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// Copyright Vespa.ai. Licensed under the terms of the Apache 2.0 license. See LICENSE in the project root.
#include "nodeinfo.h"
#include <vespa/storageframework/generic/clock/clock.h>
namespace storage::distributor {
NodeInfo::NodeInfo(const framework::Clock& clock) noexcept
: _clock(clock) {}
uint32_t
NodeInfo::getPendingCount(uint16_t idx) const {
return getNode(idx)._pending;
}
bool
NodeInfo::isBusy(uint16_t idx) const {
const SingleNodeInfo& info = getNode(idx);
if (info._busyUntilTime.time_since_epoch().count() != 0) {
if (_clock.getMonotonicTime() > info._busyUntilTime) {
info._busyUntilTime = vespalib::steady_time();
} else {
return true;
}
}
return false;
}
void
NodeInfo::setBusy(uint16_t idx, vespalib::duration for_duration) {
getNode(idx)._busyUntilTime = _clock.getMonotonicTime() + for_duration;
}
void
NodeInfo::incPending(uint16_t idx) {
getNode(idx)._pending++;
}
void
NodeInfo::decPending(uint16_t idx) {
SingleNodeInfo& info = getNode(idx);
if (info._pending > 0) {
getNode(idx)._pending--;
}
}
void
NodeInfo::clearPending(uint16_t idx) {
SingleNodeInfo& info = getNode(idx);
info._pending = 0;
}
NodeInfo::SingleNodeInfo&
NodeInfo::getNode(uint16_t idx) {
const auto index_lbound = static_cast<size_t>(idx) + 1;
while (_nodes.size() < index_lbound) {
_nodes.emplace_back();
}
return _nodes[idx];
}
const NodeInfo::SingleNodeInfo&
NodeInfo::getNode(uint16_t idx) const {
const auto index_lbound = static_cast<size_t>(idx) + 1;
while (_nodes.size() < index_lbound) {
_nodes.emplace_back();
}
return _nodes[idx];
}
}
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