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Merge branch 'master' of https://github.com/highfidelity/hifi into blue

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This commit is contained in:
Sam Gateau 2015-05-11 10:48:29 -07:00
commit 72c3270ec6
54 changed files with 1019 additions and 404 deletions
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6
assignment-client/src/AssignmentClientMonitor.cpp
View file

@ -88,7 +88,7 @@ void AssignmentClientMonitor::stopChildProcesses() {
nodeList->eachNode([&](const SharedNodePointer& node) {
qDebug() << "asking child" << node->getUUID() << "to exit.";
node->activateLocalSocket();
QByteArray diePacket = byteArrayWithPopulatedHeader(PacketTypeStopNode);
QByteArray diePacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeStopNode);
nodeList->writeUnverifiedDatagram(diePacket, *node->getActiveSocket());
});
@ -193,7 +193,7 @@ void AssignmentClientMonitor::checkSpares() {
qDebug() << "asking child" << aSpareId << "to exit.";
SharedNodePointer childNode = nodeList->nodeWithUUID(aSpareId);
childNode->activateLocalSocket();
QByteArray diePacket = byteArrayWithPopulatedHeader(PacketTypeStopNode);
QByteArray diePacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeStopNode);
nodeList->writeUnverifiedDatagram(diePacket, childNode);
}
}
@ -229,7 +229,7 @@ void AssignmentClientMonitor::readPendingDatagrams() {
} else {
// tell unknown assignment-client child to exit.
qDebug() << "asking unknown child to exit.";
QByteArray diePacket = byteArrayWithPopulatedHeader(PacketTypeStopNode);
QByteArray diePacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeStopNode);
nodeList->writeUnverifiedDatagram(diePacket, senderSockAddr);
}
}

23
assignment-client/src/audio/AudioMixer.cpp
View file

@ -65,12 +65,6 @@ const QString AUDIO_MIXER_LOGGING_TARGET_NAME = "audio-mixer";
const QString AUDIO_ENV_GROUP_KEY = "audio_env";
const QString AUDIO_BUFFER_GROUP_KEY = "audio_buffer";
void attachNewNodeDataToNode(Node *newNode) {
if (!newNode->getLinkedData()) {
newNode->setLinkedData(new AudioMixerClientData());
}
}
InboundAudioStream::Settings AudioMixer::_streamSettings;
bool AudioMixer::_printStreamStats = false;
@ -514,7 +508,8 @@ void AudioMixer::sendAudioEnvironmentPacket(SharedNodePointer node) {
bool sendData = dataChanged || (randFloat() < CHANCE_OF_SEND);
if (sendData) {
int numBytesEnvPacketHeader = populatePacketHeader(clientEnvBuffer, PacketTypeAudioEnvironment);
auto nodeList = DependencyManager::get<NodeList>();
int numBytesEnvPacketHeader = nodeList->populatePacketHeader(clientEnvBuffer, PacketTypeAudioEnvironment);
char* envDataAt = clientEnvBuffer + numBytesEnvPacketHeader;
unsigned char bitset = 0;
@ -531,7 +526,7 @@ void AudioMixer::sendAudioEnvironmentPacket(SharedNodePointer node) {
memcpy(envDataAt, &wetLevel, sizeof(float));
envDataAt += sizeof(float);
}
DependencyManager::get<NodeList>()->writeDatagram(clientEnvBuffer, envDataAt - clientEnvBuffer, node);
nodeList->writeDatagram(clientEnvBuffer, envDataAt - clientEnvBuffer, node);
}
}
@ -552,7 +547,7 @@ void AudioMixer::readPendingDatagram(const QByteArray& receivedPacket, const Hif
SharedNodePointer sendingNode = nodeList->sendingNodeForPacket(receivedPacket);
if (sendingNode->getCanAdjustLocks()) {
QByteArray packet = receivedPacket;
populatePacketHeader(packet, PacketTypeMuteEnvironment);
nodeList->populatePacketHeader(packet, PacketTypeMuteEnvironment);
nodeList->eachNode([&](const SharedNodePointer& node){
if (node->getType() == NodeType::Agent && node->getActiveSocket() &&
@ -686,7 +681,9 @@ void AudioMixer::run() {
nodeList->addNodeTypeToInterestSet(NodeType::Agent);
nodeList->linkedDataCreateCallback = attachNewNodeDataToNode;
nodeList->linkedDataCreateCallback = [](Node* node) {
node->setLinkedData(new AudioMixerClientData());
};
// wait until we have the domain-server settings, otherwise we bail
DomainHandler& domainHandler = nodeList->getDomainHandler();
@ -794,7 +791,7 @@ void AudioMixer::run() {
// if the stream should be muted, send mute packet
if (nodeData->getAvatarAudioStream()
&& shouldMute(nodeData->getAvatarAudioStream()->getQuietestFrameLoudness())) {
QByteArray packet = byteArrayWithPopulatedHeader(PacketTypeNoisyMute);
QByteArray packet = nodeList->byteArrayWithPopulatedHeader(PacketTypeNoisyMute);
nodeList->writeDatagram(packet, node);
}
@ -806,7 +803,7 @@ void AudioMixer::run() {
char* mixDataAt;
if (streamsMixed > 0) {
// pack header
int numBytesMixPacketHeader = populatePacketHeader(clientMixBuffer, PacketTypeMixedAudio);
int numBytesMixPacketHeader = nodeList->populatePacketHeader(clientMixBuffer, PacketTypeMixedAudio);
mixDataAt = clientMixBuffer + numBytesMixPacketHeader;
// pack sequence number
@ -819,7 +816,7 @@ void AudioMixer::run() {
mixDataAt += AudioConstants::NETWORK_FRAME_BYTES_STEREO;
} else {
// pack header
int numBytesPacketHeader = populatePacketHeader(clientMixBuffer, PacketTypeSilentAudioFrame);
int numBytesPacketHeader = nodeList->populatePacketHeader(clientMixBuffer, PacketTypeSilentAudioFrame);
mixDataAt = clientMixBuffer + numBytesPacketHeader;
// pack sequence number

2
assignment-client/src/audio/AudioMixerClientData.cpp
View file

@ -157,7 +157,7 @@ void AudioMixerClientData::sendAudioStreamStatsPackets(const SharedNodePointer&
quint8 appendFlag = 0;
// pack header
int numBytesPacketHeader = populatePacketHeader(packet, PacketTypeAudioStreamStats);
int numBytesPacketHeader = nodeList->populatePacketHeader(packet, PacketTypeAudioStreamStats);
char* headerEndAt = packet + numBytesPacketHeader;
// calculate how many stream stat structs we can fit in each packet

105
assignment-client/src/avatars/AvatarMixer.cpp
View file

@ -56,14 +56,6 @@ AvatarMixer::~AvatarMixer() {
_broadcastThread.wait();
}
void attachAvatarDataToNode(Node* newNode) {
if (!newNode->getLinkedData()) {
// setup the client linked data - default the number of frames since adjustment
// to our number of frames per second
newNode->setLinkedData(new AvatarMixerClientData());
}
}
const float BILLBOARD_AND_IDENTITY_SEND_PROBABILITY = 1.0f / 300.0f;
// NOTE: some additional optimizations to consider.
@ -129,10 +121,9 @@ void AvatarMixer::broadcastAvatarData() {
static QByteArray mixedAvatarByteArray;
int numPacketHeaderBytes = populatePacketHeader(mixedAvatarByteArray, PacketTypeBulkAvatarData);
auto nodeList = DependencyManager::get<NodeList>();
int numPacketHeaderBytes = nodeList->populatePacketHeader(mixedAvatarByteArray, PacketTypeBulkAvatarData);
// setup for distributed random floating point values
std::random_device randomDevice;
std::mt19937 generator(randomDevice());
@ -161,7 +152,7 @@ void AvatarMixer::broadcastAvatarData() {
// reset packet pointers for this node
mixedAvatarByteArray.resize(numPacketHeaderBytes);
AvatarData& avatar = nodeData->getAvatar();
glm::vec3 myPosition = avatar.getPosition();
@ -179,7 +170,13 @@ void AvatarMixer::broadcastAvatarData() {
// keep track of outbound data rate specifically for avatar data
int numAvatarDataBytes = 0;
// keep track of the number of other avatars held back in this frame
int numAvatarsHeldBack = 0;
// keep track of the number of other avatar frames skipped
int numAvatarsWithSkippedFrames = 0;
// use the data rate specifically for avatar data for FRD adjustment checks
float avatarDataRateLastSecond = nodeData->getOutboundAvatarDataKbps();
@ -257,8 +254,38 @@ void AvatarMixer::broadcastAvatarData() {
&& distribution(generator) > (nodeData->getFullRateDistance() / distanceToAvatar)) {
return;
}
PacketSequenceNumber lastSeqToReceiver = nodeData->getLastBroadcastSequenceNumber(otherNode->getUUID());
PacketSequenceNumber lastSeqFromSender = otherNode->getLastSequenceNumberForPacketType(PacketTypeAvatarData);
if (lastSeqToReceiver > lastSeqFromSender) {
// Did we somehow get out of order packets from the sender?
// We don't expect this to happen - in RELEASE we add this to a trackable stat
// and in DEBUG we crash on the assert
otherNodeData->incrementNumOutOfOrderSends();
assert(false);
}
// make sure we haven't already sent this data from this sender to this receiver
// or that somehow we haven't sent
if (lastSeqToReceiver == lastSeqFromSender && lastSeqToReceiver != 0) {
++numAvatarsHeldBack;
return;
} else if (lastSeqFromSender - lastSeqToReceiver > 1) {
// this is a skip - we still send the packet but capture the presence of the skip so we see it happening
++numAvatarsWithSkippedFrames;
}
// we're going to send this avatar
// increment the number of avatars sent to this reciever
nodeData->incrementNumAvatarsSentLastFrame();
// set the last sent sequence number for this sender on the receiver
nodeData->setLastBroadcastSequenceNumber(otherNode->getUUID(),
otherNode->getLastSequenceNumberForPacketType(PacketTypeAvatarData));
QByteArray avatarByteArray;
avatarByteArray.append(otherNode->getUUID().toRfc4122());
@ -287,7 +314,7 @@ void AvatarMixer::broadcastAvatarData() {
&& (forceSend
|| otherNodeData->getBillboardChangeTimestamp() > _lastFrameTimestamp
|| randFloat() < BILLBOARD_AND_IDENTITY_SEND_PROBABILITY)) {
QByteArray billboardPacket = byteArrayWithPopulatedHeader(PacketTypeAvatarBillboard);
QByteArray billboardPacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeAvatarBillboard);
billboardPacket.append(otherNode->getUUID().toRfc4122());
billboardPacket.append(otherNodeData->getAvatar().getBillboard());
@ -301,7 +328,7 @@ void AvatarMixer::broadcastAvatarData() {
|| otherNodeData->getIdentityChangeTimestamp() > _lastFrameTimestamp
|| randFloat() < BILLBOARD_AND_IDENTITY_SEND_PROBABILITY)) {
QByteArray identityPacket = byteArrayWithPopulatedHeader(PacketTypeAvatarIdentity);
QByteArray identityPacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeAvatarIdentity);
QByteArray individualData = otherNodeData->getAvatar().identityByteArray();
individualData.replace(0, NUM_BYTES_RFC4122_UUID, otherNode->getUUID().toRfc4122());
@ -318,6 +345,10 @@ void AvatarMixer::broadcastAvatarData() {
// record the bytes sent for other avatar data in the AvatarMixerClientData
nodeData->recordSentAvatarData(numAvatarDataBytes + mixedAvatarByteArray.size());
// record the number of avatars held back this frame
nodeData->recordNumOtherAvatarStarves(numAvatarsHeldBack);
nodeData->recordNumOtherAvatarSkips(numAvatarsWithSkippedFrames);
if (numOtherAvatars == 0) {
// update the full rate distance to FLOAT_MAX since we didn't have any other avatars to send
@ -334,13 +365,36 @@ void AvatarMixer::broadcastAvatarData() {
void AvatarMixer::nodeKilled(SharedNodePointer killedNode) {
if (killedNode->getType() == NodeType::Agent
&& killedNode->getLinkedData()) {
auto nodeList = DependencyManager::get<NodeList>();
// this was an avatar we were sending to other people
// send a kill packet for it to our other nodes
QByteArray killPacket = byteArrayWithPopulatedHeader(PacketTypeKillAvatar);
QByteArray killPacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeKillAvatar);
killPacket += killedNode->getUUID().toRfc4122();
DependencyManager::get<NodeList>()->broadcastToNodes(killPacket,
NodeSet() << NodeType::Agent);
nodeList->broadcastToNodes(killPacket, NodeSet() << NodeType::Agent);
// we also want to remove sequence number data for this avatar on our other avatars
// so invoke the appropriate method on the AvatarMixerClientData for other avatars
nodeList->eachMatchingNode(
[&](const SharedNodePointer& node)->bool {
if (!node->getLinkedData()) {
return false;
}
if (node->getUUID() == killedNode->getUUID()) {
return false;
}
return true;
},
[&](const SharedNodePointer& node) {
QMetaObject::invokeMethod(node->getLinkedData(),
"removeLastBroadcastSequenceNumber",
Qt::AutoConnection,
Q_ARG(const QUuid&, QUuid(killedNode->getUUID())));
}
);
}
}
@ -430,11 +484,14 @@ void AvatarMixer::sendStatsPacket() {
AvatarMixerClientData* clientData = static_cast<AvatarMixerClientData*>(node->getLinkedData());
if (clientData) {
clientData->loadJSONStats(avatarStats);
MutexTryLocker lock(clientData->getMutex());
if (lock.isLocked()) {
clientData->loadJSONStats(avatarStats);
// add the diff between the full outbound bandwidth and the measured bandwidth for AvatarData send only
avatarStats["delta_full_vs_avatar_data_kbps"] =
avatarStats[NODE_OUTBOUND_KBPS_STAT_KEY].toDouble() - avatarStats[OUTBOUND_AVATAR_DATA_STATS_KEY].toDouble();
// add the diff between the full outbound bandwidth and the measured bandwidth for AvatarData send only
avatarStats["delta_full_vs_avatar_data_kbps"] =
avatarStats[NODE_OUTBOUND_KBPS_STAT_KEY].toDouble() - avatarStats[OUTBOUND_AVATAR_DATA_STATS_KEY].toDouble();
}
}
avatarsObject[uuidStringWithoutCurlyBraces(node->getUUID())] = avatarStats;
@ -455,7 +512,9 @@ void AvatarMixer::run() {
auto nodeList = DependencyManager::get<NodeList>();
nodeList->addNodeTypeToInterestSet(NodeType::Agent);
nodeList->linkedDataCreateCallback = attachAvatarDataToNode;
nodeList->linkedDataCreateCallback = [] (Node* node) {
node->setLinkedData(new AvatarMixerClientData());
};
// setup the timer that will be fired on the broadcast thread
_broadcastTimer = new QTimer();

13
assignment-client/src/avatars/AvatarMixerClientData.cpp
View file

@ -25,11 +25,24 @@ bool AvatarMixerClientData::checkAndSetHasReceivedFirstPackets() {
return oldValue;
}
PacketSequenceNumber AvatarMixerClientData::getLastBroadcastSequenceNumber(const QUuid& nodeUUID) const {
// return the matching PacketSequenceNumber, or the default if we don't have it
auto nodeMatch = _lastBroadcastSequenceNumbers.find(nodeUUID);
if (nodeMatch != _lastBroadcastSequenceNumbers.end()) {
return nodeMatch->second;
} else {
return DEFAULT_SEQUENCE_NUMBER;
}
}
void AvatarMixerClientData::loadJSONStats(QJsonObject& jsonObject) const {
jsonObject["display_name"] = _avatar.getDisplayName();
jsonObject["full_rate_distance"] = _fullRateDistance;
jsonObject["max_avatar_distance"] = _maxAvatarDistance;
jsonObject["num_avatars_sent_last_frame"] = _numAvatarsSentLastFrame;
jsonObject["avg_other_avatar_starves_per_second"] = getAvgNumOtherAvatarStarvesPerSecond();
jsonObject["avg_other_avatar_skips_per_second"] = getAvgNumOtherAvatarSkipsPerSecond();
jsonObject["total_num_out_of_order_sends"] = _numOutOfOrderSends;
jsonObject[OUTBOUND_AVATAR_DATA_STATS_KEY] = getOutboundAvatarDataKbps();
}

28
assignment-client/src/avatars/AvatarMixerClientData.h
View file

@ -14,6 +14,7 @@
#include <algorithm>
#include <cfloat>
#include <unordered_map>
#include <QtCore/QJsonObject>
#include <QtCore/QUrl>
@ -21,7 +22,9 @@
#include <AvatarData.h>
#include <NodeData.h>
#include <NumericalConstants.h>
#include <PacketHeaders.h>
#include <SimpleMovingAverage.h>
#include <UUIDHasher.h>
const QString OUTBOUND_AVATAR_DATA_STATS_KEY = "outbound_av_data_kbps";
@ -32,7 +35,12 @@ public:
AvatarData& getAvatar() { return _avatar; }
bool checkAndSetHasReceivedFirstPackets();
PacketSequenceNumber getLastBroadcastSequenceNumber(const QUuid& nodeUUID) const;
void setLastBroadcastSequenceNumber(const QUuid& nodeUUID, PacketSequenceNumber sequenceNumber)
{ _lastBroadcastSequenceNumbers[nodeUUID] = sequenceNumber; }
Q_INVOKABLE void removeLastBroadcastSequenceNumber(const QUuid& nodeUUID) { _lastBroadcastSequenceNumbers.erase(nodeUUID); }
quint64 getBillboardChangeTimestamp() const { return _billboardChangeTimestamp; }
void setBillboardChangeTimestamp(quint64 billboardChangeTimestamp) { _billboardChangeTimestamp = billboardChangeTimestamp; }
@ -49,6 +57,14 @@ public:
void incrementNumAvatarsSentLastFrame() { ++_numAvatarsSentLastFrame; }
int getNumAvatarsSentLastFrame() const { return _numAvatarsSentLastFrame; }
void recordNumOtherAvatarStarves(int numAvatarsHeldBack) { _otherAvatarStarves.updateAverage((float) numAvatarsHeldBack); }
float getAvgNumOtherAvatarStarvesPerSecond() const { return _otherAvatarStarves.getAverageSampleValuePerSecond(); }
void recordNumOtherAvatarSkips(int numOtherAvatarSkips) { _otherAvatarSkips.updateAverage((float) numOtherAvatarSkips); }
float getAvgNumOtherAvatarSkipsPerSecond() const { return _otherAvatarSkips.getAverageSampleValuePerSecond(); }
void incrementNumOutOfOrderSends() { ++_numOutOfOrderSends; }
int getNumFramesSinceFRDAdjustment() const { return _numFramesSinceAdjustment; }
void incrementNumFramesSinceFRDAdjustment() { ++_numFramesSinceAdjustment; }
void resetNumFramesSinceFRDAdjustment() { _numFramesSinceAdjustment = 0; }
@ -61,13 +77,23 @@ public:
void loadJSONStats(QJsonObject& jsonObject) const;
private:
AvatarData _avatar;
std::unordered_map<QUuid, PacketSequenceNumber, UUIDHasher> _lastBroadcastSequenceNumbers;
bool _hasReceivedFirstPackets = false;
quint64 _billboardChangeTimestamp = 0;
quint64 _identityChangeTimestamp = 0;
float _fullRateDistance = FLT_MAX;
float _maxAvatarDistance = FLT_MAX;
int _numAvatarsSentLastFrame = 0;
int _numFramesSinceAdjustment = 0;
SimpleMovingAverage _otherAvatarStarves;
SimpleMovingAverage _otherAvatarSkips;
int _numOutOfOrderSends = 0;
SimpleMovingAverage _avgOtherAvatarDataRate;
};

6
assignment-client/src/entities/EntityServer.cpp
View file

@ -64,7 +64,9 @@ void EntityServer::entityCreated(const EntityItem& newEntity, const SharedNodePo
unsigned char outputBuffer[MAX_PACKET_SIZE];
unsigned char* copyAt = outputBuffer;
int numBytesPacketHeader = populatePacketHeader(reinterpret_cast<char*>(outputBuffer), PacketTypeEntityAddResponse);
auto nodeList = DependencyManager::get<NodeList>();
int numBytesPacketHeader = nodeList->populatePacketHeader(reinterpret_cast<char*>(outputBuffer), PacketTypeEntityAddResponse);
int packetLength = numBytesPacketHeader;
copyAt += numBytesPacketHeader;
@ -81,7 +83,7 @@ void EntityServer::entityCreated(const EntityItem& newEntity, const SharedNodePo
copyAt += sizeof(entityID);
packetLength += sizeof(entityID);
DependencyManager::get<NodeList>()->writeDatagram((char*) outputBuffer, packetLength, senderNode);
nodeList->writeDatagram((char*) outputBuffer, packetLength, senderNode);
}

6
assignment-client/src/octree/OctreeInboundPacketProcessor.cpp
View file

@ -277,9 +277,11 @@ int OctreeInboundPacketProcessor::sendNackPackets() {
char* dataAt = packet;
int bytesRemaining = MAX_PACKET_SIZE;
auto nodeList = DependencyManager::get<NodeList>();
// pack header
int numBytesPacketHeader = populatePacketHeader(packet, _myServer->getMyEditNackType());
int numBytesPacketHeader = nodeList->populatePacketHeader(packet, _myServer->getMyEditNackType());
dataAt += numBytesPacketHeader;
bytesRemaining -= numBytesPacketHeader;
@ -301,7 +303,7 @@ int OctreeInboundPacketProcessor::sendNackPackets() {
numSequenceNumbersAvailable -= numSequenceNumbers;
// send it
DependencyManager::get<NodeList>()->writeUnverifiedDatagram(packet, dataAt - packet, destinationNode);
nodeList->writeUnverifiedDatagram(packet, dataAt - packet, destinationNode);
packetsSent++;
qDebug() << "NACK Sent back to editor/client... destinationNode=" << nodeUUID;

4
assignment-client/src/octree/OctreeQueryNode.cpp
View file

@ -189,7 +189,9 @@ void OctreeQueryNode::resetOctreePacket() {
}
_octreePacketAvailableBytes = MAX_PACKET_SIZE;
int numBytesPacketHeader = populatePacketHeader(reinterpret_cast<char*>(_octreePacket), _myPacketType);
int numBytesPacketHeader = DependencyManager::get<NodeList>()->populatePacketHeader(reinterpret_cast<char*>(_octreePacket),
_myPacketType);
_octreePacketAt = _octreePacket + numBytesPacketHeader;
_octreePacketAvailableBytes -= numBytesPacketHeader;

14
assignment-client/src/octree/OctreeServer.cpp
View file

@ -213,14 +213,6 @@ void OctreeServer::trackProcessWaitTime(float time) {
_averageProcessWaitTime.updateAverage(time);
}
void OctreeServer::attachQueryNodeToNode(Node* newNode) {
if (!newNode->getLinkedData() && _instance) {
OctreeQueryNode* newQueryNodeData = _instance->createOctreeQueryNode();
newQueryNodeData->init();
newNode->setLinkedData(newQueryNodeData);
}
}
OctreeServer::OctreeServer(const QByteArray& packet) :
ThreadedAssignment(packet),
_argc(0),
@ -1132,7 +1124,11 @@ void OctreeServer::run() {
setvbuf(stdout, NULL, _IOLBF, 0);
#endif
nodeList->linkedDataCreateCallback = &OctreeServer::attachQueryNodeToNode;
nodeList->linkedDataCreateCallback = [] (Node* node) {
OctreeQueryNode* newQueryNodeData = _instance->createOctreeQueryNode();
newQueryNodeData->init();
node->setLinkedData(newQueryNodeData);
};
srand((unsigned)time(0));

2
assignment-client/src/octree/OctreeServer.h
View file

@ -75,8 +75,6 @@ public:
virtual bool hasSpecialPacketToSend(const SharedNodePointer& node) { return false; }
virtual int sendSpecialPacket(const SharedNodePointer& node, OctreeQueryNode* queryNode, int& packetsSent) { return 0; }
static void attachQueryNodeToNode(Node* newNode);
static float SKIP_TIME; // use this for trackXXXTime() calls for non-times
static void trackLoopTime(float time) { _averageLoopTime.updateAverage(time); }

45
domain-server/src/DomainServer.cpp
View file

@ -619,10 +619,12 @@ void DomainServer::handleConnectRequest(const QByteArray& packet, const HifiSock
packetStream >> nodeInterestList >> username >> usernameSignature;
auto limitedNodeList = DependencyManager::get<LimitedNodeList>();
QString reason;
if (!isAssignment && !shouldAllowConnectionFromNode(username, usernameSignature, senderSockAddr, reason)) {
// this is an agent and we've decided we won't let them connect - send them a packet to deny connection
QByteArray connectionDeniedByteArray = byteArrayWithPopulatedHeader(PacketTypeDomainConnectionDenied);
QByteArray connectionDeniedByteArray = limitedNodeList->byteArrayWithPopulatedHeader(PacketTypeDomainConnectionDenied);
QDataStream out(&connectionDeniedByteArray, QIODevice::WriteOnly | QIODevice::Append);
out << reason;
// tell client it has been refused.
@ -664,10 +666,9 @@ void DomainServer::handleConnectRequest(const QByteArray& packet, const HifiSock
canRez = canAdjustLocks;
}
SharedNodePointer newNode =
DependencyManager::get<LimitedNodeList>()->addOrUpdateNode(nodeUUID, nodeType,
publicSockAddr, localSockAddr,
canAdjustLocks, canRez);
SharedNodePointer newNode = limitedNodeList->addOrUpdateNode(nodeUUID, nodeType,
publicSockAddr, localSockAddr,
canAdjustLocks, canRez);
// when the newNode is created the linked data is also created
// if this was a static assignment set the UUID, set the sendingSockAddr
DomainServerNodeData* nodeData = reinterpret_cast<DomainServerNodeData*>(newNode->getLinkedData());
@ -926,8 +927,8 @@ NodeSet DomainServer::nodeInterestListFromPacket(const QByteArray& packet, int n
void DomainServer::sendDomainListToNode(const SharedNodePointer& node, const HifiSockAddr &senderSockAddr,
const NodeSet& nodeInterestList) {
QByteArray broadcastPacket = byteArrayWithPopulatedHeader(PacketTypeDomainList);
auto limitedNodeList = DependencyManager::get<LimitedNodeList>();
QByteArray broadcastPacket = limitedNodeList->byteArrayWithPopulatedHeader(PacketTypeDomainList);
// always send the node their own UUID back
QDataStream broadcastDataStream(&broadcastPacket, QIODevice::Append);
@ -939,8 +940,6 @@ void DomainServer::sendDomainListToNode(const SharedNodePointer& node, const Hif
DomainServerNodeData* nodeData = reinterpret_cast<DomainServerNodeData*>(node->getLinkedData());
auto nodeList = DependencyManager::get<LimitedNodeList>();
// if we've established a connection via ICE with this peer, use that socket
// otherwise just try to reply back to them on their sending socket (although that may not work)
HifiSockAddr destinationSockAddr = _connectedICEPeers.value(node->getUUID());
@ -955,7 +954,7 @@ void DomainServer::sendDomainListToNode(const SharedNodePointer& node, const Hif
if (nodeData->isAuthenticated()) {
// if this authenticated node has any interest types, send back those nodes as well
nodeList->eachNode([&](const SharedNodePointer& otherNode){
limitedNodeList->eachNode([&](const SharedNodePointer& otherNode){
// reset our nodeByteArray and nodeDataStream
QByteArray nodeByteArray;
QDataStream nodeDataStream(&nodeByteArray, QIODevice::Append);
@ -986,7 +985,7 @@ void DomainServer::sendDomainListToNode(const SharedNodePointer& node, const Hif
// we need to break here and start a new packet
// so send the current one
nodeList->writeDatagram(broadcastPacket, node, senderSockAddr);
limitedNodeList->writeUnverifiedDatagram(broadcastPacket, node, senderSockAddr);
// reset the broadcastPacket structure
broadcastPacket.resize(numBroadcastPacketLeadBytes);
@ -999,26 +998,26 @@ void DomainServer::sendDomainListToNode(const SharedNodePointer& node, const Hif
});
}
}
// always write the last broadcastPacket
nodeList->writeDatagram(broadcastPacket, node, senderSockAddr);
limitedNodeList->writeUnverifiedDatagram(broadcastPacket, node, senderSockAddr);
}
void DomainServer::readAvailableDatagrams() {
auto nodeList = DependencyManager::get<LimitedNodeList>();
auto limitedNodeList = DependencyManager::get<LimitedNodeList>();
HifiSockAddr senderSockAddr;
QByteArray receivedPacket;
static QByteArray assignmentPacket = byteArrayWithPopulatedHeader(PacketTypeCreateAssignment);
static QByteArray assignmentPacket = limitedNodeList->byteArrayWithPopulatedHeader(PacketTypeCreateAssignment);
static int numAssignmentPacketHeaderBytes = assignmentPacket.size();
while (nodeList->getNodeSocket().hasPendingDatagrams()) {
receivedPacket.resize(nodeList->getNodeSocket().pendingDatagramSize());
nodeList->getNodeSocket().readDatagram(receivedPacket.data(), receivedPacket.size(),
while (limitedNodeList->getNodeSocket().hasPendingDatagrams()) {
receivedPacket.resize(limitedNodeList->getNodeSocket().pendingDatagramSize());
limitedNodeList->getNodeSocket().readDatagram(receivedPacket.data(), receivedPacket.size(),
senderSockAddr.getAddressPointer(), senderSockAddr.getPortPointer());
if (packetTypeForPacket(receivedPacket) == PacketTypeRequestAssignment
&& nodeList->packetVersionAndHashMatch(receivedPacket)) {
&& limitedNodeList->packetVersionAndHashMatch(receivedPacket)) {
// construct the requested assignment from the packet data
Assignment requestAssignment(receivedPacket);
@ -1059,7 +1058,7 @@ void DomainServer::readAvailableDatagrams() {
assignmentStream << uniqueAssignment;
nodeList->getNodeSocket().writeDatagram(assignmentPacket,
limitedNodeList->getNodeSocket().writeDatagram(assignmentPacket,
senderSockAddr.getAddress(), senderSockAddr.getPort());
// add the information for that deployed assignment to the hash of pending assigned nodes
@ -1081,16 +1080,16 @@ void DomainServer::readAvailableDatagrams() {
processDatagram(receivedPacket, senderSockAddr);
} else {
// we're using DTLS, so tell the sender to get back to us using DTLS
static QByteArray dtlsRequiredPacket = byteArrayWithPopulatedHeader(PacketTypeDomainServerRequireDTLS);
static QByteArray dtlsRequiredPacket = limitedNodeList->byteArrayWithPopulatedHeader(PacketTypeDomainServerRequireDTLS);
static int numBytesDTLSHeader = numBytesForPacketHeaderGivenPacketType(PacketTypeDomainServerRequireDTLS);
if (dtlsRequiredPacket.size() == numBytesDTLSHeader) {
// pack the port that we accept DTLS traffic on
unsigned short dtlsPort = nodeList->getDTLSSocket().localPort();
unsigned short dtlsPort = limitedNodeList->getDTLSSocket().localPort();
dtlsRequiredPacket.replace(numBytesDTLSHeader, sizeof(dtlsPort), reinterpret_cast<const char*>(&dtlsPort));
}
nodeList->writeUnverifiedDatagram(dtlsRequiredPacket, senderSockAddr);
limitedNodeList->writeUnverifiedDatagram(dtlsRequiredPacket, senderSockAddr);
}
}
}

6
examples/edit.js
View file

@ -1197,7 +1197,11 @@ PropertiesTool = function(opts) {
webView.eventBridge.webEventReceived.connect(function(data) {
data = JSON.parse(data);
if (data.type == "update") {
if (data.type == "print") {
if (data.message) {
print(data.message);
}
} else if (data.type == "update") {
selectionManager.saveProperties();
if (selectionManager.selections.length > 1) {
properties = {

14
examples/example/entities/changingAtmosphereExample.js
View file

@ -35,12 +35,14 @@ var zoneEntityA = Entities.addEntity({
scatteringWavelengths: { x: 0.650, y: 0.570, z: 0.475 },
hasStars: true
},
stageLatitude: 37.777,
stageLongitude: 122.407,
stageAltitude: 0.03,
stageDay: 183,
stageHour: 5,
stageSunModelEnabled: true
stage: {
latitude: 37.777,
longitude: 122.407,
altitude: 0.03,
day: 183,
hour: 5,
sunModelEnabled: true
}
});

14
examples/example/entities/zoneAtmosphereExample.js
View file

@ -33,12 +33,14 @@ var zoneEntityA = Entities.addEntity({
scatteringWavelengths: { x: 0.650, y: 0.570, z: 0.475 },
hasStars: false
},
stageLatitude: 37.777,
stageLongitude: 122.407,
stageAltitude: 0.03,
stageDay: 60,
stageHour: 0,
stageSunModelEnabled: true
stage: {
latitude: 37.777,
longitude: 122.407,
altitude: 0.03,
day: 60,
hour: 0,
sunModelEnabled: true
}
});

16
examples/example/entities/zoneEntityExample.js
View file

@ -34,17 +34,18 @@ var zoneEntityB = Entities.addEntity({
dimensions: { x: 2, y: 2, z: 2 },
keyLightColor: { red: 0, green: 255, blue: 0 },
keyLightIntensity: 0.9,
stageLatitude: 37.777,
stageLongitude: 122.407,
stageAltitude: 0.03,
stageDay: 60,
stageHour: 12,
stageSunModelEnabled: true
stage: {
latitude: 37.777,
longitude: 122.407,
altitude: 0.03,
day: 60,
hour: 0,
sunModelEnabled: true
}
});
print("zoneEntityB:" + zoneEntityB);
var zoneEntityC = Entities.addEntity({
type: "Zone",
position: { x: 5, y: 10, z: 5 },
@ -59,7 +60,6 @@ var zoneEntityC = Entities.addEntity({
print("zoneEntityC:" + zoneEntityC);
// register the call back so it fires before each data send
Script.update.connect(function(deltaTime) {
// stop it...

14
examples/example/entities/zoneSkyboxExample.js
View file

@ -37,12 +37,14 @@ var zoneEntityA = Entities.addEntity({
color: { red: 255, green: 0, blue: 255 },
url: ""
},
stageLatitude: 37.777,
stageLongitude: 122.407,
stageAltitude: 0.03,
stageDay: 60,
stageHour: 0,
stageSunModelEnabled: true
stage: {
latitude: 37.777,
longitude: 122.407,
altitude: 0.03,
day: 60,
hour: 0,
sunModelEnabled: true
}
});
var props = Entities.getEntityProperties(zoneEntityA);

14
examples/grab.js
View file

@ -27,6 +27,7 @@ var ANGULAR_DAMPING_RATE = 0.40;
var SCREEN_TO_METERS = 0.001;
var currentPosition, currentVelocity, cameraEntityDistance, currentRotation;
var velocityTowardTarget, desiredVelocity, addedVelocity, newVelocity, dPosition, camYaw, distanceToTarget, targetPosition;
var originalGravity;
var shouldRotate = false;
var dQ, theta, axisAngle, dT;
var angularVelocity = {
@ -65,6 +66,7 @@ function mousePressEvent(event) {
grabbedEntity = intersection.entityID;
var props = Entities.getEntityProperties(grabbedEntity)
isGrabbing = true;
originalGravity = props.gravity;
targetPosition = props.position;
currentPosition = props.position;
currentVelocity = props.velocity;
@ -96,6 +98,11 @@ function updateDropLine(position) {
function mouseReleaseEvent() {
if (isGrabbing) {
isGrabbing = false;
Entities.editEntity(grabbedEntity, {
gravity: originalGravity
});
Overlays.editOverlay(dropLine, {
visible: false
});
@ -194,7 +201,7 @@ function update(deltaTime) {
newVelocity = Vec3.subtract(newVelocity, Vec3.multiply(newVelocity, DAMPING_RATE));
// Update entity
} else {
newVelocity = entityProps.velocity;
newVelocity = {x: 0, y: 0, z: 0};
}
if (shouldRotate) {
angularVelocity = Vec3.subtract(angularVelocity, Vec3.multiply(angularVelocity, ANGULAR_DAMPING_RATE));
@ -204,7 +211,8 @@ function update(deltaTime) {
Entities.editEntity(grabbedEntity, {
velocity: newVelocity,
angularVelocity: angularVelocity
angularVelocity: angularVelocity,
gravity: {x: 0, y: 0, z: 0}
})
updateDropLine(targetPosition);
}
@ -215,4 +223,4 @@ Controller.mousePressEvent.connect(mousePressEvent);
Controller.mouseReleaseEvent.connect(mouseReleaseEvent);
Controller.keyPressEvent.connect(keyPressEvent);
Controller.keyReleaseEvent.connect(keyReleaseEvent);
Script.update.connect(update);
Script.update.connect(update);

61
examples/html/entityProperties.html
View file

@ -18,6 +18,12 @@
els[i].setAttribute('disabled', 'disabled');
}
}
function showElements(els, show) {
for (var i = 0; i < els.length; i++) {
els[i].style.display = (show) ? 'block' : 'none';
}
}
function createEmitCheckedPropertyUpdateFunction(propertyName) {
return function() {
@ -280,6 +286,7 @@
var elZoneStageLatitude = document.getElementById("property-zone-stage-latitude");
var elZoneStageLongitude = document.getElementById("property-zone-stage-longitude");
var elZoneStageAltitude = document.getElementById("property-zone-stage-altitude");
var elZoneStageAutomaticHourDay = document.getElementById("property-zone-stage-automatic-hour-day");
var elZoneStageDay = document.getElementById("property-zone-stage-day");
var elZoneStageHour = document.getElementById("property-zone-stage-hour");
@ -467,7 +474,7 @@
elZoneSections[i].style.display = 'block';
}
elZoneStageSunModelEnabled.checked = properties.stageSunModelEnabled;
elZoneStageSunModelEnabled.checked = properties.stage.sunModelEnabled;
elZoneKeyLightColorRed.value = properties.keyLightColor.red;
elZoneKeyLightColorGreen.value = properties.keyLightColor.green;
elZoneKeyLightColorBlue.value = properties.keyLightColor.blue;
@ -477,11 +484,12 @@
elZoneKeyLightDirectionY.value = properties.keyLightDirection.y.toFixed(2);
elZoneKeyLightDirectionZ.value = properties.keyLightDirection.z.toFixed(2);
elZoneStageLatitude.value = properties.stageLatitude.toFixed(2);
elZoneStageLongitude.value = properties.stageLongitude.toFixed(2);
elZoneStageAltitude.value = properties.stageAltitude.toFixed(2);
elZoneStageDay.value = properties.stageDay;
elZoneStageHour.value = properties.stageHour;
elZoneStageLatitude.value = properties.stage.latitude.toFixed(2);
elZoneStageLongitude.value = properties.stage.longitude.toFixed(2);
elZoneStageAltitude.value = properties.stage.altitude.toFixed(2);
elZoneStageAutomaticHourDay.checked = properties.stage.automaticHourDay;
elZoneStageDay.value = properties.stage.day;
elZoneStageHour.value = properties.stage.hour;
elShapeType.value = properties.shapeType;
elCompoundShapeURL.value = properties.compoundShapeURL;
@ -504,6 +512,8 @@
elZoneAtmosphereScatteringWavelengthsZ.value = properties.atmosphere.scatteringWavelengths.z;
elZoneAtmosphereHasStars.checked = properties.atmosphere.hasStars;
showElements(document.getElementsByClassName('skybox-section'), elZoneBackgroundMode.value == 'skybox');
showElements(document.getElementsByClassName('atmosphere-section'), elZoneBackgroundMode.value == 'atmosphere');
}
if (selected) {
@ -619,7 +629,7 @@
elTextBackgroundColorGreen.addEventListener('change', textBackgroundColorChangeFunction);
elTextBackgroundColorBlue.addEventListener('change', textBackgroundColorChangeFunction);
elZoneStageSunModelEnabled.addEventListener('change', createEmitCheckedPropertyUpdateFunction('stageSunModelEnabled'));
elZoneStageSunModelEnabled.addEventListener('change', createEmitGroupCheckedPropertyUpdateFunction('stage','sunModelEnabled'));
var zoneKeyLightColorChangeFunction = createEmitColorPropertyUpdateFunction(
'keyLightColor', elZoneKeyLightColorRed, elZoneKeyLightColorGreen, elZoneKeyLightColorBlue);
elZoneKeyLightColorRed.addEventListener('change', zoneKeyLightColorChangeFunction);
@ -633,11 +643,12 @@
elZoneKeyLightDirectionY.addEventListener('change', zoneKeyLightDirectionChangeFunction);
elZoneKeyLightDirectionZ.addEventListener('change', zoneKeyLightDirectionChangeFunction);
elZoneStageLatitude.addEventListener('change', createEmitNumberPropertyUpdateFunction('stageLatitude'));
elZoneStageLongitude.addEventListener('change', createEmitNumberPropertyUpdateFunction('stageLongitude'));
elZoneStageAltitude.addEventListener('change', createEmitNumberPropertyUpdateFunction('stageAltitude'));
elZoneStageDay.addEventListener('change', createEmitNumberPropertyUpdateFunction('stageDay'));
elZoneStageHour.addEventListener('change', createEmitNumberPropertyUpdateFunction('stageHour'));
elZoneStageLatitude.addEventListener('change', createEmitGroupNumberPropertyUpdateFunction('stage','latitude'));
elZoneStageLongitude.addEventListener('change', createEmitGroupNumberPropertyUpdateFunction('stage','longitude'));
elZoneStageAltitude.addEventListener('change', createEmitGroupNumberPropertyUpdateFunction('stage','altitude'));
elZoneStageAutomaticHourDay.addEventListener('change', createEmitGroupCheckedPropertyUpdateFunction('stage','automaticHourDay'));
elZoneStageDay.addEventListener('change', createEmitGroupNumberPropertyUpdateFunction('stage','day'));
elZoneStageHour.addEventListener('change', createEmitGroupNumberPropertyUpdateFunction('stage','hour'));
elZoneBackgroundMode.addEventListener('change', createEmitTextPropertyUpdateFunction('backgroundMode'));
@ -1094,6 +1105,14 @@
<input class="coord" type='number' id="property-zone-stage-altitude" step="1"></input>
</div>
</div>
<div class="zone-section property">
<span class="label">Automatically calculate stage hour and day from location and clock.</span>
<span class="value">
<input type='checkbox' id="property-zone-stage-automatic-hour-day">
</span>
</div>
<div class="zone-section property">
<div class="label">Stage Day</div>
<div class="value">
@ -1117,7 +1136,7 @@
</select>
</div>
</div>
<div class="zone-section property">
<div class="zone-section skybox-section property">
<div class="label">Skybox Color</div>
<div class="value">
<div class="input-area">R <input class="coord" type='number' id="property-zone-skybox-color-red"></input></div>
@ -1125,13 +1144,13 @@
<div class="input-area">B <input class="coord" type='number' id="property-zone-skybox-color-blue"></input></div>
</div>
</div>
<div class="zone-section property">
<div class="zone-section skybox-section property">
<div class="label">Skybox URL</div>
<div class="value">
<input type="text" id="property-zone-skybox-url" class="url"></input>
</div>
</div>
<div class="zone-section property">
<div class="zone-section atmosphere-section property">
<div class="label">Atmosphere Center</div>
<div class="value">
<div class="input-area">X <br><input class="coord" type='number' id="property-zone-atmosphere-center-x"></input></div>
@ -1139,31 +1158,31 @@
<div class="input-area">Z <br><input class="coord" type='number' id="property-zone-atmosphere-center-z"></input></div>
</div>
</div>
<div class="zone-section property">
<div class="zone-section atmosphere-section property">
<div class="label">Atmosphere Inner Radius</div>
<div class="value">
<input class="coord" type='number' id="property-zone-atmosphere-inner-radius" step="1"></input>
</div>
</div>
<div class="zone-section property">
<div class="zone-section atmosphere-section property">
<div class="label">Atmosphere Outer Radius</div>
<div class="value">
<input class="coord" type='number' id="property-zone-atmosphere-outer-radius" step="1"></input>
</div>
</div>
<div class="zone-section property">
<div class="zone-section atmosphere-section property">
<div class="label">Atmosphere Mie Scattering</div>
<div class="value">
<input class="coord no-spin" type='number' id="property-zone-atmosphere-mie-scattering" min="0" max="0.5" step="any"></input>
</div>
</div>
<div class="zone-section property">
<div class="zone-section atmosphere-section property">
<div class="label">Atmosphere Rayleigh Scattering</div>
<div class="value">
<input class="coord no-spin" type='number' id="property-zone-atmosphere-rayleigh-scattering" min="0" max="0.5" step="any"></input>
</div>
</div>
<div class="zone-section property">
<div class="zone-section atmosphere-section property">
<div class="label">Atmosphere Scattering Wavelenghts</div>
<div class="value">
<div class="input-area">X <br><input class="coord no-spin" type='number' id="property-zone-atmosphere-scattering-wavelengths-x" min="0" max="1" step="any"></input></div>
@ -1171,7 +1190,7 @@
<div class="input-area">Z <br><input class="coord no-spin" type='number' id="property-zone-atmosphere-scattering-wavelengths-z" min="0" max="1" step="any"></input></div>
</div>
</div>
<div class="zone-section property">
<div class="zone-section atmosphere-section property" style="display:none">
<span class="label">Atmosphere Has Stars</span>
<span class="value">
<input type='checkbox' id="property-zone-atmosphere-has-stars">

4
ice-server/src/IceServer.cpp
View file

@ -117,7 +117,7 @@ void IceServer::sendHeartbeatResponse(const HifiSockAddr& destinationSockAddr, Q
QSet<QUuid>::iterator peerID = connections.begin();
QByteArray outgoingPacket(MAX_PACKET_SIZE, 0);
int currentPacketSize = populatePacketHeader(outgoingPacket, PacketTypeIceServerHeartbeatResponse, _id);
int currentPacketSize = populatePacketHeaderWithUUID(outgoingPacket, PacketTypeIceServerHeartbeatResponse, _id);
int numHeaderBytes = currentPacketSize;
// go through the connections, sending packets containing connection information for those nodes
@ -136,7 +136,7 @@ void IceServer::sendHeartbeatResponse(const HifiSockAddr& destinationSockAddr, Q
destinationSockAddr.getAddress(), destinationSockAddr.getPort());
// reset the packet size to our number of header bytes
currentPacketSize = populatePacketHeader(outgoingPacket, PacketTypeIceServerHeartbeatResponse, _id);
currentPacketSize = populatePacketHeaderWithUUID(outgoingPacket, PacketTypeIceServerHeartbeatResponse, _id);
}
// append the current peer bytes

4
interface/src/Application.cpp
View file

@ -2577,7 +2577,7 @@ int Application::sendNackPackets() {
int bytesRemaining = MAX_PACKET_SIZE;
// pack header
int numBytesPacketHeader = populatePacketHeader(packet, PacketTypeOctreeDataNack);
int numBytesPacketHeader = nodeList->populatePacketHeader(packet, PacketTypeOctreeDataNack);
dataAt += numBytesPacketHeader;
bytesRemaining -= numBytesPacketHeader;
@ -2778,7 +2778,7 @@ void Application::queryOctree(NodeType_t serverType, PacketType packetType, Node
unsigned char* endOfQueryPacket = queryPacket;
// insert packet type/version and node UUID
endOfQueryPacket += populatePacketHeader(reinterpret_cast<char*>(endOfQueryPacket), packetType);
endOfQueryPacket += nodeList->populatePacketHeader(reinterpret_cast<char*>(endOfQueryPacket), packetType);
// encode the query data...
endOfQueryPacket += _octreeQuery.getBroadcastData(endOfQueryPacket);

5
interface/src/avatar/MyAvatar.cpp
View file

@ -847,8 +847,9 @@ int MyAvatar::parseDataAtOffset(const QByteArray& packet, int offset) {
}
void MyAvatar::sendKillAvatar() {
QByteArray killPacket = byteArrayWithPopulatedHeader(PacketTypeKillAvatar);
DependencyManager::get<NodeList>()->broadcastToNodes(killPacket, NodeSet() << NodeType::AvatarMixer);
auto nodeList = DependencyManager::get<NodeList>();
QByteArray killPacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeKillAvatar);
nodeList->broadcastToNodes(killPacket, NodeSet() << NodeType::AvatarMixer);
}
void MyAvatar::updateLookAtTargetAvatar() {

8
interface/src/ui/ApplicationOverlay.cpp
View file

@ -889,15 +889,9 @@ void ApplicationOverlay::renderAudioMeter() {
}
bool isClipping = ((audio->getTimeSinceLastClip() > 0.0f) && (audio->getTimeSinceLastClip() < CLIPPING_INDICATOR_TIME));
auto canvasSize = qApp->getCanvasSize();
if ((audio->getTimeSinceLastClip() > 0.0f) && (audio->getTimeSinceLastClip() < CLIPPING_INDICATOR_TIME)) {
const float MAX_MAGNITUDE = 0.7f;
float magnitude = MAX_MAGNITUDE * (1 - audio->getTimeSinceLastClip() / CLIPPING_INDICATOR_TIME);
renderCollisionOverlay(canvasSize.x, canvasSize.y, magnitude, 1.0f);
}
DependencyManager::get<AudioToolBox>()->render(MIRROR_VIEW_LEFT_PADDING + AUDIO_METER_GAP, audioMeterY, cameraSpace, boxed);
auto canvasSize = qApp->getCanvasSize();
DependencyManager::get<AudioScope>()->render(canvasSize.x, canvasSize.y);
DependencyManager::get<AudioIOStatsRenderer>()->render(WHITE_TEXT, canvasSize.x, canvasSize.y);

11
libraries/audio-client/src/AudioClient.cpp
View file

@ -837,7 +837,7 @@ void AudioClient::handleAudioInput() {
}
}
char* currentPacketPtr = audioDataPacket + populatePacketHeader(audioDataPacket, packetType);
char* currentPacketPtr = audioDataPacket + nodeList->populatePacketHeader(audioDataPacket, packetType);
// pack sequence number
memcpy(currentPacketPtr, &_outgoingAvatarAudioSequenceNumber, sizeof(quint16));
@ -899,7 +899,9 @@ void AudioClient::processReceivedSamples(const QByteArray& inputBuffer, QByteArr
}
void AudioClient::sendMuteEnvironmentPacket() {
QByteArray mutePacket = byteArrayWithPopulatedHeader(PacketTypeMuteEnvironment);
auto nodeList = DependencyManager::get<NodeList>();
QByteArray mutePacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeMuteEnvironment);
int headerSize = mutePacket.size();
const float MUTE_RADIUS = 50;
@ -910,12 +912,11 @@ void AudioClient::sendMuteEnvironmentPacket() {
memcpy(mutePacket.data() + headerSize + sizeof(glm::vec3), &MUTE_RADIUS, sizeof(float));
// grab our audio mixer from the NodeList, if it exists
auto nodelist = DependencyManager::get<NodeList>();
SharedNodePointer audioMixer = nodelist->soloNodeOfType(NodeType::AudioMixer);
SharedNodePointer audioMixer = nodeList->soloNodeOfType(NodeType::AudioMixer);
if (audioMixer) {
// send off this mute packet
nodelist->writeDatagram(mutePacket, audioMixer);
nodeList->writeDatagram(mutePacket, audioMixer);
}
}

7
libraries/audio-client/src/AudioIOStats.cpp
View file

@ -104,10 +104,12 @@ void AudioIOStats::sendDownstreamAudioStatsPacket() {
// also, call _receivedAudioStream's per-second callback
_receivedAudioStream->perSecondCallbackForUpdatingStats();
auto nodeList = DependencyManager::get<NodeList>();
char packet[MAX_PACKET_SIZE];
// pack header
int numBytesPacketHeader = populatePacketHeader(packet, PacketTypeAudioStreamStats);
int numBytesPacketHeader = nodeList->populatePacketHeader(packet, PacketTypeAudioStreamStats);
char* dataAt = packet + numBytesPacketHeader;
// pack append flag
@ -126,7 +128,6 @@ void AudioIOStats::sendDownstreamAudioStatsPacket() {
dataAt += sizeof(AudioStreamStats);
// send packet
auto nodeList = DependencyManager::get<NodeList>();
SharedNodePointer audioMixer = nodeList->soloNodeOfType(NodeType::AudioMixer);
nodeList->writeDatagram(packet, dataAt - packet, audioMixer);
}
}

5
libraries/audio/src/AudioInjector.cpp
View file

@ -141,11 +141,13 @@ void AudioInjector::injectToMixer() {
_currentSendPosition = 0;
}
auto nodeList = DependencyManager::get<NodeList>();
// make sure we actually have samples downloaded to inject
if (_audioData.size()) {
// setup the packet for injected audio
QByteArray injectAudioPacket = byteArrayWithPopulatedHeader(PacketTypeInjectAudio);
QByteArray injectAudioPacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeInjectAudio);
QDataStream packetStream(&injectAudioPacket, QIODevice::Append);
// pack some placeholder sequence number for now
@ -226,7 +228,6 @@ void AudioInjector::injectToMixer() {
_audioData.data() + _currentSendPosition, bytesToCopy);
// grab our audio mixer from the NodeList, if it exists
auto nodeList = DependencyManager::get<NodeList>();
SharedNodePointer audioMixer = nodeList->soloNodeOfType(NodeType::AudioMixer);
// send off this audio packet

18
libraries/avatars/src/AvatarData.cpp
View file

@ -1077,25 +1077,31 @@ void AvatarData::setJointMappingsFromNetworkReply() {
}
void AvatarData::sendAvatarDataPacket() {
QByteArray dataPacket = byteArrayWithPopulatedHeader(PacketTypeAvatarData);
auto nodeList = DependencyManager::get<NodeList>();
QByteArray dataPacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeAvatarData);
dataPacket.append(toByteArray());
DependencyManager::get<NodeList>()->broadcastToNodes(dataPacket, NodeSet() << NodeType::AvatarMixer);
nodeList->broadcastToNodes(dataPacket, NodeSet() << NodeType::AvatarMixer);
}
void AvatarData::sendIdentityPacket() {
QByteArray identityPacket = byteArrayWithPopulatedHeader(PacketTypeAvatarIdentity);
auto nodeList = DependencyManager::get<NodeList>();
QByteArray identityPacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeAvatarIdentity);
identityPacket.append(identityByteArray());
DependencyManager::get<NodeList>()->broadcastToNodes(identityPacket, NodeSet() << NodeType::AvatarMixer);
nodeList->broadcastToNodes(identityPacket, NodeSet() << NodeType::AvatarMixer);
}
void AvatarData::sendBillboardPacket() {
if (!_billboard.isEmpty()) {
QByteArray billboardPacket = byteArrayWithPopulatedHeader(PacketTypeAvatarBillboard);
auto nodeList = DependencyManager::get<NodeList>();
QByteArray billboardPacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeAvatarBillboard);
billboardPacket.append(_billboard);
DependencyManager::get<NodeList>()->broadcastToNodes(billboardPacket, NodeSet() << NodeType::AvatarMixer);
nodeList->broadcastToNodes(billboardPacket, NodeSet() << NodeType::AvatarMixer);
}
}

10
libraries/entities-renderer/src/EntityTreeRenderer.cpp
View file

@ -423,11 +423,11 @@ void EntityTreeRenderer::render(RenderArgs::RenderMode renderMode,
scene->setKeyLightIntensity(_bestZone->getKeyLightIntensity());
scene->setKeyLightAmbientIntensity(_bestZone->getKeyLightAmbientIntensity());
scene->setKeyLightDirection(_bestZone->getKeyLightDirection());
scene->setStageSunModelEnable(_bestZone->getStageSunModelEnabled());
scene->setStageLocation(_bestZone->getStageLongitude(), _bestZone->getStageLatitude(),
_bestZone->getStageAltitude());
scene->setStageDayTime(_bestZone->getStageHour());
scene->setStageYearTime(_bestZone->getStageDay());
scene->setStageSunModelEnable(_bestZone->getStageProperties().getSunModelEnabled());
scene->setStageLocation(_bestZone->getStageProperties().getLongitude(), _bestZone->getStageProperties().getLatitude(),
_bestZone->getStageProperties().getAltitude());
scene->setStageDayTime(_bestZone->getStageProperties().calculateHour());
scene->setStageYearTime(_bestZone->getStageProperties().calculateDay());
if (_bestZone->getBackgroundMode() == BACKGROUND_MODE_ATMOSPHERE) {
EnvironmentData data = _bestZone->getEnvironmentData();

59
libraries/entities/src/EntityItemProperties.cpp
View file

@ -29,6 +29,7 @@
AtmospherePropertyGroup EntityItemProperties::_staticAtmosphere;
SkyboxPropertyGroup EntityItemProperties::_staticSkybox;
StagePropertyGroup EntityItemProperties::_staticStage;
EntityPropertyList PROP_LAST_ITEM = (EntityPropertyList)(PROP_AFTER_LAST_ITEM - 1);
@ -83,12 +84,6 @@ EntityItemProperties::EntityItemProperties() :
CONSTRUCT_PROPERTY(keyLightIntensity, ZoneEntityItem::DEFAULT_KEYLIGHT_INTENSITY),
CONSTRUCT_PROPERTY(keyLightAmbientIntensity, ZoneEntityItem::DEFAULT_KEYLIGHT_AMBIENT_INTENSITY),
CONSTRUCT_PROPERTY(keyLightDirection, ZoneEntityItem::DEFAULT_KEYLIGHT_DIRECTION),
CONSTRUCT_PROPERTY(stageSunModelEnabled, ZoneEntityItem::DEFAULT_STAGE_SUN_MODEL_ENABLED),
CONSTRUCT_PROPERTY(stageLatitude, ZoneEntityItem::DEFAULT_STAGE_LATITUDE),
CONSTRUCT_PROPERTY(stageLongitude, ZoneEntityItem::DEFAULT_STAGE_LONGITUDE),
CONSTRUCT_PROPERTY(stageAltitude, ZoneEntityItem::DEFAULT_STAGE_ALTITUDE),
CONSTRUCT_PROPERTY(stageDay, ZoneEntityItem::DEFAULT_STAGE_DAY),
CONSTRUCT_PROPERTY(stageHour, ZoneEntityItem::DEFAULT_STAGE_HOUR),
CONSTRUCT_PROPERTY(name, ENTITY_ITEM_DEFAULT_NAME),
CONSTRUCT_PROPERTY(backgroundMode, BACKGROUND_MODE_INHERIT),
@ -332,15 +327,9 @@ EntityPropertyFlags EntityItemProperties::getChangedProperties() const {
CHECK_PROPERTY_CHANGE(PROP_KEYLIGHT_INTENSITY, keyLightIntensity);
CHECK_PROPERTY_CHANGE(PROP_KEYLIGHT_AMBIENT_INTENSITY, keyLightAmbientIntensity);
CHECK_PROPERTY_CHANGE(PROP_KEYLIGHT_DIRECTION, keyLightDirection);
CHECK_PROPERTY_CHANGE(PROP_STAGE_SUN_MODEL_ENABLED, stageSunModelEnabled);
CHECK_PROPERTY_CHANGE(PROP_STAGE_LATITUDE, stageLatitude);
CHECK_PROPERTY_CHANGE(PROP_STAGE_LONGITUDE, stageLongitude);
CHECK_PROPERTY_CHANGE(PROP_STAGE_ALTITUDE, stageAltitude);
CHECK_PROPERTY_CHANGE(PROP_STAGE_DAY, stageDay);
CHECK_PROPERTY_CHANGE(PROP_STAGE_HOUR, stageHour);
CHECK_PROPERTY_CHANGE(PROP_BACKGROUND_MODE, backgroundMode);
changedProperties += _stage.getChangedProperties();
changedProperties += _atmosphere.getChangedProperties();
changedProperties += _skybox.getChangedProperties();
@ -419,12 +408,6 @@ QScriptValue EntityItemProperties::copyToScriptValue(QScriptEngine* engine, bool
COPY_PROPERTY_TO_QSCRIPTVALUE(keyLightIntensity);
COPY_PROPERTY_TO_QSCRIPTVALUE(keyLightAmbientIntensity);
COPY_PROPERTY_TO_QSCRIPTVALUE_VEC3(keyLightDirection);
COPY_PROPERTY_TO_QSCRIPTVALUE(stageSunModelEnabled);
COPY_PROPERTY_TO_QSCRIPTVALUE(stageLatitude);
COPY_PROPERTY_TO_QSCRIPTVALUE(stageLongitude);
COPY_PROPERTY_TO_QSCRIPTVALUE(stageAltitude);
COPY_PROPERTY_TO_QSCRIPTVALUE(stageDay);
COPY_PROPERTY_TO_QSCRIPTVALUE(stageHour);
COPY_PROPERTY_TO_QSCRIPTVALUE_GETTER(backgroundMode, getBackgroundModeAsString());
// Sitting properties support
@ -460,6 +443,7 @@ QScriptValue EntityItemProperties::copyToScriptValue(QScriptEngine* engine, bool
COPY_PROPERTY_TO_QSCRIPTVALUE_GETTER_NO_SKIP(originalTextures, textureNamesList); // gettable, but not settable
}
_stage.copyToScriptValue(properties, engine, skipDefaults, defaultEntityProperties);
_atmosphere.copyToScriptValue(properties, engine, skipDefaults, defaultEntityProperties);
_skybox.copyToScriptValue(properties, engine, skipDefaults, defaultEntityProperties);
@ -525,13 +509,9 @@ void EntityItemProperties::copyFromScriptValue(const QScriptValue& object) {
COPY_PROPERTY_FROM_QSCRIPTVALUE_FLOAT(keyLightIntensity, setKeyLightIntensity);
COPY_PROPERTY_FROM_QSCRIPTVALUE_FLOAT(keyLightAmbientIntensity, setKeyLightAmbientIntensity);
COPY_PROPERTY_FROM_QSCRIPTVALUE_VEC3(keyLightDirection, setKeyLightDirection);
COPY_PROPERTY_FROM_QSCRIPTVALUE_BOOL(stageSunModelEnabled, setStageSunModelEnabled);
COPY_PROPERTY_FROM_QSCRIPTVALUE_FLOAT(stageLatitude, setStageLatitude);
COPY_PROPERTY_FROM_QSCRIPTVALUE_FLOAT(stageLongitude, setStageLongitude);
COPY_PROPERTY_FROM_QSCRIPTVALUE_FLOAT(stageAltitude, setStageAltitude);
COPY_PROPERTY_FROM_QSCRIPTVALUE_INT(stageDay, setStageDay);
COPY_PROPERTY_FROM_QSCRIPTVALUE_FLOAT(stageHour, setStageHour);
COPY_PROPERTY_FROM_QSCRITPTVALUE_ENUM(backgroundMode, BackgroundMode);
_stage.copyFromScriptValue(object, _defaultSettings);
_atmosphere.copyFromScriptValue(object, _defaultSettings);
_skybox.copyFromScriptValue(object, _defaultSettings);
_lastEdited = usecTimestampNow();
@ -729,13 +709,10 @@ bool EntityItemProperties::encodeEntityEditPacket(PacketType command, EntityItem
APPEND_ENTITY_PROPERTY(PROP_KEYLIGHT_INTENSITY, appendValue, properties.getKeyLightIntensity());
APPEND_ENTITY_PROPERTY(PROP_KEYLIGHT_AMBIENT_INTENSITY, appendValue, properties.getKeyLightAmbientIntensity());
APPEND_ENTITY_PROPERTY(PROP_KEYLIGHT_DIRECTION, appendValue, properties.getKeyLightDirection());
APPEND_ENTITY_PROPERTY(PROP_STAGE_SUN_MODEL_ENABLED, appendValue, properties.getStageSunModelEnabled());
APPEND_ENTITY_PROPERTY(PROP_STAGE_LATITUDE, appendValue, properties.getStageLatitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_LONGITUDE, appendValue, properties.getStageLongitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_ALTITUDE, appendValue, properties.getStageAltitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_DAY, appendValue, properties.getStageDay());
APPEND_ENTITY_PROPERTY(PROP_STAGE_HOUR, appendValue, properties.getStageHour());
_staticStage.setProperties(properties);
_staticStage.appentToEditPacket(packetData, requestedProperties, propertyFlags, propertiesDidntFit, propertyCount, appendState );
APPEND_ENTITY_PROPERTY(PROP_SHAPE_TYPE, appendValue, (uint32_t)properties.getShapeType());
APPEND_ENTITY_PROPERTY(PROP_COMPOUND_SHAPE_URL, appendValue, properties.getCompoundShapeURL());
@ -987,12 +964,9 @@ bool EntityItemProperties::decodeEntityEditPacket(const unsigned char* data, int
READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_KEYLIGHT_INTENSITY, float, setKeyLightIntensity);
READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_KEYLIGHT_AMBIENT_INTENSITY, float, setKeyLightAmbientIntensity);
READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_KEYLIGHT_DIRECTION, glm::vec3, setKeyLightDirection);
READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_STAGE_SUN_MODEL_ENABLED, bool, setStageSunModelEnabled);
READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_STAGE_LATITUDE, float, setStageLatitude);
READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_STAGE_LONGITUDE, float, setStageLongitude);
READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_STAGE_ALTITUDE, float, setStageAltitude);
READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_STAGE_DAY, quint16, setStageDay);
READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_STAGE_HOUR, float, setStageHour);
properties.getStage().decodeFromEditPacket(propertyFlags, dataAt , processedBytes);
READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_SHAPE_TYPE, ShapeType, setShapeType);
READ_ENTITY_PROPERTY_STRING_TO_PROPERTIES(PROP_COMPOUND_SHAPE_URL, setCompoundShapeURL);
READ_ENTITY_PROPERTY_TO_PROPERTIES(PROP_BACKGROUND_MODE, BackgroundMode, setBackgroundMode);
@ -1093,14 +1067,9 @@ void EntityItemProperties::markAllChanged() {
_keyLightIntensityChanged = true;
_keyLightAmbientIntensityChanged = true;
_keyLightDirectionChanged = true;
_stageSunModelEnabledChanged = true;
_stageLatitudeChanged = true;
_stageLongitudeChanged = true;
_stageAltitudeChanged = true;
_stageDayChanged = true;
_stageHourChanged = true;
_backgroundModeChanged = true;
_stage.markAllChanged();
_atmosphere.markAllChanged();
_skybox.markAllChanged();

11
libraries/entities/src/EntityItemProperties.h
View file

@ -30,11 +30,12 @@
#include <ShapeInfo.h>
#include "AtmospherePropertyGroup.h"
#include "SkyboxPropertyGroup.h"
#include "EntityItemID.h"
#include "EntityItemPropertiesMacros.h"
#include "EntityTypes.h"
#include "EntityPropertyFlags.h"
#include "SkyboxPropertyGroup.h"
#include "StagePropertyGroup.h"
const quint64 UNKNOWN_CREATED_TIME = 0;
@ -132,14 +133,9 @@ public:
DEFINE_PROPERTY(PROP_KEYLIGHT_INTENSITY, KeyLightIntensity, keyLightIntensity, float);
DEFINE_PROPERTY(PROP_KEYLIGHT_AMBIENT_INTENSITY, KeyLightAmbientIntensity, keyLightAmbientIntensity, float);
DEFINE_PROPERTY_REF(PROP_KEYLIGHT_DIRECTION, KeyLightDirection, keyLightDirection, glm::vec3);
DEFINE_PROPERTY(PROP_STAGE_SUN_MODEL_ENABLED, StageSunModelEnabled, stageSunModelEnabled, bool);
DEFINE_PROPERTY(PROP_STAGE_LATITUDE, StageLatitude, stageLatitude, float);
DEFINE_PROPERTY(PROP_STAGE_LONGITUDE, StageLongitude, stageLongitude, float);
DEFINE_PROPERTY(PROP_STAGE_ALTITUDE, StageAltitude, stageAltitude, float);
DEFINE_PROPERTY(PROP_STAGE_DAY, StageDay, stageDay, quint16);
DEFINE_PROPERTY(PROP_STAGE_HOUR, StageHour, stageHour, float);
DEFINE_PROPERTY_REF(PROP_NAME, Name, name, QString);
DEFINE_PROPERTY_REF_ENUM(PROP_BACKGROUND_MODE, BackgroundMode, backgroundMode, BackgroundMode);
DEFINE_PROPERTY_GROUP(Stage, stage, StagePropertyGroup);
DEFINE_PROPERTY_GROUP(Atmosphere, atmosphere, AtmospherePropertyGroup);
DEFINE_PROPERTY_GROUP(Skybox, skybox, SkyboxPropertyGroup);
@ -280,6 +276,7 @@ inline QDebug operator<<(QDebug debug, const EntityItemProperties& properties) {
DEBUG_PROPERTY_IF_CHANGED(debug, properties, MarketplaceID, marketplaceID, "");
DEBUG_PROPERTY_IF_CHANGED(debug, properties, BackgroundMode, backgroundMode, "");
properties.getStage().debugDump();
properties.getAtmosphere().debugDump();
properties.getSkybox().debugDump();

42
libraries/entities/src/EntityItemPropertiesMacros.h
View file

@ -302,6 +302,15 @@
} \
}
#define COPY_PROPERTY_FROM_QSCRIPTVALUE_FLOAT_GETTER(P, S, G) \
QScriptValue P = object.property(#P); \
if (P.isValid()) { \
float newValue = P.toVariant().toFloat(); \
if (_defaultSettings || newValue != G()) { \
S(newValue); \
} \
}
#define COPY_GROUP_PROPERTY_FROM_QSCRIPTVALUE_FLOAT(G, P, S) \
{ \
QScriptValue G = object.property(#G); \
@ -316,6 +325,20 @@
} \
}
#define COPY_GROUP_PROPERTY_FROM_QSCRIPTVALUE_UINT16(G, P, S) \
{ \
QScriptValue G = object.property(#G); \
if (G.isValid()) { \
QScriptValue P = G.property(#P); \
if (P.isValid()) { \
uint16_t newValue = P.toVariant().toInt(); \
if (_defaultSettings || newValue != _##P) { \
S(newValue); \
} \
} \
} \
}
#define COPY_PROPERTY_FROM_QSCRIPTVALUE_INT(P, S) \
QScriptValue P = object.property(#P); \
if (P.isValid()) { \
@ -325,6 +348,15 @@
} \
}
#define COPY_PROPERTY_FROM_QSCRIPTVALUE_INT_GETTER(P, S, G) \
QScriptValue P = object.property(#P); \
if (P.isValid()) { \
int newValue = P.toVariant().toInt(); \
if (_defaultSettings || newValue != G()) { \
S(newValue); \
} \
}
#define COPY_PROPERTY_FROM_QSCRIPTVALUE_BOOL(P, S) \
QScriptValue P = object.property(#P); \
if (P.isValid()) { \
@ -334,6 +366,16 @@
} \
}
#define COPY_PROPERTY_FROM_QSCRIPTVALUE_BOOL_GETTER(P, S, G) \
QScriptValue P = object.property(#P); \
if (P.isValid()) { \
bool newValue = P.toVariant().toBool(); \
if (_defaultSettings || newValue != G()) { \
S(newValue); \
} \
}
#define COPY_GROUP_PROPERTY_FROM_QSCRIPTVALUE_BOOL(G, P, S) \
{ \
QScriptValue G = object.property(#G); \

1
libraries/entities/src/EntityPropertyFlags.h
View file

@ -146,6 +146,7 @@ enum EntityPropertyList {
PROP_BACKGROUND_MODE = PROP_MODEL_URL,
PROP_SKYBOX_COLOR = PROP_ANIMATION_URL,
PROP_SKYBOX_URL = PROP_ANIMATION_FPS,
PROP_STAGE_AUTOMATIC_HOURDAY = PROP_ANIMATION_FRAME_INDEX,
// WARNING!!! DO NOT ADD PROPS_xxx here unless you really really meant to.... Add them UP above
};

3
libraries/entities/src/EntityTree.cpp
View file

@ -792,7 +792,8 @@ bool EntityTree::encodeEntitiesDeletedSince(OCTREE_PACKET_SEQUENCE sequenceNumbe
bool hasMoreToSend = true;
unsigned char* copyAt = outputBuffer;
size_t numBytesPacketHeader = populatePacketHeader(reinterpret_cast<char*>(outputBuffer), PacketTypeEntityErase);
size_t numBytesPacketHeader = DependencyManager::get<NodeList>()->populatePacketHeader(reinterpret_cast<char*>(outputBuffer),
PacketTypeEntityErase);
copyAt += numBytesPacketHeader;
outputLength = numBytesPacketHeader;

257
libraries/entities/src/StagePropertyGroup.cpp Normal file
View file

@ -0,0 +1,257 @@
//
// StagePropertyGroup.cpp
// libraries/entities/src
//
// Created by Brad Hefta-Gaub on 12/4/13.
// Copyright 2013 High Fidelity, Inc.
//
// Distributed under the Apache License, Version 2.0.
// See the accompanying file LICENSE or http://www.apache.org/licenses/LICENSE-2.0.html
//
#include <QDateTime>
#include <QDate>
#include <QTime>
#include <OctreePacketData.h>
#include "StagePropertyGroup.h"
#include "EntityItemProperties.h"
#include "EntityItemPropertiesMacros.h"
const bool StagePropertyGroup::DEFAULT_STAGE_SUN_MODEL_ENABLED = false;
const float StagePropertyGroup::DEFAULT_STAGE_LATITUDE = 37.777f;
const float StagePropertyGroup::DEFAULT_STAGE_LONGITUDE = 122.407f;
const float StagePropertyGroup::DEFAULT_STAGE_ALTITUDE = 0.03f;
const quint16 StagePropertyGroup::DEFAULT_STAGE_DAY = 60;
const float StagePropertyGroup::DEFAULT_STAGE_HOUR = 12.0f;
StagePropertyGroup::StagePropertyGroup() {
_sunModelEnabled = DEFAULT_STAGE_SUN_MODEL_ENABLED;
_latitude = DEFAULT_STAGE_LATITUDE;
_longitude = DEFAULT_STAGE_LONGITUDE;
_altitude = DEFAULT_STAGE_ALTITUDE;
_day = DEFAULT_STAGE_DAY;
_hour = DEFAULT_STAGE_HOUR;
_automaticHourDay = false;
}
void StagePropertyGroup::copyToScriptValue(QScriptValue& properties, QScriptEngine* engine, bool skipDefaults, EntityItemProperties& defaultEntityProperties) const {
COPY_GROUP_PROPERTY_TO_QSCRIPTVALUE(Stage, stage, SunModelEnabled, sunModelEnabled);
COPY_GROUP_PROPERTY_TO_QSCRIPTVALUE(Stage, stage, Latitude, latitude);
COPY_GROUP_PROPERTY_TO_QSCRIPTVALUE(Stage, stage, Longitude, longitude);
COPY_GROUP_PROPERTY_TO_QSCRIPTVALUE(Stage, stage, Altitude, altitude);
COPY_GROUP_PROPERTY_TO_QSCRIPTVALUE(Stage, stage, Day, day);
COPY_GROUP_PROPERTY_TO_QSCRIPTVALUE(Stage, stage, Hour, hour);
COPY_GROUP_PROPERTY_TO_QSCRIPTVALUE(Stage, stage, AutomaticHourDay, automaticHourDay);
}
void StagePropertyGroup::copyFromScriptValue(const QScriptValue& object, bool& _defaultSettings) {
// Backward compatibility support for the old way of doing stage properties
COPY_PROPERTY_FROM_QSCRIPTVALUE_BOOL_GETTER(stageSunModelEnabled, setSunModelEnabled, getSunModelEnabled);
COPY_PROPERTY_FROM_QSCRIPTVALUE_FLOAT_GETTER(stageLatitude, setLatitude, getLatitude);
COPY_PROPERTY_FROM_QSCRIPTVALUE_FLOAT_GETTER(stageLongitude, setLongitude, getLongitude);
COPY_PROPERTY_FROM_QSCRIPTVALUE_FLOAT_GETTER(stageAltitude, setAltitude, getAltitude);
COPY_PROPERTY_FROM_QSCRIPTVALUE_INT_GETTER(stageDay, setDay, getDay);
COPY_PROPERTY_FROM_QSCRIPTVALUE_FLOAT_GETTER(stageHour, setHour, getHour);
COPY_GROUP_PROPERTY_FROM_QSCRIPTVALUE_BOOL(stage, sunModelEnabled, setSunModelEnabled);
COPY_GROUP_PROPERTY_FROM_QSCRIPTVALUE_FLOAT(stage, latitude, setLatitude);
COPY_GROUP_PROPERTY_FROM_QSCRIPTVALUE_FLOAT(stage, longitude, setLongitude);
COPY_GROUP_PROPERTY_FROM_QSCRIPTVALUE_FLOAT(stage, altitude, setAltitude);
COPY_GROUP_PROPERTY_FROM_QSCRIPTVALUE_UINT16(stage, day, setDay);
COPY_GROUP_PROPERTY_FROM_QSCRIPTVALUE_FLOAT(stage, hour, setHour);
COPY_GROUP_PROPERTY_FROM_QSCRIPTVALUE_BOOL(stage, automaticHourDay, setAutomaticHourDay);
}
void StagePropertyGroup::debugDump() const {
qDebug() << " StagePropertyGroup: ---------------------------------------------";
qDebug() << " _sunModelEnabled:" << _sunModelEnabled;
qDebug() << " _latitude:" << _latitude;
qDebug() << " _longitude:" << _longitude;
qDebug() << " _altitude:" << _altitude;
qDebug() << " _day:" << _day;
qDebug() << " _hour:" << _hour;
qDebug() << " _automaticHourDay:" << _automaticHourDay;
}
bool StagePropertyGroup::appentToEditPacket(OctreePacketData* packetData,
EntityPropertyFlags& requestedProperties,
EntityPropertyFlags& propertyFlags,
EntityPropertyFlags& propertiesDidntFit,
int& propertyCount,
OctreeElement::AppendState& appendState) const {
bool successPropertyFits = true;
APPEND_ENTITY_PROPERTY(PROP_STAGE_SUN_MODEL_ENABLED, appendValue, getSunModelEnabled());
APPEND_ENTITY_PROPERTY(PROP_STAGE_LATITUDE, appendValue, getLatitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_LONGITUDE, appendValue, getLongitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_ALTITUDE, appendValue, getAltitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_DAY, appendValue, getDay());
APPEND_ENTITY_PROPERTY(PROP_STAGE_HOUR, appendValue, getHour());
APPEND_ENTITY_PROPERTY(PROP_STAGE_AUTOMATIC_HOURDAY, appendValue, getAutomaticHourDay());
return true;
}
bool StagePropertyGroup::decodeFromEditPacket(EntityPropertyFlags& propertyFlags, const unsigned char*& dataAt , int& processedBytes) {
int bytesRead = 0;
bool overwriteLocalData = true;
READ_ENTITY_PROPERTY(PROP_STAGE_SUN_MODEL_ENABLED, bool, _sunModelEnabled);
READ_ENTITY_PROPERTY(PROP_STAGE_LATITUDE, float, _latitude);
READ_ENTITY_PROPERTY(PROP_STAGE_LONGITUDE, float, _longitude);
READ_ENTITY_PROPERTY(PROP_STAGE_ALTITUDE, float, _altitude);
READ_ENTITY_PROPERTY(PROP_STAGE_DAY, quint16, _day);
READ_ENTITY_PROPERTY(PROP_STAGE_HOUR, float, _hour);
READ_ENTITY_PROPERTY(PROP_STAGE_AUTOMATIC_HOURDAY, bool, _automaticHourDay);
DECODE_GROUP_PROPERTY_HAS_CHANGED(PROP_STAGE_SUN_MODEL_ENABLED, SunModelEnabled);
DECODE_GROUP_PROPERTY_HAS_CHANGED(PROP_STAGE_LATITUDE, Latitude);
DECODE_GROUP_PROPERTY_HAS_CHANGED(PROP_STAGE_LONGITUDE, Longitude);
DECODE_GROUP_PROPERTY_HAS_CHANGED(PROP_STAGE_ALTITUDE, Altitude);
DECODE_GROUP_PROPERTY_HAS_CHANGED(PROP_STAGE_DAY, Day);
DECODE_GROUP_PROPERTY_HAS_CHANGED(PROP_STAGE_HOUR, Hour);
DECODE_GROUP_PROPERTY_HAS_CHANGED(PROP_STAGE_AUTOMATIC_HOURDAY, AutomaticHourDay);
processedBytes += bytesRead;
return true;
}
void StagePropertyGroup::markAllChanged() {
_sunModelEnabledChanged = true;
_latitudeChanged = true;
_longitudeChanged = true;
_altitudeChanged = true;
_dayChanged = true;
_hourChanged = true;
_automaticHourDayChanged = true;
}
EntityPropertyFlags StagePropertyGroup::getChangedProperties() const {
EntityPropertyFlags changedProperties;
CHECK_PROPERTY_CHANGE(PROP_STAGE_SUN_MODEL_ENABLED, sunModelEnabled);
CHECK_PROPERTY_CHANGE(PROP_STAGE_LATITUDE, latitude);
CHECK_PROPERTY_CHANGE(PROP_STAGE_LONGITUDE, longitude);
CHECK_PROPERTY_CHANGE(PROP_STAGE_ALTITUDE, altitude);
CHECK_PROPERTY_CHANGE(PROP_STAGE_DAY, day);
CHECK_PROPERTY_CHANGE(PROP_STAGE_HOUR, hour);
CHECK_PROPERTY_CHANGE(PROP_STAGE_AUTOMATIC_HOURDAY, automaticHourDay);
return changedProperties;
}
void StagePropertyGroup::getProperties(EntityItemProperties& properties) const {
COPY_ENTITY_GROUP_PROPERTY_TO_PROPERTIES(Stage, SunModelEnabled, getSunModelEnabled);
COPY_ENTITY_GROUP_PROPERTY_TO_PROPERTIES(Stage, Latitude, getLatitude);
COPY_ENTITY_GROUP_PROPERTY_TO_PROPERTIES(Stage, Longitude, getLongitude);
COPY_ENTITY_GROUP_PROPERTY_TO_PROPERTIES(Stage, Altitude, getAltitude);
COPY_ENTITY_GROUP_PROPERTY_TO_PROPERTIES(Stage, Day, getDay);
COPY_ENTITY_GROUP_PROPERTY_TO_PROPERTIES(Stage, Hour, getHour);
COPY_ENTITY_GROUP_PROPERTY_TO_PROPERTIES(Stage, AutomaticHourDay, getAutomaticHourDay);
}
bool StagePropertyGroup::setProperties(const EntityItemProperties& properties) {
bool somethingChanged = false;
SET_ENTITY_GROUP_PROPERTY_FROM_PROPERTIES(Stage, SunModelEnabled, sunModelEnabled, setSunModelEnabled);
SET_ENTITY_GROUP_PROPERTY_FROM_PROPERTIES(Stage, Latitude, latitude, setLatitude);
SET_ENTITY_GROUP_PROPERTY_FROM_PROPERTIES(Stage, Longitude, longitude, setLongitude);
SET_ENTITY_GROUP_PROPERTY_FROM_PROPERTIES(Stage, Altitude, altitude, setAltitude);
SET_ENTITY_GROUP_PROPERTY_FROM_PROPERTIES(Stage, Day, day, setDay);
SET_ENTITY_GROUP_PROPERTY_FROM_PROPERTIES(Stage, Hour, hour, setHour);
SET_ENTITY_GROUP_PROPERTY_FROM_PROPERTIES(Stage, AutomaticHourDay, automaticHourDay, setAutomaticHourDay);
return somethingChanged;
}
EntityPropertyFlags StagePropertyGroup::getEntityProperties(EncodeBitstreamParams& params) const {
EntityPropertyFlags requestedProperties;
requestedProperties += PROP_STAGE_SUN_MODEL_ENABLED;
requestedProperties += PROP_STAGE_LATITUDE;
requestedProperties += PROP_STAGE_LONGITUDE;
requestedProperties += PROP_STAGE_ALTITUDE;
requestedProperties += PROP_STAGE_DAY;
requestedProperties += PROP_STAGE_HOUR;
requestedProperties += PROP_STAGE_AUTOMATIC_HOURDAY;
return requestedProperties;
}
void StagePropertyGroup::appendSubclassData(OctreePacketData* packetData, EncodeBitstreamParams& params,
EntityTreeElementExtraEncodeData* entityTreeElementExtraEncodeData,
EntityPropertyFlags& requestedProperties,
EntityPropertyFlags& propertyFlags,
EntityPropertyFlags& propertiesDidntFit,
int& propertyCount,
OctreeElement::AppendState& appendState) const {
bool successPropertyFits = true;
APPEND_ENTITY_PROPERTY(PROP_STAGE_SUN_MODEL_ENABLED, appendValue, getSunModelEnabled());
APPEND_ENTITY_PROPERTY(PROP_STAGE_LATITUDE, appendValue, getLatitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_LONGITUDE, appendValue, getLongitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_ALTITUDE, appendValue, getAltitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_DAY, appendValue, getDay());
APPEND_ENTITY_PROPERTY(PROP_STAGE_HOUR, appendValue, getHour());
APPEND_ENTITY_PROPERTY(PROP_STAGE_AUTOMATIC_HOURDAY, appendValue, getAutomaticHourDay());
}
int StagePropertyGroup::readEntitySubclassDataFromBuffer(const unsigned char* data, int bytesLeftToRead,
ReadBitstreamToTreeParams& args,
EntityPropertyFlags& propertyFlags, bool overwriteLocalData) {
int bytesRead = 0;
const unsigned char* dataAt = data;
READ_ENTITY_PROPERTY(PROP_STAGE_SUN_MODEL_ENABLED, bool, _sunModelEnabled);
READ_ENTITY_PROPERTY(PROP_STAGE_LATITUDE, float, _latitude);
READ_ENTITY_PROPERTY(PROP_STAGE_LONGITUDE, float, _longitude);
READ_ENTITY_PROPERTY(PROP_STAGE_ALTITUDE, float, _altitude);
READ_ENTITY_PROPERTY(PROP_STAGE_DAY, quint16, _day);
READ_ENTITY_PROPERTY(PROP_STAGE_HOUR, float, _hour);
READ_ENTITY_PROPERTY(PROP_STAGE_AUTOMATIC_HOURDAY, bool, _automaticHourDay);
return bytesRead;
}
static const float TOTAL_LONGITUDES = 360.0f;
static const float HOURS_PER_DAY = 24;
static const float SECONDS_PER_DAY = 60 * 60 * HOURS_PER_DAY;
static const float MSECS_PER_DAY = SECONDS_PER_DAY * MSECS_PER_SECOND;
float StagePropertyGroup::calculateHour() const {
if (!_automaticHourDay) {
return _hour;
}
QDateTime utc(QDateTime::currentDateTimeUtc());
float adjustFromUTC = (_longitude / TOTAL_LONGITUDES);
float offsetFromUTCinMsecs = adjustFromUTC * MSECS_PER_DAY;
int msecsSinceStartOfDay = utc.time().msecsSinceStartOfDay();
float calutatedHour = ((msecsSinceStartOfDay + offsetFromUTCinMsecs) / MSECS_PER_DAY) * HOURS_PER_DAY;
// calculate hour based on longitude and time from GMT
return calutatedHour;
}
uint16_t StagePropertyGroup::calculateDay() const {
if (!_automaticHourDay) {
return _day;
}
QDateTime utc(QDateTime::currentDateTimeUtc());
int calutatedDay = utc.date().dayOfYear();
// calculate day based on longitude and time from GMT
return calutatedDay;
}

91
libraries/entities/src/StagePropertyGroup.h Normal file
View file

@ -0,0 +1,91 @@
//
// StagePropertyGroup.h
// libraries/entities/src
//
// Created by Brad Hefta-Gaub on 12/4/13.
// Copyright 2013 High Fidelity, Inc.
//
// Distributed under the Apache License, Version 2.0.
// See the accompanying file LICENSE or http://www.apache.org/licenses/LICENSE-2.0.html
//
#ifndef hifi_StagePropertyGroup_h
#define hifi_StagePropertyGroup_h
#include <QtScript/QScriptEngine>
#include "PropertyGroup.h"
#include "EntityItemPropertiesMacros.h"
class EntityItemProperties;
class EncodeBitstreamParams;
class OctreePacketData;
class EntityTreeElementExtraEncodeData;
class ReadBitstreamToTreeParams;
#include <stdint.h>
#include <glm/glm.hpp>
class StagePropertyGroup : public PropertyGroup {
public:
StagePropertyGroup();
virtual ~StagePropertyGroup() {}
// EntityItemProperty related helpers
virtual void copyToScriptValue(QScriptValue& properties, QScriptEngine* engine, bool skipDefaults, EntityItemProperties& defaultEntityProperties) const;
virtual void copyFromScriptValue(const QScriptValue& object, bool& _defaultSettings);
virtual void debugDump() const;
virtual bool appentToEditPacket(OctreePacketData* packetData,
EntityPropertyFlags& requestedProperties,
EntityPropertyFlags& propertyFlags,
EntityPropertyFlags& propertiesDidntFit,
int& propertyCount,
OctreeElement::AppendState& appendState) const;
virtual bool decodeFromEditPacket(EntityPropertyFlags& propertyFlags, const unsigned char*& dataAt , int& processedBytes);
virtual void markAllChanged();
virtual EntityPropertyFlags getChangedProperties() const;
// EntityItem related helpers
// methods for getting/setting all properties of an entity
virtual void getProperties(EntityItemProperties& propertiesOut) const;
/// returns true if something changed
virtual bool setProperties(const EntityItemProperties& properties);
virtual EntityPropertyFlags getEntityProperties(EncodeBitstreamParams& params) const;
virtual void appendSubclassData(OctreePacketData* packetData, EncodeBitstreamParams& params,
EntityTreeElementExtraEncodeData* entityTreeElementExtraEncodeData,
EntityPropertyFlags& requestedProperties,
EntityPropertyFlags& propertyFlags,
EntityPropertyFlags& propertiesDidntFit,
int& propertyCount,
OctreeElement::AppendState& appendState) const;
virtual int readEntitySubclassDataFromBuffer(const unsigned char* data, int bytesLeftToRead,
ReadBitstreamToTreeParams& args,
EntityPropertyFlags& propertyFlags, bool overwriteLocalData);
static const bool DEFAULT_STAGE_SUN_MODEL_ENABLED;
static const float DEFAULT_STAGE_LATITUDE;
static const float DEFAULT_STAGE_LONGITUDE;
static const float DEFAULT_STAGE_ALTITUDE;
static const quint16 DEFAULT_STAGE_DAY;
static const float DEFAULT_STAGE_HOUR;
float calculateHour() const;
uint16_t calculateDay() const;
DEFINE_PROPERTY(PROP_STAGE_SUN_MODEL_ENABLED, SunModelEnabled, sunModelEnabled, bool);
DEFINE_PROPERTY(PROP_STAGE_LATITUDE, Latitude, latitude, float);
DEFINE_PROPERTY(PROP_STAGE_LONGITUDE, Longitude, longitude, float);
DEFINE_PROPERTY(PROP_STAGE_ALTITUDE, Altitude, altitude, float);
DEFINE_PROPERTY(PROP_STAGE_DAY, Day, day, uint16_t);
DEFINE_PROPERTY(PROP_STAGE_HOUR, Hour, hour, float);
DEFINE_PROPERTY(PROP_STAGE_AUTOMATIC_HOURDAY, AutomaticHourDay, automaticHourDay, bool);
};
#endif // hifi_StagePropertyGroup_h

71
libraries/entities/src/ZoneEntityItem.cpp
View file

@ -26,12 +26,6 @@ const xColor ZoneEntityItem::DEFAULT_KEYLIGHT_COLOR = { 255, 255, 255 };
const float ZoneEntityItem::DEFAULT_KEYLIGHT_INTENSITY = 1.0f;
const float ZoneEntityItem::DEFAULT_KEYLIGHT_AMBIENT_INTENSITY = 0.5f;
const glm::vec3 ZoneEntityItem::DEFAULT_KEYLIGHT_DIRECTION = { 0.0f, -1.0f, 0.0f };
const bool ZoneEntityItem::DEFAULT_STAGE_SUN_MODEL_ENABLED = false;
const float ZoneEntityItem::DEFAULT_STAGE_LATITUDE = 37.777f;
const float ZoneEntityItem::DEFAULT_STAGE_LONGITUDE = 122.407f;
const float ZoneEntityItem::DEFAULT_STAGE_ALTITUDE = 0.03f;
const quint16 ZoneEntityItem::DEFAULT_STAGE_DAY = 60;
const float ZoneEntityItem::DEFAULT_STAGE_HOUR = 12.0f;
const ShapeType ZoneEntityItem::DEFAULT_SHAPE_TYPE = SHAPE_TYPE_BOX;
const QString ZoneEntityItem::DEFAULT_COMPOUND_SHAPE_URL = "";
@ -53,12 +47,6 @@ ZoneEntityItem::ZoneEntityItem(const EntityItemID& entityItemID, const EntityIte
_keyLightIntensity = DEFAULT_KEYLIGHT_INTENSITY;
_keyLightAmbientIntensity = DEFAULT_KEYLIGHT_AMBIENT_INTENSITY;
_keyLightDirection = DEFAULT_KEYLIGHT_DIRECTION;
_stageSunModelEnabled = DEFAULT_STAGE_SUN_MODEL_ENABLED;
_stageLatitude = DEFAULT_STAGE_LATITUDE;
_stageLongitude = DEFAULT_STAGE_LONGITUDE;
_stageAltitude = DEFAULT_STAGE_ALTITUDE;
_stageDay = DEFAULT_STAGE_DAY;
_stageHour = DEFAULT_STAGE_HOUR;
_shapeType = DEFAULT_SHAPE_TYPE;
_compoundShapeURL = DEFAULT_COMPOUND_SHAPE_URL;
@ -94,15 +82,11 @@ EntityItemProperties ZoneEntityItem::getProperties() const {
COPY_ENTITY_PROPERTY_TO_PROPERTIES(keyLightIntensity, getKeyLightIntensity);
COPY_ENTITY_PROPERTY_TO_PROPERTIES(keyLightAmbientIntensity, getKeyLightAmbientIntensity);
COPY_ENTITY_PROPERTY_TO_PROPERTIES(keyLightDirection, getKeyLightDirection);
COPY_ENTITY_PROPERTY_TO_PROPERTIES(stageSunModelEnabled, getStageSunModelEnabled);
COPY_ENTITY_PROPERTY_TO_PROPERTIES(stageLatitude, getStageLatitude);
COPY_ENTITY_PROPERTY_TO_PROPERTIES(stageLongitude, getStageLongitude);
COPY_ENTITY_PROPERTY_TO_PROPERTIES(stageAltitude, getStageAltitude);
COPY_ENTITY_PROPERTY_TO_PROPERTIES(stageDay, getStageDay);
COPY_ENTITY_PROPERTY_TO_PROPERTIES(stageHour, getStageHour);
_stageProperties.getProperties(properties);
COPY_ENTITY_PROPERTY_TO_PROPERTIES(shapeType, getShapeType);
COPY_ENTITY_PROPERTY_TO_PROPERTIES(compoundShapeURL, getCompoundShapeURL);
COPY_ENTITY_PROPERTY_TO_PROPERTIES(backgroundMode, getBackgroundMode);
_atmosphereProperties.getProperties(properties);
@ -119,12 +103,9 @@ bool ZoneEntityItem::setProperties(const EntityItemProperties& properties) {
SET_ENTITY_PROPERTY_FROM_PROPERTIES(keyLightIntensity, setKeyLightIntensity);
SET_ENTITY_PROPERTY_FROM_PROPERTIES(keyLightAmbientIntensity, setKeyLightAmbientIntensity);
SET_ENTITY_PROPERTY_FROM_PROPERTIES(keyLightDirection, setKeyLightDirection);
SET_ENTITY_PROPERTY_FROM_PROPERTIES(stageSunModelEnabled, setStageSunModelEnabled);
SET_ENTITY_PROPERTY_FROM_PROPERTIES(stageLatitude, setStageLatitude);
SET_ENTITY_PROPERTY_FROM_PROPERTIES(stageLongitude, setStageLongitude);
SET_ENTITY_PROPERTY_FROM_PROPERTIES(stageAltitude, setStageAltitude);
SET_ENTITY_PROPERTY_FROM_PROPERTIES(stageDay, setStageDay);
SET_ENTITY_PROPERTY_FROM_PROPERTIES(stageHour, setStageHour);
bool somethingChangedInStage = _stageProperties.setProperties(properties);
SET_ENTITY_PROPERTY_FROM_PROPERTIES(shapeType, updateShapeType);
SET_ENTITY_PROPERTY_FROM_PROPERTIES(compoundShapeURL, setCompoundShapeURL);
SET_ENTITY_PROPERTY_FROM_PROPERTIES(backgroundMode, setBackgroundMode);
@ -132,7 +113,7 @@ bool ZoneEntityItem::setProperties(const EntityItemProperties& properties) {
bool somethingChangedInAtmosphere = _atmosphereProperties.setProperties(properties);
bool somethingChangedInSkybox = _skyboxProperties.setProperties(properties);
somethingChanged = somethingChanged || somethingChangedInAtmosphere || somethingChangedInSkybox;
somethingChanged = somethingChanged || somethingChangedInStage || somethingChangedInAtmosphere || somethingChangedInSkybox;
if (somethingChanged) {
bool wantDebug = false;
@ -158,12 +139,13 @@ int ZoneEntityItem::readEntitySubclassDataFromBuffer(const unsigned char* data,
READ_ENTITY_PROPERTY(PROP_KEYLIGHT_INTENSITY, float, _keyLightIntensity);
READ_ENTITY_PROPERTY(PROP_KEYLIGHT_AMBIENT_INTENSITY, float, _keyLightAmbientIntensity);
READ_ENTITY_PROPERTY(PROP_KEYLIGHT_DIRECTION, glm::vec3, _keyLightDirection);
READ_ENTITY_PROPERTY(PROP_STAGE_SUN_MODEL_ENABLED, bool, _stageSunModelEnabled);
READ_ENTITY_PROPERTY(PROP_STAGE_LATITUDE, float, _stageLatitude);
READ_ENTITY_PROPERTY(PROP_STAGE_LONGITUDE, float, _stageLongitude);
READ_ENTITY_PROPERTY(PROP_STAGE_ALTITUDE, float, _stageAltitude);
READ_ENTITY_PROPERTY(PROP_STAGE_DAY, quint16, _stageDay);
READ_ENTITY_PROPERTY(PROP_STAGE_HOUR, float, _stageHour);
int bytesFromStage = _stageProperties.readEntitySubclassDataFromBuffer(dataAt, (bytesLeftToRead - bytesRead), args,
propertyFlags, overwriteLocalData);
bytesRead += bytesFromStage;
dataAt += bytesFromStage;
READ_ENTITY_PROPERTY_SETTER(PROP_SHAPE_TYPE, ShapeType, updateShapeType);
READ_ENTITY_PROPERTY_STRING(PROP_COMPOUND_SHAPE_URL, setCompoundShapeURL);
READ_ENTITY_PROPERTY_SETTER(PROP_BACKGROUND_MODE, BackgroundMode, setBackgroundMode);
@ -191,15 +173,10 @@ EntityPropertyFlags ZoneEntityItem::getEntityProperties(EncodeBitstreamParams& p
requestedProperties += PROP_KEYLIGHT_INTENSITY;
requestedProperties += PROP_KEYLIGHT_AMBIENT_INTENSITY;
requestedProperties += PROP_KEYLIGHT_DIRECTION;
requestedProperties += PROP_STAGE_SUN_MODEL_ENABLED;
requestedProperties += PROP_STAGE_LATITUDE;
requestedProperties += PROP_STAGE_LONGITUDE;
requestedProperties += PROP_STAGE_ALTITUDE;
requestedProperties += PROP_STAGE_DAY;
requestedProperties += PROP_STAGE_HOUR;
requestedProperties += PROP_SHAPE_TYPE;
requestedProperties += PROP_COMPOUND_SHAPE_URL;
requestedProperties += PROP_BACKGROUND_MODE;
requestedProperties += _stageProperties.getEntityProperties(params);
requestedProperties += _atmosphereProperties.getEntityProperties(params);
requestedProperties += _skyboxProperties.getEntityProperties(params);
@ -220,12 +197,11 @@ void ZoneEntityItem::appendSubclassData(OctreePacketData* packetData, EncodeBits
APPEND_ENTITY_PROPERTY(PROP_KEYLIGHT_INTENSITY, appendValue, getKeyLightIntensity());
APPEND_ENTITY_PROPERTY(PROP_KEYLIGHT_AMBIENT_INTENSITY, appendValue, getKeyLightAmbientIntensity());
APPEND_ENTITY_PROPERTY(PROP_KEYLIGHT_DIRECTION, appendValue, getKeyLightDirection());
APPEND_ENTITY_PROPERTY(PROP_STAGE_SUN_MODEL_ENABLED, appendValue, getStageSunModelEnabled());
APPEND_ENTITY_PROPERTY(PROP_STAGE_LATITUDE, appendValue, getStageLatitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_LONGITUDE, appendValue, getStageLongitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_ALTITUDE, appendValue, getStageAltitude());
APPEND_ENTITY_PROPERTY(PROP_STAGE_DAY, appendValue, getStageDay());
APPEND_ENTITY_PROPERTY(PROP_STAGE_HOUR, appendValue, getStageHour());
_stageProperties.appendSubclassData(packetData, params, modelTreeElementExtraEncodeData, requestedProperties,
propertyFlags, propertiesDidntFit, propertyCount, appendState);
APPEND_ENTITY_PROPERTY(PROP_SHAPE_TYPE, appendValue, (uint32_t)getShapeType());
APPEND_ENTITY_PROPERTY(PROP_COMPOUND_SHAPE_URL, appendValue, getCompoundShapeURL());
APPEND_ENTITY_PROPERTY(PROP_BACKGROUND_MODE, appendValue, (uint32_t)getBackgroundMode()); // could this be a uint16??
@ -248,14 +224,9 @@ void ZoneEntityItem::debugDump() const {
qCDebug(entities) << " _keyLightIntensity:" << _keyLightIntensity;
qCDebug(entities) << " _keyLightAmbientIntensity:" << _keyLightAmbientIntensity;
qCDebug(entities) << " _keyLightDirection:" << _keyLightDirection;
qCDebug(entities) << " _stageSunModelEnabled:" << _stageSunModelEnabled;
qCDebug(entities) << " _stageLatitude:" << _stageLatitude;
qCDebug(entities) << " _stageLongitude:" << _stageLongitude;
qCDebug(entities) << " _stageAltitude:" << _stageAltitude;
qCDebug(entities) << " _stageDay:" << _stageDay;
qCDebug(entities) << " _stageHour:" << _stageHour;
qCDebug(entities) << " _backgroundMode:" << EntityItemProperties::getBackgroundModeString(_backgroundMode);
_stageProperties.debugDump();
_atmosphereProperties.debugDump();
_skyboxProperties.debugDump();
}

33
libraries/entities/src/ZoneEntityItem.h
View file

@ -69,24 +69,6 @@ public:
const glm::vec3& getKeyLightDirection() const { return _keyLightDirection; }
void setKeyLightDirection(const glm::vec3& value) { _keyLightDirection = value; }
bool getStageSunModelEnabled() const { return _stageSunModelEnabled; }
void setStageSunModelEnabled(bool value) { _stageSunModelEnabled = value; }
float getStageLatitude() const { return _stageLatitude; }
void setStageLatitude(float value) { _stageLatitude = value; }
float getStageLongitude() const { return _stageLongitude; }
void setStageLongitude(float value) { _stageLongitude = value; }
float getStageAltitude() const { return _stageAltitude; }
void setStageAltitude(float value) { _stageAltitude = value; }
uint16_t getStageDay() const { return _stageDay; }
void setStageDay(uint16_t value) { _stageDay = value; }
float getStageHour() const { return _stageHour; }
void setStageHour(float value) { _stageHour = value; }
static bool getZonesArePickable() { return _zonesArePickable; }
static void setZonesArePickable(bool value) { _zonesArePickable = value; }
@ -107,6 +89,7 @@ public:
EnvironmentData getEnvironmentData() const;
const AtmospherePropertyGroup& getAtmosphereProperties() const { return _atmosphereProperties; }
const SkyboxPropertyGroup& getSkyboxProperties() const { return _skyboxProperties; }
const StagePropertyGroup& getStageProperties() const { return _stageProperties; }
virtual bool supportsDetailedRayIntersection() const { return true; }
virtual bool findDetailedRayIntersection(const glm::vec3& origin, const glm::vec3& direction,
@ -119,12 +102,6 @@ public:
static const float DEFAULT_KEYLIGHT_INTENSITY;
static const float DEFAULT_KEYLIGHT_AMBIENT_INTENSITY;
static const glm::vec3 DEFAULT_KEYLIGHT_DIRECTION;
static const bool DEFAULT_STAGE_SUN_MODEL_ENABLED;
static const float DEFAULT_STAGE_LATITUDE;
static const float DEFAULT_STAGE_LONGITUDE;
static const float DEFAULT_STAGE_ALTITUDE;
static const quint16 DEFAULT_STAGE_DAY;
static const float DEFAULT_STAGE_HOUR;
static const ShapeType DEFAULT_SHAPE_TYPE;
static const QString DEFAULT_COMPOUND_SHAPE_URL;
@ -134,17 +111,13 @@ protected:
float _keyLightIntensity;
float _keyLightAmbientIntensity;
glm::vec3 _keyLightDirection;
bool _stageSunModelEnabled;
float _stageLatitude;
float _stageLongitude;
float _stageAltitude;
uint16_t _stageDay;
float _stageHour;
ShapeType _shapeType = DEFAULT_SHAPE_TYPE;
QString _compoundShapeURL;
BackgroundMode _backgroundMode = BACKGROUND_MODE_INHERIT;
StagePropertyGroup _stageProperties;
AtmospherePropertyGroup _atmosphereProperties;
SkyboxPropertyGroup _skyboxProperties;

6
libraries/gpu/src/gpu/Texture.h
View file

@ -56,12 +56,12 @@ public:
glm::vec4 _borderColor{ 1.0f };
uint32 _maxAnisotropy = 16;
uint8 _filter = FILTER_MIN_MAG_POINT;
uint8 _comparisonFunc = ALWAYS;
uint8 _wrapModeU = WRAP_REPEAT;
uint8 _wrapModeV = WRAP_REPEAT;
uint8 _wrapModeW = WRAP_REPEAT;
uint8 _filter = FILTER_MIN_MAG_POINT;
uint8 _comparisonFunc = ALWAYS;
uint8 _mipOffset = 0;
uint8 _minMip = 0;

96
libraries/networking/src/LimitedNodeList.cpp
View file

@ -9,6 +9,8 @@
// See the accompanying file LICENSE or http://www.apache.org/licenses/LICENSE-2.0.html
//
#include "LimitedNodeList.h"
#include <cstring>
#include <cstdlib>
#include <cstdio>
@ -28,8 +30,6 @@
#include "AccountManager.h"
#include "Assignment.h"
#include "HifiSockAddr.h"
#include "LimitedNodeList.h"
#include "PacketHeaders.h"
#include "UUID.h"
#include "NetworkLogging.h"
@ -230,21 +230,13 @@ qint64 LimitedNodeList::readDatagram(QByteArray& incomingPacket, QHostAddress* a
return result;
}
qint64 LimitedNodeList::writeDatagram(const QByteArray& datagram, const HifiSockAddr& destinationSockAddr,
const QUuid& connectionSecret) {
QByteArray datagramCopy = datagram;
if (!connectionSecret.isNull()) {
// setup the MD5 hash for source verification in the header
replaceHashInPacketGivenConnectionUUID(datagramCopy, connectionSecret);
}
qint64 LimitedNodeList::writeDatagram(const QByteArray& datagram, const HifiSockAddr& destinationSockAddr) {
// XXX can BandwidthRecorder be used for this?
// stat collection for packets
++_numCollectedPackets;
_numCollectedBytes += datagram.size();
qint64 bytesWritten = _nodeSocket.writeDatagram(datagramCopy,
qint64 bytesWritten = _nodeSocket.writeDatagram(datagram,
destinationSockAddr.getAddress(), destinationSockAddr.getPort());
if (bytesWritten < 0) {
@ -258,6 +250,12 @@ qint64 LimitedNodeList::writeDatagram(const QByteArray& datagram,
const SharedNodePointer& destinationNode,
const HifiSockAddr& overridenSockAddr) {
if (destinationNode) {
PacketType packetType = packetTypeForPacket(datagram);
if (NON_VERIFIED_PACKETS.contains(packetType)) {
return writeUnverifiedDatagram(datagram, destinationNode, overridenSockAddr);
}
// if we don't have an overridden address, assume they want to send to the node's active socket
const HifiSockAddr* destinationSockAddr = &overridenSockAddr;
if (overridenSockAddr.isNull()) {
@ -270,8 +268,26 @@ qint64 LimitedNodeList::writeDatagram(const QByteArray& datagram,
}
}
QByteArray datagramCopy = datagram;
// if we're here and the connection secret is null, debug out - this could be a problem
if (destinationNode->getConnectionSecret().isNull()) {
qDebug() << "LimitedNodeList::writeDatagram called for verified datagram with null connection secret for"
<< "destination node" << destinationNode->getUUID() << " - this is either not secure or will cause"
<< "this packet to be unverifiable on the receiving side.";
}
// perform replacement of hash and optionally also sequence number in the header
if (SEQUENCE_NUMBERED_PACKETS.contains(packetType)) {
PacketSequenceNumber sequenceNumber = getNextSequenceNumberForPacket(destinationNode->getUUID(), packetType);
replaceHashAndSequenceNumberInPacket(datagramCopy, destinationNode->getConnectionSecret(),
sequenceNumber, packetType);
} else {
replaceHashInPacket(datagramCopy, destinationNode->getConnectionSecret(), packetType);
}
emit dataSent(destinationNode->getType(), datagram.size());
auto bytesWritten = writeDatagram(datagram, *destinationSockAddr, destinationNode->getConnectionSecret());
auto bytesWritten = writeDatagram(datagramCopy, *destinationSockAddr);
// Keep track of per-destination-node bandwidth
destinationNode->recordBytesSent(bytesWritten);
return bytesWritten;
@ -296,8 +312,21 @@ qint64 LimitedNodeList::writeUnverifiedDatagram(const QByteArray& datagram, cons
}
}
// don't use the node secret!
return writeDatagram(datagram, *destinationSockAddr, QUuid());
PacketType packetType = packetTypeForPacket(datagram);
// optionally peform sequence number replacement in the header
if (SEQUENCE_NUMBERED_PACKETS.contains(packetType)) {
QByteArray datagramCopy = datagram;
PacketSequenceNumber sequenceNumber = getNextSequenceNumberForPacket(destinationNode->getUUID(), packetType);
replaceSequenceNumberInPacket(datagramCopy, sequenceNumber, packetType);
// send the datagram with sequence number replaced in header
return writeDatagram(datagramCopy, *destinationSockAddr);
} else {
return writeDatagram(datagram, *destinationSockAddr);
}
}
// didn't have a destinationNode to send to, return 0
@ -305,7 +334,7 @@ qint64 LimitedNodeList::writeUnverifiedDatagram(const QByteArray& datagram, cons
}
qint64 LimitedNodeList::writeUnverifiedDatagram(const QByteArray& datagram, const HifiSockAddr& destinationSockAddr) {
return writeDatagram(datagram, destinationSockAddr, QUuid());
return writeDatagram(datagram, destinationSockAddr);
}
qint64 LimitedNodeList::writeDatagram(const char* data, qint64 size, const SharedNodePointer& destinationNode,
@ -318,6 +347,15 @@ qint64 LimitedNodeList::writeUnverifiedDatagram(const char* data, qint64 size, c
return writeUnverifiedDatagram(QByteArray(data, size), destinationNode, overridenSockAddr);
}
PacketSequenceNumber LimitedNodeList::getNextSequenceNumberForPacket(const QUuid& nodeUUID, PacketType packetType) {
// Thanks to std::map and std::unordered_map this line either default constructs the
// PacketTypeSequenceMap and the PacketSequenceNumber or returns the existing value.
// We use the postfix increment so that the stored value is incremented and the next
// return gives the correct value.
return _packetSequenceNumbers[nodeUUID][packetType]++;
}
void LimitedNodeList::processNodeData(const HifiSockAddr& senderSockAddr, const QByteArray& packet) {
// the node decided not to do anything with this packet
// if it comes from a known source we should keep that node alive
@ -332,6 +370,13 @@ int LimitedNodeList::updateNodeWithDataFromPacket(const SharedNodePointer& match
matchingNode->setLastHeardMicrostamp(usecTimestampNow());
// if this was a sequence numbered packet we should store the last seq number for
// a packet of this type for this node
PacketType packetType = packetTypeForPacket(packet);
if (SEQUENCE_NUMBERED_PACKETS.contains(packetType)) {
matchingNode->setLastSequenceNumberForPacketType(sequenceNumberFromHeader(packet, packetType), packetType);
}
NodeData* linkedData = matchingNode->getLinkedData();
if (!linkedData && linkedDataCreateCallback) {
linkedDataCreateCallback(matchingNode.data());
@ -466,8 +511,11 @@ unsigned LimitedNodeList::broadcastToNodes(const QByteArray& packet, const NodeS
}
QByteArray LimitedNodeList::constructPingPacket(PingType_t pingType, bool isVerified, const QUuid& packetHeaderID) {
QByteArray pingPacket = byteArrayWithPopulatedHeader(isVerified ? PacketTypePing : PacketTypeUnverifiedPing,
packetHeaderID);
QUuid packetUUID = packetHeaderID.isNull() ? _sessionUUID : packetHeaderID;
QByteArray pingPacket = byteArrayWithUUIDPopulatedHeader(isVerified ? PacketTypePing : PacketTypeUnverifiedPing,
packetUUID);
QDataStream packetStream(&pingPacket, QIODevice::Append);
@ -489,8 +537,10 @@ QByteArray LimitedNodeList::constructPingReplyPacket(const QByteArray& pingPacke
PacketType replyType = (packetTypeForPacket(pingPacket) == PacketTypePing)
? PacketTypePingReply : PacketTypeUnverifiedPingReply;
QByteArray replyPacket = byteArrayWithPopulatedHeader(replyType, packetHeaderID);
QUuid packetUUID = packetHeaderID.isNull() ? _sessionUUID : packetHeaderID;
QByteArray replyPacket = byteArrayWithUUIDPopulatedHeader(replyType, packetUUID);
QDataStream packetStream(&replyPacket, QIODevice::Append);
packetStream << typeFromOriginalPing << timeFromOriginalPing << usecTimestampNow();
@ -522,11 +572,11 @@ void LimitedNodeList::removeSilentNodes() {
eachNodeHashIterator([&](NodeHash::iterator& it){
SharedNodePointer node = it->second;
node->getMutex().lock();
if ((usecTimestampNow() - node->getLastHeardMicrostamp()) > (NODE_SILENCE_THRESHOLD_MSECS * USECS_PER_MSEC)) {
// call the NodeHash erase to get rid of this node
it = _nodeHash.unsafe_erase(it);
killedNodes.insert(node);
} else {
// we didn't erase this node, push the iterator forwards
@ -680,7 +730,7 @@ void LimitedNodeList::sendHeartbeatToIceServer(const HifiSockAddr& iceServerSock
headerID = _sessionUUID;
}
QByteArray iceRequestByteArray = byteArrayWithPopulatedHeader(PacketTypeIceServerHeartbeat, headerID);
QByteArray iceRequestByteArray = byteArrayWithUUIDPopulatedHeader(PacketTypeIceServerHeartbeat, headerID);
QDataStream iceDataStream(&iceRequestByteArray, QIODevice::Append);
iceDataStream << _publicSockAddr << _localSockAddr;

19
libraries/networking/src/LimitedNodeList.h
View file

@ -15,6 +15,7 @@
#include <stdint.h>
#include <iterator>
#include <memory>
#include <unordered_map>
#ifndef _WIN32
#include <unistd.h> // not on windows, not needed for mac or windows
@ -34,6 +35,7 @@
#include "DomainHandler.h"
#include "Node.h"
#include "PacketHeaders.h"
#include "UUIDHasher.h"
const int MAX_PACKET_SIZE = 1450;
@ -96,6 +98,13 @@ public:
bool packetVersionAndHashMatch(const QByteArray& packet);
QByteArray byteArrayWithPopulatedHeader(PacketType packetType)
{ return byteArrayWithUUIDPopulatedHeader(packetType, _sessionUUID); }
int populatePacketHeader(QByteArray& packet, PacketType packetType)
{ return populatePacketHeaderWithUUID(packet, packetType, _sessionUUID); }
int populatePacketHeader(char* packet, PacketType packetType)
{ return populatePacketHeaderWithUUID(packet, packetType, _sessionUUID); }
qint64 readDatagram(QByteArray& incomingPacket, QHostAddress* address, quint16 * port);
qint64 writeDatagram(const QByteArray& datagram, const SharedNodePointer& destinationNode,
@ -105,13 +114,14 @@ public:
const HifiSockAddr& overridenSockAddr = HifiSockAddr());
qint64 writeUnverifiedDatagram(const QByteArray& datagram, const HifiSockAddr& destinationSockAddr);
qint64 writeDatagram(const char* data, qint64 size, const SharedNodePointer& destinationNode,
const HifiSockAddr& overridenSockAddr = HifiSockAddr());
qint64 writeUnverifiedDatagram(const char* data, qint64 size, const SharedNodePointer& destinationNode,
const HifiSockAddr& overridenSockAddr = HifiSockAddr());
void(*linkedDataCreateCallback)(Node *);
void (*linkedDataCreateCallback)(Node *);
int size() const { return _nodeHash.size(); }
@ -224,8 +234,9 @@ protected:
LimitedNodeList(LimitedNodeList const&); // Don't implement, needed to avoid copies of singleton
void operator=(LimitedNodeList const&); // Don't implement, needed to avoid copies of singleton
qint64 writeDatagram(const QByteArray& datagram, const HifiSockAddr& destinationSockAddr,
const QUuid& connectionSecret);
qint64 writeDatagram(const QByteArray& datagram, const HifiSockAddr& destinationSockAddr);
PacketSequenceNumber getNextSequenceNumberForPacket(const QUuid& nodeUUID, PacketType packetType);
void changeSocketBufferSizes(int numBytes);
@ -247,6 +258,8 @@ protected:
QElapsedTimer _packetStatTimer;
bool _thisNodeCanAdjustLocks;
bool _thisNodeCanRez;
std::unordered_map<QUuid, PacketTypeSequenceMap, UUIDHasher> _packetSequenceNumbers;
template<typename IteratorLambda>
void eachNodeHashIterator(IteratorLambda functor) {

9
libraries/networking/src/Node.cpp
View file

@ -129,6 +129,15 @@ void Node::activateSymmetricSocket() {
_activeSocket = &_symmetricSocket;
}
PacketSequenceNumber Node::getLastSequenceNumberForPacketType(PacketType packetType) const {
auto typeMatch = _lastSequenceNumbers.find(packetType);
if (typeMatch != _lastSequenceNumbers.end()) {
return typeMatch->second;
} else {
return DEFAULT_SEQUENCE_NUMBER;
}
}
QDataStream& operator<<(QDataStream& out, const Node& node) {
out << node._type;
out << node._uuid;

9
libraries/networking/src/Node.h
View file

@ -23,6 +23,7 @@
#include "HifiSockAddr.h"
#include "NetworkPeer.h"
#include "NodeData.h"
#include "PacketHeaders.h"
#include "SimpleMovingAverage.h"
#include "MovingPercentile.h"
@ -43,7 +44,7 @@ namespace NodeType {
class Node : public NetworkPeer {
Q_OBJECT
public:
public:
Node(const QUuid& uuid, NodeType_t type,
const HifiSockAddr& publicSocket, const HifiSockAddr& localSocket, bool canAdjustLocks, bool canRez);
~Node();
@ -86,6 +87,10 @@ public:
void activatePublicSocket();
void activateLocalSocket();
void activateSymmetricSocket();
void setLastSequenceNumberForPacketType(PacketSequenceNumber sequenceNumber, PacketType packetType)
{ _lastSequenceNumbers[packetType] = sequenceNumber; }
PacketSequenceNumber getLastSequenceNumberForPacketType(PacketType packetType) const;
friend QDataStream& operator<<(QDataStream& out, const Node& node);
friend QDataStream& operator>>(QDataStream& in, Node& node);
@ -109,6 +114,8 @@ private:
MovingPercentile _clockSkewMovingPercentile;
bool _canAdjustLocks;
bool _canRez;
PacketTypeSequenceMap _lastSequenceNumbers;
};
QDebug operator<<(QDebug debug, const Node &message);

13
libraries/networking/src/NodeList.cpp
View file

@ -183,7 +183,7 @@ void NodeList::processNodeData(const HifiSockAddr& senderSockAddr, const QByteAr
}
case PacketTypePingReply: {
SharedNodePointer sendingNode = sendingNodeForPacket(packet);
if (sendingNode) {
sendingNode->setLastHeardMicrostamp(usecTimestampNow());
@ -348,7 +348,7 @@ void NodeList::sendDomainServerCheckIn() {
}
}
QByteArray domainServerPacket = byteArrayWithPopulatedHeader(domainPacketType, packetUUID);
QByteArray domainServerPacket = byteArrayWithUUIDPopulatedHeader(domainPacketType, packetUUID);
QDataStream packetStream(&domainServerPacket, QIODevice::Append);
// pack our data to send to the domain-server
@ -369,7 +369,7 @@ void NodeList::sendDomainServerCheckIn() {
}
if (!isUsingDTLS) {
writeDatagram(domainServerPacket, _domainHandler.getSockAddr(), QUuid());
writeUnverifiedDatagram(domainServerPacket, _domainHandler.getSockAddr());
}
const int NUM_DOMAIN_SERVER_CHECKINS_PER_STUN_REQUEST = 5;
@ -424,10 +424,9 @@ int NodeList::processDomainServerList(const QByteArray& packet) {
_domainHandler.setUUID(uuidFromPacketHeader(packet));
_domainHandler.setIsConnected(true);
}
int readNodes = 0;
QDataStream packetStream(packet);
packetStream.skipRawData(numBytesForPacketHeader(packet));
@ -497,7 +496,7 @@ void NodeList::pingPunchForInactiveNode(const SharedNodePointer& node) {
QByteArray publicPingPacket = constructPingPacket(PingType::Public);
writeDatagram(publicPingPacket, node, node->getPublicSocket());
if (!node->getSymmetricSocket().isNull()) {
QByteArray symmetricPingPacket = constructPingPacket(PingType::Symmetric);
writeDatagram(symmetricPingPacket, node, node->getSymmetricSocket());

135
libraries/networking/src/PacketHeaders.cpp
View file

@ -9,14 +9,12 @@
// See the accompanying file LICENSE or http://www.apache.org/licenses/LICENSE-2.0.html
//
#include "PacketHeaders.h"
#include <math.h>
#include <QtCore/QDebug>
#include "NodeList.h"
#include "PacketHeaders.h"
int arithmeticCodingValueFromBuffer(const char* checkValue) {
if (((uchar) *checkValue) < 255) {
return *checkValue;
@ -45,8 +43,8 @@ int packArithmeticallyCodedValue(int value, char* destination) {
}
}
PacketVersion versionForPacketType(PacketType type) {
switch (type) {
PacketVersion versionForPacketType(PacketType packetType) {
switch (packetType) {
case PacketTypeMicrophoneAudioNoEcho:
case PacketTypeMicrophoneAudioWithEcho:
return 2;
@ -57,7 +55,7 @@ PacketVersion versionForPacketType(PacketType type) {
case PacketTypeInjectAudio:
return 1;
case PacketTypeAvatarData:
return 5;
return 6;
case PacketTypeAvatarIdentity:
return 1;
case PacketTypeEnvironmentData:
@ -74,7 +72,7 @@ PacketVersion versionForPacketType(PacketType type) {
return 1;
case PacketTypeEntityAddOrEdit:
case PacketTypeEntityData:
return VERSION_ENTITIES_ZONE_ENTITIES_HAVE_SKYBOX;
return VERSION_ENTITIES_ZONE_ENTITIES_STAGE_HAS_AUTOMATIC_HOURDAY;
case PacketTypeEntityErase:
return 2;
case PacketTypeAudioStreamStats:
@ -86,8 +84,8 @@ PacketVersion versionForPacketType(PacketType type) {
#define PACKET_TYPE_NAME_LOOKUP(x) case x: return QString(#x);
QString nameForPacketType(PacketType type) {
switch (type) {
QString nameForPacketType(PacketType packetType) {
switch (packetType) {
PACKET_TYPE_NAME_LOOKUP(PacketTypeUnknown);
PACKET_TYPE_NAME_LOOKUP(PacketTypeStunResponse);
PACKET_TYPE_NAME_LOOKUP(PacketTypeDomainList);
@ -132,71 +130,81 @@ QString nameForPacketType(PacketType type) {
PACKET_TYPE_NAME_LOOKUP(PacketTypeUnverifiedPing);
PACKET_TYPE_NAME_LOOKUP(PacketTypeUnverifiedPingReply);
default:
return QString("Type: ") + QString::number((int)type);
return QString("Type: ") + QString::number((int)packetType);
}
return QString("unexpected");
}
QByteArray byteArrayWithPopulatedHeader(PacketType type, const QUuid& connectionUUID) {
QByteArray byteArrayWithUUIDPopulatedHeader(PacketType packetType, const QUuid& connectionUUID) {
QByteArray freshByteArray(MAX_PACKET_HEADER_BYTES, 0);
freshByteArray.resize(populatePacketHeader(freshByteArray, type, connectionUUID));
freshByteArray.resize(populatePacketHeaderWithUUID(freshByteArray, packetType, connectionUUID));
return freshByteArray;
}
int populatePacketHeader(QByteArray& packet, PacketType type, const QUuid& connectionUUID) {
if (packet.size() < numBytesForPacketHeaderGivenPacketType(type)) {
packet.resize(numBytesForPacketHeaderGivenPacketType(type));
int populatePacketHeaderWithUUID(QByteArray& packet, PacketType packetType, const QUuid& connectionUUID) {
if (packet.size() < numBytesForPacketHeaderGivenPacketType(packetType)) {
packet.resize(numBytesForPacketHeaderGivenPacketType(packetType));
}
return populatePacketHeader(packet.data(), type, connectionUUID);
return populatePacketHeaderWithUUID(packet.data(), packetType, connectionUUID);
}
int populatePacketHeader(char* packet, PacketType type, const QUuid& connectionUUID) {
int numTypeBytes = packArithmeticallyCodedValue(type, packet);
packet[numTypeBytes] = versionForPacketType(type);
int populatePacketHeaderWithUUID(char* packet, PacketType packetType, const QUuid& connectionUUID) {
int numTypeBytes = packArithmeticallyCodedValue(packetType, packet);
packet[numTypeBytes] = versionForPacketType(packetType);
char* position = packet + numTypeBytes + sizeof(PacketVersion);
QUuid packUUID = connectionUUID.isNull() ? DependencyManager::get<LimitedNodeList>()->getSessionUUID() : connectionUUID;
QByteArray rfcUUID = packUUID.toRfc4122();
QByteArray rfcUUID = connectionUUID.toRfc4122();
memcpy(position, rfcUUID.constData(), NUM_BYTES_RFC4122_UUID);
position += NUM_BYTES_RFC4122_UUID;
if (!NON_VERIFIED_PACKETS.contains(type)) {
if (!NON_VERIFIED_PACKETS.contains(packetType)) {
// pack 16 bytes of zeros where the md5 hash will be placed once data is packed
memset(position, 0, NUM_BYTES_MD5_HASH);
position += NUM_BYTES_MD5_HASH;
}
if (SEQUENCE_NUMBERED_PACKETS.contains(packetType)) {
// Pack zeros for the number of bytes that the sequence number requires.
// The LimitedNodeList will handle packing in the sequence number when sending out the packet.
memset(position, 0, sizeof(PacketSequenceNumber));
position += sizeof(PacketSequenceNumber);
}
// return the number of bytes written for pointer pushing
return position - packet;
}
int numBytesForPacketHeader(const QByteArray& packet) {
// returns the number of bytes used for the type, version, and UUID
return numBytesArithmeticCodingFromBuffer(packet.data())
+ numHashBytesInPacketHeaderGivenPacketType(packetTypeForPacket(packet))
+ NUM_STATIC_HEADER_BYTES;
PacketType packetType = packetTypeForPacket(packet);
return numBytesForPacketHeaderGivenPacketType(packetType);
}
int numBytesForPacketHeader(const char* packet) {
// returns the number of bytes used for the type, version, and UUID
return numBytesArithmeticCodingFromBuffer(packet)
+ numHashBytesInPacketHeaderGivenPacketType(packetTypeForPacket(packet))
PacketType packetType = packetTypeForPacket(packet);
return numBytesForPacketHeaderGivenPacketType(packetType);
}
int numBytesForArithmeticCodedPacketType(PacketType packetType) {
return (int) ceilf((float) packetType / 255);
}
int numBytesForPacketHeaderGivenPacketType(PacketType packetType) {
return numBytesForArithmeticCodedPacketType(packetType)
+ numHashBytesForType(packetType)
+ numSequenceNumberBytesForType(packetType)
+ NUM_STATIC_HEADER_BYTES;
}
int numBytesForPacketHeaderGivenPacketType(PacketType type) {
return (int) ceilf((float)type / 255)
+ numHashBytesInPacketHeaderGivenPacketType(type)
+ NUM_STATIC_HEADER_BYTES;
int numHashBytesForType(PacketType packetType) {
return (NON_VERIFIED_PACKETS.contains(packetType) ? 0 : NUM_BYTES_MD5_HASH);
}
int numHashBytesInPacketHeaderGivenPacketType(PacketType type) {
return (NON_VERIFIED_PACKETS.contains(type) ? 0 : NUM_BYTES_MD5_HASH);
int numSequenceNumberBytesForType(PacketType packetType) {
return (SEQUENCE_NUMBERED_PACKETS.contains(packetType) ? sizeof(PacketSequenceNumber) : 0);
}
QUuid uuidFromPacketHeader(const QByteArray& packet) {
@ -204,8 +212,16 @@ QUuid uuidFromPacketHeader(const QByteArray& packet) {
NUM_BYTES_RFC4122_UUID));
}
int hashOffsetForPacketType(PacketType packetType) {
return numBytesForArithmeticCodedPacketType(packetType) + NUM_STATIC_HEADER_BYTES;
}
int sequenceNumberOffsetForPacketType(PacketType packetType) {
return numBytesForPacketHeaderGivenPacketType(packetType) - sizeof(PacketSequenceNumber);
}
QByteArray hashFromPacketHeader(const QByteArray& packet) {
return packet.mid(numBytesForPacketHeader(packet) - NUM_BYTES_MD5_HASH, NUM_BYTES_MD5_HASH);
return packet.mid(hashOffsetForPacketType(packetTypeForPacket(packet)), NUM_BYTES_MD5_HASH);
}
QByteArray hashForPacketAndConnectionUUID(const QByteArray& packet, const QUuid& connectionUUID) {
@ -213,11 +229,48 @@ QByteArray hashForPacketAndConnectionUUID(const QByteArray& packet, const QUuid&
QCryptographicHash::Md5);
}
void replaceHashInPacketGivenConnectionUUID(QByteArray& packet, const QUuid& connectionUUID) {
packet.replace(numBytesForPacketHeader(packet) - NUM_BYTES_MD5_HASH, NUM_BYTES_MD5_HASH,
PacketSequenceNumber sequenceNumberFromHeader(const QByteArray& packet, PacketType packetType) {
if (packetType == PacketTypeUnknown) {
packetType = packetTypeForPacket(packet);
}
PacketSequenceNumber result = DEFAULT_SEQUENCE_NUMBER;
if (SEQUENCE_NUMBERED_PACKETS.contains(packetType)) {
memcpy(&result, packet.data() + sequenceNumberOffsetForPacketType(packetType), sizeof(PacketSequenceNumber));
}
return result;
}
void replaceHashInPacket(QByteArray& packet, const QUuid& connectionUUID, PacketType packetType) {
if (packetType == PacketTypeUnknown) {
packetType = packetTypeForPacket(packet);
}
packet.replace(hashOffsetForPacketType(packetType), NUM_BYTES_MD5_HASH,
hashForPacketAndConnectionUUID(packet, connectionUUID));
}
void replaceSequenceNumberInPacket(QByteArray& packet, PacketSequenceNumber sequenceNumber, PacketType packetType) {
if (packetType == PacketTypeUnknown) {
packetType = packetTypeForPacket(packet);
}
packet.replace(sequenceNumberOffsetForPacketType(packetType),
sizeof(PacketSequenceNumber), reinterpret_cast<char*>(&sequenceNumber), sizeof(PacketSequenceNumber));
}
void replaceHashAndSequenceNumberInPacket(QByteArray& packet, const QUuid& connectionUUID, PacketSequenceNumber sequenceNumber,
PacketType packetType) {
if (packetType == PacketTypeUnknown) {
packetType = packetTypeForPacket(packet);
}
replaceHashInPacket(packet, connectionUUID, packetType);
replaceSequenceNumberInPacket(packet, sequenceNumber, packetType);
}
PacketType packetTypeForPacket(const QByteArray& packet) {
return (PacketType) arithmeticCodingValueFromBuffer(packet.data());
}

55
libraries/networking/src/PacketHeaders.h
View file

@ -12,14 +12,19 @@
#ifndef hifi_PacketHeaders_h
#define hifi_PacketHeaders_h
#pragma once
#include <cstdint>
#include <map>
#include <QtCore/QCryptographicHash>
#include <QtCore/QSet>
#include <QtCore/QUuid>
#include "UUID.h"
// NOTE: if adding a new packet type, you can replace one marked usable or add at the end
// NOTE: if you want the name of the packet type to be available for debugging or logging, update nameForPacketType() as well
// NOTE: if adding a new packet packetType, you can replace one marked usable or add at the end
// NOTE: if you want the name of the packet packetType to be available for debugging or logging, update nameForPacketType() as well
enum PacketType {
PacketTypeUnknown, // 0
PacketTypeStunResponse,
@ -79,6 +84,11 @@ enum PacketType {
typedef char PacketVersion;
typedef uint16_t PacketSequenceNumber;
const PacketSequenceNumber DEFAULT_SEQUENCE_NUMBER = 0;
typedef std::map<PacketType, PacketSequenceNumber> PacketTypeSequenceMap;
const QSet<PacketType> NON_VERIFIED_PACKETS = QSet<PacketType>()
<< PacketTypeDomainServerRequireDTLS << PacketTypeDomainConnectRequest
<< PacketTypeDomainList << PacketTypeDomainListRequest << PacketTypeDomainConnectionDenied
@ -88,33 +98,53 @@ const QSet<PacketType> NON_VERIFIED_PACKETS = QSet<PacketType>()
<< PacketTypeIceServerHeartbeat << PacketTypeIceServerHeartbeatResponse
<< PacketTypeUnverifiedPing << PacketTypeUnverifiedPingReply << PacketTypeStopNode;
const QSet<PacketType> SEQUENCE_NUMBERED_PACKETS = QSet<PacketType>()
<< PacketTypeAvatarData;
const int NUM_BYTES_MD5_HASH = 16;
const int NUM_STATIC_HEADER_BYTES = sizeof(PacketVersion) + NUM_BYTES_RFC4122_UUID;
const int MAX_PACKET_HEADER_BYTES = sizeof(PacketType) + NUM_BYTES_MD5_HASH + NUM_STATIC_HEADER_BYTES;
PacketVersion versionForPacketType(PacketType type);
QString nameForPacketType(PacketType type);
PacketType packetTypeForPacket(const QByteArray& packet);
PacketType packetTypeForPacket(const char* packet);
PacketVersion versionForPacketType(PacketType packetType);
QString nameForPacketType(PacketType packetType);
const QUuid nullUUID = QUuid();
QByteArray byteArrayWithPopulatedHeader(PacketType type, const QUuid& connectionUUID = nullUUID);
int populatePacketHeader(QByteArray& packet, PacketType type, const QUuid& connectionUUID = nullUUID);
int populatePacketHeader(char* packet, PacketType type, const QUuid& connectionUUID = nullUUID);
QByteArray byteArrayWithUUIDPopulatedHeader(PacketType packetType, const QUuid& connectionUUID);
int populatePacketHeaderWithUUID(QByteArray& packet, PacketType packetType, const QUuid& connectionUUID);
int populatePacketHeaderWithUUID(char* packet, PacketType packetType, const QUuid& connectionUUID);
int numHashBytesInPacketHeaderGivenPacketType(PacketType type);
int numHashBytesForType(PacketType packetType);
int numSequenceNumberBytesForType(PacketType packetType);
int numBytesForPacketHeader(const QByteArray& packet);
int numBytesForPacketHeader(const char* packet);
int numBytesForPacketHeaderGivenPacketType(PacketType type);
int numBytesForArithmeticCodedPacketType(PacketType packetType);
int numBytesForPacketHeaderGivenPacketType(PacketType packetType);
QUuid uuidFromPacketHeader(const QByteArray& packet);
int hashOffsetForPacketType(PacketType packetType);
int sequenceNumberOffsetForPacketType(PacketType packetType);
QByteArray hashFromPacketHeader(const QByteArray& packet);
QByteArray hashForPacketAndConnectionUUID(const QByteArray& packet, const QUuid& connectionUUID);
void replaceHashInPacketGivenConnectionUUID(QByteArray& packet, const QUuid& connectionUUID);
PacketType packetTypeForPacket(const QByteArray& packet);
PacketType packetTypeForPacket(const char* packet);
// NOTE: The following four methods accept a PacketType which defaults to PacketTypeUnknown.
// If the caller has already looked at the packet type and can provide it then the methods below won't have to look it up.
PacketSequenceNumber sequenceNumberFromHeader(const QByteArray& packet, PacketType packetType = PacketTypeUnknown);
void replaceHashInPacket(QByteArray& packet, const QUuid& connectionUUID, PacketType packetType = PacketTypeUnknown);
void replaceSequenceNumberInPacket(QByteArray& packet, PacketSequenceNumber sequenceNumber,
PacketType packetType = PacketTypeUnknown);
void replaceHashAndSequenceNumberInPacket(QByteArray& packet, const QUuid& connectionUUID, PacketSequenceNumber sequenceNumber,
PacketType packetType = PacketTypeUnknown);
int arithmeticCodingValueFromBuffer(const char* checkValue);
int numBytesArithmeticCodingFromBuffer(const char* checkValue);
@ -142,5 +172,6 @@ const PacketVersion VERSION_ENTITIES_ZONE_ENTITIES_HAVE_DYNAMIC_SHAPE = 18;
const PacketVersion VERSION_ENTITIES_HAVE_NAMES = 19;
const PacketVersion VERSION_ENTITIES_ZONE_ENTITIES_HAVE_ATMOSPHERE = 20;
const PacketVersion VERSION_ENTITIES_ZONE_ENTITIES_HAVE_SKYBOX = 21;
const PacketVersion VERSION_ENTITIES_ZONE_ENTITIES_STAGE_HAS_AUTOMATIC_HOURDAY = 22;
#endif // hifi_PacketHeaders_h

5
libraries/networking/src/ResourceCache.cpp
View file

@ -241,7 +241,7 @@ float Resource::getLoadPriority() {
}
void Resource::refresh() {
if (_reply == nullptr && !(_loaded || _failedToLoad)) {
if (_reply && !(_loaded || _failedToLoad)) {
return;
}
if (_reply) {
@ -350,7 +350,8 @@ void Resource::maybeRefresh() {
QDateTime lastModified = variant.value<QDateTime>();
QDateTime lastModifiedOld = metaData.lastModified();
if (lastModified.isValid() && lastModifiedOld.isValid() &&
lastModifiedOld == lastModified) {
lastModifiedOld >= lastModified) { // With >=, cache won't thrash in eventually-consistent cdn.
qCDebug(networking) << "Using cached version of" << _url.fileName();
// We don't need to update, return
return;
}

7
libraries/octree/src/JurisdictionListener.cpp
View file

@ -35,10 +35,13 @@ void JurisdictionListener::nodeKilled(SharedNodePointer node) {
bool JurisdictionListener::queueJurisdictionRequest() {
static unsigned char buffer[MAX_PACKET_SIZE];
unsigned char* bufferOut = &buffer[0];
int sizeOut = populatePacketHeader(reinterpret_cast<char*>(bufferOut), PacketTypeJurisdictionRequest);
auto nodeList = DependencyManager::get<NodeList>();
int sizeOut = nodeList->populatePacketHeader(reinterpret_cast<char*>(bufferOut), PacketTypeJurisdictionRequest);
int nodeCount = 0;
DependencyManager::get<NodeList>()->eachNode([&](const SharedNodePointer& node) {
nodeList->eachNode([&](const SharedNodePointer& node) {
if (node->getType() == getNodeType() && node->getActiveSocket()) {
_packetSender.queuePacketForSending(node, QByteArray(reinterpret_cast<char*>(bufferOut), sizeOut));
nodeCount++;

10
libraries/octree/src/JurisdictionMap.cpp
View file

@ -14,6 +14,8 @@
#include <QStringList>
#include <QDebug>
#include <DependencyManager.h>
#include <NodeList.h>
#include <PacketHeaders.h>
#include <OctalCode.h>
@ -268,8 +270,9 @@ bool JurisdictionMap::writeToFile(const char* filename) {
int JurisdictionMap::packEmptyJurisdictionIntoMessage(NodeType_t type, unsigned char* destinationBuffer, int availableBytes) {
unsigned char* bufferStart = destinationBuffer;
int headerLength = populatePacketHeader(reinterpret_cast<char*>(destinationBuffer), PacketTypeJurisdiction);
int headerLength = DependencyManager::get<NodeList>()->populatePacketHeader(reinterpret_cast<char*>(destinationBuffer),
PacketTypeJurisdiction);
destinationBuffer += headerLength;
// Pack the Node Type in first byte
@ -287,7 +290,8 @@ int JurisdictionMap::packEmptyJurisdictionIntoMessage(NodeType_t type, unsigned
int JurisdictionMap::packIntoMessage(unsigned char* destinationBuffer, int availableBytes) {
unsigned char* bufferStart = destinationBuffer;
int headerLength = populatePacketHeader(reinterpret_cast<char*>(destinationBuffer), PacketTypeJurisdiction);
int headerLength = DependencyManager::get<NodeList>()->populatePacketHeader(reinterpret_cast<char*>(destinationBuffer),
PacketTypeJurisdiction);
destinationBuffer += headerLength;
// Pack the Node Type in first byte

3
libraries/octree/src/OctreeEditPacketSender.cpp
View file

@ -328,7 +328,8 @@ void OctreeEditPacketSender::releaseQueuedPacket(EditPacketBuffer& packetBuffer)
}
void OctreeEditPacketSender::initializePacket(EditPacketBuffer& packetBuffer, PacketType type, int nodeClockSkew) {
packetBuffer._currentSize = populatePacketHeader(reinterpret_cast<char*>(&packetBuffer._currentBuffer[0]), type);
packetBuffer._currentSize =
DependencyManager::get<NodeList>()->populatePacketHeader(reinterpret_cast<char*>(&packetBuffer._currentBuffer[0]), type);
// skip over sequence number for now; will be packed when packet is ready to be sent out
packetBuffer._currentSize += sizeof(quint16);

2
libraries/octree/src/OctreeHeadlessViewer.cpp
View file

@ -221,7 +221,7 @@ void OctreeHeadlessViewer::queryOctree() {
unsigned char* endOfQueryPacket = queryPacket;
// insert packet type/version and node UUID
endOfQueryPacket += populatePacketHeader(reinterpret_cast<char*>(endOfQueryPacket), packetType);
endOfQueryPacket += nodeList->populatePacketHeader(reinterpret_cast<char*>(endOfQueryPacket), packetType);
// encode the query data...
endOfQueryPacket += _octreeQuery.getBroadcastData(endOfQueryPacket);

2
libraries/octree/src/OctreeQuery.cpp
View file

@ -16,7 +16,7 @@
#include "OctreeConstants.h"
#include "OctreeQuery.h"
Setting::Handle<int> maxOctreePacketsPerSecond("maxOctreePPSSpin", DEFAULT_MAX_OCTREE_PPS);
Setting::Handle<int> maxOctreePacketsPerSecond("maxOctreePPS", DEFAULT_MAX_OCTREE_PPS);
OctreeQuery::OctreeQuery() {
_maxOctreePPS = maxOctreePacketsPerSecond.get();

3
libraries/octree/src/OctreeSceneStats.cpp
View file

@ -385,7 +385,8 @@ void OctreeSceneStats::childBitsRemoved(bool includesExistsBits, bool includesCo
int OctreeSceneStats::packIntoMessage(unsigned char* destinationBuffer, int availableBytes) {
unsigned char* bufferStart = destinationBuffer;
int headerLength = populatePacketHeader(reinterpret_cast<char*>(destinationBuffer), PacketTypeOctreeStats);
int headerLength = DependencyManager::get<NodeList>()->populatePacketHeader(reinterpret_cast<char*>(destinationBuffer),
PacketTypeOctreeStats);
destinationBuffer += headerLength;
memcpy(destinationBuffer, &_start, sizeof(_start));

8
libraries/render-utils/src/Model.cpp
View file

@ -2068,6 +2068,12 @@ void Model::segregateMeshGroups() {
bool hasSpecular = mesh.hasSpecularTexture();
bool hasLightmap = mesh.hasEmissiveTexture();
bool isSkinned = state.clusterMatrices.size() > 1;
bool wireframe = isWireframe();
if (wireframe) {
translucentMesh = hasTangents = hasSpecular = hasLightmap = isSkinned = false;
}
QString materialID;
// create a material name from all the parts. If there's one part, this will be a single material and its
@ -2085,7 +2091,7 @@ void Model::segregateMeshGroups() {
qCDebug(renderutils) << "materialID:" << materialID << "parts:" << mesh.parts.size();
}
RenderKey key(translucentMesh, hasLightmap, hasTangents, hasSpecular, isSkinned, isWireframe());
RenderKey key(translucentMesh, hasLightmap, hasTangents, hasSpecular, isSkinned, wireframe);
// reuse or create the bucket corresponding to that key and insert the mesh as unsorted
_renderBuckets[key.getRaw()]._unsortedMeshes.insertMulti(materialID, i);

8
libraries/script-engine/src/ScriptEngine.cpp
View file

@ -493,7 +493,7 @@ void ScriptEngine::run() {
/ (1000 * 1000)) + 0.5);
const int SCRIPT_AUDIO_BUFFER_BYTES = SCRIPT_AUDIO_BUFFER_SAMPLES * sizeof(int16_t);
QByteArray avatarPacket = byteArrayWithPopulatedHeader(PacketTypeAvatarData);
QByteArray avatarPacket = nodeList->byteArrayWithPopulatedHeader(PacketTypeAvatarData);
avatarPacket.append(_avatarData->toByteArray());
nodeList->broadcastToNodes(avatarPacket, NodeSet() << NodeType::AvatarMixer);
@ -534,9 +534,9 @@ void ScriptEngine::run() {
}
}
QByteArray audioPacket = byteArrayWithPopulatedHeader(silentFrame
? PacketTypeSilentAudioFrame
: PacketTypeMicrophoneAudioNoEcho);
QByteArray audioPacket = nodeList->byteArrayWithPopulatedHeader(silentFrame
? PacketTypeSilentAudioFrame
: PacketTypeMicrophoneAudioNoEcho);
QDataStream packetStream(&audioPacket, QIODevice::Append);