtlFail(0, message.str()); } } jmethodID constructor; }; //---------------------------------------------------------------------- // Wrap an IRowStream into a Java Iterator class ECLDatasetIterator : public CInterfaceOf { public: ECLDatasetIterator(JNIEnv *JNIenv, const RtlTypeInfo *_typeInfo, const char *className, IRowStream * _val) : typeInfo(_typeInfo), val(_val), dummyField("", NULL, typeInfo), javaBuilder(JNIenv, &dummyField, className) { nextRead = false; nextPending = NULL; } bool hasNext() { if (!nextRead) { nextPending = (const byte *) val->ungroupedNextRow(); nextRead = true; if (!nextPending) val->stop(); } return nextPending != NULL; } jobject next() { if (!hasNext()) return NULL; typeInfo->process(nextPending, nextPending, &dummyField, javaBuilder); // Creates a java object from the incoming ECL row nextRead = false; return javaBuilder.getObject(); } protected: const RtlTypeInfo *typeInfo; // Not linked (or linkable) Linked val; RtlFieldStrInfo dummyField; JavaObjectBuilder javaBuilder; const byte *nextPending; bool nextRead; }; //------------------------------------------- // A Java function that returns a dataset will return a JavaRowStream object that can be // interrogated to return each row of the result in turn // Note that we can't cache the JNIEnv here - calls may be made on different threads (though not at the same time). static JNIEnv *queryJNIEnv(); class JavaRowStream : public CInterfaceOf { public: JavaRowStream(jobject _iterator, IEngineRowAllocator *_resultAllocator) : resultAllocator(_resultAllocator) { iterator = queryJNIEnv()->NewGlobalRef(_iterator); } virtual const void *nextRow() { if (!iterator) return NULL; JNIEnv *JNIenv = queryJNIEnv(); // Java code would be // if (!iterator.hasNext) // { // stop(); // return NULL; // } // result = iterator.next(); jclass iterClass =JNIenv->GetObjectClass(iterator); javaembed::checkException(JNIenv); jmethodID hasNextMethod = JNIenv->GetMethodID(iterClass, "hasNext", "()Z" ); javaembed::checkException(JNIenv); jboolean hasNext = JNIenv->CallBooleanMethod(iterator, hasNextMethod); if (!hasNext) { stop(); return NULL; } jmethodID nextMethod = JNIenv->GetMethodID(iterClass, "next", "()Ljava/lang/Object;" ); javaembed::checkException(JNIenv); jobject result = JNIenv->CallObjectMethod(iterator, nextMethod); RtlDynamicRowBuilder rowBuilder(resultAllocator); const RtlTypeInfo *typeInfo = resultAllocator->queryOutputMeta()->queryTypeInfo(); assertex(typeInfo); RtlFieldStrInfo dummyField("", NULL, typeInfo); JavaRowBuilder javaRowBuilder(queryJNIEnv(), &dummyField, result); size32_t len = typeInfo->build(rowBuilder, 0, &dummyField, javaRowBuilder); return rowBuilder.finalizeRowClear(len); } virtual void stop() { resultAllocator.clear(); if (iterator) { queryJNIEnv()->DeleteGlobalRef(iterator); iterator = NULL; } } protected: Linked resultAllocator; jobject iterator;; }; const char *esdl2JavaSig(IEsdlDefinition &esdl, const char *esdlType) { EsdlBasicElementType t = esdl.translateSimpleType(esdlType); switch (t) { case ESDLT_INT16: case ESDLT_UINT16: return "Ljava/lang/Short;"; case ESDLT_INT32: case ESDLT_UINT32: return "Ljava/lang/Integer;"; case ESDLT_INT64: case ESDLT_UINT64: return "Ljava/math/BigInteger;"; case ESDLT_BOOL: return "Ljava/lang/Boolean;"; case ESDLT_FLOAT: return "Ljava/lang/Float;"; case ESDLT_DOUBLE: return "Ljava/lang/Double;"; case ESDLT_INT8: case ESDLT_UINT8: case ESDLT_BYTE: case ESDLT_UBYTE: return "Ljava/lang/Byte;"; case ESDLT_STRING: return "Ljava/lang/String;"; case ESDLT_UNKOWN: case ESDLT_STRUCT: case ESDLT_REQUEST: case ESDLT_RESPONSE: case ESDLT_COMPLEX: default: return NULL; } } const char *esdl2JavaFullClassName(IEsdlDefinition &esdl, const char *esdlType) { EsdlBasicElementType t = esdl.translateSimpleType(esdlType); switch (t) { case ESDLT_INT16: case ESDLT_UINT16: return "java/lang/Short"; case ESDLT_INT32: case ESDLT_UINT32: return "java/lang/Integer"; case ESDLT_INT64: case ESDLT_UINT64: return "java/math/BigInteger"; case ESDLT_BOOL: return "java/lang/Boolean"; case ESDLT_FLOAT: return "java/lang/Float"; case ESDLT_DOUBLE: return "java/lang/Double"; case ESDLT_INT8: case ESDLT_UINT8: case ESDLT_BYTE: case ESDLT_UBYTE: return "java/lang/Byte"; case ESDLT_STRING: return "java/lang/String"; case ESDLT_UNKOWN: case ESDLT_STRUCT: case ESDLT_REQUEST: case ESDLT_RESPONSE: case ESDLT_COMPLEX: default: return NULL; } } class JavaObjectXmlWriter : public CInterface { public: JavaObjectXmlWriter(JNIEnv *_JNIenv, jobject _obj, const char *_reqType, IEsdlDefinition &_esdl, const char *_esdlService, IXmlWriter &_writer) : JNIenv(_JNIenv), obj(_obj), writer(_writer), esdl(_esdl), esdlService(_esdlService), reqType(_reqType) { Class = (jclass) JNIenv->NewGlobalRef(JNIenv->GetObjectClass(obj)); langObjectClass = FindClass("java/lang/Object"); objToString = JNIenv->GetMethodID(langObjectClass, "toString", "()Ljava/lang/String;"); } ~JavaObjectXmlWriter() { if (Class) JNIenv->DeleteGlobalRef(Class); HashIterator it(javaClasses); ForEach(it) { IMapping &entry = it.query(); jclass *pClass = javaClasses.mapToValue(&entry); if (pClass) JNIenv->DeleteGlobalRef(*pClass); } } void writeSimpleType(const char *fieldname, jobject fieldObj) { jstring fieldStr = (jstring) JNIenv->CallObjectMethod(fieldObj, objToString); if (!fieldStr) return; const char *text = JNIenv->GetStringUTFChars(fieldStr, NULL); if (text) writer.outputCString(text, fieldname); JNIenv->DeleteLocalRef(fieldStr); } void writeSimpleType(jclass parentClass, jobject parentObject, const char *fieldname, const char *javaSig) { if (!fieldname || !*fieldname) return; if (!javaSig || !*javaSig) return; jfieldID fieldId = JNIenv->GetFieldID(parentClass, fieldname, javaSig); if (!fieldId) return; jobject fieldObj = (jobject) JNIenv->GetObjectField(parentObject, fieldId); if (!fieldObj) return; writeSimpleType(fieldname, fieldObj); JNIenv->DeleteLocalRef(fieldObj); } void writeSimpleType(jclass parentClass, jobject parentObject, IEsdlDefObject &defObject) { const char *fieldname = defObject.queryName(); const char *javaSig = esdl2JavaSig(esdl, defObject.queryProp("type")); writeSimpleType(parentClass, parentObject, fieldname, javaSig); } void writeEnumType(jclass parentClass, jobject parentObject, IEsdlDefObject &defObject) { const char *fieldname = defObject.queryName(); VStringBuffer javaSig("L%s/%s;", esdlService.str(), defObject.queryProp("enum_type")); jfieldID fieldId = JNIenv->GetFieldID(parentClass, fieldname, javaSig); if (!fieldId) return; jobject fieldObj = (jobject) JNIenv->GetObjectField(parentObject, fieldId); if (!fieldObj) return; jstring fieldStr = (jstring) JNIenv->CallObjectMethod(fieldObj, objToString); const char *text = JNIenv->GetStringUTFChars(fieldStr, NULL); if (!text) return; writer.outputCString(text, defObject.queryName()); } void writeComplexType(jclass parentClass, jobject parentObject, IEsdlDefObject &defObject) { IEsdlDefStruct *defStruct = esdl.queryStruct(defObject.queryProp("complex_type")); if (!defStruct) return; const char *fieldname = defObject.queryName(); VStringBuffer javaSig("L%s/%s;", esdlService.str(), defObject.queryProp("complex_type")); jfieldID fieldId = JNIenv->GetFieldID(parentClass, fieldname, javaSig); //tbd cache this if (!fieldId) return; jobject fieldObj = (jobject) JNIenv->GetObjectField(parentObject, fieldId); if (!fieldObj) return; writer.outputBeginNested(fieldname, true); writeChildren(JNIenv->GetObjectClass(fieldObj), fieldObj, defStruct); writer.outputEndNested(fieldname); } void writeSimpleArray(jobjectArray arrayObj, jint count, const char *name, const char *item_tag) { writer.outputBeginNested(name, true); writer.outputBeginArray(item_tag); for (jint i=0; i < count; i++) { jobject elementObj = JNIenv->GetObjectArrayElement(arrayObj, i); if(JNIenv->ExceptionOccurred()) break; writeSimpleType(item_tag, elementObj); JNIenv->DeleteLocalRef(elementObj); } writer.outputEndArray(item_tag); writer.outputEndNested(name); } void writeComplexArray(jobjectArray arrayObj, jint count, const char *name, const char *item_tag, const char *itemTypeName) { writer.outputBeginNested(name, true); writer.outputBeginArray(item_tag); { VStringBuffer javaClassName("%s/%s", esdlService.str(), itemTypeName); jclass elementClass = FindClass(javaClassName); if (!elementClass) return; IEsdlDefStruct *defStruct = esdl.queryStruct(itemTypeName); if (!defStruct) return; for (jint i=0; i < count; i++) { jobject elementObj = JNIenv->GetObjectArrayElement(arrayObj, i); javaembed::checkException(JNIenv, false); writer.outputBeginNested(item_tag, true); writeChildren(elementClass, elementObj, defStruct); writer.outputEndNested(item_tag); JNIenv->DeleteLocalRef(elementObj); } } writer.outputEndArray(item_tag); writer.outputEndNested(name); } void writeArray(jclass parentClass, jobject parentObject, IEsdlDefObject &defObject) { const char *itemTypeName = defObject.queryProp("type"); if (!itemTypeName) return; const char *item_tag = defObject.queryProp("item_tag"); if (!item_tag) return; const char *fieldname = defObject.queryName(); jclass arrayListClass = FindClass("java/util/ArrayList"); if (!arrayListClass) return; jmethodID toArrayMethod = JNIenv->GetMethodID(arrayListClass, "toArray", "()[Ljava/lang/Object;" ); if (!toArrayMethod) return; jfieldID fieldId = JNIenv->GetFieldID(parentClass, fieldname, "Ljava/util/ArrayList;"); if (!fieldId) return; jobject arrayListObj = (jobject) JNIenv->GetObjectField(parentObject, fieldId); if (!arrayListObj) return; javaembed::checkException(JNIenv, false); jobjectArray arrayObj = (jobjectArray) JNIenv->CallObjectMethod(arrayListObj, toArrayMethod); if (arrayObj) { jint count = JNIenv->GetArrayLength(arrayObj); if (count) { if (esdl2JavaSig(esdl, itemTypeName)) writeSimpleArray(arrayObj, count, defObject.queryName(), item_tag); else writeComplexArray(arrayObj, count, defObject.queryName(), item_tag, itemTypeName); } JNIenv->DeleteLocalRef(arrayObj); } JNIenv->DeleteLocalRef(arrayListObj); } void writeChildren(jclass javaClass, jobject javaObject, IEsdlDefStruct *defStruct) { Owned children = defStruct->getChildren(); ForEach (*children) { IEsdlDefObject &child = children->query(); if (child.getEsdlType()==EsdlTypeElement) { if (child.hasProp("type")) writeSimpleType(javaClass, javaObject, child); else if (child.hasProp("complex_type")) writeComplexType(javaClass, javaObject, child); } else if (child.getEsdlType()==EsdlTypeEnumRef) { writeEnumType(javaClass, javaObject, child); } else if (child.getEsdlType()==EsdlTypeArray) { writeArray(javaClass, javaObject, child); } } } void write() { IEsdlDefStruct *reqStruct = esdl.queryStruct(reqType); const char *name = reqStruct->queryName(); writer.outputBeginNested("Response", true); writer.outputBeginNested("Results", true); writer.outputBeginNested("Result", true); writer.outputBeginDataset(name, true); writer.outputBeginArray("Row"); writer.outputBeginNested("Row", true); writeChildren(Class, obj, reqStruct); writer.outputEndNested("Row"); writer.outputEndArray("Row"); writer.outputEndDataset(name); writer.outputEndNested("Result"); writer.outputEndNested("Results"); writer.outputEndNested("Response"); } void checkException() { javaembed::checkException(JNIenv, false); } jclass FindClass(const char *name) { jclass *pClass = javaClasses.getValue(name); if (pClass) return *pClass; jclass localClass = JNIenv->FindClass(name); if (!localClass) return 0; jclass Class = (jclass) JNIenv->NewGlobalRef(localClass); javaClasses.setValue(name, Class); JNIenv->DeleteLocalRef(localClass); return Class; } JNIEnv *JNIenv; MapStringTo javaClasses; jclass Class; jobject obj; jclass langObjectClass; jmethodID objToString; IXmlWriter &writer; IEsdlDefinition &esdl; StringAttr reqType; StringAttr esdlService; }; //------------------------------------------- // There is a singleton JavaThreadContext per thread. This allows us to // ensure that we can make repeated calls to a Java function efficiently. class JavaThreadContext { public: JNIEnv *JNIenv; /* receives pointer to native method interface */ public: JavaThreadContext() { jint res = globalState->javaVM->AttachCurrentThread((void **) &JNIenv, NULL); assertex(res >= 0); javaClass = NULL; javaMethodID = NULL; prevClassPath.set("dummy"); // Forces the call below to actually do something... setThreadClassLoader(""); } ~JavaThreadContext() { if (javaClass) JNIenv->DeleteGlobalRef(javaClass); // According to the Java VM 1.7 docs, "A native thread attached to // the VM must call DetachCurrentThread() to detach itself before // exiting." globalState->javaVM->DetachCurrentThread(); } void checkException() { if (JNIenv->ExceptionCheck()) { jthrowable exception = JNIenv->ExceptionOccurred(); JNIenv->ExceptionClear(); jclass throwableClass = JNIenv->FindClass("java/lang/Throwable"); jmethodID throwableToString = JNIenv->GetMethodID(throwableClass, "toString", "()Ljava/lang/String;"); jstring cause = (jstring) JNIenv->CallObjectMethod(exception, throwableToString); const char *text = JNIenv->GetStringUTFChars(cause, 0); VStringBuffer message("javaembed: In method %s: %s", prevtext.get(), text); JNIenv->ReleaseStringUTFChars(cause, text); rtlFail(0, message.str()); } } jobject getSystemClassLoader() { JNIenv->ExceptionClear(); jclass javaLangClassLoaderClass = JNIenv->FindClass("java/lang/ClassLoader"); checkException(); jmethodID getSystemClassLoaderMethod = JNIenv->GetStaticMethodID(javaLangClassLoaderClass, "getSystemClassLoader", "()Ljava/lang/ClassLoader;"); checkException(); jobject systemClassLoaderObj = JNIenv->CallStaticObjectMethod(javaLangClassLoaderClass, getSystemClassLoaderMethod); checkException(); assertex(systemClassLoaderObj); return systemClassLoaderObj; } void setThreadClassLoader(jobject classLoader) { JNIenv->ExceptionClear(); jclass javaLangThreadClass = JNIenv->FindClass("java/lang/Thread"); checkException(); jmethodID currentThreadMethod = JNIenv->GetStaticMethodID(javaLangThreadClass, "currentThread", "()Ljava/lang/Thread;"); checkException(); jobject threadObj = JNIenv->CallStaticObjectMethod(javaLangThreadClass, currentThreadMethod); checkException(); jmethodID setContextClassLoaderMethod = JNIenv->GetMethodID(javaLangThreadClass, "setContextClassLoader", "(Ljava/lang/ClassLoader;)V"); checkException(); JNIenv->CallObjectMethod(threadObj, setContextClassLoaderMethod, classLoader); checkException(); } jobject getThreadClassLoader() { JNIenv->ExceptionClear(); jclass javaLangThreadClass = JNIenv->FindClass("java/lang/Thread"); checkException(); jmethodID currentThreadMethod = JNIenv->GetStaticMethodID(javaLangThreadClass, "currentThread", "()Ljava/lang/Thread;"); checkException(); jobject threadObj = JNIenv->CallStaticObjectMethod(javaLangThreadClass, currentThreadMethod); checkException(); jmethodID getContextClassLoaderMethod = JNIenv->GetMethodID(javaLangThreadClass, "getContextClassLoader", "()Ljava/lang/ClassLoader;"); checkException(); jobject contextClassLoaderObj = JNIenv->CallObjectMethod(threadObj, getContextClassLoaderMethod); checkException(); assertex(contextClassLoaderObj); return contextClassLoaderObj; } void setThreadClassLoader(const char *classPath) { if (classPath && *classPath) { if (prevClassPath && strcmp(classPath, prevClassPath) == 0) return; jclass URLcls = JNIenv->FindClass("java/net/URL"); checkException(); jmethodID URLclsMid = JNIenv->GetMethodID(URLcls, "","(Ljava/lang/String;)V"); checkException(); StringArray paths; paths.appendList(classPath, ";"); // NOTE - as we need to be able to include : in the urls, we can't use ENVSEP here jobjectArray URLArray = JNIenv->NewObjectArray(paths.length(), URLcls, NULL); ForEachItemIn(idx, paths) { StringBuffer usepath; const char *path = paths.item(idx); if (!strchr(path, ':')) usepath.append("file:"); usepath.append(path); jstring jstr = JNIenv->NewStringUTF(usepath.str()); checkException(); jobject URLobj = JNIenv->NewObject(URLcls, URLclsMid, jstr); checkException(); JNIenv->SetObjectArrayElement(URLArray, idx, URLobj); JNIenv->DeleteLocalRef(URLobj); JNIenv->DeleteLocalRef(jstr); } checkException(); jclass customLoaderClass = JNIenv->FindClass("java/net/URLClassLoader"); checkException(); jmethodID newInstance = JNIenv->GetStaticMethodID(customLoaderClass, "newInstance","([Ljava/net/URL;Ljava/lang/ClassLoader;)Ljava/net/URLClassLoader;"); checkException(); jobject contextClassLoaderObj = JNIenv->NewGlobalRef(JNIenv->CallStaticObjectMethod(customLoaderClass, newInstance, URLArray, getSystemClassLoader())); checkException(); assertex(contextClassLoaderObj); setThreadClassLoader(contextClassLoaderObj); prevClassPath.set(classPath); } else { if (prevClassPath) setThreadClassLoader(getSystemClassLoader()); prevClassPath.clear(); } } inline void importFunction(size32_t lenChars, const char *utf, const char *options, jobject instance) { size32_t bytes = rtlUtf8Size(lenChars, utf); StringBuffer text(bytes, utf); setThreadClassLoader(options); if (!prevtext || strcmp(text, prevtext) != 0) { prevtext.clear(); // Name should be in the form class.method:signature const char *funcname = strrchr(text, '.'); if (!funcname) throw MakeStringException(MSGAUD_user, 0, "javaembed: Invalid import name %s - Expected classname.methodname:signature", text.str()); const char *signature = strchr(funcname, ':'); if (!signature) throw MakeStringException(MSGAUD_user, 0, "javaembed: Invalid import name %s - Expected classname.methodname:signature", text.str()); StringBuffer classname(funcname-text, text); // While it's probably preferred for people to use . as the separator in nested classes (to match java import statement), // we accept / too (to match what you would see in the jar) classname.replace('/', '.'); funcname++; // skip the '.' StringBuffer methodname(signature-funcname, funcname); signature++; // skip the ':' // We need to patch up the provided signature - any instances of , assume it's the 'extended' form and just strip out the bit from < to > const char *close = strchr(finger, '>'); if (close) finger = close; else { javaSignature.append("Ljava/util/Iterator;"); finger = strchr(finger, ';'); if (!finger) throw MakeStringException(MSGAUD_user, 0, "javaembed: Invalid java function signature %s", signature); } } else javaSignature.append(*finger); finger++; } if (javaClass) JNIenv->DeleteGlobalRef(javaClass); jobject classLoader = getThreadClassLoader(); jmethodID loadClassMethod = JNIenv->GetMethodID(JNIenv->GetObjectClass(classLoader), "loadClass","(Ljava/lang/String;)Ljava/lang/Class;"); jstring methodString = JNIenv->NewStringUTF(classname); javaClass = (jclass) JNIenv->NewGlobalRef(JNIenv->CallObjectMethod(classLoader, loadClassMethod, methodString)); if (!javaClass) throw MakeStringException(MSGAUD_user, 0, "javaembed: Failed to resolve class name %s", classname.str()); if (instance) javaMethodID = JNIenv->GetMethodID(javaClass, methodname, javaSignature); else javaMethodID = JNIenv->GetStaticMethodID(javaClass, methodname, javaSignature); if (!javaMethodID) throw MakeStringException(MSGAUD_user, 0, "javaembed: Failed to resolve method name %s with signature %s", methodname.str(), signature); const char *returnSig = strrchr(signature, ')'); assertex(returnSig); // Otherwise how did Java accept it?? returnSig++; returnType.set(returnSig); argsig.set(signature); prevtext.set(text); } } inline void callFunction(jvalue &result, const jvalue * args, jobject instance) { JNIenv->ExceptionClear(); switch (returnType.get()[0]) { case 'C': result.c = JNIenv->CallCharMethodA(instance, javaMethodID, args); break; case 'Z': result.z = JNIenv->CallBooleanMethodA(instance, javaMethodID, args); break; case 'J': result.j = JNIenv->CallLongMethodA(instance, javaMethodID, args); break; case 'F': result.f = JNIenv->CallFloatMethodA(instance, javaMethodID, args); break; case 'D': result.d = JNIenv->CallDoubleMethodA(instance, javaMethodID, args); break; case 'I': result.i = JNIenv->CallIntMethodA(instance, javaMethodID, args); break; case 'S': result.s = JNIenv->CallShortMethodA(instance, javaMethodID, args); break; case 'B': result.s = JNIenv->CallByteMethodA(instance, javaMethodID, args); break; case '[': case 'L': result.l = JNIenv->CallObjectMethodA(instance, javaMethodID, args); break; default: throwUnexpected(); } checkException(); } inline void callFunction(jvalue &result, const jvalue * args) { JNIenv->ExceptionClear(); switch (returnType.get()[0]) { case 'C': result.c = JNIenv->CallStaticCharMethodA(javaClass, javaMethodID, args); break; case 'Z': result.z = JNIenv->CallStaticBooleanMethodA(javaClass, javaMethodID, args); break; case 'J': result.j = JNIenv->CallStaticLongMethodA(javaClass, javaMethodID, args); break; case 'F': result.f = JNIenv->CallStaticFloatMethodA(javaClass, javaMethodID, args); break; case 'D': result.d = JNIenv->CallStaticDoubleMethodA(javaClass, javaMethodID, args); break; case 'I': result.i = JNIenv->CallStaticIntMethodA(javaClass, javaMethodID, args); break; case 'S': result.s = JNIenv->CallStaticShortMethodA(javaClass, javaMethodID, args); break; case 'B': result.s = JNIenv->CallStaticByteMethodA(javaClass, javaMethodID, args); break; case '[': case 'L': result.l = JNIenv->CallStaticObjectMethodA(javaClass, javaMethodID, args); break; default: throwUnexpected(); } checkException(); } inline __int64 getSignedResult(jvalue & result) { switch (returnType.get()[0]) { case 'B': return result.b; case 'S': return result.s; case 'I': return result.i; case 'J': return result.j; case 'L': { // Result should be of class 'Number' if (!result.l) return 0; jmethodID getVal = JNIenv->GetMethodID(JNIenv->GetObjectClass(result.l), "longValue", "()J"); if (!getVal) throw MakeStringException(MSGAUD_user, 0, "javaembed: Type mismatch on result"); return JNIenv->CallLongMethod(result.l, getVal); } default: throw MakeStringException(MSGAUD_user, 0, "javaembed: Type mismatch on result"); } } inline double getDoubleResult(jvalue &result) { switch (returnType.get()[0]) { case 'D': return result.d; case 'F': return result.f; case 'L': { // Result should be of class 'Number' if (!result.l) return 0; jmethodID getVal = JNIenv->GetMethodID(JNIenv->GetObjectClass(result.l), "doubleValue", "()D"); if (!getVal) throw MakeStringException(MSGAUD_user, 0, "javaembed: Type mismatch on result"); return JNIenv->CallDoubleMethod(result.l, getVal); } default: throw MakeStringException(MSGAUD_user, 0, "javaembed: Type mismatch on result"); } } bool getBooleanResult(jvalue &result) { switch (returnType.get()[0]) { case 'Z': return result.z; case 'L': { // Result should be of class 'Boolean' if (!result.l) return false; jmethodID getVal = JNIenv->GetMethodID(JNIenv->GetObjectClass(result.l), "booleanValue", "()Z"); if (!getVal) throw MakeStringException(MSGAUD_user, 0, "javaembed: Type mismatch on result"); return JNIenv->CallBooleanMethod(result.l, getVal); } default: throw MakeStringException(MSGAUD_user, 0, "javaembed: Type mismatch on result"); } } inline void getDataResult(jvalue &result, size32_t &__len, void * &__result) { if (strcmp(returnType, "[B")!=0) throw MakeStringException(MSGAUD_user, 0, "javaembed: Type mismatch on result"); jbyteArray array = (jbyteArray) result.l; __len = (array != NULL ? JNIenv->GetArrayLength(array) : 0); __result = (__len > 0 ? rtlMalloc(__len) : NULL); if (__result) JNIenv->GetByteArrayRegion(array, 0, __len, (jbyte *) __result); } inline void getStringResult(jvalue &result, size32_t &__len, char * &__result) { switch (returnType.get()[0]) { case 'C': // Single char returned, prototyped as STRING or STRING1 in ECL rtlUnicodeToStrX(__len, __result, 1, &result.c); break; case 'L': { jstring sresult = (jstring) result.l; if (sresult) { size_t size = JNIenv->GetStringUTFLength(sresult); // in bytes const char *text = JNIenv->GetStringUTFChars(sresult, NULL); size32_t chars = rtlUtf8Length(size, text); rtlUtf8ToStrX(__len, __result, chars, text); JNIenv->ReleaseStringUTFChars(sresult, text); } else { __len = 0; __result = NULL; } break; } default: throw MakeStringException(MSGAUD_user, 0, "javaembed: Type mismatch on result"); } } inline void getUTF8Result(jvalue &result, size32_t &__chars, char * &__result) { switch (returnType.get()[0]) { case 'C': // Single jchar returned, prototyped as UTF8 in ECL rtlUnicodeToUtf8X(__chars, __result, 1, &result.c); break; case 'L': { jstring sresult = (jstring) result.l; if (sresult) { size_t size = JNIenv->GetStringUTFLength(sresult); // Returns length in bytes (not chars) const char * text = JNIenv->GetStringUTFChars(sresult, NULL); rtlUtf8ToUtf8X(__chars, __result, rtlUtf8Length(size, text), text); JNIenv->ReleaseStringUTFChars(sresult, text); } else { __chars = 0; __result = NULL; } break; } default: throw MakeStringException(MSGAUD_user, 0, "javaembed: Type mismatch on result"); } } inline void getUnicodeResult(jvalue &result, size32_t &__chars, UChar * &__result) { switch (returnType.get()[0]) { case 'C': // Single jchar returned, prototyped as UNICODE or UNICODE1 in ECL rtlUnicodeToUnicodeX(__chars, __result, 1, &result.c); break; case 'L': { jstring sresult = (jstring) result.l; if (sresult) { size_t size = JNIenv->GetStringUTFLength(sresult); // in bytes const char *text = JNIenv->GetStringUTFChars(sresult, NULL); size32_t chars = rtlUtf8Length(size, text); rtlUtf8ToUnicodeX(__chars, __result, chars, text); JNIenv->ReleaseStringUTFChars(sresult, text); } else { __chars = 0; __result = NULL; } break; } default: throw MakeStringException(MSGAUD_user, 0, "javaembed: Type mismatch on result"); } } inline void getSetResult(jvalue &result, bool & __isAllResult, size32_t & __resultBytes, void * & __result, int _elemType, size32_t elemSize) { if (returnType.get()[0] != '[') throw MakeStringException(MSGAUD_user, 0, "javaembed: Type mismatch on result (array expected)"); type_t elemType = (type_t) _elemType; jarray array = (jarray) result.l; int numResults = (array != NULL ? JNIenv->GetArrayLength(array) : 0); rtlRowBuilder out; byte *outData = NULL; size32_t outBytes = 0; if (numResults > 0) { if (elemSize != UNKNOWN_LENGTH) { out.ensureAvailable(numResults * elemSize); // MORE - check for overflow? outData = out.getbytes(); } switch(returnType.get()[1]) { case 'Z': checkType(type_boolean, sizeof(jboolean), elemType, elemSize); JNIenv->GetBooleanArrayRegion((jbooleanArray) array, 0, numResults, (jboolean *) outData); break; case 'B': checkType(type_int, sizeof(jbyte), elemType, elemSize); JNIenv->GetByteArrayRegion((jbyteArray) array, 0, numResults, (jbyte *) outData); break; case 'C': // we COULD map to a set of string1, but is there any point? throw MakeStringException(0, "javaembed: Return type mismatch (char[] not supported)"); break; case 'S': checkType(type_int, sizeof(jshort), elemType, elemSize); JNIenv->GetShortArrayRegion((jshortArray) array, 0, numResults, (jshort *) outData); break; case 'I': checkType(type_int, sizeof(jint), elemType, elemSize); JNIenv->GetIntArrayRegion((jintArray) array, 0, numResults, (jint *) outData); break; case 'J': checkType(type_int, sizeof(jlong), elemType, elemSize); JNIenv->GetLongArrayRegion((jlongArray) array, 0, numResults, (jlong *) outData); break; case 'F': checkType(type_real, sizeof(jfloat), elemType, elemSize); JNIenv->GetFloatArrayRegion((jfloatArray) array, 0, numResults, (jfloat *) outData); break; case 'D': checkType(type_real, sizeof(jdouble), elemType, elemSize); JNIenv->GetDoubleArrayRegion((jdoubleArray) array, 0, numResults, (jdouble *) outData); break; case 'L': if (strcmp(returnType, "[Ljava/lang/String;") == 0) { for (int i = 0; i < numResults; i++) { jstring elem = (jstring) JNIenv->GetObjectArrayElement((jobjectArray) array, i); size_t lenBytes = JNIenv->GetStringUTFLength(elem); // in bytes const char *text = JNIenv->GetStringUTFChars(elem, NULL); switch (elemType) { case type_string: if (elemSize == UNKNOWN_LENGTH) { out.ensureAvailable(outBytes + lenBytes + sizeof(size32_t)); outData = out.getbytes() + outBytes; * (size32_t *) outData = lenBytes; rtlStrToStr(lenBytes, outData+sizeof(size32_t), lenBytes, text); outBytes += lenBytes + sizeof(size32_t); } else rtlStrToStr(elemSize, outData, lenBytes, text); break; case type_varstring: if (elemSize == UNKNOWN_LENGTH) { out.ensureAvailable(outBytes + lenBytes + 1); outData = out.getbytes() + outBytes; rtlStrToVStr(0, outData, lenBytes, text); outBytes += lenBytes + 1; } else rtlStrToVStr(elemSize, outData, lenBytes, text); // Fixed size null terminated strings... weird. break; case type_utf8: case type_unicode: { size32_t numchars = rtlUtf8Length(lenBytes, text); if (elemType == type_utf8) { assertex (elemSize == UNKNOWN_LENGTH); out.ensureAvailable(outBytes + lenBytes + sizeof(size32_t)); outData = out.getbytes() + outBytes; * (size32_t *) outData = numchars; rtlStrToStr(lenBytes, outData+sizeof(size32_t), lenBytes, text); outBytes += lenBytes + sizeof(size32_t); } else { if (elemSize == UNKNOWN_LENGTH) { // You can't assume that number of chars in utf8 matches number in unicode16 ... size32_t numchars16; rtlDataAttr unicode16; rtlUtf8ToUnicodeX(numchars16, unicode16.refustr(), numchars, text); out.ensureAvailable(outBytes + numchars16*sizeof(UChar) + sizeof(size32_t)); outData = out.getbytes() + outBytes; * (size32_t *) outData = numchars16; rtlUnicodeToUnicode(numchars16, (UChar *) (outData+sizeof(size32_t)), numchars16, unicode16.getustr()); outBytes += numchars16*sizeof(UChar) + sizeof(size32_t); } else rtlUtf8ToUnicode(elemSize / sizeof(UChar), (UChar *) outData, numchars, text); } break; } default: JNIenv->ReleaseStringUTFChars(elem, text); throw MakeStringException(0, "javaembed: Return type mismatch (ECL string type expected)"); } JNIenv->ReleaseStringUTFChars(elem, text); JNIenv->DeleteLocalRef(elem); if (elemSize != UNKNOWN_LENGTH) outData += elemSize; } } else throw MakeStringException(0, "javaembed: Return type mismatch (%s[] not supported)", returnType.get()+2); break; } } __isAllResult = false; __resultBytes = elemSize == UNKNOWN_LENGTH ? outBytes : elemSize * numResults; __result = out.detachdata(); } inline const char *querySignature() { return argsig.get(); } size32_t getRowResult(jobject result, ARowBuilder &builder) { const RtlTypeInfo *typeInfo = builder.queryAllocator()->queryOutputMeta()->queryTypeInfo(); assertex(typeInfo); RtlFieldStrInfo dummyField("", NULL, typeInfo); JavaRowBuilder javaRowBuilder(JNIenv, &dummyField, result); return typeInfo->build(builder, 0, &dummyField, javaRowBuilder); } void writeObjectResult(jobject result, IEsdlDefinition *esdl, const char *esdlservice, const char *name, IXmlWriter *writer) { JavaObjectXmlWriter x(JNIenv, result, name, *esdl, esdlservice, *writer); x.write(); } private: StringAttr returnType; StringAttr argsig; StringAttr prevtext; StringAttr prevClassPath; jclass javaClass; jmethodID javaMethodID; }; class JavaXmlBuilder : public CInterface, implements IXmlWriterExt { public: IMPLEMENT_IINTERFACE; JavaXmlBuilder(JNIEnv *_JNIenv, IEsdlDefinition *esdl_, const char *esdlservice, const char *esdltype_) : JNIenv(_JNIenv), esdl(esdl_), javaPackage(esdlservice), esdlType(esdltype_) { } ~JavaXmlBuilder() { while (defStack.length()) popDefStackEntry(JNIenv); HashIterator it(javaClasses); ForEach(it) { IMapping &entry = it.query(); jclass *pClass = javaClasses.mapToValue(&entry); if (pClass) JNIenv->DeleteGlobalRef(*pClass); } } void checkException() { javaembed::checkException(JNIenv, false); } void initWriter() { } IXmlWriterExt & clear() { throwUnexpected(); } virtual size32_t length() const { return 0; } virtual const char *str() const { throwUnexpected(); } virtual void rewindTo(unsigned int prevlen) { //needs to be a no-op because it is used, but the way its used to trim empty xml sections I think we're fairly safe. //revisit cleaning up any empty objects later. } inline IEsdlDefStruct *queryCurrentEsdlStruct() { if (!defStack.length() || !defStack.tos().defType) return NULL; return dynamic_cast(defStack.tos().defType.get()); } inline jobject getObject() { if (!defStack.length()) return 0; return defStack.item(0).obj; } inline jobject getCurJavaObject() { if (!defStack.length()) return 0; return defStack.tos().obj; } inline jclass getCurJavaClass() { if (!defStack.length()) return 0; return defStack.tos().Class; } inline jmethodID getCurJavaConstructor() { if (!defStack.length()) return 0; return defStack.tos().constructor; } virtual void outputEnumString(unsigned size, const char *text, const char *fieldname, IEsdlDefObject *defField) { const char *enum_type = defField->queryProp("enum_type"); if (!enum_type || !*enum_type) return; VStringBuffer enumClassName("%s/%s", javaPackage.str(), enum_type); VStringBuffer enumSig("L%s;", enumClassName.str()); jfieldID fieldId = JNIenv->GetFieldID(getCurJavaClass(), fieldname, enumSig); if (!fieldId) return; jclass enumClass = FindClass(enumClassName); jmethodID fromString = JNIenv->GetStaticMethodID(enumClass, "fromString", "(Ljava/lang/String;)LEsdlExample/AddressType;"); //All types currently used for ESDL mapping have string constructors StringAttr s(text, size); jstring strvalue = JNIenv->NewStringUTF(s); jobject value = JNIenv->CallStaticObjectMethod(enumClass, fromString, strvalue); JNIenv->DeleteLocalRef(strvalue); checkException(); JNIenv->SetObjectField(getCurJavaObject(), fieldId, value); JNIenv->DeleteLocalRef(value); checkException(); } virtual void outputString(unsigned size, const char *text, const char *fieldname) { DefStackEntry *parent = defStack.length() ? &defStack.tos() : NULL; if (!parent) return; const char *defTypeName = NULL; bool isArray = (parent->defObj && parent->defObj->getEsdlType()==EsdlTypeArray); if (isArray) defTypeName = parent->defObj->queryProp("type"); else { IEsdlDefStruct *defStruct = queryCurrentEsdlStruct(); if (!defStruct) return; IEsdlDefObject *defField = defStruct->queryChild(fieldname); if (!defField) return; if (defField->getEsdlType()==EsdlTypeEnumRef) return outputEnumString(size, text, fieldname, defField); defTypeName = defField->queryProp("type"); } if (!defTypeName) return; const char *javaSig = esdl2JavaSig(*esdl, defTypeName); if (!javaSig) return; const char *fieldClassName = esdl2JavaFullClassName(*esdl, defTypeName); jclass typeClass = FindClass(fieldClassName); jmethodID typeStringConstructor = JNIenv->GetMethodID(typeClass, "", "(Ljava/lang/String;)V"); //All types currently used for ESDL mapping have string constructors StringAttr s(text, size); jstring strvalue = JNIenv->NewStringUTF(s); jobject value = JNIenv->NewObject(typeClass, typeStringConstructor, strvalue); JNIenv->DeleteLocalRef(strvalue); checkException(); if (!value) return; if (isArray) JNIenv->CallObjectMethod(parent->obj, parent->append, value); else { jfieldID fieldId = JNIenv->GetFieldID(getCurJavaClass(), fieldname, javaSig); if (fieldId) JNIenv->SetObjectField(getCurJavaObject(), fieldId, value); } JNIenv->DeleteLocalRef(value); checkException(); } void outputString(const char *text, const char *fieldname) { outputString((unsigned)strlen(text), text, fieldname); } virtual void outputNumericString(const char *field, const char *fieldname) { outputString(field, fieldname); } virtual void outputBool(bool value, const char *fieldname) { outputString(value ? "true" : "false", fieldname); } virtual void outputUInt(unsigned __int64 field, unsigned size, const char *fieldname) { StringBuffer value; value.append(field); outputString(value.length(), value, fieldname); } virtual void outputInt(__int64 field, unsigned size, const char *fieldname) { StringBuffer value; value.append(field); outputString(value.length(), value, fieldname); } virtual void outputReal(double field, const char *fieldname) { StringBuffer value; value.append(field); outputString(value.length(), value, fieldname); } virtual void outputDecimal(const void *field, unsigned size, unsigned precision, const char *fieldname) { Decimal d; d.setDecimal(size, precision, field); outputString(d.getCString(), fieldname); } virtual void outputUDecimal(const void *field, unsigned size, unsigned precision, const char *fieldname) { Decimal d; d.setUDecimal(size, precision, field); outputString(d.getCString(), fieldname); } virtual void outputQString(unsigned len, const char *field, const char *fieldname) { MemoryAttr tempBuffer; char * temp; if (len <= 100) temp = (char *)alloca(len); else temp = (char *)tempBuffer.allocate(len); rtlQStrToStr(len, temp, len, field); outputString(len, temp, fieldname); } virtual void outputUnicode(unsigned len, const UChar *field, const char *fieldname) { char * buff = 0; unsigned bufflen = 0; rtlUnicodeToCodepageX(bufflen, buff, len, field, "utf-8"); outputString(bufflen, buff, fieldname); rtlFree(buff); } virtual void outputUtf8(unsigned len, const char *field, const char *fieldname) { outputString(len, field, fieldname); } virtual void outputData(unsigned len, const void *value, const char *fieldname) { } virtual void outputQuoted(const char *text) //would have to let beginNested represent simple types with content set using this? { } virtual void outputBeginDataset(const char *dsname, bool nestChildren) //not used by ESDL engine { } virtual void outputEndDataset(const char *dsname) { } inline IEsdlDefObject *queryChildStructDefObj(IEsdlDefObject *child) { if (child) { switch (child->getEsdlType()) { case EsdlTypeArray: { const char *structType = child->queryProp("type"); if (structType) return esdl->queryObj(structType); break; } case EsdlTypeElement: { const char *structType = child->queryProp("complex_type"); if (structType) return esdl->queryObj(structType); break; } default: break; } } return NULL; } virtual void outputBeginNested(const char *fieldname, bool nestChildren) { IEsdlDefStruct *defStruct = NULL; IEsdlDefObject *defField = NULL; IEsdlDefObject *defType = NULL; if (!defStack.length()) { defType = esdl->queryObj(fieldname); } else { DefStackEntry &parent = defStack.tos(); if (parent.defObj && parent.defObj->getEsdlType()==EsdlTypeArray) { defType = parent.defType; } else { defStruct = queryCurrentEsdlStruct(); if (defStruct) { defField = defStruct->queryChild(fieldname); if (defField) defType = queryChildStructDefObj(defField); } } } pushDefStackEntry(JNIenv, javaPackage, fieldname, defType, defField); } virtual void outputEndNested(const char *fieldname) { if (defStack.length()<=1) //don't destroy root object yet return; if (!streq(fieldname, defStack.tos().name)) //should be exception? or forgive and forget? return; popDefStackEntry(JNIenv); } virtual void outputSetAll() { } virtual void outputBeginArray(const char *fieldname) { } virtual void outputEndArray(const char *fieldname) { } virtual void outputInlineXml(const char *text) { } virtual void outputXmlns(const char *name, const char *uri) { } public: JNIEnv *JNIenv; Linked esdl; StringAttr javaPackage; StringAttr esdlType; class DefStackEntry : public CInterface, implements IInterface { public: IMPLEMENT_IINTERFACE; DefStackEntry(const char *fieldname, IEsdlDefObject *_defType, IEsdlDefObject *_defObj) : name(fieldname), defType(_defType), defObj(_defObj), Class(0), obj(0), constructor(0), append(0), fieldId(0) { } ~DefStackEntry() { } public: Linked defType; Linked defObj; StringAttr name; jclass Class; jmethodID constructor; jmethodID append; jfieldID fieldId; jobject obj; }; jobject MakeObjectGlobal(jobject local) { if (!local) return 0; jobject global = JNIenv->NewGlobalRef(local); JNIenv->DeleteLocalRef(local); return global; } jclass FindClass(const char *name) { jclass *pClass = javaClasses.getValue(name); if (pClass) return *pClass; jclass Class = (jclass) MakeObjectGlobal(JNIenv->FindClass(name)); javaClasses.setValue(name, Class); //even save if result has no class return Class; } void popDefStackEntry(JNIEnv *JNIenv) { if (!defStack.length()) return; Owned entry = &defStack.popGet(); if (entry->obj) JNIenv->DeleteGlobalRef(entry->obj); } void pushDefStackEntry(JNIEnv *JNIenv, const char *package, const char *fieldname, IEsdlDefObject *defType, IEsdlDefObject *defObject) { DefStackEntry *parent = defStack.length() ? &defStack.tos() : NULL; Owned entry = new DefStackEntry(fieldname, defType, defObject); JNIenv->ExceptionClear(); if (defObject && defObject->getEsdlType()==EsdlTypeArray) { const char *javaClassName = "java/util/ArrayList"; entry->Class = FindClass(javaClassName); if (entry->Class) { entry->constructor = JNIenv->GetMethodID(entry->Class, "", "()V"); entry->append = JNIenv->GetMethodID(entry->Class, "add", "(Ljava/lang/Object;)Z"); entry->obj = MakeObjectGlobal(JNIenv->NewObject(entry->Class, entry->constructor)); javaembed::checkException(JNIenv, false); if (entry->obj) { if (parent && parent->Class) { VStringBuffer javaSig("L%s;", javaClassName); entry->fieldId = JNIenv->GetFieldID(parent->Class, fieldname, javaSig); if (parent->obj && entry->fieldId) JNIenv->SetObjectField(parent->obj, entry->fieldId, entry->obj); } } } } else if (defType) { VStringBuffer javaClassName("%s/%s", package, defType->queryName()); entry->Class = FindClass(javaClassName); if (entry->Class) { entry->constructor = JNIenv->GetMethodID(entry->Class, "", "()V"); entry->obj = MakeObjectGlobal(JNIenv->NewObject(entry->Class, entry->constructor)); javaembed::checkException(JNIenv, false); if (entry->obj) { if (parent) { if (parent->defObj && parent->defObj->getEsdlType()==EsdlTypeArray) JNIenv->CallObjectMethod(parent->obj, parent->append, entry->obj); else if (parent->Class) { VStringBuffer javaSig("L%s;", javaClassName.str()); entry->fieldId = JNIenv->GetFieldID(parent->Class, fieldname, javaSig); if (parent->obj && entry->fieldId) JNIenv->SetObjectField(parent->obj, entry->fieldId, entry->obj); } javaembed::checkException(JNIenv, false); } } } } defStack.append(*entry.getClear()); } IArrayOf defStack; MapStringTo javaClasses; }; // Each call to a Java function will use a new JavaEmbedScriptContext object #define MAX_JNI_ARGS 10 class JavaEmbedImportContext : public CInterfaceOf { public: JavaEmbedImportContext(JavaThreadContext *_sharedCtx, jobject _instance, const char *options) : sharedCtx(_sharedCtx), instance(_instance) { argcount = 0; argsig = NULL; StringArray opts; opts.appendList(options, ","); ForEachItemIn(idx, opts) { const char *opt = opts.item(idx); const char *val = strchr(opt, '='); if (val) { StringBuffer optName(val-opt, opt); val++; if (stricmp(optName, "classpath")==0) classpath.set(val); else throw MakeStringException(0, "javaembed: Unknown option %s", optName.str()); } } // Create a new frame for local references and increase the capacity // of those references to 64 (default is 16) sharedCtx->JNIenv->PushLocalFrame(64); } ~JavaEmbedImportContext() { // Pop local reference frame; explicitly frees all local // references made during that frame's lifetime sharedCtx->JNIenv->PopLocalFrame(NULL); } virtual bool getBooleanResult() { return sharedCtx->getBooleanResult(result); } virtual void getDataResult(size32_t &__len, void * &__result) { sharedCtx->getDataResult(result, __len, __result); } virtual double getRealResult() { return sharedCtx->getDoubleResult(result); } virtual __int64 getSignedResult() { return sharedCtx->getSignedResult(result); } virtual unsigned __int64 getUnsignedResult() { throw MakeStringException(MSGAUD_user, 0, "javaembed: Unsigned results not supported"); // Java doesn't support unsigned } virtual void getStringResult(size32_t &__len, char * &__result) { sharedCtx->getStringResult(result, __len, __result); } virtual void getUTF8Result(size32_t &__chars, char * &__result) { sharedCtx->getUTF8Result(result, __chars, __result); } virtual void getUnicodeResult(size32_t &__chars, UChar * &__result) { sharedCtx->getUnicodeResult(result, __chars, __result); } virtual void getSetResult(bool & __isAllResult, size32_t & __resultBytes, void * & __result, int elemType, size32_t elemSize) { sharedCtx->getSetResult(result, __isAllResult, __resultBytes, __result, elemType, elemSize); } virtual IRowStream *getDatasetResult(IEngineRowAllocator * _resultAllocator) { return new JavaRowStream(result.l, _resultAllocator); } virtual byte * getRowResult(IEngineRowAllocator * _resultAllocator) { RtlDynamicRowBuilder rowBuilder(_resultAllocator); size32_t len = sharedCtx->getRowResult(result.l, rowBuilder); return (byte *) rowBuilder.finalizeRowClear(len); } virtual size32_t getTransformResult(ARowBuilder & builder) { return sharedCtx->getRowResult(result.l, builder); } virtual void bindBooleanParam(const char *name, bool val) { if (*argsig != 'Z') typeError("BOOLEAN"); argsig++; jvalue v; v.z = val; addArg(v); } virtual void bindDataParam(const char *name, size32_t len, const void *val) { if (argsig[0] != '[' || argsig[1] != 'B') typeError("DATA"); argsig += 2; jvalue v; jbyteArray javaData = sharedCtx->JNIenv->NewByteArray(len); sharedCtx->JNIenv->SetByteArrayRegion(javaData, 0, len, (jbyte *) val); v.l = javaData; addArg(v); } virtual void bindFloatParam(const char *name, float val) { // Could argue that the size should match... jvalue v; switch(*argsig) { case 'D': v.d = val; break; case 'F': v.f = val; break; default: typeError("REAL"); break; } argsig++; addArg(v); } virtual void bindRealParam(const char *name, double val) { jvalue v; switch(*argsig) { case 'D': v.d = val; break; case 'F': v.f = val; break; default: typeError("REAL"); break; } argsig++; addArg(v); } virtual void bindSignedSizeParam(const char *name, int size, __int64 val) { bindSignedParam(name, val); } virtual void bindSignedParam(const char *name, __int64 val) { jvalue v; switch(*argsig) { case 'I': v.i = val; break; case 'J': v.j = val; break; case 'S': v.s = val; break; case 'B': v.b = val; break; default: typeError("INTEGER"); break; } argsig++; addArg(v); } virtual void bindUnsignedSizeParam(const char *name, int size, unsigned __int64 val) { bindUnsignedParam(name, val); } virtual void bindUnsignedParam(const char *name, unsigned __int64 val) { throw MakeStringException(MSGAUD_user, 0, "javaembed: Unsigned parameters not supported"); // Java doesn't support unsigned } virtual void bindStringParam(const char *name, size32_t len, const char *val) { jvalue v; switch(*argsig) { case 'C': rtlStrToUnicode(1, &v.c, len, val); argsig++; break; case 'L': if (strncmp(argsig, "Ljava/lang/String;", 18) == 0) { argsig += 18; unsigned unicodeChars; UChar *unicode; rtlStrToUnicodeX(unicodeChars, unicode, len, val); v.l = sharedCtx->JNIenv->NewString(unicode, unicodeChars); rtlFree(unicode); break; } // fall into ... default: typeError("STRING"); break; } addArg(v); } virtual void bindVStringParam(const char *name, const char *val) { bindStringParam(name, strlen(val), val); } virtual void bindUTF8Param(const char *name, size32_t numchars, const char *val) { jvalue v; switch(*argsig) { case 'C': rtlUtf8ToUnicode(1, &v.c, numchars, val); argsig++; break; case 'L': if (strncmp(argsig, "Ljava/lang/String;", 18) == 0) { argsig += 18; unsigned unicodeChars; UChar *unicode; rtlUtf8ToUnicodeX(unicodeChars, unicode, numchars, val); v.l = sharedCtx->JNIenv->NewString(unicode, unicodeChars); rtlFree(unicode); break; } // fall into ... default: typeError("UTF8"); break; } addArg(v); } virtual void bindUnicodeParam(const char *name, size32_t numchars, const UChar *val) { jvalue v; switch(*argsig) { case 'C': rtlUnicodeToUnicode(1, &v.c, numchars, val); argsig++; break; case 'L': if (strncmp(argsig, "Ljava/lang/String;", 18) == 0) { argsig += 18; v.l = sharedCtx->JNIenv->NewString(val, numchars); break; } // fall into ... default: typeError("UNICODE"); break; } addArg(v); } virtual void bindSetParam(const char *name, int _elemType, size32_t elemSize, bool isAll, size32_t totalBytes, const void *setData) { jvalue v; if (*argsig != '[') typeError("SET"); argsig++; type_t elemType = (type_t) _elemType; int numElems = totalBytes / elemSize; switch(*argsig) { case 'Z': checkType(type_boolean, sizeof(jboolean), elemType, elemSize); v.l = sharedCtx->JNIenv->NewBooleanArray(numElems); sharedCtx->JNIenv->SetBooleanArrayRegion((jbooleanArray) v.l, 0, numElems, (jboolean *) setData); break; case 'B': checkType(type_int, sizeof(jbyte), elemType, elemSize); v.l = sharedCtx->JNIenv->NewByteArray(numElems); sharedCtx->JNIenv->SetByteArrayRegion((jbyteArray) v.l, 0, numElems, (jbyte *) setData); break; case 'C': // we COULD map to a set of string1, but is there any point? typeError(""); break; case 'S': checkType(type_int, sizeof(jshort), elemType, elemSize); v.l = sharedCtx->JNIenv->NewShortArray(numElems); sharedCtx->JNIenv->SetShortArrayRegion((jshortArray) v.l, 0, numElems, (jshort *) setData); break; case 'I': checkType(type_int, sizeof(jint), elemType, elemSize); v.l = sharedCtx->JNIenv->NewIntArray(numElems); sharedCtx->JNIenv->SetIntArrayRegion((jintArray) v.l, 0, numElems, (jint *) setData); break; case 'J': checkType(type_int, sizeof(jlong), elemType, elemSize); v.l = sharedCtx->JNIenv->NewLongArray(numElems); sharedCtx->JNIenv->SetLongArrayRegion((jlongArray) v.l, 0, numElems, (jlong *) setData); break; case 'F': checkType(type_real, sizeof(jfloat), elemType, elemSize); v.l = sharedCtx->JNIenv->NewFloatArray(numElems); sharedCtx->JNIenv->SetFloatArrayRegion((jfloatArray) v.l, 0, numElems, (jfloat *) setData); break; case 'D': checkType(type_real, sizeof(jdouble), elemType, elemSize); v.l = sharedCtx->JNIenv->NewDoubleArray(numElems); sharedCtx->JNIenv->SetDoubleArrayRegion((jdoubleArray) v.l, 0, numElems, (jdouble *) setData); break; case 'L': if (strncmp(argsig, "Ljava/lang/String;", 18) == 0) { argsig += 17; // Yes, 17, because we increment again at the end of the case const byte *inData = (const byte *) setData; const byte *endData = inData + totalBytes; if (elemSize == UNKNOWN_LENGTH) { numElems = 0; // Will need 2 passes to work out how many elements there are in the set :( while (inData < endData) { int thisSize; switch (elemType) { case type_varstring: thisSize = strlen((const char *) inData) + 1; break; case type_string: thisSize = * (size32_t *) inData + sizeof(size32_t); break; case type_unicode: thisSize = (* (size32_t *) inData) * sizeof(UChar) + sizeof(size32_t); break; case type_utf8: thisSize = rtlUtf8Size(* (size32_t *) inData, inData + sizeof(size32_t)) + sizeof(size32_t);; break; default: typeError("STRING"); } inData += thisSize; numElems++; } inData = (const byte *) setData; } int idx = 0; v.l = sharedCtx->JNIenv->NewObjectArray(numElems, sharedCtx->JNIenv->FindClass("java/lang/String"), NULL); while (inData < endData) { jstring thisElem; size32_t thisSize = elemSize; switch (elemType) { case type_varstring: { size32_t numChars = strlen((const char *) inData); unsigned unicodeChars; rtlDataAttr unicode; rtlStrToUnicodeX(unicodeChars, unicode.refustr(), numChars, (const char *) inData); thisElem = sharedCtx->JNIenv->NewString(unicode.getustr(), unicodeChars); if (elemSize == UNKNOWN_LENGTH) thisSize = numChars + 1; break; } case type_string: { if (elemSize == UNKNOWN_LENGTH) { thisSize = * (size32_t *) inData; inData += sizeof(size32_t); } unsigned unicodeChars; rtlDataAttr unicode; rtlStrToUnicodeX(unicodeChars, unicode.refustr(), thisSize, (const char *) inData); thisElem = sharedCtx->JNIenv->NewString(unicode.getustr(), unicodeChars); break; } case type_unicode: { if (elemSize == UNKNOWN_LENGTH) { thisSize = (* (size32_t *) inData) * sizeof(UChar); // NOTE - it's in chars... inData += sizeof(size32_t); } thisElem = sharedCtx->JNIenv->NewString((const UChar *) inData, thisSize / sizeof(UChar)); //checkJPythonError(); break; } case type_utf8: { assertex (elemSize == UNKNOWN_LENGTH); size32_t numChars = * (size32_t *) inData; inData += sizeof(size32_t); unsigned unicodeChars; rtlDataAttr unicode; rtlUtf8ToUnicodeX(unicodeChars, unicode.refustr(), numChars, (const char *) inData); thisElem = sharedCtx->JNIenv->NewString(unicode.getustr(), unicodeChars); thisSize = rtlUtf8Size(numChars, inData); break; } default: typeError("STRING"); } sharedCtx->checkException(); inData += thisSize; sharedCtx->JNIenv->SetObjectArrayElement((jobjectArray) v.l, idx, thisElem); sharedCtx->JNIenv->DeleteLocalRef(thisElem); idx++; } } else typeError(""); break; default: throwUnexpected(); } argsig++; addArg(v); } virtual void bindRowParam(const char *name, IOutputMetaData & metaVal, byte *val) { if (*argsig != 'L') // should tell us the type of the object we need to create to pass in typeError("RECORD"); // Class name is from the char after the L up to the first ; const char *tail = strchr(argsig, ';'); if (!tail) typeError("RECORD"); StringAttr className(argsig+1, tail - (argsig+1)); argsig = tail+1; const RtlTypeInfo *typeInfo = metaVal.queryTypeInfo(); assertex(typeInfo); RtlFieldStrInfo dummyField("", NULL, typeInfo); JavaObjectBuilder javaBuilder(sharedCtx->JNIenv, &dummyField, className); typeInfo->process(val, val, &dummyField, javaBuilder); // Creates a java object from the incoming ECL row jvalue v; v.l = javaBuilder.getObject(); addArg(v); } virtual IInterface *bindParamWriter(IInterface *esdl, const char *esdlservice, const char *esdltype, const char *name) { if (*argsig != 'L') // should tell us the type of the object we need to create to pass in typeError("OBJECT"); // Class name is from the char after the L up to the first ; const char *tail = strchr(argsig, ';'); if (!tail) typeError("OBJECT"); StringAttr className(argsig+1, tail - (argsig+1)); argsig = tail+1; Owned writer = new JavaXmlBuilder(sharedCtx->JNIenv, dynamic_cast(esdl), esdlservice, esdltype); writer->initWriter(); return (IXmlWriter*)writer.getClear(); } virtual void paramWriterCommit(IInterface *writer) { JavaXmlBuilder *javaWriter = dynamic_cast(writer); if (!javaWriter) throw MakeStringException(0, "javaembed: Invalid object writer for %s", sharedCtx->querySignature()); jvalue v; v.l = javaWriter->getObject(); addArg(v); } virtual void bindDatasetParam(const char *name, IOutputMetaData & metaVal, IRowStream * val) { jvalue v; char argsigStart = *argsig; switch (argsigStart) { case '[': case '<': ++argsig; break; case 'L': if (strncmp(argsig, "Ljava/util/Iterator<", 20) == 0) { argsig += 20; break; } /* no break */ default: typeError("DATASET"); } if (*argsig != 'L') // should tell us the type of the object we need to create to pass in typeError("DATASET"); // Class name is from the char after the L up to the first ; const char *tail = strchr(argsig, ';'); if (!tail) typeError("RECORD"); StringAttr className(argsig+1, tail - (argsig+1)); argsig = tail+1; if (argsigStart=='L') { if (argsig[0] != '>' || argsig[1] != ';') typeError("DATASET"); argsig += 2; } if (argsigStart=='[') { // Pass in an array of objects PointerArrayOf<_jobject> allRows; const RtlTypeInfo *typeInfo = metaVal.queryTypeInfo(); assertex(typeInfo); RtlFieldStrInfo dummyField("", NULL, typeInfo); JavaObjectBuilder javaBuilder(sharedCtx->JNIenv, &dummyField, className); for (;;) { roxiemem::OwnedConstRoxieRow thisRow = val->ungroupedNextRow(); if (!thisRow) break; const byte *brow = (const byte *) thisRow.get(); typeInfo->process(brow, brow, &dummyField, javaBuilder); // Creates a java object from the incoming ECL row allRows.append(javaBuilder.getObject()); } jobjectArray array = sharedCtx->JNIenv->NewObjectArray(allRows.length(), sharedCtx->JNIenv->FindClass(className), NULL); ForEachItemIn(idx, allRows) { sharedCtx->JNIenv->SetObjectArrayElement(array, idx, allRows.item(idx)); } v.l = array; } else { // Pass in an iterator // Create a java object of type com.HPCCSystems.HpccUtils - this acts as a proxy for the iterator sharedCtx->JNIenv->ExceptionClear(); jclass proxyClass = sharedCtx->JNIenv->FindClass("com/HPCCSystems/HpccUtils"); sharedCtx->checkException(); jmethodID constructor = sharedCtx->JNIenv->GetMethodID(proxyClass, "", "(JLjava/lang/String;)V"); sharedCtx->checkException(); jvalue param; const RtlTypeInfo *typeInfo = metaVal.queryTypeInfo(); ECLDatasetIterator *iterator = new ECLDatasetIterator(sharedCtx->JNIenv, typeInfo, className, val); param.j = (jlong) iterator; iterators.append(*iterator); jobject proxy = sharedCtx->JNIenv->NewObject(proxyClass, constructor, param, sharedCtx->JNIenv->NewStringUTF(helperLibraryName)); sharedCtx->checkException(); v.l = proxy; } addArg(v); } virtual void writeResult(IInterface *esdl, const char *esdlservice, const char *esdltype, IInterface *writer) { return sharedCtx->writeObjectResult(result.l, dynamic_cast(esdl), esdlservice, esdltype, dynamic_cast(writer)); } virtual void importFunction(size32_t lenChars, const char *utf) { sharedCtx->importFunction(lenChars, utf, classpath, instance); argsig = sharedCtx->querySignature(); assertex(*argsig == '('); argsig++; } virtual void callFunction() { if (*argsig != ')') throw MakeStringException(0, "javaembed: Too few ECL parameters passed for Java signature %s", sharedCtx->querySignature()); if (instance) sharedCtx->callFunction(result, args, instance); else sharedCtx->callFunction(result, args); } virtual void compileEmbeddedScript(size32_t lenChars, const char *script) { throwUnexpected(); // The java language helper supports only imported functions, not embedding java code in ECL. } protected: JavaThreadContext *sharedCtx; jvalue result; StringAttr classpath; IArrayOf iterators; // to make sure they get freed jobject instance; //instance of service object to call methods on private: void typeError(const char *ECLtype) __attribute__((noreturn)) { const char *javaType; int javaLen = 0; switch (*argsig) { case 'Z': javaType = "boolean"; break; case 'B': javaType = "byte"; break; case 'C': javaType = "char"; break; case 'S': javaType = "short"; break; case 'I': javaType = "int"; break; case 'J': javaType = "long"; break; case 'F': javaType = "float"; break; case 'D': javaType = "double"; break; case '[': javaType = "array"; break; case 'L': { javaType = argsig+1; const char *semi = strchr(argsig, ';'); if (semi) javaLen = semi - javaType; break; } case ')': throw MakeStringException(0, "javaembed: Too many ECL parameters passed for Java signature %s", sharedCtx->querySignature()); default: throw MakeStringException(0, "javaembed: Unrecognized character %c in java signature %s", *argsig, sharedCtx->querySignature()); } if (!javaLen) javaLen = strlen(argsig); throw MakeStringException(0, "javaembed: ECL type %s cannot be passed to Java type %.*s", ECLtype, javaLen, javaType); } void addArg(jvalue &arg) { assertex(argcount < MAX_JNI_ARGS); args[argcount] = arg; argcount++; } jvalue args[MAX_JNI_ARGS]; int argcount; const char *argsig; }; static __thread JavaThreadContext* threadContext; // We reuse per thread, for speed static __thread ThreadTermFunc threadHookChain; static void releaseContext() { if (threadContext) { delete threadContext; threadContext = NULL; } if (threadHookChain) { (*threadHookChain)(); threadHookChain = NULL; } } static JavaThreadContext *queryContext() { if (!threadContext) { threadContext = new JavaThreadContext; threadHookChain = addThreadTermFunc(releaseContext); } return threadContext; } static JNIEnv *queryJNIEnv() { return queryContext()->JNIenv; } class JavaEmbedServiceContext : public CInterfaceOf { public: JavaEmbedServiceContext(JavaThreadContext *_sharedCtx, const char *service, const char *_options) : sharedCtx(_sharedCtx), Class(0), options(_options), className(service), object(0) { StringArray opts; opts.appendList(options, ","); ForEachItemIn(idx, opts) { const char *opt = opts.item(idx); const char *val = strchr(opt, '='); if (val) { StringBuffer optName(val-opt, opt); val++; if (stricmp(optName, "classpath")==0) classpath.set(val); else throw MakeStringException(0, "javaembed: Unknown option %s", optName.str()); } } // Create a new frame for local references and increase the capacity // of those references to 64 (default is 16) sharedCtx->JNIenv->PushLocalFrame(64); } ~JavaEmbedServiceContext() { if (object) sharedCtx->JNIenv->DeleteGlobalRef(object); if (Class) sharedCtx->JNIenv->DeleteGlobalRef(Class); // Pop local reference frame; explicitly frees all local // references made during that frame's lifetime sharedCtx->JNIenv->PopLocalFrame(NULL); } void init() { jobject classLoader = sharedCtx->getThreadClassLoader(); checkException(); jmethodID loadClassMethod = sharedCtx->JNIenv->GetMethodID(sharedCtx->JNIenv->GetObjectClass(classLoader), "loadClass","(Ljava/lang/String;)Ljava/lang/Class;"); checkException(); jstring methodString = sharedCtx->JNIenv->NewStringUTF(className); checkException(); Class = (jclass) sharedCtx->JNIenv->NewGlobalRef(sharedCtx->JNIenv->CallObjectMethod(classLoader, loadClassMethod, methodString)); checkException(); jmethodID constructor = sharedCtx->JNIenv->GetMethodID(Class, "", "()V"); checkException(); object = sharedCtx->JNIenv->NewGlobalRef(sharedCtx->JNIenv->NewObject(Class, constructor)); checkException(); } virtual IEmbedFunctionContext *createFunctionContext(const char *function) { if (!object) return NULL; Owned fctx = new JavaEmbedImportContext(queryContext(), object, options); fctx->importFunction(rtlUtf8Length(strlen(function), function), function); return fctx.getClear(); } void checkException() { javaembed::checkException(sharedCtx->JNIenv, false); } protected: JavaThreadContext *sharedCtx; StringBuffer className; jclass Class; jobject object; StringAttr classpath; StringAttr options; }; class JavaEmbedContext : public CInterfaceOf { public: virtual IEmbedFunctionContext *createFunctionContext(unsigned flags, const char *options) { return createFunctionContextEx(NULL, flags, options); } virtual IEmbedFunctionContext *createFunctionContextEx(ICodeContext * ctx, unsigned flags, const char *options) { assertex(flags & EFimport); return new JavaEmbedImportContext(queryContext(), NULL, options); } virtual IEmbedServiceContext *createServiceContext(const char *service, unsigned flags, const char *options) { Owned serviceContext = new JavaEmbedServiceContext(queryContext(), service, options); serviceContext->init(); return serviceContext.getClear(); } }; extern IEmbedContext* getEmbedContext() { return new JavaEmbedContext; } } // namespace // Callbacks from java extern "C" { JNIEXPORT jboolean JNICALL Java_com_HPCCSystems_HpccUtils__1hasNext (JNIEnv *, jclass, jlong); JNIEXPORT jobject JNICALL Java_com_HPCCSystems_HpccUtils__1next (JNIEnv *, jclass, jlong); } JNIEXPORT jboolean JNICALL Java_com_HPCCSystems_HpccUtils__1hasNext (JNIEnv *JNIenv, jclass, jlong proxy) { try { javaembed::ECLDatasetIterator *e = (javaembed::ECLDatasetIterator *) proxy; return e->hasNext(); } catch (IException *E) { StringBuffer msg; E->errorMessage(msg); E->Release(); jclass eClass = JNIenv->FindClass("java/lang/IllegalArgumentException"); if (eClass) JNIenv->ThrowNew(eClass, msg.str()); return false; } } JNIEXPORT jobject JNICALL Java_com_HPCCSystems_HpccUtils__1next (JNIEnv *JNIenv, jclass, jlong proxy) { try { javaembed::ECLDatasetIterator *e = (javaembed::ECLDatasetIterator *) proxy; return e->next(); } catch (IException *E) { StringBuffer msg; E->errorMessage(msg); E->Release(); jclass eClass = JNIenv->FindClass("java/lang/IllegalArgumentException"); if (eClass) JNIenv->ThrowNew(eClass, msg.str()); return NULL; } } // Used for dynamically loading in ESDL extern "C" EXPORT IEmbedContext *getEmbedContextDynamic() { return javaembed::getEmbedContext(); }