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Compiler warning cleanup

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This commit is contained in:
Grant Limberg 2019-06-13 10:27:54 -07:00
parent f411eb1651
commit 47d29ddcaf
5 changed files with 10 additions and 10 deletions
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2
node/Node.cpp
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@ -500,7 +500,7 @@ ZT_PeerList *Node::peers() const
p->paths[p->pathCount].trustedPathId = RR->topology->getOutboundPathTrust((*path)->address());
p->paths[p->pathCount].expired = 0;
p->paths[p->pathCount].preferred = ((*path) == bestp) ? 1 : 0;
p->paths[p->pathCount].latency = (*path)->latency();
p->paths[p->pathCount].latency = (float)(*path)->latency();
p->paths[p->pathCount].packetDelayVariance = (*path)->packetDelayVariance();
p->paths[p->pathCount].throughputDisturbCoeff = (*path)->throughputDisturbanceCoefficient();
p->paths[p->pathCount].packetErrorRatio = (*path)->packetErrorRatio();

4
node/Path.hpp
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@ -351,7 +351,7 @@ public:
_unackedBytes = (ackedBytes > _unackedBytes) ? 0 : _unackedBytes - ackedBytes;
int64_t timeSinceThroughputEstimate = (now - _lastThroughputEstimation);
if (timeSinceThroughputEstimate >= ZT_PATH_THROUGHPUT_MEASUREMENT_INTERVAL) {
uint64_t throughput = (float)(_bytesAckedSinceLastThroughputEstimation * 8) / ((float)timeSinceThroughputEstimate / (float)1000);
uint64_t throughput = (uint64_t)((float)(_bytesAckedSinceLastThroughputEstimation * 8) / ((float)timeSinceThroughputEstimate / (float)1000));
_throughputSamples.push(throughput);
_maxLifetimeThroughput = throughput > _maxLifetimeThroughput ? throughput : _maxLifetimeThroughput;
_lastThroughputEstimation = now;
@ -416,7 +416,7 @@ public:
if (it != _outQoSRecords.end()) {
uint16_t rtt = (uint16_t)(now - it->second);
uint16_t rtt_compensated = rtt - rx_ts[j];
float latency = rtt_compensated / 2.0;
uint16_t latency = rtt_compensated / 2;
updateLatency(latency, now);
_outQoSRecords.erase(it);
}

10
node/Peer.cpp
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@ -285,7 +285,7 @@ void Peer::computeAggregateProportionalAllocation(int64_t now)
for(unsigned int i=0;i<ZT_MAX_PEER_NETWORK_PATHS;++i) {
if (_paths[i].p) {
relStability[i] = _paths[i].p->lastComputedStability();
relThroughput[i] = _paths[i].p->maxLifetimeThroughput();
relThroughput[i] = (float)_paths[i].p->maxLifetimeThroughput();
maxStability = relStability[i] > maxStability ? relStability[i] : maxStability;
maxThroughput = relThroughput[i] > maxThroughput ? relThroughput[i] : maxThroughput;
maxScope = _paths[i].p->ipScope() > maxScope ? _paths[i].p->ipScope() : maxScope;
@ -296,7 +296,7 @@ void Peer::computeAggregateProportionalAllocation(int64_t now)
if (_paths[i].p) {
relStability[i] /= maxStability ? maxStability : 1;
relThroughput[i] /= maxThroughput ? maxThroughput : 1;
float normalized_ma = Utils::normalize(_paths[i].p->ackAge(now), 0, ZT_PATH_MAX_AGE, 0, 10);
float normalized_ma = Utils::normalize((float)_paths[i].p->ackAge(now), 0, ZT_PATH_MAX_AGE, 0, 10);
float age_contrib = exp((-1)*normalized_ma);
float relScope = ((float)(_paths[i].p->ipScope()+1) / (maxScope + 1));
float relQuality =
@ -314,7 +314,7 @@ void Peer::computeAggregateProportionalAllocation(int64_t now)
// Convert set of relative performances into an allocation set
for(uint16_t i=0;i<ZT_MAX_PEER_NETWORK_PATHS;++i) {
if (_paths[i].p) {
_paths[i].p->updateComponentAllocationOfAggregateLink((_paths[i].p->relativeQuality() / totalRelativeQuality) * 255);
_paths[i].p->updateComponentAllocationOfAggregateLink((unsigned char)((_paths[i].p->relativeQuality() / totalRelativeQuality) * 255));
}
}
}
@ -327,7 +327,7 @@ int Peer::computeAggregateLinkPacketDelayVariance()
pdv += _paths[i].p->relativeQuality() * _paths[i].p->packetDelayVariance();
}
}
return pdv;
return (int)pdv;
}
int Peer::computeAggregateLinkMeanLatency()
@ -337,7 +337,7 @@ int Peer::computeAggregateLinkMeanLatency()
for(unsigned int i=0;i<ZT_MAX_PEER_NETWORK_PATHS;++i) {
if (_paths[i].p) {
pathCount++;
ml += _paths[i].p->relativeQuality() * _paths[i].p->meanLatency();
ml += (int)(_paths[i].p->relativeQuality() * _paths[i].p->meanLatency());
}
}
return ml / pathCount;

2
node/RingBuffer.hpp
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@ -268,7 +268,7 @@ public:
for (size_t i=0; i<curr_cnt; i++) {
iterator = (iterator + S - 1) % curr_cnt;
float deviation = (buf[i] - cached_mean);
sum_of_squared_deviations += (deviation*deviation);
sum_of_squared_deviations += (T)(deviation*deviation);
}
float variance = (float)sum_of_squared_deviations / (float)(S - 1);
return variance;

2
node/Switch.cpp
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@ -601,7 +601,7 @@ void Switch::aqm_enqueue(void *tPtr, const SharedPtr<Network> &network, Packet &
uint64_t Switch::control_law(uint64_t t, int count)
{
return t + ZT_QOS_INTERVAL / sqrt(count);
return (uint64_t)(t + ZT_QOS_INTERVAL / sqrt(count));
}
Switch::dqr Switch::dodequeue(ManagedQueue *q, uint64_t now)