rocksdb/java/rocksjni/comparatorjnicallback.cc
Adam Retter 560e984995 Added CompactionFilterFactory support to RocksJava
Summary:
This PR also includes some cleanup, bugfixes and refactoring of the Java API. However these are really pre-cursors on the road to CompactionFilterFactory support.
Closes https://github.com/facebook/rocksdb/pull/1241

Differential Revision: D6012778

Pulled By: sagar0

fbshipit-source-id: 0774465940ee99001a78906e4fed4ef57068ad5c
2017-10-12 11:12:16 -07:00

341 lines
9.7 KiB
C++

// Copyright (c) 2011-present, Facebook, Inc. All rights reserved.
// This source code is licensed under both the GPLv2 (found in the
// COPYING file in the root directory) and Apache 2.0 License
// (found in the LICENSE.Apache file in the root directory).
//
// This file implements the callback "bridge" between Java and C++ for
// rocksdb::Comparator.
#include "rocksjni/comparatorjnicallback.h"
#include "rocksjni/portal.h"
namespace rocksdb {
BaseComparatorJniCallback::BaseComparatorJniCallback(
JNIEnv* env, jobject jComparator,
const ComparatorJniCallbackOptions* copt)
: JniCallback(env, jComparator),
mtx_compare(new port::Mutex(copt->use_adaptive_mutex)),
mtx_findShortestSeparator(new port::Mutex(copt->use_adaptive_mutex)) {
// Note: The name of a Comparator will not change during it's lifetime,
// so we cache it in a global var
jmethodID jNameMethodId = AbstractComparatorJni::getNameMethodId(env);
if(jNameMethodId == nullptr) {
// exception thrown: NoSuchMethodException or OutOfMemoryError
return;
}
jstring jsName = (jstring)env->CallObjectMethod(m_jcallback_obj, jNameMethodId);
if(env->ExceptionCheck()) {
// exception thrown
return;
}
jboolean has_exception = JNI_FALSE;
m_name = JniUtil::copyString(env, jsName,
&has_exception); // also releases jsName
if (has_exception == JNI_TRUE) {
// exception thrown
return;
}
m_jCompareMethodId = AbstractComparatorJni::getCompareMethodId(env);
if(m_jCompareMethodId == nullptr) {
// exception thrown: NoSuchMethodException or OutOfMemoryError
return;
}
m_jFindShortestSeparatorMethodId =
AbstractComparatorJni::getFindShortestSeparatorMethodId(env);
if(m_jFindShortestSeparatorMethodId == nullptr) {
// exception thrown: NoSuchMethodException or OutOfMemoryError
return;
}
m_jFindShortSuccessorMethodId =
AbstractComparatorJni::getFindShortSuccessorMethodId(env);
if(m_jFindShortSuccessorMethodId == nullptr) {
// exception thrown: NoSuchMethodException or OutOfMemoryError
return;
}
}
const char* BaseComparatorJniCallback::Name() const {
return m_name.get();
}
int BaseComparatorJniCallback::Compare(const Slice& a, const Slice& b) const {
jboolean attached_thread = JNI_FALSE;
JNIEnv* env = getJniEnv(&attached_thread);
assert(env != nullptr);
// TODO(adamretter): slice objects can potentially be cached using thread
// local variables to avoid locking. Could make this configurable depending on
// performance.
mtx_compare.get()->Lock();
bool pending_exception =
AbstractSliceJni::setHandle(env, m_jSliceA, &a, JNI_FALSE);
if(pending_exception) {
if(env->ExceptionCheck()) {
// exception thrown from setHandle or descendant
env->ExceptionDescribe(); // print out exception to stderr
}
releaseJniEnv(attached_thread);
return 0;
}
pending_exception =
AbstractSliceJni::setHandle(env, m_jSliceB, &b, JNI_FALSE);
if(pending_exception) {
if(env->ExceptionCheck()) {
// exception thrown from setHandle or descendant
env->ExceptionDescribe(); // print out exception to stderr
}
releaseJniEnv(attached_thread);
return 0;
}
jint result =
env->CallIntMethod(m_jcallback_obj, m_jCompareMethodId, m_jSliceA,
m_jSliceB);
mtx_compare.get()->Unlock();
if(env->ExceptionCheck()) {
// exception thrown from CallIntMethod
env->ExceptionDescribe(); // print out exception to stderr
result = 0; // we could not get a result from java callback so use 0
}
releaseJniEnv(attached_thread);
return result;
}
void BaseComparatorJniCallback::FindShortestSeparator(
std::string* start, const Slice& limit) const {
if (start == nullptr) {
return;
}
jboolean attached_thread = JNI_FALSE;
JNIEnv* env = getJniEnv(&attached_thread);
assert(env != nullptr);
const char* startUtf = start->c_str();
jstring jsStart = env->NewStringUTF(startUtf);
if(jsStart == nullptr) {
// unable to construct string
if(env->ExceptionCheck()) {
env->ExceptionDescribe(); // print out exception to stderr
}
releaseJniEnv(attached_thread);
return;
}
if(env->ExceptionCheck()) {
// exception thrown: OutOfMemoryError
env->ExceptionDescribe(); // print out exception to stderr
env->DeleteLocalRef(jsStart);
releaseJniEnv(attached_thread);
return;
}
// TODO(adamretter): slice object can potentially be cached using thread local
// variable to avoid locking. Could make this configurable depending on
// performance.
mtx_findShortestSeparator.get()->Lock();
bool pending_exception =
AbstractSliceJni::setHandle(env, m_jSliceLimit, &limit, JNI_FALSE);
if(pending_exception) {
if(env->ExceptionCheck()) {
// exception thrown from setHandle or descendant
env->ExceptionDescribe(); // print out exception to stderr
}
if(jsStart != nullptr) {
env->DeleteLocalRef(jsStart);
}
releaseJniEnv(attached_thread);
return;
}
jstring jsResultStart =
(jstring)env->CallObjectMethod(m_jcallback_obj,
m_jFindShortestSeparatorMethodId, jsStart, m_jSliceLimit);
mtx_findShortestSeparator.get()->Unlock();
if(env->ExceptionCheck()) {
// exception thrown from CallObjectMethod
env->ExceptionDescribe(); // print out exception to stderr
env->DeleteLocalRef(jsStart);
releaseJniEnv(attached_thread);
return;
}
env->DeleteLocalRef(jsStart);
if (jsResultStart != nullptr) {
// update start with result
jboolean has_exception = JNI_FALSE;
std::unique_ptr<const char[]> result_start = JniUtil::copyString(env, jsResultStart,
&has_exception); // also releases jsResultStart
if (has_exception == JNI_TRUE) {
if (env->ExceptionCheck()) {
env->ExceptionDescribe(); // print out exception to stderr
}
releaseJniEnv(attached_thread);
return;
}
start->assign(result_start.get());
}
releaseJniEnv(attached_thread);
}
void BaseComparatorJniCallback::FindShortSuccessor(
std::string* key) const {
if (key == nullptr) {
return;
}
jboolean attached_thread = JNI_FALSE;
JNIEnv* env = getJniEnv(&attached_thread);
assert(env != nullptr);
const char* keyUtf = key->c_str();
jstring jsKey = env->NewStringUTF(keyUtf);
if(jsKey == nullptr) {
// unable to construct string
if(env->ExceptionCheck()) {
env->ExceptionDescribe(); // print out exception to stderr
}
releaseJniEnv(attached_thread);
return;
} else if(env->ExceptionCheck()) {
// exception thrown: OutOfMemoryError
env->ExceptionDescribe(); // print out exception to stderr
env->DeleteLocalRef(jsKey);
releaseJniEnv(attached_thread);
return;
}
jstring jsResultKey =
(jstring)env->CallObjectMethod(m_jcallback_obj,
m_jFindShortSuccessorMethodId, jsKey);
if(env->ExceptionCheck()) {
// exception thrown from CallObjectMethod
env->ExceptionDescribe(); // print out exception to stderr
env->DeleteLocalRef(jsKey);
releaseJniEnv(attached_thread);
return;
}
env->DeleteLocalRef(jsKey);
if (jsResultKey != nullptr) {
// updates key with result, also releases jsResultKey.
jboolean has_exception = JNI_FALSE;
std::unique_ptr<const char[]> result_key = JniUtil::copyString(env, jsResultKey,
&has_exception); // also releases jsResultKey
if (has_exception == JNI_TRUE) {
if (env->ExceptionCheck()) {
env->ExceptionDescribe(); // print out exception to stderr
}
releaseJniEnv(attached_thread);
return;
}
key->assign(result_key.get());
}
releaseJniEnv(attached_thread);
}
ComparatorJniCallback::ComparatorJniCallback(
JNIEnv* env, jobject jComparator,
const ComparatorJniCallbackOptions* copt) :
BaseComparatorJniCallback(env, jComparator, copt) {
m_jSliceA = env->NewGlobalRef(SliceJni::construct0(env));
if(m_jSliceA == nullptr) {
// exception thrown: OutOfMemoryError
return;
}
m_jSliceB = env->NewGlobalRef(SliceJni::construct0(env));
if(m_jSliceB == nullptr) {
// exception thrown: OutOfMemoryError
return;
}
m_jSliceLimit = env->NewGlobalRef(SliceJni::construct0(env));
if(m_jSliceLimit == nullptr) {
// exception thrown: OutOfMemoryError
return;
}
}
ComparatorJniCallback::~ComparatorJniCallback() {
jboolean attached_thread = JNI_FALSE;
JNIEnv* env = getJniEnv(&attached_thread);
assert(env != nullptr);
if(m_jSliceA != nullptr) {
env->DeleteGlobalRef(m_jSliceA);
}
if(m_jSliceB != nullptr) {
env->DeleteGlobalRef(m_jSliceB);
}
if(m_jSliceLimit != nullptr) {
env->DeleteGlobalRef(m_jSliceLimit);
}
releaseJniEnv(attached_thread);
}
DirectComparatorJniCallback::DirectComparatorJniCallback(
JNIEnv* env, jobject jComparator,
const ComparatorJniCallbackOptions* copt) :
BaseComparatorJniCallback(env, jComparator, copt) {
m_jSliceA = env->NewGlobalRef(DirectSliceJni::construct0(env));
if(m_jSliceA == nullptr) {
// exception thrown: OutOfMemoryError
return;
}
m_jSliceB = env->NewGlobalRef(DirectSliceJni::construct0(env));
if(m_jSliceB == nullptr) {
// exception thrown: OutOfMemoryError
return;
}
m_jSliceLimit = env->NewGlobalRef(DirectSliceJni::construct0(env));
if(m_jSliceLimit == nullptr) {
// exception thrown: OutOfMemoryError
return;
}
}
DirectComparatorJniCallback::~DirectComparatorJniCallback() {
jboolean attached_thread = JNI_FALSE;
JNIEnv* env = getJniEnv(&attached_thread);
assert(env != nullptr);
if(m_jSliceA != nullptr) {
env->DeleteGlobalRef(m_jSliceA);
}
if(m_jSliceB != nullptr) {
env->DeleteGlobalRef(m_jSliceB);
}
if(m_jSliceLimit != nullptr) {
env->DeleteGlobalRef(m_jSliceLimit);
}
releaseJniEnv(attached_thread);
}
} // namespace rocksdb