diff options
Diffstat (limited to 'qpid/cpp/src/qmf/engine')
26 files changed, 6366 insertions, 0 deletions
diff --git a/qpid/cpp/src/qmf/engine/Agent.cpp b/qpid/cpp/src/qmf/engine/Agent.cpp new file mode 100644 index 0000000000..1f08dded94 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/Agent.cpp @@ -0,0 +1,915 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/Agent.h" +#include "qmf/engine/MessageImpl.h" +#include "qmf/engine/SchemaImpl.h" +#include "qmf/engine/Typecode.h" +#include "qmf/engine/EventImpl.h" +#include "qmf/engine/ObjectImpl.h" +#include "qmf/engine/ObjectIdImpl.h" +#include "qmf/engine/QueryImpl.h" +#include "qmf/engine/ValueImpl.h" +#include "qmf/engine/Protocol.h" +#include <qpid/framing/Buffer.h> +#include <qpid/framing/Uuid.h> +#include <qpid/framing/FieldTable.h> +#include <qpid/framing/FieldValue.h> +#include <qpid/sys/Mutex.h> +#include <qpid/log/Statement.h> +#include <qpid/sys/Time.h> +#include <string.h> +#include <string> +#include <deque> +#include <map> +#include <iostream> +#include <fstream> +#include <boost/shared_ptr.hpp> +#include <boost/noncopyable.hpp> + +using namespace std; +using namespace qmf::engine; +using namespace qpid::framing; +using namespace qpid::sys; + +namespace qmf { +namespace engine { + + struct AgentEventImpl { + typedef boost::shared_ptr<AgentEventImpl> Ptr; + AgentEvent::EventKind kind; + uint32_t sequence; + string authUserId; + string authToken; + string name; + Object* object; + boost::shared_ptr<ObjectId> objectId; + boost::shared_ptr<Query> query; + boost::shared_ptr<Value> arguments; + string exchange; + string bindingKey; + const SchemaObjectClass* objectClass; + + AgentEventImpl(AgentEvent::EventKind k) : + kind(k), sequence(0), object(0), objectClass(0) {} + ~AgentEventImpl() {} + AgentEvent copy(); + }; + + struct AgentQueryContext { + typedef boost::shared_ptr<AgentQueryContext> Ptr; + uint32_t sequence; + string exchange; + string key; + const SchemaMethod* schemaMethod; + AgentQueryContext() : schemaMethod(0) {} + }; + + class AgentImpl : public boost::noncopyable { + public: + AgentImpl(char* label, bool internalStore); + ~AgentImpl(); + + void setStoreDir(const char* path); + void setTransferDir(const char* path); + void handleRcvMessage(Message& message); + bool getXmtMessage(Message& item) const; + void popXmt(); + bool getEvent(AgentEvent& event) const; + void popEvent(); + void newSession(); + void startProtocol(); + void heartbeat(); + void methodResponse(uint32_t sequence, uint32_t status, char* text, const Value& arguments); + void queryResponse(uint32_t sequence, Object& object, bool prop, bool stat); + void queryComplete(uint32_t sequence); + void registerClass(SchemaObjectClass* cls); + void registerClass(SchemaEventClass* cls); + const ObjectId* addObject(Object& obj, uint64_t persistId); + const ObjectId* allocObjectId(uint64_t persistId); + const ObjectId* allocObjectId(uint32_t persistIdLo, uint32_t persistIdHi); + void raiseEvent(Event& event); + + private: + mutable Mutex lock; + Mutex addLock; + string label; + string queueName; + string storeDir; + string transferDir; + bool internalStore; + uint64_t nextTransientId; + Uuid systemId; + uint32_t requestedBrokerBank; + uint32_t requestedAgentBank; + uint32_t assignedBrokerBank; + uint32_t assignedAgentBank; + AgentAttachment attachment; + uint16_t bootSequence; + uint64_t nextObjectId; + uint32_t nextContextNum; + deque<AgentEventImpl::Ptr> eventQueue; + deque<MessageImpl::Ptr> xmtQueue; + map<uint32_t, AgentQueryContext::Ptr> contextMap; + bool attachComplete; + + static const char* QMF_EXCHANGE; + static const char* DIR_EXCHANGE; + static const char* BROKER_KEY; + static const uint32_t MERR_UNKNOWN_METHOD = 2; + static const uint32_t MERR_UNKNOWN_PACKAGE = 8; + static const uint32_t MERR_UNKNOWN_CLASS = 9; + static const uint32_t MERR_INTERNAL_ERROR = 10; +# define MA_BUFFER_SIZE 65536 + char outputBuffer[MA_BUFFER_SIZE]; + + struct AgentClassKey { + string name; + uint8_t hash[16]; + AgentClassKey(const string& n, const uint8_t* h) : name(n) { + memcpy(hash, h, 16); + } + AgentClassKey(Buffer& buffer) { + buffer.getShortString(name); + buffer.getBin128(hash); + } + string repr() { + return name; + } + }; + + struct AgentClassKeyComp { + bool operator() (const AgentClassKey& lhs, const AgentClassKey& rhs) const + { + if (lhs.name != rhs.name) + return lhs.name < rhs.name; + else + for (int i = 0; i < 16; i++) + if (lhs.hash[i] != rhs.hash[i]) + return lhs.hash[i] < rhs.hash[i]; + return false; + } + }; + + typedef map<AgentClassKey, SchemaObjectClass*, AgentClassKeyComp> ObjectClassMap; + typedef map<AgentClassKey, SchemaEventClass*, AgentClassKeyComp> EventClassMap; + + struct ClassMaps { + ObjectClassMap objectClasses; + EventClassMap eventClasses; + }; + + map<string, ClassMaps> packages; + + AgentEventImpl::Ptr eventDeclareQueue(const string& queueName); + AgentEventImpl::Ptr eventBind(const string& exchange, const string& queue, const string& key); + AgentEventImpl::Ptr eventSetupComplete(); + AgentEventImpl::Ptr eventQuery(uint32_t num, const string& userId, const string& package, const string& cls, + boost::shared_ptr<ObjectId> oid); + AgentEventImpl::Ptr eventMethod(uint32_t num, const string& userId, const string& method, + boost::shared_ptr<ObjectId> oid, boost::shared_ptr<Value> argMap, + const SchemaObjectClass* objectClass); + void sendBufferLH(Buffer& buf, const string& destination, const string& routingKey); + + void sendPackageIndicationLH(const string& packageName); + void sendClassIndicationLH(ClassKind kind, const string& packageName, const AgentClassKey& key); + void sendCommandCompleteLH(const string& exchange, const string& key, uint32_t seq, + uint32_t code = 0, const string& text = "OK"); + void sendMethodErrorLH(uint32_t sequence, const string& key, uint32_t code, const string& text=""); + void handleAttachResponse(Buffer& inBuffer); + void handlePackageRequest(Buffer& inBuffer); + void handleClassQuery(Buffer& inBuffer); + void handleSchemaRequest(Buffer& inBuffer, uint32_t sequence, + const string& replyToExchange, const string& replyToKey); + void handleGetQuery(Buffer& inBuffer, uint32_t sequence, const string& replyTo, const string& userId); + void handleMethodRequest(Buffer& inBuffer, uint32_t sequence, const string& replyTo, const string& userId); + void handleConsoleAddedIndication(); + }; +} +} + +const char* AgentImpl::QMF_EXCHANGE = "qpid.management"; +const char* AgentImpl::DIR_EXCHANGE = "amq.direct"; +const char* AgentImpl::BROKER_KEY = "broker"; + +#define STRING_REF(s) {if (!s.empty()) item.s = const_cast<char*>(s.c_str());} + +AgentEvent AgentEventImpl::copy() +{ + AgentEvent item; + + ::memset(&item, 0, sizeof(AgentEvent)); + item.kind = kind; + item.sequence = sequence; + item.object = object; + item.objectId = objectId.get(); + item.query = query.get(); + item.arguments = arguments.get(); + item.objectClass = objectClass; + + STRING_REF(authUserId); + STRING_REF(authToken); + STRING_REF(name); + STRING_REF(exchange); + STRING_REF(bindingKey); + + return item; +} + +AgentImpl::AgentImpl(char* _label, bool i) : + label(_label), queueName("qmfa-"), internalStore(i), nextTransientId(1), + requestedBrokerBank(0), requestedAgentBank(0), + assignedBrokerBank(0), assignedAgentBank(0), + bootSequence(1), nextObjectId(1), nextContextNum(1), attachComplete(false) +{ + queueName += Uuid(true).str(); +} + +AgentImpl::~AgentImpl() +{ +} + +void AgentImpl::setStoreDir(const char* path) +{ + Mutex::ScopedLock _lock(lock); + if (path) + storeDir = path; + else + storeDir.clear(); +} + +void AgentImpl::setTransferDir(const char* path) +{ + Mutex::ScopedLock _lock(lock); + if (path) + transferDir = path; + else + transferDir.clear(); +} + +void AgentImpl::handleRcvMessage(Message& message) +{ + Buffer inBuffer(message.body, message.length); + uint8_t opcode; + uint32_t sequence; + string replyToExchange(message.replyExchange ? message.replyExchange : ""); + string replyToKey(message.replyKey ? message.replyKey : ""); + string userId(message.userId ? message.userId : ""); + + while (Protocol::checkHeader(inBuffer, &opcode, &sequence)) { + if (opcode == Protocol::OP_ATTACH_RESPONSE) handleAttachResponse(inBuffer); + else if (opcode == Protocol::OP_SCHEMA_REQUEST) handleSchemaRequest(inBuffer, sequence, replyToExchange, replyToKey); + else if (opcode == Protocol::OP_CONSOLE_ADDED_INDICATION) handleConsoleAddedIndication(); + else if (opcode == Protocol::OP_GET_QUERY) handleGetQuery(inBuffer, sequence, replyToKey, userId); + else if (opcode == Protocol::OP_METHOD_REQUEST) handleMethodRequest(inBuffer, sequence, replyToKey, userId); + else { + QPID_LOG(error, "AgentImpl::handleRcvMessage invalid opcode=" << opcode); + break; + } + } +} + +bool AgentImpl::getXmtMessage(Message& item) const +{ + Mutex::ScopedLock _lock(lock); + if (xmtQueue.empty()) + return false; + item = xmtQueue.front()->copy(); + return true; +} + +void AgentImpl::popXmt() +{ + Mutex::ScopedLock _lock(lock); + if (!xmtQueue.empty()) + xmtQueue.pop_front(); +} + +bool AgentImpl::getEvent(AgentEvent& event) const +{ + Mutex::ScopedLock _lock(lock); + if (eventQueue.empty()) + return false; + event = eventQueue.front()->copy(); + return true; +} + +void AgentImpl::popEvent() +{ + Mutex::ScopedLock _lock(lock); + if (!eventQueue.empty()) + eventQueue.pop_front(); +} + +void AgentImpl::newSession() +{ + Mutex::ScopedLock _lock(lock); + eventQueue.clear(); + xmtQueue.clear(); + eventQueue.push_back(eventDeclareQueue(queueName)); + eventQueue.push_back(eventBind("amq.direct", queueName, queueName)); + eventQueue.push_back(eventSetupComplete()); +} + +void AgentImpl::startProtocol() +{ + Mutex::ScopedLock _lock(lock); + char rawbuffer[512]; + Buffer buffer(rawbuffer, 512); + + Protocol::encodeHeader(buffer, Protocol::OP_ATTACH_REQUEST); + buffer.putShortString(label); + systemId.encode(buffer); + buffer.putLong(requestedBrokerBank); + buffer.putLong(requestedAgentBank); + sendBufferLH(buffer, QMF_EXCHANGE, BROKER_KEY); + QPID_LOG(trace, "SENT AttachRequest: reqBroker=" << requestedBrokerBank << + " reqAgent=" << requestedAgentBank); +} + +void AgentImpl::heartbeat() +{ + Mutex::ScopedLock _lock(lock); + Buffer buffer(outputBuffer, MA_BUFFER_SIZE); + + Protocol::encodeHeader(buffer, Protocol::OP_HEARTBEAT_INDICATION); + buffer.putLongLong(uint64_t(Duration(EPOCH, now()))); + stringstream key; + key << "console.heartbeat." << assignedBrokerBank << "." << assignedAgentBank; + sendBufferLH(buffer, QMF_EXCHANGE, key.str()); + QPID_LOG(trace, "SENT HeartbeatIndication"); +} + +void AgentImpl::methodResponse(uint32_t sequence, uint32_t status, char* text, const Value& argMap) +{ + Mutex::ScopedLock _lock(lock); + map<uint32_t, AgentQueryContext::Ptr>::iterator iter = contextMap.find(sequence); + if (iter == contextMap.end()) + return; + AgentQueryContext::Ptr context = iter->second; + contextMap.erase(iter); + + char* buf(outputBuffer); + uint32_t bufLen(114 + strlen(text)); // header(8) + status(4) + mstring(2 + size) + margin(100) + bool allocated(false); + + if (status == 0) { + for (vector<const SchemaArgument*>::const_iterator aIter = context->schemaMethod->impl->arguments.begin(); + aIter != context->schemaMethod->impl->arguments.end(); aIter++) { + const SchemaArgument* schemaArg = *aIter; + if (schemaArg->getDirection() == DIR_OUT || schemaArg->getDirection() == DIR_IN_OUT) { + if (argMap.keyInMap(schemaArg->getName())) { + const Value* val = argMap.byKey(schemaArg->getName()); + bufLen += val->impl->encodedSize(); + } else { + Value val(schemaArg->getType()); + bufLen += val.impl->encodedSize(); + } + } + } + } + + if (bufLen > MA_BUFFER_SIZE) { + buf = (char*) malloc(bufLen); + allocated = true; + } + + Buffer buffer(buf, bufLen); + Protocol::encodeHeader(buffer, Protocol::OP_METHOD_RESPONSE, context->sequence); + buffer.putLong(status); + buffer.putMediumString(text); + if (status == 0) { + for (vector<const SchemaArgument*>::const_iterator aIter = context->schemaMethod->impl->arguments.begin(); + aIter != context->schemaMethod->impl->arguments.end(); aIter++) { + const SchemaArgument* schemaArg = *aIter; + if (schemaArg->getDirection() == DIR_OUT || schemaArg->getDirection() == DIR_IN_OUT) { + if (argMap.keyInMap(schemaArg->getName())) { + const Value* val = argMap.byKey(schemaArg->getName()); + val->impl->encode(buffer); + } else { + Value val(schemaArg->getType()); + val.impl->encode(buffer); + } + } + } + } + sendBufferLH(buffer, context->exchange, context->key); + if (allocated) + free(buf); + QPID_LOG(trace, "SENT MethodResponse seq=" << context->sequence << " status=" << status << " text=" << text); +} + +void AgentImpl::queryResponse(uint32_t sequence, Object& object, bool prop, bool stat) +{ + Mutex::ScopedLock _lock(lock); + map<uint32_t, AgentQueryContext::Ptr>::iterator iter = contextMap.find(sequence); + if (iter == contextMap.end()) + return; + AgentQueryContext::Ptr context = iter->second; + + Buffer buffer(outputBuffer, MA_BUFFER_SIZE); + Protocol::encodeHeader(buffer, Protocol::OP_OBJECT_INDICATION, context->sequence); + + object.impl->encodeSchemaKey(buffer); + object.impl->encodeManagedObjectData(buffer); + if (prop) + object.impl->encodeProperties(buffer); + if (stat) + object.impl->encodeStatistics(buffer); + + sendBufferLH(buffer, context->exchange, context->key); + QPID_LOG(trace, "SENT ContentIndication seq=" << context->sequence); +} + +void AgentImpl::queryComplete(uint32_t sequence) +{ + Mutex::ScopedLock _lock(lock); + map<uint32_t, AgentQueryContext::Ptr>::iterator iter = contextMap.find(sequence); + if (iter == contextMap.end()) + return; + + AgentQueryContext::Ptr context = iter->second; + contextMap.erase(iter); + sendCommandCompleteLH(context->exchange, context->key, context->sequence, 0, "OK"); +} + +void AgentImpl::registerClass(SchemaObjectClass* cls) +{ + Mutex::ScopedLock _lock(lock); + bool newPackage = false; + + map<string, ClassMaps>::iterator iter = packages.find(cls->getClassKey()->getPackageName()); + if (iter == packages.end()) { + packages[cls->getClassKey()->getPackageName()] = ClassMaps(); + iter = packages.find(cls->getClassKey()->getPackageName()); + newPackage = true; + } + + AgentClassKey key(cls->getClassKey()->getClassName(), cls->getClassKey()->getHash()); + iter->second.objectClasses[key] = cls; + + // Indicate this new schema if connected. + + if (attachComplete) { + + if (newPackage) { + sendPackageIndicationLH(iter->first); + } + sendClassIndicationLH(CLASS_OBJECT, iter->first, key); + } +} + +void AgentImpl::registerClass(SchemaEventClass* cls) +{ + Mutex::ScopedLock _lock(lock); + bool newPackage = false; + + map<string, ClassMaps>::iterator iter = packages.find(cls->getClassKey()->getPackageName()); + if (iter == packages.end()) { + packages[cls->getClassKey()->getPackageName()] = ClassMaps(); + iter = packages.find(cls->getClassKey()->getPackageName()); + newPackage = true; + } + + AgentClassKey key(cls->getClassKey()->getClassName(), cls->getClassKey()->getHash()); + iter->second.eventClasses[key] = cls; + + // Indicate this new schema if connected. + + if (attachComplete) { + + if (newPackage) { + sendPackageIndicationLH(iter->first); + } + sendClassIndicationLH(CLASS_EVENT, iter->first, key); + } +} + +const ObjectId* AgentImpl::addObject(Object&, uint64_t) +{ + Mutex::ScopedLock _lock(lock); + return 0; +} + +const ObjectId* AgentImpl::allocObjectId(uint64_t persistId) +{ + Mutex::ScopedLock _lock(lock); + uint16_t sequence = persistId ? 0 : bootSequence; + uint64_t objectNum = persistId ? persistId : nextObjectId++; + + ObjectId* oid = ObjectIdImpl::factory(&attachment, 0, sequence, objectNum); + return oid; +} + +const ObjectId* AgentImpl::allocObjectId(uint32_t persistIdLo, uint32_t persistIdHi) +{ + return allocObjectId(((uint64_t) persistIdHi) << 32 | (uint64_t) persistIdLo); +} + +void AgentImpl::raiseEvent(Event& event) +{ + Mutex::ScopedLock _lock(lock); + Buffer buffer(outputBuffer, MA_BUFFER_SIZE); + Protocol::encodeHeader(buffer, Protocol::OP_EVENT_INDICATION); + + event.impl->encodeSchemaKey(buffer); + buffer.putLongLong(uint64_t(Duration(EPOCH, now()))); + event.impl->encode(buffer); + string key(event.impl->getRoutingKey(assignedBrokerBank, assignedAgentBank)); + + sendBufferLH(buffer, QMF_EXCHANGE, key); + QPID_LOG(trace, "SENT EventIndication"); +} + +AgentEventImpl::Ptr AgentImpl::eventDeclareQueue(const string& name) +{ + AgentEventImpl::Ptr event(new AgentEventImpl(AgentEvent::DECLARE_QUEUE)); + event->name = name; + + return event; +} + +AgentEventImpl::Ptr AgentImpl::eventBind(const string& exchange, const string& queue, + const string& key) +{ + AgentEventImpl::Ptr event(new AgentEventImpl(AgentEvent::BIND)); + event->name = queue; + event->exchange = exchange; + event->bindingKey = key; + + return event; +} + +AgentEventImpl::Ptr AgentImpl::eventSetupComplete() +{ + AgentEventImpl::Ptr event(new AgentEventImpl(AgentEvent::SETUP_COMPLETE)); + return event; +} + +AgentEventImpl::Ptr AgentImpl::eventQuery(uint32_t num, const string& userId, const string& package, + const string& cls, boost::shared_ptr<ObjectId> oid) +{ + AgentEventImpl::Ptr event(new AgentEventImpl(AgentEvent::GET_QUERY)); + event->sequence = num; + event->authUserId = userId; + if (oid.get()) + event->query.reset(new Query(oid.get())); + else + event->query.reset(new Query(cls.c_str(), package.c_str())); + return event; +} + +AgentEventImpl::Ptr AgentImpl::eventMethod(uint32_t num, const string& userId, const string& method, + boost::shared_ptr<ObjectId> oid, boost::shared_ptr<Value> argMap, + const SchemaObjectClass* objectClass) +{ + AgentEventImpl::Ptr event(new AgentEventImpl(AgentEvent::METHOD_CALL)); + event->sequence = num; + event->authUserId = userId; + event->name = method; + event->objectId = oid; + event->arguments = argMap; + event->objectClass = objectClass; + return event; +} + +void AgentImpl::sendBufferLH(Buffer& buf, const string& destination, const string& routingKey) +{ + uint32_t length = buf.getPosition(); + MessageImpl::Ptr message(new MessageImpl); + + buf.reset(); + buf.getRawData(message->body, length); + message->destination = destination; + message->routingKey = routingKey; + message->replyExchange = "amq.direct"; + message->replyKey = queueName; + + xmtQueue.push_back(message); +} + +void AgentImpl::sendPackageIndicationLH(const string& packageName) +{ + Buffer buffer(outputBuffer, MA_BUFFER_SIZE); + Protocol::encodeHeader(buffer, Protocol::OP_PACKAGE_INDICATION); + buffer.putShortString(packageName); + sendBufferLH(buffer, QMF_EXCHANGE, BROKER_KEY); + QPID_LOG(trace, "SENT PackageIndication: package_name=" << packageName); +} + +void AgentImpl::sendClassIndicationLH(ClassKind kind, const string& packageName, const AgentClassKey& key) +{ + Buffer buffer(outputBuffer, MA_BUFFER_SIZE); + Protocol::encodeHeader(buffer, Protocol::OP_CLASS_INDICATION); + buffer.putOctet((int) kind); + buffer.putShortString(packageName); + buffer.putShortString(key.name); + buffer.putBin128(const_cast<uint8_t*>(key.hash)); // const_cast needed for older Qpid libraries + sendBufferLH(buffer, QMF_EXCHANGE, BROKER_KEY); + QPID_LOG(trace, "SENT ClassIndication: package_name=" << packageName << " class_name=" << key.name); +} + +void AgentImpl::sendCommandCompleteLH(const string& exchange, const string& replyToKey, + uint32_t sequence, uint32_t code, const string& text) +{ + Buffer buffer(outputBuffer, MA_BUFFER_SIZE); + Protocol::encodeHeader(buffer, Protocol::OP_COMMAND_COMPLETE, sequence); + buffer.putLong(code); + buffer.putShortString(text); + sendBufferLH(buffer, exchange, replyToKey); + QPID_LOG(trace, "SENT CommandComplete: seq=" << sequence << " code=" << code << " text=" << text); +} + +void AgentImpl::sendMethodErrorLH(uint32_t sequence, const string& key, uint32_t code, const string& text) +{ + Buffer buffer(outputBuffer, MA_BUFFER_SIZE); + Protocol::encodeHeader(buffer, Protocol::OP_METHOD_RESPONSE, sequence); + buffer.putLong(code); + + string fulltext; + switch (code) { + case MERR_UNKNOWN_PACKAGE: fulltext = "Unknown Package"; break; + case MERR_UNKNOWN_CLASS: fulltext = "Unknown Class"; break; + case MERR_UNKNOWN_METHOD: fulltext = "Unknown Method"; break; + case MERR_INTERNAL_ERROR: fulltext = "Internal Error"; break; + default: fulltext = "Unspecified Error"; break; + } + + if (!text.empty()) { + fulltext += " ("; + fulltext += text; + fulltext += ")"; + } + + buffer.putMediumString(fulltext); + sendBufferLH(buffer, DIR_EXCHANGE, key); + QPID_LOG(trace, "SENT MethodResponse: errorCode=" << code << " text=" << fulltext); +} + +void AgentImpl::handleAttachResponse(Buffer& inBuffer) +{ + Mutex::ScopedLock _lock(lock); + + assignedBrokerBank = inBuffer.getLong(); + assignedAgentBank = inBuffer.getLong(); + + QPID_LOG(trace, "RCVD AttachResponse: broker=" << assignedBrokerBank << " agent=" << assignedAgentBank); + + if ((assignedBrokerBank != requestedBrokerBank) || + (assignedAgentBank != requestedAgentBank)) { + if (requestedAgentBank == 0) { + QPID_LOG(notice, "Initial object-id bank assigned: " << assignedBrokerBank << "." << + assignedAgentBank); + } else { + QPID_LOG(warning, "Collision in object-id! New bank assigned: " << assignedBrokerBank << + "." << assignedAgentBank); + } + //storeData(); // TODO + requestedBrokerBank = assignedBrokerBank; + requestedAgentBank = assignedAgentBank; + } + + attachment.setBanks(assignedBrokerBank, assignedAgentBank); + + // Bind to qpid.management to receive commands + stringstream key; + key << "agent." << assignedBrokerBank << "." << assignedAgentBank; + eventQueue.push_back(eventBind(QMF_EXCHANGE, queueName, key.str())); + + // Send package indications for all local packages + for (map<string, ClassMaps>::iterator pIter = packages.begin(); + pIter != packages.end(); + pIter++) { + sendPackageIndicationLH(pIter->first); + + // Send class indications for all local classes + ClassMaps cMap = pIter->second; + for (ObjectClassMap::iterator cIter = cMap.objectClasses.begin(); + cIter != cMap.objectClasses.end(); cIter++) + sendClassIndicationLH(CLASS_OBJECT, pIter->first, cIter->first); + for (EventClassMap::iterator cIter = cMap.eventClasses.begin(); + cIter != cMap.eventClasses.end(); cIter++) + sendClassIndicationLH(CLASS_EVENT, pIter->first, cIter->first); + } + + attachComplete = true; +} + +void AgentImpl::handlePackageRequest(Buffer&) +{ + Mutex::ScopedLock _lock(lock); +} + +void AgentImpl::handleClassQuery(Buffer&) +{ + Mutex::ScopedLock _lock(lock); +} + +void AgentImpl::handleSchemaRequest(Buffer& inBuffer, uint32_t sequence, + const string& replyExchange, const string& replyKey) +{ + Mutex::ScopedLock _lock(lock); + string rExchange(replyExchange); + string rKey(replyKey); + string packageName; + inBuffer.getShortString(packageName); + AgentClassKey key(inBuffer); + + if (rExchange.empty()) + rExchange = QMF_EXCHANGE; + if (rKey.empty()) + rKey = BROKER_KEY; + + QPID_LOG(trace, "RCVD SchemaRequest: package=" << packageName << " class=" << key.name); + + map<string, ClassMaps>::iterator pIter = packages.find(packageName); + if (pIter == packages.end()) { + sendCommandCompleteLH(rExchange, rKey, sequence, 1, "package not found"); + return; + } + + ClassMaps cMap = pIter->second; + ObjectClassMap::iterator ocIter = cMap.objectClasses.find(key); + if (ocIter != cMap.objectClasses.end()) { + SchemaObjectClass* oImpl = ocIter->second; + Buffer buffer(outputBuffer, MA_BUFFER_SIZE); + Protocol::encodeHeader(buffer, Protocol::OP_SCHEMA_RESPONSE, sequence); + oImpl->impl->encode(buffer); + sendBufferLH(buffer, rExchange, rKey); + QPID_LOG(trace, "SENT SchemaResponse: (object) package=" << packageName << " class=" << key.name); + return; + } + + EventClassMap::iterator ecIter = cMap.eventClasses.find(key); + if (ecIter != cMap.eventClasses.end()) { + SchemaEventClass* eImpl = ecIter->second; + Buffer buffer(outputBuffer, MA_BUFFER_SIZE); + Protocol::encodeHeader(buffer, Protocol::OP_SCHEMA_RESPONSE, sequence); + eImpl->impl->encode(buffer); + sendBufferLH(buffer, rExchange, rKey); + QPID_LOG(trace, "SENT SchemaResponse: (event) package=" << packageName << " class=" << key.name); + return; + } + + sendCommandCompleteLH(rExchange, rKey, sequence, 1, "class not found"); +} + +void AgentImpl::handleGetQuery(Buffer& inBuffer, uint32_t sequence, const string& replyTo, const string& userId) +{ + Mutex::ScopedLock _lock(lock); + FieldTable ft; + FieldTable::ValuePtr value; + map<string, ClassMaps>::const_iterator pIter = packages.end(); + string pname; + string cname; + string oidRepr; + boost::shared_ptr<ObjectId> oid; + + ft.decode(inBuffer); + + QPID_LOG(trace, "RCVD GetQuery: seq=" << sequence << " map=" << ft); + + value = ft.get("_package"); + if (value.get() && value->convertsTo<string>()) { + pname = value->get<string>(); + pIter = packages.find(pname); + if (pIter == packages.end()) { + sendCommandCompleteLH(DIR_EXCHANGE, replyTo, sequence); + return; + } + } + + value = ft.get("_class"); + if (value.get() && value->convertsTo<string>()) { + cname = value->get<string>(); + // TODO - check for validity of class (in package or any package) + if (pIter == packages.end()) { + } else { + + } + } + + value = ft.get("_objectid"); + if (value.get() && value->convertsTo<string>()) { + oidRepr = value->get<string>(); + oid.reset(new ObjectId()); + oid->impl->fromString(oidRepr); + } + + AgentQueryContext::Ptr context(new AgentQueryContext); + uint32_t contextNum = nextContextNum++; + context->sequence = sequence; + context->exchange = DIR_EXCHANGE; + context->key = replyTo; + contextMap[contextNum] = context; + + eventQueue.push_back(eventQuery(contextNum, userId, pname, cname, oid)); +} + +void AgentImpl::handleMethodRequest(Buffer& buffer, uint32_t sequence, const string& replyTo, const string& userId) +{ + Mutex::ScopedLock _lock(lock); + string pname; + string method; + boost::shared_ptr<ObjectId> oid(ObjectIdImpl::factory(buffer)); + buffer.getShortString(pname); + AgentClassKey classKey(buffer); + buffer.getShortString(method); + + QPID_LOG(trace, "RCVD MethodRequest seq=" << sequence << " method=" << method); + + map<string, ClassMaps>::const_iterator pIter = packages.find(pname); + if (pIter == packages.end()) { + sendMethodErrorLH(sequence, replyTo, MERR_UNKNOWN_PACKAGE, pname); + return; + } + + ObjectClassMap::const_iterator cIter = pIter->second.objectClasses.find(classKey); + if (cIter == pIter->second.objectClasses.end()) { + sendMethodErrorLH(sequence, replyTo, MERR_UNKNOWN_CLASS, classKey.repr()); + return; + } + + const SchemaObjectClass* schema = cIter->second; + vector<const SchemaMethod*>::const_iterator mIter = schema->impl->methods.begin(); + for (; mIter != schema->impl->methods.end(); mIter++) { + if ((*mIter)->getName() == method) + break; + } + + if (mIter == schema->impl->methods.end()) { + sendMethodErrorLH(sequence, replyTo, MERR_UNKNOWN_METHOD, method); + return; + } + + const SchemaMethod* schemaMethod = *mIter; + boost::shared_ptr<Value> argMap(new Value(TYPE_MAP)); + Value* value; + for (vector<const SchemaArgument*>::const_iterator aIter = schemaMethod->impl->arguments.begin(); + aIter != schemaMethod->impl->arguments.end(); aIter++) { + const SchemaArgument* schemaArg = *aIter; + if (schemaArg->getDirection() == DIR_IN || schemaArg->getDirection() == DIR_IN_OUT) + value = ValueImpl::factory(schemaArg->getType(), buffer); + else + value = ValueImpl::factory(schemaArg->getType()); + argMap->insert(schemaArg->getName(), value); + } + + AgentQueryContext::Ptr context(new AgentQueryContext); + uint32_t contextNum = nextContextNum++; + context->sequence = sequence; + context->exchange = DIR_EXCHANGE; + context->key = replyTo; + context->schemaMethod = schemaMethod; + contextMap[contextNum] = context; + + eventQueue.push_back(eventMethod(contextNum, userId, method, oid, argMap, schema)); +} + +void AgentImpl::handleConsoleAddedIndication() +{ + Mutex::ScopedLock _lock(lock); +} + +//================================================================== +// Wrappers +//================================================================== + +Agent::Agent(char* label, bool internalStore) { impl = new AgentImpl(label, internalStore); } +Agent::~Agent() { delete impl; } +void Agent::setStoreDir(const char* path) { impl->setStoreDir(path); } +void Agent::setTransferDir(const char* path) { impl->setTransferDir(path); } +void Agent::handleRcvMessage(Message& message) { impl->handleRcvMessage(message); } +bool Agent::getXmtMessage(Message& item) const { return impl->getXmtMessage(item); } +void Agent::popXmt() { impl->popXmt(); } +bool Agent::getEvent(AgentEvent& event) const { return impl->getEvent(event); } +void Agent::popEvent() { impl->popEvent(); } +void Agent::newSession() { impl->newSession(); } +void Agent::startProtocol() { impl->startProtocol(); } +void Agent::heartbeat() { impl->heartbeat(); } +void Agent::methodResponse(uint32_t sequence, uint32_t status, char* text, const Value& arguments) { impl->methodResponse(sequence, status, text, arguments); } +void Agent::queryResponse(uint32_t sequence, Object& object, bool prop, bool stat) { impl->queryResponse(sequence, object, prop, stat); } +void Agent::queryComplete(uint32_t sequence) { impl->queryComplete(sequence); } +void Agent::registerClass(SchemaObjectClass* cls) { impl->registerClass(cls); } +void Agent::registerClass(SchemaEventClass* cls) { impl->registerClass(cls); } +const ObjectId* Agent::addObject(Object& obj, uint64_t persistId) { return impl->addObject(obj, persistId); } +const ObjectId* Agent::allocObjectId(uint64_t persistId) { return impl->allocObjectId(persistId); } +const ObjectId* Agent::allocObjectId(uint32_t persistIdLo, uint32_t persistIdHi) { return impl->allocObjectId(persistIdLo, persistIdHi); } +void Agent::raiseEvent(Event& event) { impl->raiseEvent(event); } + diff --git a/qpid/cpp/src/qmf/engine/BrokerProxyImpl.cpp b/qpid/cpp/src/qmf/engine/BrokerProxyImpl.cpp new file mode 100644 index 0000000000..5fc71979fd --- /dev/null +++ b/qpid/cpp/src/qmf/engine/BrokerProxyImpl.cpp @@ -0,0 +1,827 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/BrokerProxyImpl.h" +#include "qmf/engine/ConsoleImpl.h" +#include "qmf/engine/Protocol.h" +#include "qpid/Address.h" +#include "qpid/sys/SystemInfo.h" +#include <qpid/log/Statement.h> +#include <qpid/StringUtils.h> +#include <string.h> +#include <iostream> +#include <fstream> + +using namespace std; +using namespace qmf::engine; +using namespace qpid::framing; +using namespace qpid::sys; + +namespace { + const char* QMF_EXCHANGE = "qpid.management"; + const char* DIR_EXCHANGE = "amq.direct"; + const char* BROKER_KEY = "broker"; + const char* BROKER_PACKAGE = "org.apache.qpid.broker"; + const char* AGENT_CLASS = "agent"; + const char* BROKER_AGENT_KEY = "agent.1.0"; +} + +const Object* QueryResponseImpl::getObject(uint32_t idx) const +{ + vector<ObjectPtr>::const_iterator iter = results.begin(); + + while (idx > 0) { + if (iter == results.end()) + return 0; + iter++; + idx--; + } + + return iter->get(); +} + +#define STRING_REF(s) {if (!s.empty()) item.s = const_cast<char*>(s.c_str());} + +BrokerEvent BrokerEventImpl::copy() +{ + BrokerEvent item; + + ::memset(&item, 0, sizeof(BrokerEvent)); + item.kind = kind; + + STRING_REF(name); + STRING_REF(exchange); + STRING_REF(bindingKey); + item.context = context; + item.queryResponse = queryResponse.get(); + item.methodResponse = methodResponse.get(); + + return item; +} + +BrokerProxyImpl::BrokerProxyImpl(BrokerProxy& pub, Console& _console) : publicObject(pub), console(_console) +{ + stringstream qn; + qpid::Address addr; + + SystemInfo::getLocalHostname(addr); + qn << "qmfc-" << SystemInfo::getProcessName() << "-" << addr << "-" << SystemInfo::getProcessId(); + queueName = qn.str(); + + seqMgr.setUnsolicitedContext(SequenceContext::Ptr(new StaticContext(*this))); +} + +void BrokerProxyImpl::sessionOpened(SessionHandle& /*sh*/) +{ + Mutex::ScopedLock _lock(lock); + agentList.clear(); + eventQueue.clear(); + xmtQueue.clear(); + eventQueue.push_back(eventDeclareQueue(queueName)); + eventQueue.push_back(eventBind(DIR_EXCHANGE, queueName, queueName)); + eventQueue.push_back(eventSetupComplete()); + + // TODO: Store session handle +} + +void BrokerProxyImpl::sessionClosed() +{ + Mutex::ScopedLock _lock(lock); + agentList.clear(); + eventQueue.clear(); + xmtQueue.clear(); +} + +void BrokerProxyImpl::startProtocol() +{ + AgentProxyPtr agent(AgentProxyImpl::factory(console, publicObject, 0, "Agent embedded in broker")); + { + Mutex::ScopedLock _lock(lock); + char rawbuffer[512]; + Buffer buffer(rawbuffer, 512); + + agentList[0] = agent; + + requestsOutstanding = 1; + topicBound = false; + uint32_t sequence(seqMgr.reserve()); + Protocol::encodeHeader(buffer, Protocol::OP_BROKER_REQUEST, sequence); + sendBufferLH(buffer, QMF_EXCHANGE, BROKER_KEY); + QPID_LOG(trace, "SENT BrokerRequest seq=" << sequence); + } + + console.impl->eventAgentAdded(agent); +} + +void BrokerProxyImpl::sendBufferLH(Buffer& buf, const string& destination, const string& routingKey) +{ + uint32_t length = buf.getPosition(); + MessageImpl::Ptr message(new MessageImpl); + + buf.reset(); + buf.getRawData(message->body, length); + message->destination = destination; + message->routingKey = routingKey; + message->replyExchange = DIR_EXCHANGE; + message->replyKey = queueName; + + xmtQueue.push_back(message); +} + +void BrokerProxyImpl::handleRcvMessage(Message& message) +{ + Buffer inBuffer(message.body, message.length); + uint8_t opcode; + uint32_t sequence; + + while (Protocol::checkHeader(inBuffer, &opcode, &sequence)) + seqMgr.dispatch(opcode, sequence, message.routingKey ? string(message.routingKey) : string(), inBuffer); +} + +bool BrokerProxyImpl::getXmtMessage(Message& item) const +{ + Mutex::ScopedLock _lock(lock); + if (xmtQueue.empty()) + return false; + item = xmtQueue.front()->copy(); + return true; +} + +void BrokerProxyImpl::popXmt() +{ + Mutex::ScopedLock _lock(lock); + if (!xmtQueue.empty()) + xmtQueue.pop_front(); +} + +bool BrokerProxyImpl::getEvent(BrokerEvent& event) const +{ + Mutex::ScopedLock _lock(lock); + if (eventQueue.empty()) + return false; + event = eventQueue.front()->copy(); + return true; +} + +void BrokerProxyImpl::popEvent() +{ + Mutex::ScopedLock _lock(lock); + if (!eventQueue.empty()) + eventQueue.pop_front(); +} + +uint32_t BrokerProxyImpl::agentCount() const +{ + Mutex::ScopedLock _lock(lock); + return agentList.size(); +} + +const AgentProxy* BrokerProxyImpl::getAgent(uint32_t idx) const +{ + Mutex::ScopedLock _lock(lock); + for (map<uint32_t, AgentProxyPtr>::const_iterator iter = agentList.begin(); + iter != agentList.end(); iter++) + if (idx-- == 0) + return iter->second.get(); + return 0; +} + +void BrokerProxyImpl::sendQuery(const Query& query, void* context, const AgentProxy* agent) +{ + SequenceContext::Ptr queryContext(new QueryContext(*this, context)); + Mutex::ScopedLock _lock(lock); + bool sent = false; + if (agent != 0) { + if (sendGetRequestLH(queryContext, query, agent)) + sent = true; + } else { + // TODO (optimization) only send queries to agents that have the requested class+package + for (map<uint32_t, AgentProxyPtr>::const_iterator iter = agentList.begin(); + iter != agentList.end(); iter++) { + if (sendGetRequestLH(queryContext, query, iter->second.get())) + sent = true; + } + } + + if (!sent) { + queryContext->reserve(); + queryContext->release(); + } +} + +bool BrokerProxyImpl::sendGetRequestLH(SequenceContext::Ptr queryContext, const Query& query, const AgentProxy* agent) +{ + if (query.impl->singleAgent()) { + if (query.impl->agentBank() != agent->getAgentBank()) + return false; + } + stringstream key; + Buffer outBuffer(outputBuffer, MA_BUFFER_SIZE); + uint32_t sequence(seqMgr.reserve(queryContext)); + agent->impl->addSequence(sequence); + + Protocol::encodeHeader(outBuffer, Protocol::OP_GET_QUERY, sequence); + query.impl->encode(outBuffer); + key << "agent.1." << agent->impl->agentBank; + sendBufferLH(outBuffer, QMF_EXCHANGE, key.str()); + QPID_LOG(trace, "SENT GetQuery seq=" << sequence << " key=" << key.str()); + return true; +} + +string BrokerProxyImpl::encodeMethodArguments(const SchemaMethod* schema, const Value* argmap, Buffer& buffer) +{ + int argCount = schema->getArgumentCount(); + + if (argmap == 0 || !argmap->isMap()) + return string("Arguments must be in a map value"); + + for (int aIdx = 0; aIdx < argCount; aIdx++) { + const SchemaArgument* arg(schema->getArgument(aIdx)); + if (arg->getDirection() == DIR_IN || arg->getDirection() == DIR_IN_OUT) { + if (argmap->keyInMap(arg->getName())) { + const Value* argVal(argmap->byKey(arg->getName())); + if (argVal->getType() != arg->getType()) + return string("Argument is the wrong type: ") + arg->getName(); + argVal->impl->encode(buffer); + } else { + Value defaultValue(arg->getType()); + defaultValue.impl->encode(buffer); + } + } + } + + return string(); +} + +string BrokerProxyImpl::encodedSizeMethodArguments(const SchemaMethod* schema, const Value* argmap, uint32_t& size) +{ + int argCount = schema->getArgumentCount(); + + if (argmap == 0 || !argmap->isMap()) + return string("Arguments must be in a map value"); + + for (int aIdx = 0; aIdx < argCount; aIdx++) { + const SchemaArgument* arg(schema->getArgument(aIdx)); + if (arg->getDirection() == DIR_IN || arg->getDirection() == DIR_IN_OUT) { + if (argmap->keyInMap(arg->getName())) { + const Value* argVal(argmap->byKey(arg->getName())); + if (argVal->getType() != arg->getType()) + return string("Argument is the wrong type: ") + arg->getName(); + size += argVal->impl->encodedSize(); + } else { + Value defaultValue(arg->getType()); + size += defaultValue.impl->encodedSize(); + } + } + } + + return string(); +} + +void BrokerProxyImpl::sendMethodRequest(ObjectId* oid, const SchemaObjectClass* cls, + const string& methodName, const Value* args, void* userContext) +{ + int methodCount = cls->getMethodCount(); + int idx; + for (idx = 0; idx < methodCount; idx++) { + const SchemaMethod* method = cls->getMethod(idx); + if (string(method->getName()) == methodName) { + Mutex::ScopedLock _lock(lock); + SequenceContext::Ptr methodContext(new MethodContext(*this, userContext, method)); + stringstream key; + char* buf(outputBuffer); + uint32_t bufLen(1024); + bool allocated(false); + + string argErrorString = encodedSizeMethodArguments(method, args, bufLen); + if (!argErrorString.empty()) { + MethodResponsePtr argError(MethodResponseImpl::factory(1, argErrorString)); + eventQueue.push_back(eventMethodResponse(userContext, argError)); + return; + } + + if (bufLen > MA_BUFFER_SIZE) { + buf = (char*) malloc(bufLen); + allocated = true; + } + + Buffer outBuffer(buf, bufLen); + uint32_t sequence(seqMgr.reserve(methodContext)); + + Protocol::encodeHeader(outBuffer, Protocol::OP_METHOD_REQUEST, sequence); + oid->impl->encode(outBuffer); + cls->getClassKey()->impl->encode(outBuffer); + outBuffer.putShortString(methodName); + + encodeMethodArguments(method, args, outBuffer); + key << "agent.1." << oid->impl->getAgentBank(); + sendBufferLH(outBuffer, QMF_EXCHANGE, key.str()); + QPID_LOG(trace, "SENT MethodRequest seq=" << sequence << " method=" << methodName << " key=" << key.str()); + + if (allocated) + free(buf); + + return; + } + } + + MethodResponsePtr error(MethodResponseImpl::factory(1, string("Unknown method: ") + methodName)); + Mutex::ScopedLock _lock(lock); + eventQueue.push_back(eventMethodResponse(userContext, error)); +} + +void BrokerProxyImpl::addBinding(const string& exchange, const string& key) +{ + Mutex::ScopedLock _lock(lock); + eventQueue.push_back(eventBind(exchange, queueName, key)); +} + +BrokerEventImpl::Ptr BrokerProxyImpl::eventDeclareQueue(const string& queueName) +{ + BrokerEventImpl::Ptr event(new BrokerEventImpl(BrokerEvent::DECLARE_QUEUE)); + event->name = queueName; + return event; +} + +BrokerEventImpl::Ptr BrokerProxyImpl::eventBind(const string& exchange, const string& queue, const string& key) +{ + BrokerEventImpl::Ptr event(new BrokerEventImpl(BrokerEvent::BIND)); + event->name = queue; + event->exchange = exchange; + event->bindingKey = key; + + return event; +} + +BrokerEventImpl::Ptr BrokerProxyImpl::eventSetupComplete() +{ + BrokerEventImpl::Ptr event(new BrokerEventImpl(BrokerEvent::SETUP_COMPLETE)); + return event; +} + +BrokerEventImpl::Ptr BrokerProxyImpl::eventStable() +{ + QPID_LOG(trace, "Console Link to Broker Stable"); + BrokerEventImpl::Ptr event(new BrokerEventImpl(BrokerEvent::STABLE)); + return event; +} + +BrokerEventImpl::Ptr BrokerProxyImpl::eventQueryComplete(void* context, QueryResponsePtr response) +{ + BrokerEventImpl::Ptr event(new BrokerEventImpl(BrokerEvent::QUERY_COMPLETE)); + event->context = context; + event->queryResponse = response; + return event; +} + +BrokerEventImpl::Ptr BrokerProxyImpl::eventMethodResponse(void* context, MethodResponsePtr response) +{ + BrokerEventImpl::Ptr event(new BrokerEventImpl(BrokerEvent::METHOD_RESPONSE)); + event->context = context; + event->methodResponse = response; + return event; +} + +void BrokerProxyImpl::handleBrokerResponse(Buffer& inBuffer, uint32_t seq) +{ + brokerId.decode(inBuffer); + QPID_LOG(trace, "RCVD BrokerResponse seq=" << seq << " brokerId=" << brokerId); + Mutex::ScopedLock _lock(lock); + Buffer outBuffer(outputBuffer, MA_BUFFER_SIZE); + uint32_t sequence(seqMgr.reserve()); + incOutstandingLH(); + Protocol::encodeHeader(outBuffer, Protocol::OP_PACKAGE_REQUEST, sequence); + sendBufferLH(outBuffer, QMF_EXCHANGE, BROKER_KEY); + QPID_LOG(trace, "SENT PackageRequest seq=" << sequence); +} + +void BrokerProxyImpl::handlePackageIndication(Buffer& inBuffer, uint32_t seq) +{ + string package; + + inBuffer.getShortString(package); + QPID_LOG(trace, "RCVD PackageIndication seq=" << seq << " package=" << package); + console.impl->learnPackage(package); + + Mutex::ScopedLock _lock(lock); + Buffer outBuffer(outputBuffer, MA_BUFFER_SIZE); + uint32_t sequence(seqMgr.reserve()); + incOutstandingLH(); + Protocol::encodeHeader(outBuffer, Protocol::OP_CLASS_QUERY, sequence); + outBuffer.putShortString(package); + sendBufferLH(outBuffer, QMF_EXCHANGE, BROKER_KEY); + QPID_LOG(trace, "SENT ClassQuery seq=" << sequence << " package=" << package); +} + +void BrokerProxyImpl::handleCommandComplete(Buffer& inBuffer, uint32_t seq) +{ + string text; + uint32_t code = inBuffer.getLong(); + inBuffer.getShortString(text); + QPID_LOG(trace, "RCVD CommandComplete seq=" << seq << " code=" << code << " text=" << text); +} + +void BrokerProxyImpl::handleClassIndication(Buffer& inBuffer, uint32_t seq) +{ + uint8_t kind = inBuffer.getOctet(); + auto_ptr<SchemaClassKey> classKey(SchemaClassKeyImpl::factory(inBuffer)); + + QPID_LOG(trace, "RCVD ClassIndication seq=" << seq << " kind=" << (int) kind << " key=" << classKey->impl->str()); + + if (!console.impl->haveClass(classKey.get())) { + Mutex::ScopedLock _lock(lock); + incOutstandingLH(); + Buffer outBuffer(outputBuffer, MA_BUFFER_SIZE); + uint32_t sequence(seqMgr.reserve()); + Protocol::encodeHeader(outBuffer, Protocol::OP_SCHEMA_REQUEST, sequence); + classKey->impl->encode(outBuffer); + sendBufferLH(outBuffer, QMF_EXCHANGE, BROKER_KEY); + QPID_LOG(trace, "SENT SchemaRequest seq=" << sequence <<" key=" << classKey->impl->str()); + } +} + +MethodResponsePtr BrokerProxyImpl::handleMethodResponse(Buffer& inBuffer, uint32_t seq, const SchemaMethod* schema) +{ + MethodResponsePtr response(MethodResponseImpl::factory(inBuffer, schema)); + + QPID_LOG(trace, "RCVD MethodResponse seq=" << seq << " status=" << response->getStatus() << " text=" << + response->getException()->asString()); + + return response; +} + +void BrokerProxyImpl::handleHeartbeatIndication(Buffer& inBuffer, uint32_t seq, const string& routingKey) +{ + vector<string> tokens = qpid::split(routingKey, "."); + uint32_t agentBank; + uint64_t timestamp; + + if (routingKey.empty() || tokens.size() != 4) + agentBank = 0; + else + agentBank = ::atoi(tokens[3].c_str()); + + timestamp = inBuffer.getLongLong(); + map<uint32_t, AgentProxyPtr>::const_iterator iter = agentList.find(agentBank); + if (iter != agentList.end()) { + console.impl->eventAgentHeartbeat(iter->second, timestamp); + } + QPID_LOG(trace, "RCVD HeartbeatIndication seq=" << seq << " agentBank=" << agentBank); +} + +void BrokerProxyImpl::handleEventIndication(Buffer& inBuffer, uint32_t seq) +{ + auto_ptr<SchemaClassKey> classKey(SchemaClassKeyImpl::factory(inBuffer)); + const SchemaEventClass *schema = console.impl->getEventClass(classKey.get()); + if (schema == 0) { + QPID_LOG(trace, "No Schema Found for EventIndication. seq=" << seq << " key=" << classKey->impl->str()); + return; + } + + EventPtr eptr(EventImpl::factory(schema, inBuffer)); + + console.impl->eventEventReceived(eptr); + QPID_LOG(trace, "RCVD EventIndication seq=" << seq << " key=" << classKey->impl->str()); +} + +void BrokerProxyImpl::handleSchemaResponse(Buffer& inBuffer, uint32_t seq) +{ + SchemaObjectClass* oClassPtr; + SchemaEventClass* eClassPtr; + uint8_t kind = inBuffer.getOctet(); + const SchemaClassKey* key; + if (kind == CLASS_OBJECT) { + oClassPtr = SchemaObjectClassImpl::factory(inBuffer); + console.impl->learnClass(oClassPtr); + key = oClassPtr->getClassKey(); + QPID_LOG(trace, "RCVD SchemaResponse seq=" << seq << " kind=object key=" << key->impl->str()); + + // + // If we have just learned about the org.apache.qpid.broker:agent class, send a get + // request for the current list of agents so we can have it on-hand before we declare + // this session "stable". + // + if (key->impl->getClassName() == AGENT_CLASS && key->impl->getPackageName() == BROKER_PACKAGE) { + Mutex::ScopedLock _lock(lock); + incOutstandingLH(); + Buffer outBuffer(outputBuffer, MA_BUFFER_SIZE); + uint32_t sequence(seqMgr.reserve()); + Protocol::encodeHeader(outBuffer, Protocol::OP_GET_QUERY, sequence); + FieldTable ft; + ft.setString("_class", AGENT_CLASS); + ft.setString("_package", BROKER_PACKAGE); + ft.encode(outBuffer); + sendBufferLH(outBuffer, QMF_EXCHANGE, BROKER_AGENT_KEY); + QPID_LOG(trace, "SENT GetQuery seq=" << sequence << " key=" << BROKER_AGENT_KEY); + } + } else if (kind == CLASS_EVENT) { + eClassPtr = SchemaEventClassImpl::factory(inBuffer); + console.impl->learnClass(eClassPtr); + key = eClassPtr->getClassKey(); + QPID_LOG(trace, "RCVD SchemaResponse seq=" << seq << " kind=event key=" << key->impl->str()); + } + else { + QPID_LOG(error, "BrokerProxyImpl::handleSchemaResponse received unknown class kind: " << (int) kind); + } +} + +ObjectPtr BrokerProxyImpl::handleObjectIndication(Buffer& inBuffer, uint32_t seq, bool prop, bool stat) +{ + auto_ptr<SchemaClassKey> classKey(SchemaClassKeyImpl::factory(inBuffer)); + QPID_LOG(trace, "RCVD ObjectIndication seq=" << seq << " key=" << classKey->impl->str()); + + SchemaObjectClass* schema = console.impl->getSchema(classKey.get()); + if (schema == 0) { + QPID_LOG(trace, "No Schema Found for ObjectIndication. seq=" << seq << " key=" << classKey->impl->str()); + return ObjectPtr(); + } + + ObjectPtr optr(ObjectImpl::factory(schema, this, inBuffer, prop, stat, true)); + if (prop && classKey->impl->getPackageName() == BROKER_PACKAGE && classKey->impl->getClassName() == AGENT_CLASS) { + // + // We've intercepted information about a remote agent... update the agent list accordingly + // + updateAgentList(optr); + } + return optr; +} + +void BrokerProxyImpl::updateAgentList(ObjectPtr obj) +{ + Value* value = obj->getValue("agentBank"); + Mutex::ScopedLock _lock(lock); + if (value != 0 && value->isUint()) { + uint32_t agentBank = value->asUint(); + if (obj->isDeleted()) { + map<uint32_t, AgentProxyPtr>::iterator iter = agentList.find(agentBank); + if (iter != agentList.end()) { + AgentProxyPtr agent(iter->second); + console.impl->eventAgentDeleted(agent); + agentList.erase(agentBank); + QPID_LOG(trace, "Agent at bank " << agentBank << " removed from agent list"); + + // + // Release all sequence numbers for requests in-flight to this agent. + // Since the agent is no longer connected, these requests would not + // otherwise complete. + // + agent->impl->releaseInFlight(seqMgr); + } + } else { + Value* str = obj->getValue("label"); + string label; + if (str != 0 && str->isString()) + label = str->asString(); + map<uint32_t, AgentProxyPtr>::const_iterator iter = agentList.find(agentBank); + if (iter == agentList.end()) { + AgentProxyPtr agent(AgentProxyImpl::factory(console, publicObject, agentBank, label)); + agentList[agentBank] = agent; + console.impl->eventAgentAdded(agent); + QPID_LOG(trace, "Agent '" << label << "' found at bank " << agentBank); + } + } + } +} + +void BrokerProxyImpl::incOutstandingLH() +{ + requestsOutstanding++; +} + +void BrokerProxyImpl::decOutstanding() +{ + Mutex::ScopedLock _lock(lock); + requestsOutstanding--; + if (requestsOutstanding == 0 && !topicBound) { + topicBound = true; + for (vector<pair<string, string> >::const_iterator iter = console.impl->bindingList.begin(); + iter != console.impl->bindingList.end(); iter++) { + string exchange(iter->first.empty() ? QMF_EXCHANGE : iter->first); + string key(iter->second); + eventQueue.push_back(eventBind(exchange, queueName, key)); + } + eventQueue.push_back(eventStable()); + } +} + +MethodResponseImpl::MethodResponseImpl(const MethodResponseImpl& from) : + status(from.status), schema(from.schema) +{ + if (from.exception.get()) + exception.reset(new Value(*(from.exception))); + if (from.arguments.get()) + arguments.reset(new Value(*(from.arguments))); +} + +MethodResponseImpl::MethodResponseImpl(Buffer& buf, const SchemaMethod* s) : schema(s) +{ + string text; + + status = buf.getLong(); + buf.getMediumString(text); + exception.reset(new Value(TYPE_LSTR)); + exception->setString(text.c_str()); + + if (status != 0) + return; + + arguments.reset(new Value(TYPE_MAP)); + int argCount(schema->getArgumentCount()); + for (int idx = 0; idx < argCount; idx++) { + const SchemaArgument* arg = schema->getArgument(idx); + if (arg->getDirection() == DIR_OUT || arg->getDirection() == DIR_IN_OUT) { + Value* value(ValueImpl::factory(arg->getType(), buf)); + arguments->insert(arg->getName(), value); + } + } +} + +MethodResponseImpl::MethodResponseImpl(uint32_t s, const string& text) : schema(0) +{ + status = s; + exception.reset(new Value(TYPE_LSTR)); + exception->setString(text.c_str()); +} + +MethodResponse* MethodResponseImpl::factory(Buffer& buf, const SchemaMethod* schema) +{ + MethodResponseImpl* impl(new MethodResponseImpl(buf, schema)); + return new MethodResponse(impl); +} + +MethodResponse* MethodResponseImpl::factory(uint32_t status, const std::string& text) +{ + MethodResponseImpl* impl(new MethodResponseImpl(status, text)); + return new MethodResponse(impl); +} + +bool StaticContext::handleMessage(uint8_t opcode, uint32_t sequence, const string& routingKey, Buffer& buffer) +{ + ObjectPtr object; + bool completeContext = false; + + if (opcode == Protocol::OP_BROKER_RESPONSE) { + broker.handleBrokerResponse(buffer, sequence); + completeContext = true; + } + else if (opcode == Protocol::OP_COMMAND_COMPLETE) { + broker.handleCommandComplete(buffer, sequence); + completeContext = true; + } + else if (opcode == Protocol::OP_SCHEMA_RESPONSE) { + broker.handleSchemaResponse(buffer, sequence); + completeContext = true; + } + else if (opcode == Protocol::OP_PACKAGE_INDICATION) + broker.handlePackageIndication(buffer, sequence); + else if (opcode == Protocol::OP_CLASS_INDICATION) + broker.handleClassIndication(buffer, sequence); + else if (opcode == Protocol::OP_HEARTBEAT_INDICATION) + broker.handleHeartbeatIndication(buffer, sequence, routingKey); + else if (opcode == Protocol::OP_EVENT_INDICATION) + broker.handleEventIndication(buffer, sequence); + else if (opcode == Protocol::OP_PROPERTY_INDICATION) { + object = broker.handleObjectIndication(buffer, sequence, true, false); + broker.console.impl->eventObjectUpdate(object, true, false); + } + else if (opcode == Protocol::OP_STATISTIC_INDICATION) { + object = broker.handleObjectIndication(buffer, sequence, false, true); + broker.console.impl->eventObjectUpdate(object, false, true); + } + else if (opcode == Protocol::OP_OBJECT_INDICATION) { + object = broker.handleObjectIndication(buffer, sequence, true, true); + broker.console.impl->eventObjectUpdate(object, true, true); + } + else { + QPID_LOG(trace, "StaticContext::handleMessage invalid opcode: " << opcode); + completeContext = true; + } + + return completeContext; +} + +void QueryContext::reserve() +{ + Mutex::ScopedLock _lock(lock); + requestsOutstanding++; +} + +void QueryContext::release() +{ + { + Mutex::ScopedLock _lock(lock); + if (--requestsOutstanding > 0) + return; + } + + Mutex::ScopedLock _block(broker.lock); + broker.eventQueue.push_back(broker.eventQueryComplete(userContext, queryResponse)); +} + +bool QueryContext::handleMessage(uint8_t opcode, uint32_t sequence, const string& /*routingKey*/, Buffer& buffer) +{ + bool completeContext = false; + ObjectPtr object; + + if (opcode == Protocol::OP_COMMAND_COMPLETE) { + broker.handleCommandComplete(buffer, sequence); + completeContext = true; + + // + // Visit each agent and remove the sequence from that agent's in-flight list. + // This could be made more efficient because only one agent will have this sequence + // in its list. + // + map<uint32_t, AgentProxyPtr> copy; + { + Mutex::ScopedLock _block(broker.lock); + copy = broker.agentList; + } + for (map<uint32_t, AgentProxyPtr>::iterator iter = copy.begin(); iter != copy.end(); iter++) + iter->second->impl->delSequence(sequence); + } + else if (opcode == Protocol::OP_OBJECT_INDICATION) { + object = broker.handleObjectIndication(buffer, sequence, true, true); + if (object.get() != 0) + queryResponse->impl->results.push_back(object); + } + else { + QPID_LOG(trace, "QueryContext::handleMessage invalid opcode: " << opcode); + completeContext = true; + } + + return completeContext; +} + +void MethodContext::release() +{ + Mutex::ScopedLock _block(broker.lock); + broker.eventQueue.push_back(broker.eventMethodResponse(userContext, methodResponse)); +} + +bool MethodContext::handleMessage(uint8_t opcode, uint32_t sequence, const string& /*routingKey*/, Buffer& buffer) +{ + if (opcode == Protocol::OP_METHOD_RESPONSE) + methodResponse = broker.handleMethodResponse(buffer, sequence, schema); + else + QPID_LOG(trace, "QueryContext::handleMessage invalid opcode: " << opcode); + + return true; +} + + +//================================================================== +// Wrappers +//================================================================== + +AgentProxy::AgentProxy(AgentProxyImpl* i) : impl(i) {} +AgentProxy::AgentProxy(const AgentProxy& from) : impl(new AgentProxyImpl(*(from.impl))) {} +AgentProxy::~AgentProxy() { delete impl; } +const char* AgentProxy::getLabel() const { return impl->getLabel().c_str(); } +uint32_t AgentProxy::getBrokerBank() const { return impl->getBrokerBank(); } +uint32_t AgentProxy::getAgentBank() const { return impl->getAgentBank(); } + +BrokerProxy::BrokerProxy(Console& console) : impl(new BrokerProxyImpl(*this, console)) {} +BrokerProxy::~BrokerProxy() { delete impl; } +void BrokerProxy::sessionOpened(SessionHandle& sh) { impl->sessionOpened(sh); } +void BrokerProxy::sessionClosed() { impl->sessionClosed(); } +void BrokerProxy::startProtocol() { impl->startProtocol(); } +void BrokerProxy::handleRcvMessage(Message& message) { impl->handleRcvMessage(message); } +bool BrokerProxy::getXmtMessage(Message& item) const { return impl->getXmtMessage(item); } +void BrokerProxy::popXmt() { impl->popXmt(); } +bool BrokerProxy::getEvent(BrokerEvent& event) const { return impl->getEvent(event); } +void BrokerProxy::popEvent() { impl->popEvent(); } +uint32_t BrokerProxy::agentCount() const { return impl->agentCount(); } +const AgentProxy* BrokerProxy::getAgent(uint32_t idx) const { return impl->getAgent(idx); } +void BrokerProxy::sendQuery(const Query& query, void* context, const AgentProxy* agent) { impl->sendQuery(query, context, agent); } + +MethodResponse::MethodResponse(const MethodResponse& from) : impl(new MethodResponseImpl(*(from.impl))) {} +MethodResponse::MethodResponse(MethodResponseImpl* i) : impl(i) {} +MethodResponse::~MethodResponse() {} +uint32_t MethodResponse::getStatus() const { return impl->getStatus(); } +const Value* MethodResponse::getException() const { return impl->getException(); } +const Value* MethodResponse::getArgs() const { return impl->getArgs(); } + +QueryResponse::QueryResponse(QueryResponseImpl* i) : impl(i) {} +QueryResponse::~QueryResponse() {} +uint32_t QueryResponse::getStatus() const { return impl->getStatus(); } +const Value* QueryResponse::getException() const { return impl->getException(); } +uint32_t QueryResponse::getObjectCount() const { return impl->getObjectCount(); } +const Object* QueryResponse::getObject(uint32_t idx) const { return impl->getObject(idx); } + diff --git a/qpid/cpp/src/qmf/engine/BrokerProxyImpl.h b/qpid/cpp/src/qmf/engine/BrokerProxyImpl.h new file mode 100644 index 0000000000..0542b67dbb --- /dev/null +++ b/qpid/cpp/src/qmf/engine/BrokerProxyImpl.h @@ -0,0 +1,241 @@ +#ifndef _QmfEngineBrokerProxyImpl_ +#define _QmfEngineBrokerProxyImpl_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/Console.h" +#include "qmf/engine/ObjectImpl.h" +#include "qmf/engine/EventImpl.h" +#include "qmf/engine/SchemaImpl.h" +#include "qmf/engine/ValueImpl.h" +#include "qmf/engine/QueryImpl.h" +#include "qmf/engine/SequenceManager.h" +#include "qmf/engine/MessageImpl.h" +#include "qpid/framing/Buffer.h" +#include "qpid/framing/Uuid.h" +#include "qpid/sys/Mutex.h" +#include "boost/shared_ptr.hpp" +#include "boost/noncopyable.hpp" +#include <memory> +#include <string> +#include <deque> +#include <map> +#include <set> +#include <vector> + +namespace qmf { +namespace engine { + + typedef boost::shared_ptr<MethodResponse> MethodResponsePtr; + struct MethodResponseImpl { + uint32_t status; + const SchemaMethod* schema; + std::auto_ptr<Value> exception; + std::auto_ptr<Value> arguments; + + MethodResponseImpl(const MethodResponseImpl& from); + MethodResponseImpl(qpid::framing::Buffer& buf, const SchemaMethod* schema); + MethodResponseImpl(uint32_t status, const std::string& text); + static MethodResponse* factory(qpid::framing::Buffer& buf, const SchemaMethod* schema); + static MethodResponse* factory(uint32_t status, const std::string& text); + ~MethodResponseImpl() {} + uint32_t getStatus() const { return status; } + const Value* getException() const { return exception.get(); } + const Value* getArgs() const { return arguments.get(); } + }; + + typedef boost::shared_ptr<QueryResponse> QueryResponsePtr; + struct QueryResponseImpl { + uint32_t status; + std::auto_ptr<Value> exception; + std::vector<ObjectPtr> results; + + QueryResponseImpl() : status(0) {} + static QueryResponse* factory() { + QueryResponseImpl* impl(new QueryResponseImpl()); + return new QueryResponse(impl); + } + ~QueryResponseImpl() {} + uint32_t getStatus() const { return status; } + const Value* getException() const { return exception.get(); } + uint32_t getObjectCount() const { return results.size(); } + const Object* getObject(uint32_t idx) const; + }; + + struct BrokerEventImpl { + typedef boost::shared_ptr<BrokerEventImpl> Ptr; + BrokerEvent::EventKind kind; + std::string name; + std::string exchange; + std::string bindingKey; + void* context; + QueryResponsePtr queryResponse; + MethodResponsePtr methodResponse; + + BrokerEventImpl(BrokerEvent::EventKind k) : kind(k), context(0) {} + ~BrokerEventImpl() {} + BrokerEvent copy(); + }; + + typedef boost::shared_ptr<AgentProxy> AgentProxyPtr; + struct AgentProxyImpl { + Console& console; + BrokerProxy& broker; + uint32_t agentBank; + std::string label; + std::set<uint32_t> inFlightSequences; + + AgentProxyImpl(Console& c, BrokerProxy& b, uint32_t ab, const std::string& l) : console(c), broker(b), agentBank(ab), label(l) {} + static AgentProxy* factory(Console& c, BrokerProxy& b, uint32_t ab, const std::string& l) { + AgentProxyImpl* impl(new AgentProxyImpl(c, b, ab, l)); + return new AgentProxy(impl); + } + ~AgentProxyImpl() {} + const std::string& getLabel() const { return label; } + uint32_t getBrokerBank() const { return 1; } + uint32_t getAgentBank() const { return agentBank; } + void addSequence(uint32_t seq) { inFlightSequences.insert(seq); } + void delSequence(uint32_t seq) { inFlightSequences.erase(seq); } + void releaseInFlight(SequenceManager& seqMgr) { + for (std::set<uint32_t>::iterator iter = inFlightSequences.begin(); iter != inFlightSequences.end(); iter++) + seqMgr.release(*iter); + inFlightSequences.clear(); + } + }; + + class BrokerProxyImpl : public boost::noncopyable { + public: + BrokerProxyImpl(BrokerProxy& pub, Console& _console); + ~BrokerProxyImpl() {} + + void sessionOpened(SessionHandle& sh); + void sessionClosed(); + void startProtocol(); + + void sendBufferLH(qpid::framing::Buffer& buf, const std::string& destination, const std::string& routingKey); + void handleRcvMessage(Message& message); + bool getXmtMessage(Message& item) const; + void popXmt(); + + bool getEvent(BrokerEvent& event) const; + void popEvent(); + + uint32_t agentCount() const; + const AgentProxy* getAgent(uint32_t idx) const; + void sendQuery(const Query& query, void* context, const AgentProxy* agent); + bool sendGetRequestLH(SequenceContext::Ptr queryContext, const Query& query, const AgentProxy* agent); + std::string encodeMethodArguments(const SchemaMethod* schema, const Value* args, qpid::framing::Buffer& buffer); + std::string encodedSizeMethodArguments(const SchemaMethod* schema, const Value* args, uint32_t& size); + void sendMethodRequest(ObjectId* oid, const SchemaObjectClass* cls, const std::string& method, const Value* args, void* context); + + void addBinding(const std::string& exchange, const std::string& key); + void staticRelease() { decOutstanding(); } + + private: + friend struct StaticContext; + friend struct QueryContext; + friend struct MethodContext; + BrokerProxy& publicObject; + mutable qpid::sys::Mutex lock; + Console& console; + std::string queueName; + qpid::framing::Uuid brokerId; + SequenceManager seqMgr; + uint32_t requestsOutstanding; + bool topicBound; + std::map<uint32_t, AgentProxyPtr> agentList; + std::deque<MessageImpl::Ptr> xmtQueue; + std::deque<BrokerEventImpl::Ptr> eventQueue; + +# define MA_BUFFER_SIZE 65536 + char outputBuffer[MA_BUFFER_SIZE]; + + BrokerEventImpl::Ptr eventDeclareQueue(const std::string& queueName); + BrokerEventImpl::Ptr eventBind(const std::string& exchange, const std::string& queue, const std::string& key); + BrokerEventImpl::Ptr eventSetupComplete(); + BrokerEventImpl::Ptr eventStable(); + BrokerEventImpl::Ptr eventQueryComplete(void* context, QueryResponsePtr response); + BrokerEventImpl::Ptr eventMethodResponse(void* context, MethodResponsePtr response); + + void handleBrokerResponse(qpid::framing::Buffer& inBuffer, uint32_t seq); + void handlePackageIndication(qpid::framing::Buffer& inBuffer, uint32_t seq); + void handleCommandComplete(qpid::framing::Buffer& inBuffer, uint32_t seq); + void handleClassIndication(qpid::framing::Buffer& inBuffer, uint32_t seq); + MethodResponsePtr handleMethodResponse(qpid::framing::Buffer& inBuffer, uint32_t seq, const SchemaMethod* schema); + void handleHeartbeatIndication(qpid::framing::Buffer& inBuffer, uint32_t seq, const std::string& routingKey); + void handleEventIndication(qpid::framing::Buffer& inBuffer, uint32_t seq); + void handleSchemaResponse(qpid::framing::Buffer& inBuffer, uint32_t seq); + ObjectPtr handleObjectIndication(qpid::framing::Buffer& inBuffer, uint32_t seq, bool prop, bool stat); + void updateAgentList(ObjectPtr obj); + void incOutstandingLH(); + void decOutstanding(); + }; + + // + // StaticContext is used to handle: + // + // 1) Responses to console-level requests (for schema info, etc.) + // 2) Unsolicited messages from agents (events, published updates, etc.) + // + struct StaticContext : public SequenceContext { + StaticContext(BrokerProxyImpl& b) : broker(b) {} + virtual ~StaticContext() {} + void reserve() {} + void release() { broker.staticRelease(); } + bool handleMessage(uint8_t opcode, uint32_t sequence, const std::string& routingKey, qpid::framing::Buffer& buffer); + BrokerProxyImpl& broker; + }; + + // + // QueryContext is used to track and handle responses associated with a single Get Query + // + struct QueryContext : public SequenceContext { + QueryContext(BrokerProxyImpl& b, void* u) : + broker(b), userContext(u), requestsOutstanding(0), queryResponse(QueryResponseImpl::factory()) {} + virtual ~QueryContext() {} + void reserve(); + void release(); + bool handleMessage(uint8_t opcode, uint32_t sequence, const std::string& routingKey, qpid::framing::Buffer& buffer); + + mutable qpid::sys::Mutex lock; + BrokerProxyImpl& broker; + void* userContext; + uint32_t requestsOutstanding; + QueryResponsePtr queryResponse; + }; + + struct MethodContext : public SequenceContext { + MethodContext(BrokerProxyImpl& b, void* u, const SchemaMethod* s) : broker(b), userContext(u), schema(s) {} + virtual ~MethodContext() {} + void reserve() {} + void release(); + bool handleMessage(uint8_t opcode, uint32_t sequence, const std::string& routingKey, qpid::framing::Buffer& buffer); + + BrokerProxyImpl& broker; + void* userContext; + const SchemaMethod* schema; + MethodResponsePtr methodResponse; + }; + +} +} + +#endif + diff --git a/qpid/cpp/src/qmf/engine/ConnectionSettingsImpl.cpp b/qpid/cpp/src/qmf/engine/ConnectionSettingsImpl.cpp new file mode 100644 index 0000000000..22a65f28ca --- /dev/null +++ b/qpid/cpp/src/qmf/engine/ConnectionSettingsImpl.cpp @@ -0,0 +1,278 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/ConnectionSettingsImpl.h" +#include "qmf/engine/Typecode.h" + +using namespace std; +using namespace qmf::engine; +using namespace qpid; + +const string attrProtocol("protocol"); +const string attrHost("host"); +const string attrPort("port"); +const string attrVirtualhost("virtualhost"); +const string attrUsername("username"); +const string attrPassword("password"); +const string attrMechanism("mechanism"); +const string attrLocale("locale"); +const string attrHeartbeat("heartbeat"); +const string attrMaxChannels("maxChannels"); +const string attrMaxFrameSize("maxFrameSize"); +const string attrBounds("bounds"); +const string attrTcpNoDelay("tcpNoDelay"); +const string attrService("service"); +const string attrMinSsf("minSsf"); +const string attrMaxSsf("maxSsf"); +const string attrRetryDelayMin("retryDelayMin"); +const string attrRetryDelayMax("retryDelayMax"); +const string attrRetryDelayFactor("retryDelayFactor"); +const string attrSendUserId("sendUserId"); + +ConnectionSettingsImpl::ConnectionSettingsImpl() : + retryDelayMin(1), retryDelayMax(64), retryDelayFactor(2), sendUserId(true) +{ +} + +ConnectionSettingsImpl::ConnectionSettingsImpl(const string& /*url*/) : + retryDelayMin(1), retryDelayMax(64), retryDelayFactor(2), sendUserId(true) +{ + // TODO: Parse the URL +} + +bool ConnectionSettingsImpl::setAttr(const string& key, const Value& value) +{ + if (key == attrProtocol) clientSettings.protocol = value.asString(); + else if (key == attrHost) clientSettings.host = value.asString(); + else if (key == attrPort) clientSettings.port = value.asUint(); + else if (key == attrVirtualhost) clientSettings.virtualhost = value.asString(); + else if (key == attrUsername) clientSettings.username = value.asString(); + else if (key == attrPassword) clientSettings.password = value.asString(); + else if (key == attrMechanism) clientSettings.mechanism = value.asString(); + else if (key == attrLocale) clientSettings.locale = value.asString(); + else if (key == attrHeartbeat) clientSettings.heartbeat = value.asUint(); + else if (key == attrMaxChannels) clientSettings.maxChannels = value.asUint(); + else if (key == attrMaxFrameSize) clientSettings.maxFrameSize = value.asUint(); + else if (key == attrBounds) clientSettings.bounds = value.asUint(); + else if (key == attrTcpNoDelay) clientSettings.tcpNoDelay = value.asBool(); + else if (key == attrService) clientSettings.service = value.asString(); + else if (key == attrMinSsf) clientSettings.minSsf = value.asUint(); + else if (key == attrMaxSsf) clientSettings.maxSsf = value.asUint(); + + else if (key == attrRetryDelayMin) retryDelayMin = value.asUint(); + else if (key == attrRetryDelayMax) retryDelayMax = value.asUint(); + else if (key == attrRetryDelayFactor) retryDelayFactor = value.asUint(); + else if (key == attrSendUserId) sendUserId = value.asBool(); + else + return false; + return true; +} + +Value ConnectionSettingsImpl::getAttr(const string& key) const +{ + Value strval(TYPE_LSTR); + Value intval(TYPE_UINT32); + Value boolval(TYPE_BOOL); + + if (key == attrProtocol) { + strval.setString(clientSettings.protocol.c_str()); + return strval; + } + + if (key == attrHost) { + strval.setString(clientSettings.host.c_str()); + return strval; + } + + if (key == attrPort) { + intval.setUint(clientSettings.port); + return intval; + } + + if (key == attrVirtualhost) { + strval.setString(clientSettings.virtualhost.c_str()); + return strval; + } + + if (key == attrUsername) { + strval.setString(clientSettings.username.c_str()); + return strval; + } + + if (key == attrPassword) { + strval.setString(clientSettings.password.c_str()); + return strval; + } + + if (key == attrMechanism) { + strval.setString(clientSettings.mechanism.c_str()); + return strval; + } + + if (key == attrLocale) { + strval.setString(clientSettings.locale.c_str()); + return strval; + } + + if (key == attrHeartbeat) { + intval.setUint(clientSettings.heartbeat); + return intval; + } + + if (key == attrMaxChannels) { + intval.setUint(clientSettings.maxChannels); + return intval; + } + + if (key == attrMaxFrameSize) { + intval.setUint(clientSettings.maxFrameSize); + return intval; + } + + if (key == attrBounds) { + intval.setUint(clientSettings.bounds); + return intval; + } + + if (key == attrTcpNoDelay) { + boolval.setBool(clientSettings.tcpNoDelay); + return boolval; + } + + if (key == attrService) { + strval.setString(clientSettings.service.c_str()); + return strval; + } + + if (key == attrMinSsf) { + intval.setUint(clientSettings.minSsf); + return intval; + } + + if (key == attrMaxSsf) { + intval.setUint(clientSettings.maxSsf); + return intval; + } + + if (key == attrRetryDelayMin) { + intval.setUint(retryDelayMin); + return intval; + } + + if (key == attrRetryDelayMax) { + intval.setUint(retryDelayMax); + return intval; + } + + if (key == attrRetryDelayFactor) { + intval.setUint(retryDelayFactor); + return intval; + } + + if (key == attrSendUserId) { + boolval.setBool(sendUserId); + return boolval; + } + + return strval; +} + +const string& ConnectionSettingsImpl::getAttrString() const +{ + // TODO: build and return attribute string + return attrString; +} + +void ConnectionSettingsImpl::transportTcp(uint16_t port) +{ + clientSettings.protocol = "tcp"; + clientSettings.port = port; +} + +void ConnectionSettingsImpl::transportSsl(uint16_t port) +{ + clientSettings.protocol = "ssl"; + clientSettings.port = port; +} + +void ConnectionSettingsImpl::transportRdma(uint16_t port) +{ + clientSettings.protocol = "rdma"; + clientSettings.port = port; +} + +void ConnectionSettingsImpl::authAnonymous(const string& username) +{ + clientSettings.mechanism = "ANONYMOUS"; + clientSettings.username = username; +} + +void ConnectionSettingsImpl::authPlain(const string& username, const string& password) +{ + clientSettings.mechanism = "PLAIN"; + clientSettings.username = username; + clientSettings.password = password; +} + +void ConnectionSettingsImpl::authGssapi(const string& serviceName, uint32_t minSsf, uint32_t maxSsf) +{ + clientSettings.mechanism = "GSSAPI"; + clientSettings.service = serviceName; + clientSettings.minSsf = minSsf; + clientSettings.maxSsf = maxSsf; +} + +void ConnectionSettingsImpl::setRetry(int delayMin, int delayMax, int delayFactor) +{ + retryDelayMin = delayMin; + retryDelayMax = delayMax; + retryDelayFactor = delayFactor; +} + +const client::ConnectionSettings& ConnectionSettingsImpl::getClientSettings() const +{ + return clientSettings; +} + +void ConnectionSettingsImpl::getRetrySettings(int* min, int* max, int* factor) const +{ + *min = retryDelayMin; + *max = retryDelayMax; + *factor = retryDelayFactor; +} + +//================================================================== +// Wrappers +//================================================================== + +ConnectionSettings::ConnectionSettings(const ConnectionSettings& from) { impl = new ConnectionSettingsImpl(*from.impl); } +ConnectionSettings::ConnectionSettings() { impl = new ConnectionSettingsImpl(); } +ConnectionSettings::ConnectionSettings(const char* url) { impl = new ConnectionSettingsImpl(url); } +ConnectionSettings::~ConnectionSettings() { delete impl; } +bool ConnectionSettings::setAttr(const char* key, const Value& value) { return impl->setAttr(key, value); } +Value ConnectionSettings::getAttr(const char* key) const { return impl->getAttr(key); } +const char* ConnectionSettings::getAttrString() const { return impl->getAttrString().c_str(); } +void ConnectionSettings::transportTcp(uint16_t port) { impl->transportTcp(port); } +void ConnectionSettings::transportSsl(uint16_t port) { impl->transportSsl(port); } +void ConnectionSettings::transportRdma(uint16_t port) { impl->transportRdma(port); } +void ConnectionSettings::authAnonymous(const char* username) { impl->authAnonymous(username); } +void ConnectionSettings::authPlain(const char* username, const char* password) { impl->authPlain(username, password); } +void ConnectionSettings::authGssapi(const char* serviceName, uint32_t minSsf, uint32_t maxSsf) { impl->authGssapi(serviceName, minSsf, maxSsf); } +void ConnectionSettings::setRetry(int delayMin, int delayMax, int delayFactor) { impl->setRetry(delayMin, delayMax, delayFactor); } + diff --git a/qpid/cpp/src/qmf/engine/ConnectionSettingsImpl.h b/qpid/cpp/src/qmf/engine/ConnectionSettingsImpl.h new file mode 100644 index 0000000000..98bf87868b --- /dev/null +++ b/qpid/cpp/src/qmf/engine/ConnectionSettingsImpl.h @@ -0,0 +1,63 @@ +#ifndef _QmfEngineConnectionSettingsImpl_ +#define _QmfEngineConnectionSettingsImpl_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/ConnectionSettings.h" +#include "qmf/engine/Value.h" +#include "qpid/client/ConnectionSettings.h" +#include <string> +#include <map> + +namespace qmf { +namespace engine { + + class ConnectionSettingsImpl { + qpid::client::ConnectionSettings clientSettings; + mutable std::string attrString; + int retryDelayMin; + int retryDelayMax; + int retryDelayFactor; + bool sendUserId; + + public: + ConnectionSettingsImpl(); + ConnectionSettingsImpl(const std::string& url); + ~ConnectionSettingsImpl() {} + bool setAttr(const std::string& key, const Value& value); + Value getAttr(const std::string& key) const; + const std::string& getAttrString() const; + void transportTcp(uint16_t port); + void transportSsl(uint16_t port); + void transportRdma(uint16_t port); + void authAnonymous(const std::string& username); + void authPlain(const std::string& username, const std::string& password); + void authGssapi(const std::string& serviceName, uint32_t minSsf, uint32_t maxSsf); + void setRetry(int delayMin, int delayMax, int delayFactor); + + const qpid::client::ConnectionSettings& getClientSettings() const; + void getRetrySettings(int* delayMin, int* delayMax, int* delayFactor) const; + bool getSendUserId() const { return sendUserId; } + }; + +} +} + +#endif diff --git a/qpid/cpp/src/qmf/engine/ConsoleImpl.cpp b/qpid/cpp/src/qmf/engine/ConsoleImpl.cpp new file mode 100644 index 0000000000..4a5da31bdc --- /dev/null +++ b/qpid/cpp/src/qmf/engine/ConsoleImpl.cpp @@ -0,0 +1,458 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/ConsoleImpl.h" +#include "qmf/engine/MessageImpl.h" +#include "qmf/engine/SchemaImpl.h" +#include "qmf/engine/Typecode.h" +#include "qmf/engine/ObjectImpl.h" +#include "qmf/engine/ObjectIdImpl.h" +#include "qmf/engine/QueryImpl.h" +#include "qmf/engine/ValueImpl.h" +#include "qmf/engine/Protocol.h" +#include "qmf/engine/SequenceManager.h" +#include "qmf/engine/BrokerProxyImpl.h" +#include <qpid/framing/Buffer.h> +#include <qpid/framing/Uuid.h> +#include <qpid/framing/FieldTable.h> +#include <qpid/framing/FieldValue.h> +#include <qpid/log/Statement.h> +#include <qpid/sys/Time.h> +#include <qpid/sys/SystemInfo.h> +#include <string.h> +#include <iostream> +#include <fstream> + +using namespace std; +using namespace qmf::engine; +using namespace qpid::framing; +using namespace qpid::sys; + +namespace { + const char* QMF_EXCHANGE = "qpid.management"; +} + +#define STRING_REF(s) {if (!s.empty()) item.s = const_cast<char*>(s.c_str());} + +ConsoleEvent ConsoleEventImpl::copy() +{ + ConsoleEvent item; + + ::memset(&item, 0, sizeof(ConsoleEvent)); + item.kind = kind; + item.agent = agent.get(); + item.classKey = classKey; + item.object = object.get(); + item.context = context; + item.event = event.get(); + item.timestamp = timestamp; + item.hasProps = hasProps; + item.hasStats = hasStats; + + STRING_REF(name); + + return item; +} + +ConsoleImpl::ConsoleImpl(const ConsoleSettings& s) : settings(s) +{ + bindingList.push_back(pair<string, string>(string(), "schema.#")); + if (settings.rcvObjects && settings.rcvEvents && settings.rcvHeartbeats && !settings.userBindings) { + bindingList.push_back(pair<string, string>(string(), "console.#")); + } else { + if (settings.rcvObjects && !settings.userBindings) + bindingList.push_back(pair<string, string>(string(), "console.obj.#")); + else + bindingList.push_back(pair<string, string>(string(), "console.obj.*.*.org.apache.qpid.broker.agent")); + if (settings.rcvEvents) + bindingList.push_back(pair<string, string>(string(), "console.event.#")); + if (settings.rcvHeartbeats) + bindingList.push_back(pair<string, string>(string(), "console.heartbeat.#")); + } +} + +ConsoleImpl::~ConsoleImpl() +{ + // This function intentionally left blank. +} + +bool ConsoleImpl::getEvent(ConsoleEvent& event) const +{ + Mutex::ScopedLock _lock(lock); + if (eventQueue.empty()) + return false; + event = eventQueue.front()->copy(); + return true; +} + +void ConsoleImpl::popEvent() +{ + Mutex::ScopedLock _lock(lock); + if (!eventQueue.empty()) + eventQueue.pop_front(); +} + +void ConsoleImpl::addConnection(BrokerProxy& broker, void* /*context*/) +{ + Mutex::ScopedLock _lock(lock); + brokerList.push_back(broker.impl); +} + +void ConsoleImpl::delConnection(BrokerProxy& broker) +{ + Mutex::ScopedLock _lock(lock); + for (vector<BrokerProxyImpl*>::iterator iter = brokerList.begin(); + iter != brokerList.end(); iter++) + if (*iter == broker.impl) { + brokerList.erase(iter); + break; + } +} + +uint32_t ConsoleImpl::packageCount() const +{ + Mutex::ScopedLock _lock(lock); + return packages.size(); +} + +const string& ConsoleImpl::getPackageName(uint32_t idx) const +{ + const static string empty; + + Mutex::ScopedLock _lock(lock); + if (idx >= packages.size()) + return empty; + + PackageList::const_iterator iter = packages.begin(); + for (uint32_t i = 0; i < idx; i++) iter++; + return iter->first; +} + +uint32_t ConsoleImpl::classCount(const char* packageName) const +{ + Mutex::ScopedLock _lock(lock); + PackageList::const_iterator pIter = packages.find(packageName); + if (pIter == packages.end()) + return 0; + + const ObjectClassList& oList = pIter->second.first; + const EventClassList& eList = pIter->second.second; + + return oList.size() + eList.size(); +} + +const SchemaClassKey* ConsoleImpl::getClass(const char* packageName, uint32_t idx) const +{ + Mutex::ScopedLock _lock(lock); + PackageList::const_iterator pIter = packages.find(packageName); + if (pIter == packages.end()) + return 0; + + const ObjectClassList& oList = pIter->second.first; + const EventClassList& eList = pIter->second.second; + uint32_t count = 0; + + for (ObjectClassList::const_iterator oIter = oList.begin(); + oIter != oList.end(); oIter++) { + if (count == idx) + return oIter->second->getClassKey(); + count++; + } + + for (EventClassList::const_iterator eIter = eList.begin(); + eIter != eList.end(); eIter++) { + if (count == idx) + return eIter->second->getClassKey(); + count++; + } + + return 0; +} + +ClassKind ConsoleImpl::getClassKind(const SchemaClassKey* key) const +{ + Mutex::ScopedLock _lock(lock); + PackageList::const_iterator pIter = packages.find(key->getPackageName()); + if (pIter == packages.end()) + return CLASS_OBJECT; + + const EventClassList& eList = pIter->second.second; + if (eList.find(key) != eList.end()) + return CLASS_EVENT; + return CLASS_OBJECT; +} + +const SchemaObjectClass* ConsoleImpl::getObjectClass(const SchemaClassKey* key) const +{ + Mutex::ScopedLock _lock(lock); + PackageList::const_iterator pIter = packages.find(key->getPackageName()); + if (pIter == packages.end()) + return 0; + + const ObjectClassList& oList = pIter->second.first; + ObjectClassList::const_iterator iter = oList.find(key); + if (iter == oList.end()) + return 0; + return iter->second; +} + +const SchemaEventClass* ConsoleImpl::getEventClass(const SchemaClassKey* key) const +{ + Mutex::ScopedLock _lock(lock); + PackageList::const_iterator pIter = packages.find(key->getPackageName()); + if (pIter == packages.end()) + return 0; + + const EventClassList& eList = pIter->second.second; + EventClassList::const_iterator iter = eList.find(key); + if (iter == eList.end()) + return 0; + return iter->second; +} + +void ConsoleImpl::bindPackage(const char* packageName) +{ + stringstream key; + key << "console.obj.*.*." << packageName << ".#"; + Mutex::ScopedLock _lock(lock); + bindingList.push_back(pair<string, string>(string(), key.str())); + for (vector<BrokerProxyImpl*>::iterator iter = brokerList.begin(); + iter != brokerList.end(); iter++) + (*iter)->addBinding(QMF_EXCHANGE, key.str()); +} + +void ConsoleImpl::bindClass(const SchemaClassKey* classKey) +{ + stringstream key; + key << "console.obj.*.*." << classKey->getPackageName() << "." << classKey->getClassName() << ".#"; + Mutex::ScopedLock _lock(lock); + bindingList.push_back(pair<string, string>(string(), key.str())); + for (vector<BrokerProxyImpl*>::iterator iter = brokerList.begin(); + iter != brokerList.end(); iter++) + (*iter)->addBinding(QMF_EXCHANGE, key.str()); +} + +void ConsoleImpl::bindClass(const char* packageName, const char* className) +{ + stringstream key; + key << "console.obj.*.*." << packageName << "." << className << ".#"; + Mutex::ScopedLock _lock(lock); + bindingList.push_back(pair<string, string>(string(), key.str())); + for (vector<BrokerProxyImpl*>::iterator iter = brokerList.begin(); + iter != brokerList.end(); iter++) + (*iter)->addBinding(QMF_EXCHANGE, key.str()); +} + + +void ConsoleImpl::bindEvent(const SchemaClassKey* classKey) +{ + bindEvent(classKey->getPackageName(), classKey->getClassName()); +} + +void ConsoleImpl::bindEvent(const char* packageName, const char* eventName) +{ + if (!settings.userBindings) throw qpid::Exception("Console not configured for userBindings."); + if (settings.rcvEvents) throw qpid::Exception("Console already configured to receive all events."); + + stringstream key; + key << "console.event.*.*." << packageName; + if (eventName && *eventName) { + key << "." << eventName << ".#"; + } else { + key << ".#"; + } + + Mutex::ScopedLock _lock(lock); + bindingList.push_back(pair<string, string>(string(), key.str())); + for (vector<BrokerProxyImpl*>::iterator iter = brokerList.begin(); + iter != brokerList.end(); iter++) + (*iter)->addBinding(QMF_EXCHANGE, key.str()); +} + +/* +void ConsoleImpl::startSync(const Query& query, void* context, SyncQuery& sync) +{ +} + +void ConsoleImpl::touchSync(SyncQuery& sync) +{ +} + +void ConsoleImpl::endSync(SyncQuery& sync) +{ +} +*/ + +void ConsoleImpl::learnPackage(const string& packageName) +{ + Mutex::ScopedLock _lock(lock); + if (packages.find(packageName) == packages.end()) { + packages.insert(pair<string, pair<ObjectClassList, EventClassList> > + (packageName, pair<ObjectClassList, EventClassList>(ObjectClassList(), EventClassList()))); + eventNewPackage(packageName); + } +} + +void ConsoleImpl::learnClass(SchemaObjectClass* cls) +{ + Mutex::ScopedLock _lock(lock); + const SchemaClassKey* key = cls->getClassKey(); + PackageList::iterator pIter = packages.find(key->getPackageName()); + if (pIter == packages.end()) + return; + + ObjectClassList& list = pIter->second.first; + if (list.find(key) == list.end()) { + list[key] = cls; + eventNewClass(key); + } +} + +void ConsoleImpl::learnClass(SchemaEventClass* cls) +{ + Mutex::ScopedLock _lock(lock); + const SchemaClassKey* key = cls->getClassKey(); + PackageList::iterator pIter = packages.find(key->getPackageName()); + if (pIter == packages.end()) + return; + + EventClassList& list = pIter->second.second; + if (list.find(key) == list.end()) { + list[key] = cls; + eventNewClass(key); + } +} + +bool ConsoleImpl::haveClass(const SchemaClassKey* key) const +{ + Mutex::ScopedLock _lock(lock); + PackageList::const_iterator pIter = packages.find(key->getPackageName()); + if (pIter == packages.end()) + return false; + + const ObjectClassList& oList = pIter->second.first; + const EventClassList& eList = pIter->second.second; + + return oList.find(key) != oList.end() || eList.find(key) != eList.end(); +} + +SchemaObjectClass* ConsoleImpl::getSchema(const SchemaClassKey* key) const +{ + Mutex::ScopedLock _lock(lock); + PackageList::const_iterator pIter = packages.find(key->getPackageName()); + if (pIter == packages.end()) + return 0; + + const ObjectClassList& oList = pIter->second.first; + ObjectClassList::const_iterator iter = oList.find(key); + if (iter == oList.end()) + return 0; + + return iter->second; +} + +void ConsoleImpl::eventAgentAdded(boost::shared_ptr<AgentProxy> agent) +{ + ConsoleEventImpl::Ptr event(new ConsoleEventImpl(ConsoleEvent::AGENT_ADDED)); + event->agent = agent; + Mutex::ScopedLock _lock(lock); + eventQueue.push_back(event); +} + +void ConsoleImpl::eventAgentDeleted(boost::shared_ptr<AgentProxy> agent) +{ + ConsoleEventImpl::Ptr event(new ConsoleEventImpl(ConsoleEvent::AGENT_DELETED)); + event->agent = agent; + Mutex::ScopedLock _lock(lock); + eventQueue.push_back(event); +} + +void ConsoleImpl::eventNewPackage(const string& packageName) +{ + ConsoleEventImpl::Ptr event(new ConsoleEventImpl(ConsoleEvent::NEW_PACKAGE)); + event->name = packageName; + Mutex::ScopedLock _lock(lock); + eventQueue.push_back(event); +} + +void ConsoleImpl::eventNewClass(const SchemaClassKey* key) +{ + ConsoleEventImpl::Ptr event(new ConsoleEventImpl(ConsoleEvent::NEW_CLASS)); + event->classKey = key; + Mutex::ScopedLock _lock(lock); + eventQueue.push_back(event); +} + +void ConsoleImpl::eventObjectUpdate(ObjectPtr object, bool prop, bool stat) +{ + ConsoleEventImpl::Ptr event(new ConsoleEventImpl(ConsoleEvent::OBJECT_UPDATE)); + event->object = object; + event->hasProps = prop; + event->hasStats = stat; + Mutex::ScopedLock _lock(lock); + eventQueue.push_back(event); +} + +void ConsoleImpl::eventAgentHeartbeat(boost::shared_ptr<AgentProxy> agent, uint64_t timestamp) +{ + ConsoleEventImpl::Ptr event(new ConsoleEventImpl(ConsoleEvent::AGENT_HEARTBEAT)); + event->agent = agent; + event->timestamp = timestamp; + Mutex::ScopedLock _lock(lock); + eventQueue.push_back(event); +} + + +void ConsoleImpl::eventEventReceived(EventPtr event) +{ + ConsoleEventImpl::Ptr console_event(new ConsoleEventImpl(ConsoleEvent::EVENT_RECEIVED)); + console_event->event = event; + Mutex::ScopedLock _lock(lock); + eventQueue.push_back(console_event); +} + +//================================================================== +// Wrappers +//================================================================== + +Console::Console(const ConsoleSettings& settings) : impl(new ConsoleImpl(settings)) {} +Console::~Console() { delete impl; } +bool Console::getEvent(ConsoleEvent& event) const { return impl->getEvent(event); } +void Console::popEvent() { impl->popEvent(); } +void Console::addConnection(BrokerProxy& broker, void* context) { impl->addConnection(broker, context); } +void Console::delConnection(BrokerProxy& broker) { impl->delConnection(broker); } +uint32_t Console::packageCount() const { return impl->packageCount(); } +const char* Console::getPackageName(uint32_t idx) const { return impl->getPackageName(idx).c_str(); } +uint32_t Console::classCount(const char* packageName) const { return impl->classCount(packageName); } +const SchemaClassKey* Console::getClass(const char* packageName, uint32_t idx) const { return impl->getClass(packageName, idx); } +ClassKind Console::getClassKind(const SchemaClassKey* key) const { return impl->getClassKind(key); } +const SchemaObjectClass* Console::getObjectClass(const SchemaClassKey* key) const { return impl->getObjectClass(key); } +const SchemaEventClass* Console::getEventClass(const SchemaClassKey* key) const { return impl->getEventClass(key); } +void Console::bindPackage(const char* packageName) { impl->bindPackage(packageName); } +void Console::bindClass(const SchemaClassKey* key) { impl->bindClass(key); } +void Console::bindClass(const char* packageName, const char* className) { impl->bindClass(packageName, className); } + +void Console::bindEvent(const SchemaClassKey *key) { impl->bindEvent(key); } +void Console::bindEvent(const char* packageName, const char* eventName) { impl->bindEvent(packageName, eventName); } + +//void Console::startSync(const Query& query, void* context, SyncQuery& sync) { impl->startSync(query, context, sync); } +//void Console::touchSync(SyncQuery& sync) { impl->touchSync(sync); } +//void Console::endSync(SyncQuery& sync) { impl->endSync(sync); } + + diff --git a/qpid/cpp/src/qmf/engine/ConsoleImpl.h b/qpid/cpp/src/qmf/engine/ConsoleImpl.h new file mode 100644 index 0000000000..0c27fdabcd --- /dev/null +++ b/qpid/cpp/src/qmf/engine/ConsoleImpl.h @@ -0,0 +1,148 @@ +#ifndef _QmfEngineConsoleEngineImpl_ +#define _QmfEngineConsoleEngineImpl_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/Console.h" +#include "qmf/engine/MessageImpl.h" +#include "qmf/engine/SchemaImpl.h" +#include "qmf/engine/Typecode.h" +#include "qmf/engine/ObjectImpl.h" +#include "qmf/engine/ObjectIdImpl.h" +#include "qmf/engine/QueryImpl.h" +#include "qmf/engine/ValueImpl.h" +#include "qmf/engine/Protocol.h" +#include "qmf/engine/SequenceManager.h" +#include "qmf/engine/BrokerProxyImpl.h" +#include <qpid/framing/Buffer.h> +#include <qpid/framing/Uuid.h> +#include <qpid/framing/FieldTable.h> +#include <qpid/framing/FieldValue.h> +#include <qpid/sys/Mutex.h> +#include <qpid/sys/Time.h> +#include <qpid/sys/SystemInfo.h> +#include <string.h> +#include <string> +#include <deque> +#include <map> +#include <vector> +#include <iostream> +#include <fstream> +#include <boost/shared_ptr.hpp> +#include <boost/noncopyable.hpp> + +namespace qmf { +namespace engine { + + struct ConsoleEventImpl { + typedef boost::shared_ptr<ConsoleEventImpl> Ptr; + ConsoleEvent::EventKind kind; + boost::shared_ptr<AgentProxy> agent; + std::string name; + const SchemaClassKey* classKey; + boost::shared_ptr<Object> object; + void* context; + boost::shared_ptr<Event> event; + uint64_t timestamp; + bool hasProps; + bool hasStats; + + ConsoleEventImpl(ConsoleEvent::EventKind k) : + kind(k), classKey(0), context(0), timestamp(0) {} + ~ConsoleEventImpl() {} + ConsoleEvent copy(); + }; + + class ConsoleImpl : public boost::noncopyable { + public: + ConsoleImpl(const ConsoleSettings& settings = ConsoleSettings()); + ~ConsoleImpl(); + + bool getEvent(ConsoleEvent& event) const; + void popEvent(); + + void addConnection(BrokerProxy& broker, void* context); + void delConnection(BrokerProxy& broker); + + uint32_t packageCount() const; + const std::string& getPackageName(uint32_t idx) const; + + uint32_t classCount(const char* packageName) const; + const SchemaClassKey* getClass(const char* packageName, uint32_t idx) const; + + ClassKind getClassKind(const SchemaClassKey* key) const; + const SchemaObjectClass* getObjectClass(const SchemaClassKey* key) const; + const SchemaEventClass* getEventClass(const SchemaClassKey* key) const; + + void bindPackage(const char* packageName); + void bindClass(const SchemaClassKey* key); + void bindClass(const char* packageName, const char* className); + void bindEvent(const SchemaClassKey* key); + void bindEvent(const char* packageName, const char* eventName); + + /* + void startSync(const Query& query, void* context, SyncQuery& sync); + void touchSync(SyncQuery& sync); + void endSync(SyncQuery& sync); + */ + + private: + friend class BrokerProxyImpl; + friend struct StaticContext; + const ConsoleSettings& settings; + mutable qpid::sys::Mutex lock; + std::deque<ConsoleEventImpl::Ptr> eventQueue; + std::vector<BrokerProxyImpl*> brokerList; + std::vector<std::pair<std::string, std::string> > bindingList; // exchange/key (empty exchange => QMF_EXCHANGE) + + // Declare a compare class for the class maps that compares the dereferenced + // class key pointers. The default behavior would be to compare the pointer + // addresses themselves. + struct KeyCompare { + bool operator()(const SchemaClassKey* left, const SchemaClassKey* right) const { + return *left < *right; + } + }; + + typedef std::map<const SchemaClassKey*, SchemaObjectClass*, KeyCompare> ObjectClassList; + typedef std::map<const SchemaClassKey*, SchemaEventClass*, KeyCompare> EventClassList; + typedef std::map<std::string, std::pair<ObjectClassList, EventClassList> > PackageList; + + PackageList packages; + + void learnPackage(const std::string& packageName); + void learnClass(SchemaObjectClass* cls); + void learnClass(SchemaEventClass* cls); + bool haveClass(const SchemaClassKey* key) const; + SchemaObjectClass* getSchema(const SchemaClassKey* key) const; + + void eventAgentAdded(boost::shared_ptr<AgentProxy> agent); + void eventAgentDeleted(boost::shared_ptr<AgentProxy> agent); + void eventNewPackage(const std::string& packageName); + void eventNewClass(const SchemaClassKey* key); + void eventObjectUpdate(ObjectPtr object, bool prop, bool stat); + void eventAgentHeartbeat(boost::shared_ptr<AgentProxy> agent, uint64_t timestamp); + void eventEventReceived(boost::shared_ptr<Event> event); + }; +} +} + +#endif + diff --git a/qpid/cpp/src/qmf/engine/EventImpl.cpp b/qpid/cpp/src/qmf/engine/EventImpl.cpp new file mode 100644 index 0000000000..4b034e8e83 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/EventImpl.cpp @@ -0,0 +1,120 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 <qmf/engine/EventImpl.h> +#include <qmf/engine/ValueImpl.h> + +#include <sstream> + +using namespace std; +using namespace qmf::engine; +using qpid::framing::Buffer; + +EventImpl::EventImpl(const SchemaEventClass* type) : eventClass(type), timestamp(0), severity(0) +{ + int argCount = eventClass->getArgumentCount(); + int idx; + + for (idx = 0; idx < argCount; idx++) { + const SchemaArgument* arg = eventClass->getArgument(idx); + arguments[arg->getName()] = ValuePtr(new Value(arg->getType())); + } +} + + +EventImpl::EventImpl(const SchemaEventClass* type, Buffer& buffer) : + eventClass(type), timestamp(0), severity(0) +{ + int argCount = eventClass->getArgumentCount(); + int idx; + + timestamp = buffer.getLongLong(); + severity = buffer.getOctet(); + + for (idx = 0; idx < argCount; idx++) + { + const SchemaArgument *arg = eventClass->getArgument(idx); + Value* pval = ValueImpl::factory(arg->getType(), buffer); + arguments[arg->getName()] = ValuePtr(pval); + } +} + + +Event* EventImpl::factory(const SchemaEventClass* type, Buffer& buffer) +{ + EventImpl* impl(new EventImpl(type, buffer)); + return new Event(impl); +} + + +Value* EventImpl::getValue(const char* key) const +{ + map<string, ValuePtr>::const_iterator iter; + + iter = arguments.find(key); + if (iter != arguments.end()) + return iter->second.get(); + + return 0; +} + + +void EventImpl::encodeSchemaKey(Buffer& buffer) const +{ + buffer.putShortString(eventClass->getClassKey()->getPackageName()); + buffer.putShortString(eventClass->getClassKey()->getClassName()); + buffer.putBin128(const_cast<uint8_t*>(eventClass->getClassKey()->getHash())); +} + + +void EventImpl::encode(Buffer& buffer) const +{ + buffer.putOctet((uint8_t) eventClass->getSeverity()); + + int argCount = eventClass->getArgumentCount(); + for (int idx = 0; idx < argCount; idx++) { + const SchemaArgument* arg = eventClass->getArgument(idx); + ValuePtr value = arguments[arg->getName()]; + value->impl->encode(buffer); + } +} + + +string EventImpl::getRoutingKey(uint32_t brokerBank, uint32_t agentBank) const +{ + stringstream key; + + key << "console.event." << brokerBank << "." << agentBank << "." << + eventClass->getClassKey()->getPackageName() << "." << + eventClass->getClassKey()->getClassName(); + return key.str(); +} + + +//================================================================== +// Wrappers +//================================================================== + +Event::Event(const SchemaEventClass* type) : impl(new EventImpl(type)) {} +Event::Event(EventImpl* i) : impl(i) {} +Event::Event(const Event& from) : impl(new EventImpl(*(from.impl))) {} +Event::~Event() { delete impl; } +const SchemaEventClass* Event::getClass() const { return impl->getClass(); } +Value* Event::getValue(const char* key) const { return impl->getValue(key); } + diff --git a/qpid/cpp/src/qmf/engine/EventImpl.h b/qpid/cpp/src/qmf/engine/EventImpl.h new file mode 100644 index 0000000000..4046e71ef9 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/EventImpl.h @@ -0,0 +1,57 @@ +#ifndef _QmfEngineEventImpl_ +#define _QmfEngineEventImpl_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 <qmf/engine/Event.h> +#include <qmf/engine/Schema.h> +#include <qpid/framing/Buffer.h> +#include <boost/shared_ptr.hpp> +#include <map> + +namespace qmf { +namespace engine { + + typedef boost::shared_ptr<Event> EventPtr; + + struct EventImpl { + typedef boost::shared_ptr<Value> ValuePtr; + const SchemaEventClass* eventClass; + uint64_t timestamp; + uint8_t severity; + mutable std::map<std::string, ValuePtr> arguments; + + EventImpl(const SchemaEventClass* type); + EventImpl(const SchemaEventClass* type, qpid::framing::Buffer& buffer); + static Event* factory(const SchemaEventClass* type, qpid::framing::Buffer& buffer); + + const SchemaEventClass* getClass() const { return eventClass; } + Value* getValue(const char* key) const; + + void encodeSchemaKey(qpid::framing::Buffer& buffer) const; + void encode(qpid::framing::Buffer& buffer) const; + std::string getRoutingKey(uint32_t brokerBank, uint32_t agentBank) const; + }; + +} +} + +#endif + diff --git a/qpid/cpp/src/qmf/engine/MessageImpl.cpp b/qpid/cpp/src/qmf/engine/MessageImpl.cpp new file mode 100644 index 0000000000..0047d3eb9d --- /dev/null +++ b/qpid/cpp/src/qmf/engine/MessageImpl.cpp @@ -0,0 +1,43 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/MessageImpl.h" +#include <string.h> + +using namespace std; +using namespace qmf::engine; + +#define STRING_REF(s) {if (!s.empty()) item.s = const_cast<char*>(s.c_str());} + +Message MessageImpl::copy() +{ + Message item; + + ::memset(&item, 0, sizeof(Message)); + item.body = const_cast<char*>(body.c_str()); + item.length = body.length(); + STRING_REF(destination); + STRING_REF(routingKey); + STRING_REF(replyExchange); + STRING_REF(replyKey); + STRING_REF(userId); + + return item; +} + diff --git a/qpid/cpp/src/qmf/engine/MessageImpl.h b/qpid/cpp/src/qmf/engine/MessageImpl.h new file mode 100644 index 0000000000..b91291d2e4 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/MessageImpl.h @@ -0,0 +1,44 @@ +#ifndef _QmfEngineMessageImpl_ +#define _QmfEngineMessageImpl_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/Message.h" +#include <string> +#include <boost/shared_ptr.hpp> + +namespace qmf { +namespace engine { + + struct MessageImpl { + typedef boost::shared_ptr<MessageImpl> Ptr; + std::string body; + std::string destination; + std::string routingKey; + std::string replyExchange; + std::string replyKey; + std::string userId; + + Message copy(); + }; +} +} + +#endif diff --git a/qpid/cpp/src/qmf/engine/ObjectIdImpl.cpp b/qpid/cpp/src/qmf/engine/ObjectIdImpl.cpp new file mode 100644 index 0000000000..9216f7bac0 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/ObjectIdImpl.cpp @@ -0,0 +1,210 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/ObjectIdImpl.h" +#include <stdlib.h> +#include <sstream> + +using namespace std; +using namespace qmf::engine; +using qpid::framing::Buffer; + +void AgentAttachment::setBanks(uint32_t broker, uint32_t agent) +{ + first = + ((uint64_t) (broker & 0x000fffff)) << 28 | + ((uint64_t) (agent & 0x0fffffff)); +} + +ObjectIdImpl::ObjectIdImpl(Buffer& buffer) : agent(0) +{ + decode(buffer); +} + +ObjectIdImpl::ObjectIdImpl(AgentAttachment* a, uint8_t flags, uint16_t seq, uint64_t object) : agent(a) +{ + first = + ((uint64_t) (flags & 0x0f)) << 60 | + ((uint64_t) (seq & 0x0fff)) << 48; + second = object; +} + +ObjectId* ObjectIdImpl::factory(Buffer& buffer) +{ + ObjectIdImpl* impl(new ObjectIdImpl(buffer)); + return new ObjectId(impl); +} + +ObjectId* ObjectIdImpl::factory(AgentAttachment* agent, uint8_t flags, uint16_t seq, uint64_t object) +{ + ObjectIdImpl* impl(new ObjectIdImpl(agent, flags, seq, object)); + return new ObjectId(impl); +} + +void ObjectIdImpl::decode(Buffer& buffer) +{ + first = buffer.getLongLong(); + second = buffer.getLongLong(); +} + +void ObjectIdImpl::encode(Buffer& buffer) const +{ + if (agent == 0) + buffer.putLongLong(first); + else + buffer.putLongLong(first | agent->first); + buffer.putLongLong(second); +} + +void ObjectIdImpl::fromString(const std::string& repr) +{ +#define FIELDS 5 +#if defined (_WIN32) && !defined (atoll) +# define atoll(X) _atoi64(X) +#endif + + std::string copy(repr.c_str()); + char* cText; + char* field[FIELDS]; + bool atFieldStart = true; + int idx = 0; + + cText = const_cast<char*>(copy.c_str()); + for (char* cursor = cText; *cursor; cursor++) { + if (atFieldStart) { + if (idx >= FIELDS) + return; // TODO error + field[idx++] = cursor; + atFieldStart = false; + } else { + if (*cursor == '-') { + *cursor = '\0'; + atFieldStart = true; + } + } + } + + if (idx != FIELDS) + return; // TODO error + + first = (atoll(field[0]) << 60) + + (atoll(field[1]) << 48) + + (atoll(field[2]) << 28) + + atoll(field[3]); + second = atoll(field[4]); + agent = 0; +} + +const string& ObjectIdImpl::asString() const +{ + stringstream val; + + val << (int) getFlags() << "-" << getSequence() << "-" << getBrokerBank() << "-" << + getAgentBank() << "-" << getObjectNum(); + repr = val.str(); + return repr; +} + +#define ACTUAL_FIRST (agent == 0 ? first : first | agent->first) +#define ACTUAL_OTHER (other.agent == 0 ? other.first : other.first | other.agent->first) + +uint8_t ObjectIdImpl::getFlags() const +{ + return (ACTUAL_FIRST & 0xF000000000000000LL) >> 60; +} + +uint16_t ObjectIdImpl::getSequence() const +{ + return (ACTUAL_FIRST & 0x0FFF000000000000LL) >> 48; +} + +uint32_t ObjectIdImpl::getBrokerBank() const +{ + return (ACTUAL_FIRST & 0x0000FFFFF0000000LL) >> 28; +} + +uint32_t ObjectIdImpl::getAgentBank() const +{ + return ACTUAL_FIRST & 0x000000000FFFFFFFLL; +} + +uint64_t ObjectIdImpl::getObjectNum() const +{ + return second; +} + +uint32_t ObjectIdImpl::getObjectNumHi() const +{ + return (uint32_t) (second >> 32); +} + +uint32_t ObjectIdImpl::getObjectNumLo() const +{ + return (uint32_t) (second & 0x00000000FFFFFFFFLL); +} + +bool ObjectIdImpl::operator==(const ObjectIdImpl& other) const +{ + return ACTUAL_FIRST == ACTUAL_OTHER && second == other.second; +} + +bool ObjectIdImpl::operator<(const ObjectIdImpl& other) const +{ + return (ACTUAL_FIRST < ACTUAL_OTHER) || ((ACTUAL_FIRST == ACTUAL_OTHER) && (second < other.second)); +} + +bool ObjectIdImpl::operator>(const ObjectIdImpl& other) const +{ + return (ACTUAL_FIRST > ACTUAL_OTHER) || ((ACTUAL_FIRST == ACTUAL_OTHER) && (second > other.second)); +} + + +//================================================================== +// Wrappers +//================================================================== + +ObjectId::ObjectId() : impl(new ObjectIdImpl()) {} +ObjectId::ObjectId(const ObjectId& from) : impl(new ObjectIdImpl(*(from.impl))) {} +ObjectId::ObjectId(ObjectIdImpl* i) : impl(i) {} +ObjectId::~ObjectId() { delete impl; } +uint64_t ObjectId::getObjectNum() const { return impl->getObjectNum(); } +uint32_t ObjectId::getObjectNumHi() const { return impl->getObjectNumHi(); } +uint32_t ObjectId::getObjectNumLo() const { return impl->getObjectNumLo(); } +bool ObjectId::isDurable() const { return impl->isDurable(); } +const char* ObjectId::str() const { return impl->asString().c_str(); } +uint8_t ObjectId::getFlags() const { return impl->getFlags(); } +uint16_t ObjectId::getSequence() const { return impl->getSequence(); } +uint32_t ObjectId::getBrokerBank() const { return impl->getBrokerBank(); } +uint32_t ObjectId::getAgentBank() const { return impl->getAgentBank(); } +bool ObjectId::operator==(const ObjectId& other) const { return *impl == *other.impl; } +bool ObjectId::operator<(const ObjectId& other) const { return *impl < *other.impl; } +bool ObjectId::operator>(const ObjectId& other) const { return *impl > *other.impl; } +bool ObjectId::operator<=(const ObjectId& other) const { return !(*impl > *other.impl); } +bool ObjectId::operator>=(const ObjectId& other) const { return !(*impl < *other.impl); } +ObjectId& ObjectId::operator=(const ObjectId& other) { + ObjectIdImpl *old; + if (this != &other) { + old = impl; + impl = new ObjectIdImpl(*(other.impl)); + if (old) + delete old; + } + return *this; +} + diff --git a/qpid/cpp/src/qmf/engine/ObjectIdImpl.h b/qpid/cpp/src/qmf/engine/ObjectIdImpl.h new file mode 100644 index 0000000000..d70c8efff4 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/ObjectIdImpl.h @@ -0,0 +1,72 @@ +#ifndef _QmfEngineObjectIdImpl_ +#define _QmfEngineObjectIdImpl_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 <qmf/engine/ObjectId.h> +#include <qpid/framing/Buffer.h> + +namespace qmf { +namespace engine { + + struct AgentAttachment { + uint64_t first; + + AgentAttachment() : first(0) {} + void setBanks(uint32_t broker, uint32_t bank); + uint64_t getFirst() const { return first; } + }; + + struct ObjectIdImpl { + AgentAttachment* agent; + uint64_t first; + uint64_t second; + mutable std::string repr; + + ObjectIdImpl() : agent(0), first(0), second(0) {} + ObjectIdImpl(qpid::framing::Buffer& buffer); + ObjectIdImpl(AgentAttachment* agent, uint8_t flags, uint16_t seq, uint64_t object); + + static ObjectId* factory(qpid::framing::Buffer& buffer); + static ObjectId* factory(AgentAttachment* agent, uint8_t flags, uint16_t seq, uint64_t object); + + void decode(qpid::framing::Buffer& buffer); + void encode(qpid::framing::Buffer& buffer) const; + void fromString(const std::string& repr); + const std::string& asString() const; + uint8_t getFlags() const; + uint16_t getSequence() const; + uint32_t getBrokerBank() const; + uint32_t getAgentBank() const; + uint64_t getObjectNum() const; + uint32_t getObjectNumHi() const; + uint32_t getObjectNumLo() const; + bool isDurable() const { return getSequence() == 0; } + void setValue(uint64_t f, uint64_t s) { first = f; second = s; agent = 0; } + + bool operator==(const ObjectIdImpl& other) const; + bool operator<(const ObjectIdImpl& other) const; + bool operator>(const ObjectIdImpl& other) const; + }; +} +} + +#endif + diff --git a/qpid/cpp/src/qmf/engine/ObjectImpl.cpp b/qpid/cpp/src/qmf/engine/ObjectImpl.cpp new file mode 100644 index 0000000000..45925cb804 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/ObjectImpl.cpp @@ -0,0 +1,232 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/ObjectImpl.h" +#include "qmf/engine/ValueImpl.h" +#include "qmf/engine/BrokerProxyImpl.h" +#include <qpid/sys/Time.h> + +using namespace std; +using namespace qmf::engine; +using namespace qpid::sys; +using qpid::framing::Buffer; + +ObjectImpl::ObjectImpl(const SchemaObjectClass* type) : objectClass(type), broker(0), createTime(uint64_t(Duration(EPOCH, now()))), destroyTime(0), lastUpdatedTime(createTime) +{ + int propCount = objectClass->getPropertyCount(); + int statCount = objectClass->getStatisticCount(); + int idx; + + for (idx = 0; idx < propCount; idx++) { + const SchemaProperty* prop = objectClass->getProperty(idx); + properties[prop->getName()] = ValuePtr(new Value(prop->getType())); + } + + for (idx = 0; idx < statCount; idx++) { + const SchemaStatistic* stat = objectClass->getStatistic(idx); + statistics[stat->getName()] = ValuePtr(new Value(stat->getType())); + } +} + +ObjectImpl::ObjectImpl(const SchemaObjectClass* type, BrokerProxyImpl* b, Buffer& buffer, bool prop, bool stat, bool managed) : + objectClass(type), broker(b), createTime(0), destroyTime(0), lastUpdatedTime(0) +{ + int idx; + + if (managed) { + lastUpdatedTime = buffer.getLongLong(); + createTime = buffer.getLongLong(); + destroyTime = buffer.getLongLong(); + objectId.reset(ObjectIdImpl::factory(buffer)); + } + + if (prop) { + int propCount = objectClass->getPropertyCount(); + set<string> excludes; + parsePresenceMasks(buffer, excludes); + for (idx = 0; idx < propCount; idx++) { + const SchemaProperty* prop = objectClass->getProperty(idx); + if (excludes.count(prop->getName()) != 0) { + properties[prop->getName()] = ValuePtr(new Value(prop->getType())); + } else { + Value* pval = ValueImpl::factory(prop->getType(), buffer); + properties[prop->getName()] = ValuePtr(pval); + } + } + } + + if (stat) { + int statCount = objectClass->getStatisticCount(); + for (idx = 0; idx < statCount; idx++) { + const SchemaStatistic* stat = objectClass->getStatistic(idx); + Value* sval = ValueImpl::factory(stat->getType(), buffer); + statistics[stat->getName()] = ValuePtr(sval); + } + } +} + +Object* ObjectImpl::factory(const SchemaObjectClass* type, BrokerProxyImpl* b, Buffer& buffer, bool prop, bool stat, bool managed) +{ + ObjectImpl* impl(new ObjectImpl(type, b, buffer, prop, stat, managed)); + return new Object(impl); +} + +ObjectImpl::~ObjectImpl() +{ +} + +void ObjectImpl::destroy() +{ + destroyTime = uint64_t(Duration(EPOCH, now())); + // TODO - flag deletion +} + +Value* ObjectImpl::getValue(const string& key) const +{ + map<string, ValuePtr>::const_iterator iter; + + iter = properties.find(key); + if (iter != properties.end()) + return iter->second.get(); + + iter = statistics.find(key); + if (iter != statistics.end()) + return iter->second.get(); + + return 0; +} + +void ObjectImpl::invokeMethod(const string& methodName, const Value* inArgs, void* context) const +{ + if (broker != 0 && objectId.get() != 0) + broker->sendMethodRequest(objectId.get(), objectClass, methodName, inArgs, context); +} + +void ObjectImpl::merge(const Object& from) +{ + for (map<string, ValuePtr>::const_iterator piter = from.impl->properties.begin(); + piter != from.impl->properties.end(); piter++) + properties[piter->first] = piter->second; + for (map<string, ValuePtr>::const_iterator siter = from.impl->statistics.begin(); + siter != from.impl->statistics.end(); siter++) + statistics[siter->first] = siter->second; +} + +void ObjectImpl::parsePresenceMasks(Buffer& buffer, set<string>& excludeList) +{ + int propCount = objectClass->getPropertyCount(); + excludeList.clear(); + uint8_t bit = 0; + uint8_t mask = 0; + + for (int idx = 0; idx < propCount; idx++) { + const SchemaProperty* prop = objectClass->getProperty(idx); + if (prop->isOptional()) { + if (bit == 0) { + mask = buffer.getOctet(); + bit = 1; + } + if ((mask & bit) == 0) + excludeList.insert(string(prop->getName())); + if (bit == 0x80) + bit = 0; + else + bit = bit << 1; + } + } +} + +void ObjectImpl::encodeSchemaKey(qpid::framing::Buffer& buffer) const +{ + buffer.putShortString(objectClass->getClassKey()->getPackageName()); + buffer.putShortString(objectClass->getClassKey()->getClassName()); + buffer.putBin128(const_cast<uint8_t*>(objectClass->getClassKey()->getHash())); +} + +void ObjectImpl::encodeManagedObjectData(qpid::framing::Buffer& buffer) const +{ + buffer.putLongLong(lastUpdatedTime); + buffer.putLongLong(createTime); + buffer.putLongLong(destroyTime); + objectId->impl->encode(buffer); +} + +void ObjectImpl::encodeProperties(qpid::framing::Buffer& buffer) const +{ + int propCount = objectClass->getPropertyCount(); + uint8_t bit = 0; + uint8_t mask = 0; + ValuePtr value; + + for (int idx = 0; idx < propCount; idx++) { + const SchemaProperty* prop = objectClass->getProperty(idx); + if (prop->isOptional()) { + value = properties[prop->getName()]; + if (bit == 0) + bit = 1; + if (!value->isNull()) + mask |= bit; + if (bit == 0x80) { + buffer.putOctet(mask); + bit = 0; + mask = 0; + } else + bit = bit << 1; + } + } + if (bit != 0) { + buffer.putOctet(mask); + } + + for (int idx = 0; idx < propCount; idx++) { + const SchemaProperty* prop = objectClass->getProperty(idx); + value = properties[prop->getName()]; + if (!prop->isOptional() || !value->isNull()) { + value->impl->encode(buffer); + } + } +} + +void ObjectImpl::encodeStatistics(qpid::framing::Buffer& buffer) const +{ + int statCount = objectClass->getStatisticCount(); + for (int idx = 0; idx < statCount; idx++) { + const SchemaStatistic* stat = objectClass->getStatistic(idx); + ValuePtr value = statistics[stat->getName()]; + value->impl->encode(buffer); + } +} + +//================================================================== +// Wrappers +//================================================================== + +Object::Object(const SchemaObjectClass* type) : impl(new ObjectImpl(type)) {} +Object::Object(ObjectImpl* i) : impl(i) {} +Object::Object(const Object& from) : impl(new ObjectImpl(*(from.impl))) {} +Object::~Object() { delete impl; } +void Object::destroy() { impl->destroy(); } +const ObjectId* Object::getObjectId() const { return impl->getObjectId(); } +void Object::setObjectId(ObjectId* oid) { impl->setObjectId(oid); } +const SchemaObjectClass* Object::getClass() const { return impl->getClass(); } +Value* Object::getValue(const char* key) const { return impl->getValue(key); } +void Object::invokeMethod(const char* m, const Value* a, void* c) const { impl->invokeMethod(m, a, c); } +bool Object::isDeleted() const { return impl->isDeleted(); } +void Object::merge(const Object& from) { impl->merge(from); } + diff --git a/qpid/cpp/src/qmf/engine/ObjectImpl.h b/qpid/cpp/src/qmf/engine/ObjectImpl.h new file mode 100644 index 0000000000..6f25867004 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/ObjectImpl.h @@ -0,0 +1,76 @@ +#ifndef _QmfEngineObjectImpl_ +#define _QmfEngineObjectImpl_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 <qmf/engine/Object.h> +#include <qmf/engine/ObjectIdImpl.h> +#include <map> +#include <set> +#include <string> +#include <qpid/framing/Buffer.h> +#include <boost/shared_ptr.hpp> +#include <qpid/sys/Mutex.h> + +namespace qmf { +namespace engine { + + class BrokerProxyImpl; + + typedef boost::shared_ptr<Object> ObjectPtr; + + struct ObjectImpl { + typedef boost::shared_ptr<Value> ValuePtr; + const SchemaObjectClass* objectClass; + BrokerProxyImpl* broker; + boost::shared_ptr<ObjectId> objectId; + uint64_t createTime; + uint64_t destroyTime; + uint64_t lastUpdatedTime; + mutable std::map<std::string, ValuePtr> properties; + mutable std::map<std::string, ValuePtr> statistics; + + ObjectImpl(const SchemaObjectClass* type); + ObjectImpl(const SchemaObjectClass* type, BrokerProxyImpl* b, qpid::framing::Buffer& buffer, + bool prop, bool stat, bool managed); + static Object* factory(const SchemaObjectClass* type, BrokerProxyImpl* b, qpid::framing::Buffer& buffer, + bool prop, bool stat, bool managed); + ~ObjectImpl(); + + void destroy(); + const ObjectId* getObjectId() const { return objectId.get(); } + void setObjectId(ObjectId* oid) { objectId.reset(new ObjectId(*oid)); } + const SchemaObjectClass* getClass() const { return objectClass; } + Value* getValue(const std::string& key) const; + void invokeMethod(const std::string& methodName, const Value* inArgs, void* context) const; + bool isDeleted() const { return destroyTime != 0; } + void merge(const Object& from); + + void parsePresenceMasks(qpid::framing::Buffer& buffer, std::set<std::string>& excludeList); + void encodeSchemaKey(qpid::framing::Buffer& buffer) const; + void encodeManagedObjectData(qpid::framing::Buffer& buffer) const; + void encodeProperties(qpid::framing::Buffer& buffer) const; + void encodeStatistics(qpid::framing::Buffer& buffer) const; + }; +} +} + +#endif + diff --git a/qpid/cpp/src/qmf/engine/Protocol.cpp b/qpid/cpp/src/qmf/engine/Protocol.cpp new file mode 100644 index 0000000000..9e5f490604 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/Protocol.cpp @@ -0,0 +1,52 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/Protocol.h" +#include "qpid/framing/Buffer.h" + +using namespace std; +using namespace qmf::engine; +using namespace qpid::framing; + + +bool Protocol::checkHeader(Buffer& buf, uint8_t *opcode, uint32_t *seq) +{ + if (buf.available() < 8) + return false; + + uint8_t h1 = buf.getOctet(); + uint8_t h2 = buf.getOctet(); + uint8_t h3 = buf.getOctet(); + + *opcode = buf.getOctet(); + *seq = buf.getLong(); + + return h1 == 'A' && h2 == 'M' && h3 == '2'; +} + +void Protocol::encodeHeader(qpid::framing::Buffer& buf, uint8_t opcode, uint32_t seq) +{ + buf.putOctet('A'); + buf.putOctet('M'); + buf.putOctet('2'); + buf.putOctet(opcode); + buf.putLong (seq); +} + + diff --git a/qpid/cpp/src/qmf/engine/Protocol.h b/qpid/cpp/src/qmf/engine/Protocol.h new file mode 100644 index 0000000000..1cdfa60c84 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/Protocol.h @@ -0,0 +1,69 @@ +#ifndef _QmfEngineProtocol_ +#define _QmfEngineProtocol_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 <qpid/sys/IntegerTypes.h> + +namespace qpid { + namespace framing { + class Buffer; + } +} + +namespace qmf { +namespace engine { + + class Protocol { + public: + static bool checkHeader(qpid::framing::Buffer& buf, uint8_t *opcode, uint32_t *seq); + static void encodeHeader(qpid::framing::Buffer& buf, uint8_t opcode, uint32_t seq = 0); + + const static uint8_t OP_ATTACH_REQUEST = 'A'; + const static uint8_t OP_ATTACH_RESPONSE = 'a'; + + const static uint8_t OP_BROKER_REQUEST = 'B'; + const static uint8_t OP_BROKER_RESPONSE = 'b'; + + const static uint8_t OP_CONSOLE_ADDED_INDICATION = 'x'; + const static uint8_t OP_COMMAND_COMPLETE = 'z'; + const static uint8_t OP_HEARTBEAT_INDICATION = 'h'; + + const static uint8_t OP_PACKAGE_REQUEST = 'P'; + const static uint8_t OP_PACKAGE_INDICATION = 'p'; + const static uint8_t OP_CLASS_QUERY = 'Q'; + const static uint8_t OP_CLASS_INDICATION = 'q'; + const static uint8_t OP_SCHEMA_REQUEST = 'S'; + const static uint8_t OP_SCHEMA_RESPONSE = 's'; + + const static uint8_t OP_METHOD_REQUEST = 'M'; + const static uint8_t OP_METHOD_RESPONSE = 'm'; + const static uint8_t OP_GET_QUERY = 'G'; + const static uint8_t OP_OBJECT_INDICATION = 'g'; + const static uint8_t OP_PROPERTY_INDICATION = 'c'; + const static uint8_t OP_STATISTIC_INDICATION = 'i'; + const static uint8_t OP_EVENT_INDICATION = 'e'; + }; + +} +} + +#endif + diff --git a/qpid/cpp/src/qmf/engine/QueryImpl.cpp b/qpid/cpp/src/qmf/engine/QueryImpl.cpp new file mode 100644 index 0000000000..6f2beeee87 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/QueryImpl.cpp @@ -0,0 +1,103 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/QueryImpl.h" +#include "qmf/engine/ObjectIdImpl.h" +#include "qpid/framing/Buffer.h" +#include "qpid/framing/FieldTable.h" + +using namespace std; +using namespace qmf::engine; +using namespace qpid::framing; + +bool QueryElementImpl::evaluate(const Object* /*object*/) const +{ + // TODO: Implement this + return false; +} + +bool QueryExpressionImpl::evaluate(const Object* /*object*/) const +{ + // TODO: Implement this + return false; +} + +QueryImpl::QueryImpl(Buffer& buffer) +{ + FieldTable ft; + ft.decode(buffer); + // TODO +} + +Query* QueryImpl::factory(Buffer& buffer) +{ + QueryImpl* impl(new QueryImpl(buffer)); + return new Query(impl); +} + +void QueryImpl::encode(Buffer& buffer) const +{ + FieldTable ft; + + if (oid.get() != 0) { + ft.setString("_objectid", oid->impl->asString()); + } else { + if (!packageName.empty()) + ft.setString("_package", packageName); + ft.setString("_class", className); + } + + ft.encode(buffer); +} + + +//================================================================== +// Wrappers +//================================================================== + +QueryElement::QueryElement(const char* attrName, const Value* value, ValueOper oper) : impl(new QueryElementImpl(attrName, value, oper)) {} +QueryElement::QueryElement(QueryElementImpl* i) : impl(i) {} +QueryElement::~QueryElement() { delete impl; } +bool QueryElement::evaluate(const Object* object) const { return impl->evaluate(object); } + +QueryExpression::QueryExpression(ExprOper oper, const QueryOperand* operand1, const QueryOperand* operand2) : impl(new QueryExpressionImpl(oper, operand1, operand2)) {} +QueryExpression::QueryExpression(QueryExpressionImpl* i) : impl(i) {} +QueryExpression::~QueryExpression() { delete impl; } +bool QueryExpression::evaluate(const Object* object) const { return impl->evaluate(object); } + +Query::Query(const char* className, const char* packageName) : impl(new QueryImpl(className, packageName)) {} +Query::Query(const SchemaClassKey* key) : impl(new QueryImpl(key)) {} +Query::Query(const ObjectId* oid) : impl(new QueryImpl(oid)) {} +Query::Query(QueryImpl* i) : impl(i) {} +Query::Query(const Query& from) : impl(new QueryImpl(*(from.impl))) {} +Query::~Query() { delete impl; } +void Query::setSelect(const QueryOperand* criterion) { impl->setSelect(criterion); } +void Query::setLimit(uint32_t maxResults) { impl->setLimit(maxResults); } +void Query::setOrderBy(const char* attrName, bool decreasing) { impl->setOrderBy(attrName, decreasing); } +const char* Query::getPackage() const { return impl->getPackage().c_str(); } +const char* Query::getClass() const { return impl->getClass().c_str(); } +const ObjectId* Query::getObjectId() const { return impl->getObjectId(); } +bool Query::haveSelect() const { return impl->haveSelect(); } +bool Query::haveLimit() const { return impl->haveLimit(); } +bool Query::haveOrderBy() const { return impl->haveOrderBy(); } +const QueryOperand* Query::getSelect() const { return impl->getSelect(); } +uint32_t Query::getLimit() const { return impl->getLimit(); } +const char* Query::getOrderBy() const { return impl->getOrderBy().c_str(); } +bool Query::getDecreasing() const { return impl->getDecreasing(); } + diff --git a/qpid/cpp/src/qmf/engine/QueryImpl.h b/qpid/cpp/src/qmf/engine/QueryImpl.h new file mode 100644 index 0000000000..8ebe0d932f --- /dev/null +++ b/qpid/cpp/src/qmf/engine/QueryImpl.h @@ -0,0 +1,102 @@ +#ifndef _QmfEngineQueryImpl_ +#define _QmfEngineQueryImpl_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/Query.h" +#include "qmf/engine/Schema.h" +#include <string> +#include <boost/shared_ptr.hpp> + +namespace qpid { + namespace framing { + class Buffer; + } +} + +namespace qmf { +namespace engine { + + struct QueryElementImpl { + QueryElementImpl(const std::string& a, const Value* v, ValueOper o) : attrName(a), value(v), oper(o) {} + ~QueryElementImpl() {} + bool evaluate(const Object* object) const; + + std::string attrName; + const Value* value; + ValueOper oper; + }; + + struct QueryExpressionImpl { + QueryExpressionImpl(ExprOper o, const QueryOperand* operand1, const QueryOperand* operand2) : oper(o), left(operand1), right(operand2) {} + ~QueryExpressionImpl() {} + bool evaluate(const Object* object) const; + + ExprOper oper; + const QueryOperand* left; + const QueryOperand* right; + }; + + struct QueryImpl { + // Constructors mapped to public + QueryImpl(const std::string& c, const std::string& p) : packageName(p), className(c), select(0), resultLimit(0) {} + QueryImpl(const SchemaClassKey* key) : packageName(key->getPackageName()), className(key->getClassName()), select(0), resultLimit(0) {} + QueryImpl(const ObjectId* oid) : oid(new ObjectId(*oid)), select(0), resultLimit(0) {} + + // Factory constructors + QueryImpl(qpid::framing::Buffer& buffer); + + ~QueryImpl() {}; + static Query* factory(qpid::framing::Buffer& buffer); + + void setSelect(const QueryOperand* criterion) { select = criterion; } + void setLimit(uint32_t maxResults) { resultLimit = maxResults; } + void setOrderBy(const std::string& attrName, bool decreasing) { + orderBy = attrName; orderDecreasing = decreasing; + } + + const std::string& getPackage() const { return packageName; } + const std::string& getClass() const { return className; } + const ObjectId* getObjectId() const { return oid.get(); } + + bool haveSelect() const { return select != 0; } + bool haveLimit() const { return resultLimit > 0; } + bool haveOrderBy() const { return !orderBy.empty(); } + const QueryOperand* getSelect() const { return select; } + uint32_t getLimit() const { return resultLimit; } + const std::string& getOrderBy() const { return orderBy; } + bool getDecreasing() const { return orderDecreasing; } + + void encode(qpid::framing::Buffer& buffer) const; + bool singleAgent() const { return oid.get() != 0; } + uint32_t agentBank() const { return singleAgent() ? oid->getAgentBank() : 0; } + + std::string packageName; + std::string className; + boost::shared_ptr<ObjectId> oid; + const QueryOperand* select; + uint32_t resultLimit; + std::string orderBy; + bool orderDecreasing; + }; +} +} + +#endif diff --git a/qpid/cpp/src/qmf/engine/ResilientConnection.cpp b/qpid/cpp/src/qmf/engine/ResilientConnection.cpp new file mode 100644 index 0000000000..ab65b8d768 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/ResilientConnection.cpp @@ -0,0 +1,514 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/ResilientConnection.h" +#include "qmf/engine/MessageImpl.h" +#include "qmf/engine/ConnectionSettingsImpl.h" +#include <qpid/client/Connection.h> +#include <qpid/client/Session.h> +#include <qpid/client/MessageListener.h> +#include <qpid/client/SubscriptionManager.h> +#include <qpid/client/Message.h> +#include <qpid/sys/Thread.h> +#include <qpid/sys/Runnable.h> +#include <qpid/sys/Mutex.h> +#include <qpid/sys/Condition.h> +#include <qpid/sys/Time.h> +#include <qpid/log/Statement.h> +#include <qpid/RefCounted.h> +#include <boost/bind.hpp> +#include <string> +#include <deque> +#include <vector> +#include <set> +#include <boost/intrusive_ptr.hpp> +#include <boost/noncopyable.hpp> +#include <unistd.h> +#include <fcntl.h> + +using namespace std; +using namespace qmf::engine; +using namespace qpid; +using qpid::sys::Mutex; + +namespace qmf { +namespace engine { + struct ResilientConnectionEventImpl { + ResilientConnectionEvent::EventKind kind; + void* sessionContext; + string errorText; + MessageImpl message; + + ResilientConnectionEventImpl(ResilientConnectionEvent::EventKind k, + const MessageImpl& m = MessageImpl()) : + kind(k), sessionContext(0), message(m) {} + ResilientConnectionEvent copy(); + }; + + struct RCSession : public client::MessageListener, public qpid::sys::Runnable, public qpid::RefCounted { + typedef boost::intrusive_ptr<RCSession> Ptr; + ResilientConnectionImpl& connImpl; + string name; + client::Connection& connection; + client::Session session; + client::SubscriptionManager* subscriptions; + string userId; + void* userContext; + vector<string> dests; + qpid::sys::Thread thread; + + RCSession(ResilientConnectionImpl& ci, const string& n, client::Connection& c, void* uc); + ~RCSession(); + void received(client::Message& msg); + void run(); + void stop(); + }; + + class ResilientConnectionImpl : public qpid::sys::Runnable, public boost::noncopyable { + public: + ResilientConnectionImpl(const ConnectionSettings& settings); + ~ResilientConnectionImpl(); + + bool isConnected() const; + bool getEvent(ResilientConnectionEvent& event); + void popEvent(); + bool createSession(const char* name, void* sessionContext, SessionHandle& handle); + void destroySession(SessionHandle handle); + void sendMessage(SessionHandle handle, qmf::engine::Message& message); + void declareQueue(SessionHandle handle, char* queue); + void deleteQueue(SessionHandle handle, char* queue); + void bind(SessionHandle handle, char* exchange, char* queue, char* key); + void unbind(SessionHandle handle, char* exchange, char* queue, char* key); + void setNotifyFd(int fd); + void notify(); + + void run(); + void failure(); + void sessionClosed(RCSession* sess); + + void EnqueueEvent(ResilientConnectionEvent::EventKind kind, + void* sessionContext = 0, + const MessageImpl& message = MessageImpl(), + const string& errorText = ""); + + private: + int notifyFd; + bool connected; + bool shutdown; + string lastError; + const ConnectionSettings settings; + client::Connection connection; + mutable qpid::sys::Mutex lock; + int delayMin; + int delayMax; + int delayFactor; + qpid::sys::Condition cond; + deque<ResilientConnectionEventImpl> eventQueue; + set<RCSession::Ptr> sessions; + qpid::sys::Thread connThread; + }; +} +} + +ResilientConnectionEvent ResilientConnectionEventImpl::copy() +{ + ResilientConnectionEvent item; + + ::memset(&item, 0, sizeof(ResilientConnectionEvent)); + item.kind = kind; + item.sessionContext = sessionContext; + item.message = message.copy(); + item.errorText = const_cast<char*>(errorText.c_str()); + + return item; +} + +RCSession::RCSession(ResilientConnectionImpl& ci, const string& n, client::Connection& c, void* uc) : + connImpl(ci), name(n), connection(c), session(connection.newSession(name)), + subscriptions(new client::SubscriptionManager(session)), userContext(uc), thread(*this) +{ + const qpid::client::ConnectionSettings& operSettings = connection.getNegotiatedSettings(); + userId = operSettings.username; +} + +RCSession::~RCSession() +{ + subscriptions->stop(); + thread.join(); + session.close(); + delete subscriptions; +} + +void RCSession::run() +{ + try { + subscriptions->run(); + } catch (exception& /*e*/) { + connImpl.sessionClosed(this); + } +} + +void RCSession::stop() +{ + subscriptions->stop(); +} + +void RCSession::received(client::Message& msg) +{ + MessageImpl qmsg; + qmsg.body = msg.getData(); + + qpid::framing::DeliveryProperties dp = msg.getDeliveryProperties(); + if (dp.hasRoutingKey()) { + qmsg.routingKey = dp.getRoutingKey(); + } + + qpid::framing::MessageProperties mp = msg.getMessageProperties(); + if (mp.hasReplyTo()) { + const qpid::framing::ReplyTo& rt = mp.getReplyTo(); + qmsg.replyExchange = rt.getExchange(); + qmsg.replyKey = rt.getRoutingKey(); + } + + if (mp.hasUserId()) { + qmsg.userId = mp.getUserId(); + } + + connImpl.EnqueueEvent(ResilientConnectionEvent::RECV, userContext, qmsg); +} + +ResilientConnectionImpl::ResilientConnectionImpl(const ConnectionSettings& _settings) : + notifyFd(-1), connected(false), shutdown(false), settings(_settings), delayMin(1), connThread(*this) +{ + connection.registerFailureCallback(boost::bind(&ResilientConnectionImpl::failure, this)); + settings.impl->getRetrySettings(&delayMin, &delayMax, &delayFactor); +} + +ResilientConnectionImpl::~ResilientConnectionImpl() +{ + shutdown = true; + connected = false; + cond.notify(); + connThread.join(); + connection.close(); +} + +bool ResilientConnectionImpl::isConnected() const +{ + Mutex::ScopedLock _lock(lock); + return connected; +} + +bool ResilientConnectionImpl::getEvent(ResilientConnectionEvent& event) +{ + Mutex::ScopedLock _lock(lock); + if (eventQueue.empty()) + return false; + event = eventQueue.front().copy(); + return true; +} + +void ResilientConnectionImpl::popEvent() +{ + Mutex::ScopedLock _lock(lock); + if (!eventQueue.empty()) + eventQueue.pop_front(); +} + +bool ResilientConnectionImpl::createSession(const char* name, void* sessionContext, + SessionHandle& handle) +{ + Mutex::ScopedLock _lock(lock); + if (!connected) + return false; + + RCSession::Ptr sess = RCSession::Ptr(new RCSession(*this, name, connection, sessionContext)); + + handle.impl = (void*) sess.get(); + sessions.insert(sess); + + return true; +} + +void ResilientConnectionImpl::destroySession(SessionHandle handle) +{ + Mutex::ScopedLock _lock(lock); + RCSession::Ptr sess = RCSession::Ptr((RCSession*) handle.impl); + set<RCSession::Ptr>::iterator iter = sessions.find(sess); + if (iter != sessions.end()) { + for (vector<string>::iterator dIter = sess->dests.begin(); dIter != sess->dests.end(); dIter++) + sess->subscriptions->cancel(dIter->c_str()); + sess->subscriptions->stop(); + sess->subscriptions->wait(); + + sessions.erase(iter); + return; + } +} + +void ResilientConnectionImpl::sendMessage(SessionHandle handle, qmf::engine::Message& message) +{ + Mutex::ScopedLock _lock(lock); + RCSession::Ptr sess = RCSession::Ptr((RCSession*) handle.impl); + set<RCSession::Ptr>::iterator iter = sessions.find(sess); + qpid::client::Message msg; + string data(message.body, message.length); + msg.getDeliveryProperties().setRoutingKey(message.routingKey); + msg.getMessageProperties().setReplyTo(qpid::framing::ReplyTo(message.replyExchange, message.replyKey)); + if (settings.impl->getSendUserId()) + msg.getMessageProperties().setUserId(sess->userId); + msg.setData(data); + + try { + sess->session.messageTransfer(client::arg::content=msg, client::arg::destination=message.destination); + } catch(exception& e) { + QPID_LOG(error, "Session Exception during message-transfer: " << e.what()); + sessions.erase(iter); + EnqueueEvent(ResilientConnectionEvent::SESSION_CLOSED, (*iter)->userContext); + } +} + +void ResilientConnectionImpl::declareQueue(SessionHandle handle, char* queue) +{ + Mutex::ScopedLock _lock(lock); + RCSession* sess = (RCSession*) handle.impl; + + sess->session.queueDeclare(client::arg::queue=queue, client::arg::autoDelete=true, client::arg::exclusive=true); + sess->subscriptions->setAcceptMode(client::ACCEPT_MODE_NONE); + sess->subscriptions->setAcquireMode(client::ACQUIRE_MODE_PRE_ACQUIRED); + sess->subscriptions->subscribe(*sess, queue, queue); + sess->subscriptions->setFlowControl(queue, client::FlowControl::unlimited()); + sess->dests.push_back(string(queue)); +} + +void ResilientConnectionImpl::deleteQueue(SessionHandle handle, char* queue) +{ + Mutex::ScopedLock _lock(lock); + RCSession* sess = (RCSession*) handle.impl; + + sess->session.queueDelete(client::arg::queue=queue); + for (vector<string>::iterator iter = sess->dests.begin(); + iter != sess->dests.end(); iter++) + if (*iter == queue) { + sess->subscriptions->cancel(queue); + sess->dests.erase(iter); + break; + } +} + +void ResilientConnectionImpl::bind(SessionHandle handle, + char* exchange, char* queue, char* key) +{ + Mutex::ScopedLock _lock(lock); + RCSession* sess = (RCSession*) handle.impl; + + sess->session.exchangeBind(client::arg::exchange=exchange, client::arg::queue=queue, client::arg::bindingKey=key); +} + +void ResilientConnectionImpl::unbind(SessionHandle handle, + char* exchange, char* queue, char* key) +{ + Mutex::ScopedLock _lock(lock); + RCSession* sess = (RCSession*) handle.impl; + + sess->session.exchangeUnbind(client::arg::exchange=exchange, client::arg::queue=queue, client::arg::bindingKey=key); +} + +void ResilientConnectionImpl::notify() +{ + if (notifyFd != -1) + { + int unused_ret; //Suppress warnings about ignoring return value. + unused_ret = ::write(notifyFd, ".", 1); + } +} + + +void ResilientConnectionImpl::setNotifyFd(int fd) +{ + notifyFd = fd; + if (notifyFd > 0) { + int original = fcntl(notifyFd, F_GETFL); + fcntl(notifyFd, F_SETFL, O_NONBLOCK | original); + } +} + +void ResilientConnectionImpl::run() +{ + int delay(delayMin); + + while (true) { + try { + QPID_LOG(trace, "Trying to open connection..."); + connection.open(settings.impl->getClientSettings()); + { + Mutex::ScopedLock _lock(lock); + connected = true; + EnqueueEvent(ResilientConnectionEvent::CONNECTED); + + while (connected) + cond.wait(lock); + delay = delayMin; + + while (!sessions.empty()) { + set<RCSession::Ptr>::iterator iter = sessions.begin(); + RCSession::Ptr sess = *iter; + sessions.erase(iter); + EnqueueEvent(ResilientConnectionEvent::SESSION_CLOSED, sess->userContext); + Mutex::ScopedUnlock _u(lock); + sess->stop(); + + // Nullify the intrusive pointer within the scoped unlock, otherwise, + // the reference is held until overwritted above (under lock) which causes + // the session destructor to be called with the lock held. + sess = 0; + } + + EnqueueEvent(ResilientConnectionEvent::DISCONNECTED); + + if (shutdown) + return; + } + connection.close(); + } catch (exception &e) { + QPID_LOG(debug, "connection.open exception: " << e.what()); + Mutex::ScopedLock _lock(lock); + lastError = e.what(); + if (delay < delayMax) + delay *= delayFactor; + } + + ::qpid::sys::sleep(delay); + } +} + +void ResilientConnectionImpl::failure() +{ + Mutex::ScopedLock _lock(lock); + + connected = false; + lastError = "Closed by Peer"; + cond.notify(); +} + +void ResilientConnectionImpl::sessionClosed(RCSession*) +{ + Mutex::ScopedLock _lock(lock); + connected = false; + lastError = "Closed due to Session failure"; + cond.notify(); +} + +void ResilientConnectionImpl::EnqueueEvent(ResilientConnectionEvent::EventKind kind, + void* sessionContext, + const MessageImpl& message, + const string& errorText) +{ + { + Mutex::ScopedLock _lock(lock); + ResilientConnectionEventImpl event(kind, message); + + event.sessionContext = sessionContext; + event.errorText = errorText; + + eventQueue.push_back(event); + } + + if (notifyFd != -1) + { + int unused_ret; //Suppress warnings about ignoring return value. + unused_ret = ::write(notifyFd, ".", 1); + } +} + + +//================================================================== +// Wrappers +//================================================================== + +ResilientConnection::ResilientConnection(const ConnectionSettings& settings) +{ + impl = new ResilientConnectionImpl(settings); +} + +ResilientConnection::~ResilientConnection() +{ + delete impl; +} + +bool ResilientConnection::isConnected() const +{ + return impl->isConnected(); +} + +bool ResilientConnection::getEvent(ResilientConnectionEvent& event) +{ + return impl->getEvent(event); +} + +void ResilientConnection::popEvent() +{ + impl->popEvent(); +} + +bool ResilientConnection::createSession(const char* name, void* sessionContext, SessionHandle& handle) +{ + return impl->createSession(name, sessionContext, handle); +} + +void ResilientConnection::destroySession(SessionHandle handle) +{ + impl->destroySession(handle); +} + +void ResilientConnection::sendMessage(SessionHandle handle, qmf::engine::Message& message) +{ + impl->sendMessage(handle, message); +} + +void ResilientConnection::declareQueue(SessionHandle handle, char* queue) +{ + impl->declareQueue(handle, queue); +} + +void ResilientConnection::deleteQueue(SessionHandle handle, char* queue) +{ + impl->deleteQueue(handle, queue); +} + +void ResilientConnection::bind(SessionHandle handle, char* exchange, char* queue, char* key) +{ + impl->bind(handle, exchange, queue, key); +} + +void ResilientConnection::unbind(SessionHandle handle, char* exchange, char* queue, char* key) +{ + impl->unbind(handle, exchange, queue, key); +} + +void ResilientConnection::setNotifyFd(int fd) +{ + impl->setNotifyFd(fd); +} + +void ResilientConnection::notify() +{ + impl->notify(); +} + diff --git a/qpid/cpp/src/qmf/engine/SchemaImpl.cpp b/qpid/cpp/src/qmf/engine/SchemaImpl.cpp new file mode 100644 index 0000000000..f75663e131 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/SchemaImpl.cpp @@ -0,0 +1,614 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/SchemaImpl.h" +#include <qpid/framing/Buffer.h> +#include <qpid/framing/FieldTable.h> +#include <qpid/framing/Uuid.h> +#include <string.h> +#include <string> +#include <vector> +#include <sstream> + +using namespace std; +using namespace qmf::engine; +using qpid::framing::Buffer; +using qpid::framing::FieldTable; +using qpid::framing::Uuid; + +SchemaHash::SchemaHash() +{ + for (int idx = 0; idx < 16; idx++) + hash[idx] = 0x5A; +} + +void SchemaHash::encode(Buffer& buffer) const +{ + buffer.putBin128(hash); +} + +void SchemaHash::decode(Buffer& buffer) +{ + buffer.getBin128(hash); +} + +void SchemaHash::update(uint8_t data) +{ + update((char*) &data, 1); +} + +void SchemaHash::update(const char* data, uint32_t len) +{ + union h { + uint8_t b[16]; + uint64_t q[2]; + }* h = reinterpret_cast<union h*>(&hash[0]); + uint64_t* first = &h->q[0]; + uint64_t* second = &h->q[1]; + for (uint32_t idx = 0; idx < len; idx++) { + *first = *first ^ (uint64_t) data[idx]; + *second = *second << 1; + *second |= ((*first & 0x8000000000000000LL) >> 63); + *first = *first << 1; + *first = *first ^ *second; + } +} + +bool SchemaHash::operator==(const SchemaHash& other) const +{ + return ::memcmp(&hash, &other.hash, 16) == 0; +} + +bool SchemaHash::operator<(const SchemaHash& other) const +{ + return ::memcmp(&hash, &other.hash, 16) < 0; +} + +bool SchemaHash::operator>(const SchemaHash& other) const +{ + return ::memcmp(&hash, &other.hash, 16) > 0; +} + +SchemaArgumentImpl::SchemaArgumentImpl(Buffer& buffer) +{ + FieldTable map; + map.decode(buffer); + + name = map.getAsString("name"); + typecode = (Typecode) map.getAsInt("type"); + unit = map.getAsString("unit"); + description = map.getAsString("desc"); + + dir = DIR_IN; + string dstr(map.getAsString("dir")); + if (dstr == "O") + dir = DIR_OUT; + else if (dstr == "IO") + dir = DIR_IN_OUT; +} + +SchemaArgument* SchemaArgumentImpl::factory(Buffer& buffer) +{ + SchemaArgumentImpl* impl(new SchemaArgumentImpl(buffer)); + return new SchemaArgument(impl); +} + +void SchemaArgumentImpl::encode(Buffer& buffer) const +{ + FieldTable map; + + map.setString("name", name); + map.setInt("type", (int) typecode); + if (dir == DIR_IN) + map.setString("dir", "I"); + else if (dir == DIR_OUT) + map.setString("dir", "O"); + else + map.setString("dir", "IO"); + if (!unit.empty()) + map.setString("unit", unit); + if (!description.empty()) + map.setString("desc", description); + + map.encode(buffer); +} + +void SchemaArgumentImpl::updateHash(SchemaHash& hash) const +{ + hash.update(name); + hash.update(typecode); + hash.update(dir); + hash.update(unit); + hash.update(description); +} + +SchemaMethodImpl::SchemaMethodImpl(Buffer& buffer) +{ + FieldTable map; + int argCount; + + map.decode(buffer); + name = map.getAsString("name"); + argCount = map.getAsInt("argCount"); + description = map.getAsString("desc"); + + for (int idx = 0; idx < argCount; idx++) { + SchemaArgument* arg = SchemaArgumentImpl::factory(buffer); + addArgument(arg); + } +} + +SchemaMethod* SchemaMethodImpl::factory(Buffer& buffer) +{ + SchemaMethodImpl* impl(new SchemaMethodImpl(buffer)); + return new SchemaMethod(impl); +} + +void SchemaMethodImpl::encode(Buffer& buffer) const +{ + FieldTable map; + + map.setString("name", name); + map.setInt("argCount", arguments.size()); + if (!description.empty()) + map.setString("desc", description); + map.encode(buffer); + + for (vector<const SchemaArgument*>::const_iterator iter = arguments.begin(); + iter != arguments.end(); iter++) + (*iter)->impl->encode(buffer); +} + +void SchemaMethodImpl::addArgument(const SchemaArgument* argument) +{ + arguments.push_back(argument); +} + +const SchemaArgument* SchemaMethodImpl::getArgument(int idx) const +{ + int count = 0; + for (vector<const SchemaArgument*>::const_iterator iter = arguments.begin(); + iter != arguments.end(); iter++, count++) + if (idx == count) + return (*iter); + return 0; +} + +void SchemaMethodImpl::updateHash(SchemaHash& hash) const +{ + hash.update(name); + hash.update(description); + for (vector<const SchemaArgument*>::const_iterator iter = arguments.begin(); + iter != arguments.end(); iter++) + (*iter)->impl->updateHash(hash); +} + +SchemaPropertyImpl::SchemaPropertyImpl(Buffer& buffer) +{ + FieldTable map; + map.decode(buffer); + + name = map.getAsString("name"); + typecode = (Typecode) map.getAsInt("type"); + access = (Access) map.getAsInt("access"); + index = map.getAsInt("index") != 0; + optional = map.getAsInt("optional") != 0; + unit = map.getAsString("unit"); + description = map.getAsString("desc"); +} + +SchemaProperty* SchemaPropertyImpl::factory(Buffer& buffer) +{ + SchemaPropertyImpl* impl(new SchemaPropertyImpl(buffer)); + return new SchemaProperty(impl); +} + +void SchemaPropertyImpl::encode(Buffer& buffer) const +{ + FieldTable map; + + map.setString("name", name); + map.setInt("type", (int) typecode); + map.setInt("access", (int) access); + map.setInt("index", index ? 1 : 0); + map.setInt("optional", optional ? 1 : 0); + if (!unit.empty()) + map.setString("unit", unit); + if (!description.empty()) + map.setString("desc", description); + + map.encode(buffer); +} + +void SchemaPropertyImpl::updateHash(SchemaHash& hash) const +{ + hash.update(name); + hash.update(typecode); + hash.update(access); + hash.update(index); + hash.update(optional); + hash.update(unit); + hash.update(description); +} + +SchemaStatisticImpl::SchemaStatisticImpl(Buffer& buffer) +{ + FieldTable map; + map.decode(buffer); + + name = map.getAsString("name"); + typecode = (Typecode) map.getAsInt("type"); + unit = map.getAsString("unit"); + description = map.getAsString("desc"); +} + +SchemaStatistic* SchemaStatisticImpl::factory(Buffer& buffer) +{ + SchemaStatisticImpl* impl(new SchemaStatisticImpl(buffer)); + return new SchemaStatistic(impl); +} + +void SchemaStatisticImpl::encode(Buffer& buffer) const +{ + FieldTable map; + + map.setString("name", name); + map.setInt("type", (int) typecode); + if (!unit.empty()) + map.setString("unit", unit); + if (!description.empty()) + map.setString("desc", description); + + map.encode(buffer); +} + +void SchemaStatisticImpl::updateHash(SchemaHash& hash) const +{ + hash.update(name); + hash.update(typecode); + hash.update(unit); + hash.update(description); +} + +SchemaClassKeyImpl::SchemaClassKeyImpl(const string& p, const string& n, const SchemaHash& h) : package(p), name(n), hash(h) {} + +SchemaClassKeyImpl::SchemaClassKeyImpl(Buffer& buffer) : package(packageContainer), name(nameContainer), hash(hashContainer) +{ + buffer.getShortString(packageContainer); + buffer.getShortString(nameContainer); + hashContainer.decode(buffer); +} + +SchemaClassKey* SchemaClassKeyImpl::factory(const string& package, const string& name, const SchemaHash& hash) +{ + SchemaClassKeyImpl* impl(new SchemaClassKeyImpl(package, name, hash)); + return new SchemaClassKey(impl); +} + +SchemaClassKey* SchemaClassKeyImpl::factory(Buffer& buffer) +{ + SchemaClassKeyImpl* impl(new SchemaClassKeyImpl(buffer)); + return new SchemaClassKey(impl); +} + +void SchemaClassKeyImpl::encode(Buffer& buffer) const +{ + buffer.putShortString(package); + buffer.putShortString(name); + hash.encode(buffer); +} + +bool SchemaClassKeyImpl::operator==(const SchemaClassKeyImpl& other) const +{ + return package == other.package && + name == other.name && + hash == other.hash; +} + +bool SchemaClassKeyImpl::operator<(const SchemaClassKeyImpl& other) const +{ + if (package < other.package) return true; + if (package > other.package) return false; + if (name < other.name) return true; + if (name > other.name) return false; + return hash < other.hash; +} + +const string& SchemaClassKeyImpl::str() const +{ + Uuid printableHash(hash.get()); + stringstream str; + str << package << ":" << name << "(" << printableHash << ")"; + repr = str.str(); + return repr; +} + +SchemaObjectClassImpl::SchemaObjectClassImpl(Buffer& buffer) : hasHash(true), classKey(SchemaClassKeyImpl::factory(package, name, hash)) +{ + buffer.getShortString(package); + buffer.getShortString(name); + hash.decode(buffer); + + uint16_t propCount = buffer.getShort(); + uint16_t statCount = buffer.getShort(); + uint16_t methodCount = buffer.getShort(); + + for (uint16_t idx = 0; idx < propCount; idx++) { + const SchemaProperty* property = SchemaPropertyImpl::factory(buffer); + addProperty(property); + } + + for (uint16_t idx = 0; idx < statCount; idx++) { + const SchemaStatistic* statistic = SchemaStatisticImpl::factory(buffer); + addStatistic(statistic); + } + + for (uint16_t idx = 0; idx < methodCount; idx++) { + SchemaMethod* method = SchemaMethodImpl::factory(buffer); + addMethod(method); + } +} + +SchemaObjectClass* SchemaObjectClassImpl::factory(Buffer& buffer) +{ + SchemaObjectClassImpl* impl(new SchemaObjectClassImpl(buffer)); + return new SchemaObjectClass(impl); +} + +void SchemaObjectClassImpl::encode(Buffer& buffer) const +{ + buffer.putOctet((uint8_t) CLASS_OBJECT); + buffer.putShortString(package); + buffer.putShortString(name); + hash.encode(buffer); + //buffer.putOctet(0); // No parent class + buffer.putShort((uint16_t) properties.size()); + buffer.putShort((uint16_t) statistics.size()); + buffer.putShort((uint16_t) methods.size()); + + for (vector<const SchemaProperty*>::const_iterator iter = properties.begin(); + iter != properties.end(); iter++) + (*iter)->impl->encode(buffer); + for (vector<const SchemaStatistic*>::const_iterator iter = statistics.begin(); + iter != statistics.end(); iter++) + (*iter)->impl->encode(buffer); + for (vector<const SchemaMethod*>::const_iterator iter = methods.begin(); + iter != methods.end(); iter++) + (*iter)->impl->encode(buffer); +} + +const SchemaClassKey* SchemaObjectClassImpl::getClassKey() const +{ + if (!hasHash) { + hasHash = true; + hash.update(package); + hash.update(name); + for (vector<const SchemaProperty*>::const_iterator iter = properties.begin(); + iter != properties.end(); iter++) + (*iter)->impl->updateHash(hash); + for (vector<const SchemaStatistic*>::const_iterator iter = statistics.begin(); + iter != statistics.end(); iter++) + (*iter)->impl->updateHash(hash); + for (vector<const SchemaMethod*>::const_iterator iter = methods.begin(); + iter != methods.end(); iter++) + (*iter)->impl->updateHash(hash); + } + + return classKey.get(); +} + +void SchemaObjectClassImpl::addProperty(const SchemaProperty* property) +{ + properties.push_back(property); +} + +void SchemaObjectClassImpl::addStatistic(const SchemaStatistic* statistic) +{ + statistics.push_back(statistic); +} + +void SchemaObjectClassImpl::addMethod(const SchemaMethod* method) +{ + methods.push_back(method); +} + +const SchemaProperty* SchemaObjectClassImpl::getProperty(int idx) const +{ + int count = 0; + for (vector<const SchemaProperty*>::const_iterator iter = properties.begin(); + iter != properties.end(); iter++, count++) + if (idx == count) + return *iter; + return 0; +} + +const SchemaStatistic* SchemaObjectClassImpl::getStatistic(int idx) const +{ + int count = 0; + for (vector<const SchemaStatistic*>::const_iterator iter = statistics.begin(); + iter != statistics.end(); iter++, count++) + if (idx == count) + return *iter; + return 0; +} + +const SchemaMethod* SchemaObjectClassImpl::getMethod(int idx) const +{ + int count = 0; + for (vector<const SchemaMethod*>::const_iterator iter = methods.begin(); + iter != methods.end(); iter++, count++) + if (idx == count) + return *iter; + return 0; +} + +SchemaEventClassImpl::SchemaEventClassImpl(Buffer& buffer) : hasHash(true), classKey(SchemaClassKeyImpl::factory(package, name, hash)) +{ + buffer.getShortString(package); + buffer.getShortString(name); + hash.decode(buffer); + + uint16_t argCount = buffer.getShort(); + + for (uint16_t idx = 0; idx < argCount; idx++) { + SchemaArgument* argument = SchemaArgumentImpl::factory(buffer); + addArgument(argument); + } +} + +SchemaEventClass* SchemaEventClassImpl::factory(Buffer& buffer) +{ + SchemaEventClassImpl* impl(new SchemaEventClassImpl(buffer)); + return new SchemaEventClass(impl); +} + +void SchemaEventClassImpl::encode(Buffer& buffer) const +{ + buffer.putOctet((uint8_t) CLASS_EVENT); + buffer.putShortString(package); + buffer.putShortString(name); + hash.encode(buffer); + buffer.putShort((uint16_t) arguments.size()); + + for (vector<const SchemaArgument*>::const_iterator iter = arguments.begin(); + iter != arguments.end(); iter++) + (*iter)->impl->encode(buffer); +} + +const SchemaClassKey* SchemaEventClassImpl::getClassKey() const +{ + if (!hasHash) { + hasHash = true; + hash.update(package); + hash.update(name); + for (vector<const SchemaArgument*>::const_iterator iter = arguments.begin(); + iter != arguments.end(); iter++) + (*iter)->impl->updateHash(hash); + } + return classKey.get(); +} + +void SchemaEventClassImpl::addArgument(const SchemaArgument* argument) +{ + arguments.push_back(argument); +} + +const SchemaArgument* SchemaEventClassImpl::getArgument(int idx) const +{ + int count = 0; + for (vector<const SchemaArgument*>::const_iterator iter = arguments.begin(); + iter != arguments.end(); iter++, count++) + if (idx == count) + return (*iter); + return 0; +} + + +//================================================================== +// Wrappers +//================================================================== + +SchemaArgument::SchemaArgument(const char* name, Typecode typecode) { impl = new SchemaArgumentImpl(name, typecode); } +SchemaArgument::SchemaArgument(SchemaArgumentImpl* i) : impl(i) {} +SchemaArgument::SchemaArgument(const SchemaArgument& from) : impl(new SchemaArgumentImpl(*(from.impl))) {} +SchemaArgument::~SchemaArgument() { delete impl; } +void SchemaArgument::setDirection(Direction dir) { impl->setDirection(dir); } +void SchemaArgument::setUnit(const char* val) { impl->setUnit(val); } +void SchemaArgument::setDesc(const char* desc) { impl->setDesc(desc); } +const char* SchemaArgument::getName() const { return impl->getName().c_str(); } +Typecode SchemaArgument::getType() const { return impl->getType(); } +Direction SchemaArgument::getDirection() const { return impl->getDirection(); } +const char* SchemaArgument::getUnit() const { return impl->getUnit().c_str(); } +const char* SchemaArgument::getDesc() const { return impl->getDesc().c_str(); } + +SchemaMethod::SchemaMethod(const char* name) : impl(new SchemaMethodImpl(name)) {} +SchemaMethod::SchemaMethod(SchemaMethodImpl* i) : impl(i) {} +SchemaMethod::SchemaMethod(const SchemaMethod& from) : impl(new SchemaMethodImpl(*(from.impl))) {} +SchemaMethod::~SchemaMethod() { delete impl; } +void SchemaMethod::addArgument(const SchemaArgument* argument) { impl->addArgument(argument); } +void SchemaMethod::setDesc(const char* desc) { impl->setDesc(desc); } +const char* SchemaMethod::getName() const { return impl->getName().c_str(); } +const char* SchemaMethod::getDesc() const { return impl->getDesc().c_str(); } +int SchemaMethod::getArgumentCount() const { return impl->getArgumentCount(); } +const SchemaArgument* SchemaMethod::getArgument(int idx) const { return impl->getArgument(idx); } + +SchemaProperty::SchemaProperty(const char* name, Typecode typecode) : impl(new SchemaPropertyImpl(name, typecode)) {} +SchemaProperty::SchemaProperty(SchemaPropertyImpl* i) : impl(i) {} +SchemaProperty::SchemaProperty(const SchemaProperty& from) : impl(new SchemaPropertyImpl(*(from.impl))) {} +SchemaProperty::~SchemaProperty() { delete impl; } +void SchemaProperty::setAccess(Access access) { impl->setAccess(access); } +void SchemaProperty::setIndex(bool val) { impl->setIndex(val); } +void SchemaProperty::setOptional(bool val) { impl->setOptional(val); } +void SchemaProperty::setUnit(const char* val) { impl->setUnit(val); } +void SchemaProperty::setDesc(const char* desc) { impl->setDesc(desc); } +const char* SchemaProperty::getName() const { return impl->getName().c_str(); } +Typecode SchemaProperty::getType() const { return impl->getType(); } +Access SchemaProperty::getAccess() const { return impl->getAccess(); } +bool SchemaProperty::isIndex() const { return impl->isIndex(); } +bool SchemaProperty::isOptional() const { return impl->isOptional(); } +const char* SchemaProperty::getUnit() const { return impl->getUnit().c_str(); } +const char* SchemaProperty::getDesc() const { return impl->getDesc().c_str(); } + +SchemaStatistic::SchemaStatistic(const char* name, Typecode typecode) : impl(new SchemaStatisticImpl(name, typecode)) {} +SchemaStatistic::SchemaStatistic(SchemaStatisticImpl* i) : impl(i) {} +SchemaStatistic::SchemaStatistic(const SchemaStatistic& from) : impl(new SchemaStatisticImpl(*(from.impl))) {} +SchemaStatistic::~SchemaStatistic() { delete impl; } +void SchemaStatistic::setUnit(const char* val) { impl->setUnit(val); } +void SchemaStatistic::setDesc(const char* desc) { impl->setDesc(desc); } +const char* SchemaStatistic::getName() const { return impl->getName().c_str(); } +Typecode SchemaStatistic::getType() const { return impl->getType(); } +const char* SchemaStatistic::getUnit() const { return impl->getUnit().c_str(); } +const char* SchemaStatistic::getDesc() const { return impl->getDesc().c_str(); } + +SchemaClassKey::SchemaClassKey(SchemaClassKeyImpl* i) : impl(i) {} +SchemaClassKey::SchemaClassKey(const SchemaClassKey& from) : impl(new SchemaClassKeyImpl(*(from.impl))) {} +SchemaClassKey::~SchemaClassKey() { delete impl; } +const char* SchemaClassKey::getPackageName() const { return impl->getPackageName().c_str(); } +const char* SchemaClassKey::getClassName() const { return impl->getClassName().c_str(); } +const uint8_t* SchemaClassKey::getHash() const { return impl->getHash(); } +const char* SchemaClassKey::asString() const { return impl->str().c_str(); } +bool SchemaClassKey::operator==(const SchemaClassKey& other) const { return *impl == *(other.impl); } +bool SchemaClassKey::operator<(const SchemaClassKey& other) const { return *impl < *(other.impl); } + +SchemaObjectClass::SchemaObjectClass(const char* package, const char* name) : impl(new SchemaObjectClassImpl(package, name)) {} +SchemaObjectClass::SchemaObjectClass(SchemaObjectClassImpl* i) : impl(i) {} +SchemaObjectClass::SchemaObjectClass(const SchemaObjectClass& from) : impl(new SchemaObjectClassImpl(*(from.impl))) {} +SchemaObjectClass::~SchemaObjectClass() { delete impl; } +void SchemaObjectClass::addProperty(const SchemaProperty* property) { impl->addProperty(property); } +void SchemaObjectClass::addStatistic(const SchemaStatistic* statistic) { impl->addStatistic(statistic); } +void SchemaObjectClass::addMethod(const SchemaMethod* method) { impl->addMethod(method); } +const SchemaClassKey* SchemaObjectClass::getClassKey() const { return impl->getClassKey(); } +int SchemaObjectClass::getPropertyCount() const { return impl->getPropertyCount(); } +int SchemaObjectClass::getStatisticCount() const { return impl->getStatisticCount(); } +int SchemaObjectClass::getMethodCount() const { return impl->getMethodCount(); } +const SchemaProperty* SchemaObjectClass::getProperty(int idx) const { return impl->getProperty(idx); } +const SchemaStatistic* SchemaObjectClass::getStatistic(int idx) const { return impl->getStatistic(idx); } +const SchemaMethod* SchemaObjectClass::getMethod(int idx) const { return impl->getMethod(idx); } + +SchemaEventClass::SchemaEventClass(const char* package, const char* name, Severity s) : impl(new SchemaEventClassImpl(package, name, s)) {} +SchemaEventClass::SchemaEventClass(SchemaEventClassImpl* i) : impl(i) {} +SchemaEventClass::SchemaEventClass(const SchemaEventClass& from) : impl(new SchemaEventClassImpl(*(from.impl))) {} +SchemaEventClass::~SchemaEventClass() { delete impl; } +void SchemaEventClass::addArgument(const SchemaArgument* argument) { impl->addArgument(argument); } +void SchemaEventClass::setDesc(const char* desc) { impl->setDesc(desc); } +const SchemaClassKey* SchemaEventClass::getClassKey() const { return impl->getClassKey(); } +Severity SchemaEventClass::getSeverity() const { return impl->getSeverity(); } +int SchemaEventClass::getArgumentCount() const { return impl->getArgumentCount(); } +const SchemaArgument* SchemaEventClass::getArgument(int idx) const { return impl->getArgument(idx); } + diff --git a/qpid/cpp/src/qmf/engine/SchemaImpl.h b/qpid/cpp/src/qmf/engine/SchemaImpl.h new file mode 100644 index 0000000000..8b079a5ec6 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/SchemaImpl.h @@ -0,0 +1,227 @@ +#ifndef _QmfEngineSchemaImpl_ +#define _QmfEngineSchemaImpl_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/Schema.h" +#include "qpid/framing/Buffer.h" + +#include <string> +#include <vector> +#include <memory> + +namespace qmf { +namespace engine { + + // TODO: Destructors for schema classes + // TODO: Add "frozen" attribute for schema classes so they can't be modified after + // they've been registered. + + class SchemaHash { + uint8_t hash[16]; + public: + SchemaHash(); + void encode(qpid::framing::Buffer& buffer) const; + void decode(qpid::framing::Buffer& buffer); + void update(const char* data, uint32_t len); + void update(uint8_t data); + void update(const std::string& data) { update(data.c_str(), data.size()); } + void update(Typecode t) { update((uint8_t) t); } + void update(Direction d) { update((uint8_t) d); } + void update(Access a) { update((uint8_t) a); } + void update(bool b) { update((uint8_t) (b ? 1 : 0)); } + const uint8_t* get() const { return hash; } + bool operator==(const SchemaHash& other) const; + bool operator<(const SchemaHash& other) const; + bool operator>(const SchemaHash& other) const; + }; + + struct SchemaArgumentImpl { + std::string name; + Typecode typecode; + Direction dir; + std::string unit; + std::string description; + + SchemaArgumentImpl(const char* n, Typecode t) : name(n), typecode(t), dir(DIR_IN) {} + SchemaArgumentImpl(qpid::framing::Buffer& buffer); + static SchemaArgument* factory(qpid::framing::Buffer& buffer); + void encode(qpid::framing::Buffer& buffer) const; + void setDirection(Direction d) { dir = d; } + void setUnit(const char* val) { unit = val; } + void setDesc(const char* desc) { description = desc; } + const std::string& getName() const { return name; } + Typecode getType() const { return typecode; } + Direction getDirection() const { return dir; } + const std::string& getUnit() const { return unit; } + const std::string& getDesc() const { return description; } + void updateHash(SchemaHash& hash) const; + }; + + struct SchemaMethodImpl { + std::string name; + std::string description; + std::vector<const SchemaArgument*> arguments; + + SchemaMethodImpl(const char* n) : name(n) {} + SchemaMethodImpl(qpid::framing::Buffer& buffer); + static SchemaMethod* factory(qpid::framing::Buffer& buffer); + void encode(qpid::framing::Buffer& buffer) const; + void addArgument(const SchemaArgument* argument); + void setDesc(const char* desc) { description = desc; } + const std::string& getName() const { return name; } + const std::string& getDesc() const { return description; } + int getArgumentCount() const { return arguments.size(); } + const SchemaArgument* getArgument(int idx) const; + void updateHash(SchemaHash& hash) const; + }; + + struct SchemaPropertyImpl { + std::string name; + Typecode typecode; + Access access; + bool index; + bool optional; + std::string unit; + std::string description; + + SchemaPropertyImpl(const char* n, Typecode t) : name(n), typecode(t), access(ACCESS_READ_ONLY), index(false), optional(false) {} + SchemaPropertyImpl(qpid::framing::Buffer& buffer); + static SchemaProperty* factory(qpid::framing::Buffer& buffer); + void encode(qpid::framing::Buffer& buffer) const; + void setAccess(Access a) { access = a; } + void setIndex(bool val) { index = val; } + void setOptional(bool val) { optional = val; } + void setUnit(const char* val) { unit = val; } + void setDesc(const char* desc) { description = desc; } + const std::string& getName() const { return name; } + Typecode getType() const { return typecode; } + Access getAccess() const { return access; } + bool isIndex() const { return index; } + bool isOptional() const { return optional; } + const std::string& getUnit() const { return unit; } + const std::string& getDesc() const { return description; } + void updateHash(SchemaHash& hash) const; + }; + + struct SchemaStatisticImpl { + std::string name; + Typecode typecode; + std::string unit; + std::string description; + + SchemaStatisticImpl(const char* n, Typecode t) : name(n), typecode(t) {} + SchemaStatisticImpl(qpid::framing::Buffer& buffer); + static SchemaStatistic* factory(qpid::framing::Buffer& buffer); + void encode(qpid::framing::Buffer& buffer) const; + void setUnit(const char* val) { unit = val; } + void setDesc(const char* desc) { description = desc; } + const std::string& getName() const { return name; } + Typecode getType() const { return typecode; } + const std::string& getUnit() const { return unit; } + const std::string& getDesc() const { return description; } + void updateHash(SchemaHash& hash) const; + }; + + struct SchemaClassKeyImpl { + const std::string& package; + const std::string& name; + const SchemaHash& hash; + mutable std::string repr; + + // The *Container elements are only used if there isn't an external place to + // store these values. + std::string packageContainer; + std::string nameContainer; + SchemaHash hashContainer; + + SchemaClassKeyImpl(const std::string& package, const std::string& name, const SchemaHash& hash); + SchemaClassKeyImpl(qpid::framing::Buffer& buffer); + static SchemaClassKey* factory(const std::string& package, const std::string& name, const SchemaHash& hash); + static SchemaClassKey* factory(qpid::framing::Buffer& buffer); + + const std::string& getPackageName() const { return package; } + const std::string& getClassName() const { return name; } + const uint8_t* getHash() const { return hash.get(); } + + void encode(qpid::framing::Buffer& buffer) const; + bool operator==(const SchemaClassKeyImpl& other) const; + bool operator<(const SchemaClassKeyImpl& other) const; + const std::string& str() const; + }; + + struct SchemaObjectClassImpl { + std::string package; + std::string name; + mutable SchemaHash hash; + mutable bool hasHash; + std::auto_ptr<SchemaClassKey> classKey; + std::vector<const SchemaProperty*> properties; + std::vector<const SchemaStatistic*> statistics; + std::vector<const SchemaMethod*> methods; + + SchemaObjectClassImpl(const char* p, const char* n) : + package(p), name(n), hasHash(false), classKey(SchemaClassKeyImpl::factory(package, name, hash)) {} + SchemaObjectClassImpl(qpid::framing::Buffer& buffer); + static SchemaObjectClass* factory(qpid::framing::Buffer& buffer); + + void encode(qpid::framing::Buffer& buffer) const; + void addProperty(const SchemaProperty* property); + void addStatistic(const SchemaStatistic* statistic); + void addMethod(const SchemaMethod* method); + + const SchemaClassKey* getClassKey() const; + int getPropertyCount() const { return properties.size(); } + int getStatisticCount() const { return statistics.size(); } + int getMethodCount() const { return methods.size(); } + const SchemaProperty* getProperty(int idx) const; + const SchemaStatistic* getStatistic(int idx) const; + const SchemaMethod* getMethod(int idx) const; + }; + + struct SchemaEventClassImpl { + std::string package; + std::string name; + mutable SchemaHash hash; + mutable bool hasHash; + std::auto_ptr<SchemaClassKey> classKey; + std::string description; + Severity severity; + std::vector<const SchemaArgument*> arguments; + + SchemaEventClassImpl(const char* p, const char* n, Severity sev) : + package(p), name(n), hasHash(false), classKey(SchemaClassKeyImpl::factory(package, name, hash)), severity(sev) {} + SchemaEventClassImpl(qpid::framing::Buffer& buffer); + static SchemaEventClass* factory(qpid::framing::Buffer& buffer); + + void encode(qpid::framing::Buffer& buffer) const; + void addArgument(const SchemaArgument* argument); + void setDesc(const char* desc) { description = desc; } + + const SchemaClassKey* getClassKey() const; + Severity getSeverity() const { return severity; } + int getArgumentCount() const { return arguments.size(); } + const SchemaArgument* getArgument(int idx) const; + }; +} +} + +#endif + diff --git a/qpid/cpp/src/qmf/engine/SequenceManager.cpp b/qpid/cpp/src/qmf/engine/SequenceManager.cpp new file mode 100644 index 0000000000..4a4644a8b9 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/SequenceManager.cpp @@ -0,0 +1,96 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/SequenceManager.h" + +using namespace std; +using namespace qmf::engine; +using namespace qpid::sys; + +SequenceManager::SequenceManager() : nextSequence(1) {} + +void SequenceManager::setUnsolicitedContext(SequenceContext::Ptr ctx) +{ + unsolicitedContext = ctx; +} + +uint32_t SequenceManager::reserve(SequenceContext::Ptr ctx) +{ + Mutex::ScopedLock _lock(lock); + if (ctx.get() == 0) + ctx = unsolicitedContext; + uint32_t seq = nextSequence; + while (contextMap.find(seq) != contextMap.end()) + seq = seq < 0xFFFFFFFF ? seq + 1 : 1; + nextSequence = seq < 0xFFFFFFFF ? seq + 1 : 1; + contextMap[seq] = ctx; + ctx->reserve(); + return seq; +} + +void SequenceManager::release(uint32_t sequence) +{ + Mutex::ScopedLock _lock(lock); + + if (sequence == 0) { + if (unsolicitedContext.get() != 0) + unsolicitedContext->release(); + return; + } + + map<uint32_t, SequenceContext::Ptr>::iterator iter = contextMap.find(sequence); + if (iter != contextMap.end()) { + if (iter->second != 0) + iter->second->release(); + contextMap.erase(iter); + } +} + +void SequenceManager::releaseAll() +{ + Mutex::ScopedLock _lock(lock); + contextMap.clear(); +} + +void SequenceManager::dispatch(uint8_t opcode, uint32_t sequence, const string& routingKey, qpid::framing::Buffer& buffer) +{ + Mutex::ScopedLock _lock(lock); + bool done; + + if (sequence == 0) { + if (unsolicitedContext.get() != 0) { + done = unsolicitedContext->handleMessage(opcode, sequence, routingKey, buffer); + if (done) + unsolicitedContext->release(); + } + return; + } + + map<uint32_t, SequenceContext::Ptr>::iterator iter = contextMap.find(sequence); + if (iter != contextMap.end()) { + if (iter->second != 0) { + done = iter->second->handleMessage(opcode, sequence, routingKey, buffer); + if (done) { + iter->second->release(); + contextMap.erase(iter); + } + } + } +} + diff --git a/qpid/cpp/src/qmf/engine/SequenceManager.h b/qpid/cpp/src/qmf/engine/SequenceManager.h new file mode 100644 index 0000000000..9e47e38610 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/SequenceManager.h @@ -0,0 +1,68 @@ +#ifndef _QmfEngineSequenceManager_ +#define _QmfEngineSequenceManager_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qpid/sys/Mutex.h" +#include <boost/shared_ptr.hpp> +#include <map> + +namespace qpid { + namespace framing { + class Buffer; + } +} + +namespace qmf { +namespace engine { + + class SequenceContext { + public: + typedef boost::shared_ptr<SequenceContext> Ptr; + SequenceContext() {} + virtual ~SequenceContext() {} + + virtual void reserve() = 0; + virtual bool handleMessage(uint8_t opcode, uint32_t sequence, const std::string& routingKey, qpid::framing::Buffer& buffer) = 0; + virtual void release() = 0; + }; + + class SequenceManager { + public: + SequenceManager(); + + void setUnsolicitedContext(SequenceContext::Ptr ctx); + uint32_t reserve(SequenceContext::Ptr ctx = SequenceContext::Ptr()); + void release(uint32_t sequence); + void releaseAll(); + void dispatch(uint8_t opcode, uint32_t sequence, const std::string& routingKey, qpid::framing::Buffer& buffer); + + private: + mutable qpid::sys::Mutex lock; + uint32_t nextSequence; + SequenceContext::Ptr unsolicitedContext; + std::map<uint32_t, SequenceContext::Ptr> contextMap; + }; + +} +} + +#endif + diff --git a/qpid/cpp/src/qmf/engine/ValueImpl.cpp b/qpid/cpp/src/qmf/engine/ValueImpl.cpp new file mode 100644 index 0000000000..f9ebbf5028 --- /dev/null +++ b/qpid/cpp/src/qmf/engine/ValueImpl.cpp @@ -0,0 +1,571 @@ +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 "qmf/engine/ValueImpl.h" +#include <qpid/framing/FieldValue.h> +#include <qpid/framing/FieldTable.h> +#include <qpid/framing/List.h> +#include <qpid/log/Statement.h> + +using namespace std; +using namespace qmf::engine; +//using qpid::framing::Buffer; +//using qpid::framing::FieldTable; +//using qpid::framing::FieldValue; +using namespace qpid::framing; + +ValueImpl::ValueImpl(Typecode t, Buffer& buf) : typecode(t) +{ + uint64_t first; + uint64_t second; + FieldTable ft; + List fl; + + switch (typecode) { + case TYPE_UINT8 : value.u32 = (uint32_t) buf.getOctet(); break; + case TYPE_UINT16 : value.u32 = (uint32_t) buf.getShort(); break; + case TYPE_UINT32 : value.u32 = (uint32_t) buf.getLong(); break; + case TYPE_UINT64 : value.u64 = buf.getLongLong(); break; + case TYPE_SSTR : buf.getShortString(stringVal); break; + case TYPE_LSTR : buf.getMediumString(stringVal); break; + case TYPE_ABSTIME : value.s64 = buf.getLongLong(); break; + case TYPE_DELTATIME : value.u64 = buf.getLongLong(); break; + case TYPE_BOOL : value.boolVal = (buf.getOctet() != 0); break; + case TYPE_FLOAT : value.floatVal = buf.getFloat(); break; + case TYPE_DOUBLE : value.doubleVal = buf.getDouble(); break; + case TYPE_INT8 : value.s32 = (int32_t) ((int8_t) buf.getOctet()); break; + case TYPE_INT16 : value.s32 = (int32_t) ((int16_t) buf.getShort()); break; + case TYPE_INT32 : value.s32 = (int32_t) buf.getLong(); break; + case TYPE_INT64 : value.s64 = buf.getLongLong(); break; + case TYPE_UUID : buf.getBin128(value.uuidVal); break; + case TYPE_REF: + first = buf.getLongLong(); + second = buf.getLongLong(); + refVal.impl->setValue(first, second); + break; + + case TYPE_MAP: + ft.decode(buf); + initMap(ft); + break; + + case TYPE_LIST: + fl.decode(buf); + initList(fl); + break; + + case TYPE_ARRAY: + case TYPE_OBJECT: + default: + break; + } +} + +ValueImpl::ValueImpl(Typecode t, Typecode at) : typecode(t), valid(false), arrayTypecode(at) +{ +} + +ValueImpl::ValueImpl(Typecode t) : typecode(t) +{ + ::memset(&value, 0, sizeof(value)); +} + +Value* ValueImpl::factory(Typecode t, Buffer& b) +{ + ValueImpl* impl(new ValueImpl(t, b)); + return new Value(impl); +} + +Value* ValueImpl::factory(Typecode t) +{ + ValueImpl* impl(new ValueImpl(t)); + return new Value(impl); +} + +ValueImpl::~ValueImpl() +{ +} + +void ValueImpl::initMap(const FieldTable& ft) +{ + for (FieldTable::ValueMap::const_iterator iter = ft.begin(); + iter != ft.end(); iter++) { + const string& name(iter->first); + const FieldValue& fvalue(*iter->second); + uint8_t amqType = fvalue.getType(); + + if (amqType == 0x32) { + Value* subval(new Value(TYPE_UINT64)); + subval->setUint64(fvalue.get<int64_t>()); + insert(name.c_str(), subval); + } else if ((amqType & 0xCF) == 0x02) { + Value* subval(new Value(TYPE_UINT32)); + switch (amqType) { + case 0x02 : subval->setUint(fvalue.get<int>()); break; + case 0x12 : subval->setUint(fvalue.get<int>()); break; + case 0x22 : subval->setUint(fvalue.get<int>()); break; + } + insert(name.c_str(), subval); + } else if (amqType == 0x31) { // int64 + Value* subval(new Value(TYPE_INT64)); + subval->setInt64(fvalue.get<int64_t>()); + insert(name.c_str(), subval); + } else if ((amqType & 0xCF) == 0x01) { // 0x01:int8, 0x11:int16, 0x21:int21 + Value* subval(new Value(TYPE_INT32)); + subval->setInt((int32_t)fvalue.get<int>()); + insert(name.c_str(), subval); + } else if (amqType == 0x85 || amqType == 0x95) { + Value* subval(new Value(TYPE_LSTR)); + subval->setString(fvalue.get<string>().c_str()); + insert(name.c_str(), subval); + } else if (amqType == 0x23 || amqType == 0x33) { + Value* subval(new Value(TYPE_DOUBLE)); + subval->setDouble(fvalue.get<double>()); + insert(name.c_str(), subval); + } else if (amqType == 0xa8) { + FieldTable subFt; + bool valid = qpid::framing::getEncodedValue<FieldTable>(iter->second, subFt); + if (valid) { + Value* subval(new Value(TYPE_MAP)); + subval->impl->initMap(subFt); + insert(name.c_str(), subval); + } + } else if (amqType == 0xa9) { + List subList; + bool valid = qpid::framing::getEncodedValue<List>(iter->second, subList); + if (valid) { + Value* subval(new Value(TYPE_LIST)); + subval->impl->initList(subList); + insert(name.c_str(), subval); + } + } else if (amqType == 0x08) { + Value* subval(new Value(TYPE_BOOL)); + subval->setBool(fvalue.get<int>() ? true : false); + insert(name.c_str(), subval); + } else { + QPID_LOG(error, "Unable to decode unsupported AMQP typecode=" << amqType << " map index=" << name); + } + } +} + +void ValueImpl::mapToFieldTable(FieldTable& ft) const +{ + FieldTable subFt; + + for (map<string, Value>::const_iterator iter = mapVal.begin(); + iter != mapVal.end(); iter++) { + const string& name(iter->first); + const Value& subval(iter->second); + + switch (subval.getType()) { + case TYPE_UINT8: + case TYPE_UINT16: + case TYPE_UINT32: + ft.setUInt64(name, (uint64_t) subval.asUint()); + break; + case TYPE_UINT64: + case TYPE_DELTATIME: + ft.setUInt64(name, subval.asUint64()); + break; + case TYPE_SSTR: + case TYPE_LSTR: + ft.setString(name, subval.asString()); + break; + case TYPE_INT64: + case TYPE_ABSTIME: + ft.setInt64(name, subval.asInt64()); + break; + case TYPE_BOOL: + ft.set(name, FieldTable::ValuePtr(new BoolValue(subval.asBool()))); + break; + case TYPE_FLOAT: + ft.setFloat(name, subval.asFloat()); + break; + case TYPE_DOUBLE: + ft.setDouble(name, subval.asDouble()); + break; + case TYPE_INT8: + case TYPE_INT16: + case TYPE_INT32: + ft.setInt(name, subval.asInt()); + break; + case TYPE_MAP: + subFt.clear(); + subval.impl->mapToFieldTable(subFt); + ft.setTable(name, subFt); + break; + case TYPE_LIST: + { + List subList; + subval.impl->listToFramingList(subList); + ft.set(name, + ::qpid::framing::FieldTable::ValuePtr( + new ListValue( + subList))); + } break; + case TYPE_ARRAY: + case TYPE_OBJECT: + case TYPE_UUID: + case TYPE_REF: + default: + break; + } + } + } + + +void ValueImpl::initList(const List& fl) +{ + for (List::const_iterator iter = fl.begin(); + iter != fl.end(); iter++) { + const FieldValue& fvalue(*iter->get()); + uint8_t amqType = fvalue.getType(); + + if (amqType == 0x32) { + Value* subval(new Value(TYPE_UINT64)); + subval->setUint64(fvalue.get<int64_t>()); + appendToList(subval); + } else if ((amqType & 0xCF) == 0x02) { + Value* subval(new Value(TYPE_UINT32)); + switch (amqType) { + case 0x02 : subval->setUint(fvalue.get<int>()); break; // uint8 + case 0x12 : subval->setUint(fvalue.get<int>()); break; // uint16 + case 0x22 : subval->setUint(fvalue.get<int>()); break; // uint32 + } + appendToList(subval); + } else if (amqType == 0x31) { // int64 + Value* subval(new Value(TYPE_INT64)); + subval->setInt64(fvalue.get<int64_t>()); + appendToList(subval); + } else if ((amqType & 0xCF) == 0x01) { // 0x01:int8, 0x11:int16, 0x21:int32 + Value* subval(new Value(TYPE_INT32)); + subval->setInt((int32_t)fvalue.get<int>()); + appendToList(subval); + } else if (amqType == 0x85 || amqType == 0x95) { + Value* subval(new Value(TYPE_LSTR)); + subval->setString(fvalue.get<string>().c_str()); + appendToList(subval); + } else if (amqType == 0x23 || amqType == 0x33) { + Value* subval(new Value(TYPE_DOUBLE)); + subval->setDouble(fvalue.get<double>()); + appendToList(subval); + } else if (amqType == 0xa8) { + FieldTable subFt; + bool valid = qpid::framing::getEncodedValue<FieldTable>(*iter, subFt); + if (valid) { + Value* subval(new Value(TYPE_MAP)); + subval->impl->initMap(subFt); + appendToList(subval); + } + } else if (amqType == 0xa9) { + List subList; + bool valid = qpid::framing::getEncodedValue<List>(*iter, subList); + if (valid) { + Value *subVal(new Value(TYPE_LIST)); + subVal->impl->initList(subList); + appendToList(subVal); + } + } else if (amqType == 0x08) { + Value* subval(new Value(TYPE_BOOL)); + subval->setBool(fvalue.get<int>() ? true : false); + appendToList(subval); + } else { + QPID_LOG(error, "Unable to decode unsupported AMQP typecode =" << amqType); + } + } +} + +void ValueImpl::listToFramingList(List& fl) const +{ + for (vector<Value>::const_iterator iter = vectorVal.begin(); + iter != vectorVal.end(); iter++) { + const Value& subval(*iter); + + switch (subval.getType()) { + case TYPE_UINT8: + case TYPE_UINT16: + case TYPE_UINT32: + fl.push_back(List::ValuePtr(new Unsigned64Value((uint64_t) subval.asUint()))); + break; + case TYPE_UINT64: + case TYPE_DELTATIME: + fl.push_back(List::ValuePtr(new Unsigned64Value(subval.asUint64()))); + break; + case TYPE_SSTR: + case TYPE_LSTR: + fl.push_back(List::ValuePtr(new Str16Value(subval.asString()))); + break; + case TYPE_INT64: + case TYPE_ABSTIME: + fl.push_back(List::ValuePtr(new Integer64Value(subval.asInt64()))); + break; + case TYPE_BOOL: + fl.push_back(List::ValuePtr(new BoolValue(subval.asBool() ? 1 : 0))); + break; + case TYPE_FLOAT: + fl.push_back(List::ValuePtr(new FloatValue(subval.asFloat()))); + break; + case TYPE_DOUBLE: + fl.push_back(List::ValuePtr(new DoubleValue(subval.asDouble()))); + break; + case TYPE_INT8: + case TYPE_INT16: + case TYPE_INT32: + fl.push_back(List::ValuePtr(new IntegerValue(subval.asInt()))); + break; + case TYPE_MAP: + { + FieldTable subFt; + subval.impl->mapToFieldTable(subFt); + fl.push_back(List::ValuePtr(new FieldTableValue(subFt))); + + } break; + case TYPE_LIST: + { + List subList; + subval.impl->listToFramingList(subList); + fl.push_back(List::ValuePtr(new ListValue(subList))); + } break; + + case TYPE_ARRAY: + case TYPE_OBJECT: + case TYPE_UUID: + case TYPE_REF: + default: + break; + } + } + } + + + +void ValueImpl::encode(Buffer& buf) const +{ + FieldTable ft; + List fl; + + switch (typecode) { + case TYPE_UINT8 : buf.putOctet((uint8_t) value.u32); break; + case TYPE_UINT16 : buf.putShort((uint16_t) value.u32); break; + case TYPE_UINT32 : buf.putLong(value.u32); break; + case TYPE_UINT64 : buf.putLongLong(value.u64); break; + case TYPE_SSTR : buf.putShortString(stringVal); break; + case TYPE_LSTR : buf.putMediumString(stringVal); break; + case TYPE_ABSTIME : buf.putLongLong(value.s64); break; + case TYPE_DELTATIME : buf.putLongLong(value.u64); break; + case TYPE_BOOL : buf.putOctet(value.boolVal ? 1 : 0); break; + case TYPE_FLOAT : buf.putFloat(value.floatVal); break; + case TYPE_DOUBLE : buf.putDouble(value.doubleVal); break; + case TYPE_INT8 : buf.putOctet((uint8_t) value.s32); break; + case TYPE_INT16 : buf.putShort((uint16_t) value.s32); break; + case TYPE_INT32 : buf.putLong(value.s32); break; + case TYPE_INT64 : buf.putLongLong(value.s64); break; + case TYPE_UUID : buf.putBin128(value.uuidVal); break; + case TYPE_REF : refVal.impl->encode(buf); break; + case TYPE_MAP: + mapToFieldTable(ft); + ft.encode(buf); + break; + case TYPE_LIST: + listToFramingList(fl); + fl.encode(buf); + break; + + case TYPE_ARRAY: + case TYPE_OBJECT: + default: + break; + } +} + +uint32_t ValueImpl::encodedSize() const +{ + FieldTable ft; + List fl; + + switch (typecode) { + case TYPE_UINT8 : + case TYPE_BOOL : + case TYPE_INT8 : return 1; + + case TYPE_UINT16 : + case TYPE_INT16 : return 2; + + case TYPE_UINT32 : + case TYPE_INT32 : + case TYPE_FLOAT : return 4; + + case TYPE_UINT64 : + case TYPE_INT64 : + case TYPE_DOUBLE : + case TYPE_ABSTIME : + case TYPE_DELTATIME : return 8; + + case TYPE_UUID : + case TYPE_REF : return 16; + + case TYPE_SSTR : return 1 + stringVal.size(); + case TYPE_LSTR : return 2 + stringVal.size(); + case TYPE_MAP: + mapToFieldTable(ft); + return ft.encodedSize(); + + case TYPE_LIST: + listToFramingList(fl); + return fl.encodedSize(); + + case TYPE_ARRAY: + case TYPE_OBJECT: + default: + break; + } + + return 0; +} + +bool ValueImpl::keyInMap(const char* key) const +{ + return typecode == TYPE_MAP && mapVal.count(key) > 0; +} + +Value* ValueImpl::byKey(const char* key) +{ + if (keyInMap(key)) { + map<string, Value>::iterator iter = mapVal.find(key); + if (iter != mapVal.end()) + return &iter->second; + } + return 0; +} + +const Value* ValueImpl::byKey(const char* key) const +{ + if (keyInMap(key)) { + map<string, Value>::const_iterator iter = mapVal.find(key); + if (iter != mapVal.end()) + return &iter->second; + } + return 0; +} + +void ValueImpl::deleteKey(const char* key) +{ + mapVal.erase(key); +} + +void ValueImpl::insert(const char* key, Value* val) +{ + pair<string, Value> entry(key, *val); + mapVal.insert(entry); +} + +const char* ValueImpl::key(uint32_t idx) const +{ + map<string, Value>::const_iterator iter = mapVal.begin(); + for (uint32_t i = 0; i < idx; i++) { + if (iter == mapVal.end()) + break; + iter++; + } + + if (iter == mapVal.end()) + return 0; + else + return iter->first.c_str(); +} + +Value* ValueImpl::arrayItem(uint32_t) +{ + return 0; +} + +void ValueImpl::appendToArray(Value*) +{ +} + +void ValueImpl::deleteArrayItem(uint32_t) +{ +} + + +//================================================================== +// Wrappers +//================================================================== + +Value::Value(const Value& from) : impl(new ValueImpl(*(from.impl))) {} +Value::Value(Typecode t, Typecode at) : impl(new ValueImpl(t, at)) {} +Value::Value(ValueImpl* i) : impl(i) {} +Value::~Value() { delete impl;} + +Typecode Value::getType() const { return impl->getType(); } +bool Value::isNull() const { return impl->isNull(); } +void Value::setNull() { impl->setNull(); } +bool Value::isObjectId() const { return impl->isObjectId(); } +const ObjectId& Value::asObjectId() const { return impl->asObjectId(); } +void Value::setObjectId(const ObjectId& oid) { impl->setObjectId(oid); } +bool Value::isUint() const { return impl->isUint(); } +uint32_t Value::asUint() const { return impl->asUint(); } +void Value::setUint(uint32_t val) { impl->setUint(val); } +bool Value::isInt() const { return impl->isInt(); } +int32_t Value::asInt() const { return impl->asInt(); } +void Value::setInt(int32_t val) { impl->setInt(val); } +bool Value::isUint64() const { return impl->isUint64(); } +uint64_t Value::asUint64() const { return impl->asUint64(); } +void Value::setUint64(uint64_t val) { impl->setUint64(val); } +bool Value::isInt64() const { return impl->isInt64(); } +int64_t Value::asInt64() const { return impl->asInt64(); } +void Value::setInt64(int64_t val) { impl->setInt64(val); } +bool Value::isString() const { return impl->isString(); } +const char* Value::asString() const { return impl->asString(); } +void Value::setString(const char* val) { impl->setString(val); } +bool Value::isBool() const { return impl->isBool(); } +bool Value::asBool() const { return impl->asBool(); } +void Value::setBool(bool val) { impl->setBool(val); } +bool Value::isFloat() const { return impl->isFloat(); } +float Value::asFloat() const { return impl->asFloat(); } +void Value::setFloat(float val) { impl->setFloat(val); } +bool Value::isDouble() const { return impl->isDouble(); } +double Value::asDouble() const { return impl->asDouble(); } +void Value::setDouble(double val) { impl->setDouble(val); } +bool Value::isUuid() const { return impl->isUuid(); } +const uint8_t* Value::asUuid() const { return impl->asUuid(); } +void Value::setUuid(const uint8_t* val) { impl->setUuid(val); } +bool Value::isObject() const { return impl->isObject(); } +const Object* Value::asObject() const { return impl->asObject(); } +void Value::setObject(Object* val) { impl->setObject(val); } +bool Value::isMap() const { return impl->isMap(); } +bool Value::keyInMap(const char* key) const { return impl->keyInMap(key); } +Value* Value::byKey(const char* key) { return impl->byKey(key); } +const Value* Value::byKey(const char* key) const { return impl->byKey(key); } +void Value::deleteKey(const char* key) { impl->deleteKey(key); } +void Value::insert(const char* key, Value* val) { impl->insert(key, val); } +uint32_t Value::keyCount() const { return impl->keyCount(); } +const char* Value::key(uint32_t idx) const { return impl->key(idx); } +bool Value::isList() const { return impl->isList(); } +uint32_t Value::listItemCount() const { return impl->listItemCount(); } +Value* Value::listItem(uint32_t idx) { return impl->listItem(idx); } +void Value::appendToList(Value* val) { impl->appendToList(val); } +void Value::deleteListItem(uint32_t idx) { impl->deleteListItem(idx); } +bool Value::isArray() const { return impl->isArray(); } +Typecode Value::arrayType() const { return impl->arrayType(); } +uint32_t Value::arrayItemCount() const { return impl->arrayItemCount(); } +Value* Value::arrayItem(uint32_t idx) { return impl->arrayItem(idx); } +void Value::appendToArray(Value* val) { impl->appendToArray(val); } +void Value::deleteArrayItem(uint32_t idx) { impl->deleteArrayItem(idx); } + diff --git a/qpid/cpp/src/qmf/engine/ValueImpl.h b/qpid/cpp/src/qmf/engine/ValueImpl.h new file mode 100644 index 0000000000..8de8c5329f --- /dev/null +++ b/qpid/cpp/src/qmf/engine/ValueImpl.h @@ -0,0 +1,166 @@ +#ifndef _QmfEngineValueImpl_ +#define _QmfEngineValueImpl_ + +/* + * Licensed to the Apache Software Foundation (ASF) under one + * or more contributor license agreements. See the NOTICE file + * distributed with this work for additional information + * regarding copyright ownership. The ASF licenses this file + * to you 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 <qmf/engine/Value.h> +#include <qmf/engine/ObjectIdImpl.h> +#include <qmf/engine/Object.h> +#include <qpid/framing/Buffer.h> +#include <string> +#include <string.h> +#include <map> +#include <vector> +#include <boost/shared_ptr.hpp> + +namespace qpid { +namespace framing { + class FieldTable; + class List; +} +} + +namespace qmf { +namespace engine { + + // TODO: set valid flag on all value settors + // TODO: add a modified flag and accessors + + struct ValueImpl { + const Typecode typecode; + bool valid; + + ObjectId refVal; + std::string stringVal; + std::auto_ptr<Object> objectVal; + std::map<std::string, Value> mapVal; + std::vector<Value> vectorVal; + Typecode arrayTypecode; + + union { + uint32_t u32; + uint64_t u64; + int32_t s32; + int64_t s64; + bool boolVal; + float floatVal; + double doubleVal; + uint8_t uuidVal[16]; + } value; + + ValueImpl(const ValueImpl& from) : + typecode(from.typecode), valid(from.valid), refVal(from.refVal), stringVal(from.stringVal), + objectVal(from.objectVal.get() ? new Object(*(from.objectVal)) : 0), + mapVal(from.mapVal), vectorVal(from.vectorVal), arrayTypecode(from.arrayTypecode), + value(from.value) {} + + ValueImpl(Typecode t, Typecode at); + ValueImpl(Typecode t, qpid::framing::Buffer& b); + ValueImpl(Typecode t); + static Value* factory(Typecode t, qpid::framing::Buffer& b); + static Value* factory(Typecode t); + ~ValueImpl(); + + void encode(qpid::framing::Buffer& b) const; + uint32_t encodedSize() const; + + Typecode getType() const { return typecode; } + bool isNull() const { return !valid; } + void setNull() { valid = false; } + + bool isObjectId() const { return typecode == TYPE_REF; } + const ObjectId& asObjectId() const { return refVal; } + void setObjectId(const ObjectId& o) { refVal = o; } // TODO + + bool isUint() const { return typecode >= TYPE_UINT8 && typecode <= TYPE_UINT32; } + uint32_t asUint() const { return value.u32; } + void setUint(uint32_t val) { value.u32 = val; } + + bool isInt() const { return typecode >= TYPE_INT8 && typecode <= TYPE_INT32; } + int32_t asInt() const { return value.s32; } + void setInt(int32_t val) { value.s32 = val; } + + bool isUint64() const { return typecode == TYPE_UINT64 || typecode == TYPE_DELTATIME; } + uint64_t asUint64() const { return value.u64; } + void setUint64(uint64_t val) { value.u64 = val; } + + bool isInt64() const { return typecode == TYPE_INT64 || typecode == TYPE_ABSTIME; } + int64_t asInt64() const { return value.s64; } + void setInt64(int64_t val) { value.s64 = val; } + + bool isString() const { return typecode == TYPE_SSTR || typecode == TYPE_LSTR; } + const char* asString() const { return stringVal.c_str(); } + void setString(const char* val) { stringVal = val; } + + bool isBool() const { return typecode == TYPE_BOOL; } + bool asBool() const { return value.boolVal; } + void setBool(bool val) { value.boolVal = val; } + + bool isFloat() const { return typecode == TYPE_FLOAT; } + float asFloat() const { return value.floatVal; } + void setFloat(float val) { value.floatVal = val; } + + bool isDouble() const { return typecode == TYPE_DOUBLE; } + double asDouble() const { return value.doubleVal; } + void setDouble(double val) { value.doubleVal = val; } + + bool isUuid() const { return typecode == TYPE_UUID; } + const uint8_t* asUuid() const { return value.uuidVal; } + void setUuid(const uint8_t* val) { ::memcpy(value.uuidVal, val, 16); } + + bool isObject() const { return typecode == TYPE_OBJECT; } + Object* asObject() const { return objectVal.get(); } + void setObject(Object* val) { objectVal.reset(val); } + + bool isMap() const { return typecode == TYPE_MAP; } + bool keyInMap(const char* key) const; + Value* byKey(const char* key); + const Value* byKey(const char* key) const; + void deleteKey(const char* key); + void insert(const char* key, Value* val); + uint32_t keyCount() const { return mapVal.size(); } + const char* key(uint32_t idx) const; + + bool isList() const { return typecode == TYPE_LIST; } + uint32_t listItemCount() const { return vectorVal.size(); } + Value* listItem(uint32_t idx) { return idx < listItemCount() ? &vectorVal[idx] : 0; } + const Value* listItem(uint32_t idx) const { return idx < listItemCount() ? &vectorVal[idx] : 0; } + void appendToList(Value* val) { vectorVal.push_back(*val); } + void deleteListItem(uint32_t idx) { if (idx < listItemCount()) vectorVal.erase(vectorVal.begin()+idx); } + + bool isArray() const { return typecode == TYPE_ARRAY; } + Typecode arrayType() const { return arrayTypecode; } + uint32_t arrayItemCount() const { return 0; } + Value* arrayItem(uint32_t idx); + void appendToArray(Value* val); + void deleteArrayItem(uint32_t idx); + + private: + void mapToFieldTable(qpid::framing::FieldTable& ft) const; + void initMap(const qpid::framing::FieldTable& ft); + + void listToFramingList(qpid::framing::List& fl) const; + void initList(const qpid::framing::List& fl); + }; +} +} + +#endif + |