forked from lix-project/hydra
Fix segfault sorting runnable steps
Same problem as d744362e4a
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at /nix/store/ksvsbr7pg4z69bv6fbbc8h7x7rm2104m-gcc-4.9.3/include/c++/4.9.3/bits/predefined_ops.h:166
__last@entry=..., __comp=...) at /nix/store/ksvsbr7pg4z69bv6fbbc8h7x7rm2104m-gcc-4.9.3/include/c++/4.9.3/bits/stl_algo.h:1827
__comp=...) at /nix/store/ksvsbr7pg4z69bv6fbbc8h7x7rm2104m-gcc-4.9.3/include/c++/4.9.3/bits/stl_algo.h:4717
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@ -144,13 +144,40 @@ system_time State::doDispatch()
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FIXME: O(n lg n); obviously, it would be better to keep a
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FIXME: O(n lg n); obviously, it would be better to keep a
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runnable queue sorted by priority. */
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runnable queue sorted by priority. */
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std::vector<Step::ptr> runnableSorted;
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struct StepInfo
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{
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Step::ptr step;
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/* The lowest share used of any jobset depending on this
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step. */
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double lowestShareUsed = 1e9;
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/* Info copied from step->state to ensure that the
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comparator is a partial ordering (see MachineInfo). */
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int highestGlobalPriority;
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int highestLocalPriority;
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BuildID lowestBuildID;
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StepInfo(Step::ptr step, Step::State & step_) : step(step)
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{
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for (auto & jobset : step_.jobsets)
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lowestShareUsed = std::min(lowestShareUsed, jobset->shareUsed());
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highestGlobalPriority = step_.highestGlobalPriority;
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highestLocalPriority = step_.highestLocalPriority;
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lowestBuildID = step_.lowestBuildID;
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}
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};
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std::vector<StepInfo> runnableSorted;
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struct RunnablePerType
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struct RunnablePerType
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{
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{
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unsigned int count{0};
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unsigned int count{0};
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std::chrono::seconds waitTime{0};
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std::chrono::seconds waitTime{0};
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};
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};
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std::unordered_map<std::string, RunnablePerType> runnablePerType;
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std::unordered_map<std::string, RunnablePerType> runnablePerType;
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{
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{
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auto runnable_(runnable.lock());
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auto runnable_(runnable.lock());
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runnableSorted.reserve(runnable_->size());
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runnableSorted.reserve(runnable_->size());
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@ -170,37 +197,26 @@ system_time State::doDispatch()
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/* Skip previously failed steps that aren't ready
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/* Skip previously failed steps that aren't ready
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to be retried. */
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to be retried. */
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{
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auto step_(step->state.lock());
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auto step_(step->state.lock());
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r.waitTime += std::chrono::duration_cast<std::chrono::seconds>(now - step_->runnableSince);
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r.waitTime += std::chrono::duration_cast<std::chrono::seconds>(now - step_->runnableSince);
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if (step_->tries > 0 && step_->after > now) {
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if (step_->tries > 0 && step_->after > now) {
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if (step_->after < sleepUntil)
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if (step_->after < sleepUntil)
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sleepUntil = step_->after;
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sleepUntil = step_->after;
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continue;
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continue;
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}
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}
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}
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runnableSorted.push_back(step);
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runnableSorted.emplace_back(step, *step_);
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}
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}
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}
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}
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for (auto & step : runnableSorted) {
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auto step_(step->state.lock());
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step_->lowestShareUsed = 1e9;
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for (auto & jobset : step_->jobsets)
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step_->lowestShareUsed = std::min(step_->lowestShareUsed, jobset->shareUsed());
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}
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sort(runnableSorted.begin(), runnableSorted.end(),
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sort(runnableSorted.begin(), runnableSorted.end(),
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[](const Step::ptr & a, const Step::ptr & b)
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[](const StepInfo & a, const StepInfo & b)
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{
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{
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auto a_(a->state.lock());
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auto b_(b->state.lock()); // FIXME: deadlock?
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return
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return
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a_->highestGlobalPriority != b_->highestGlobalPriority ? a_->highestGlobalPriority > b_->highestGlobalPriority :
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a.highestGlobalPriority != b.highestGlobalPriority ? a.highestGlobalPriority > b.highestGlobalPriority :
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a_->lowestShareUsed != b_->lowestShareUsed ? a_->lowestShareUsed < b_->lowestShareUsed :
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a.lowestShareUsed != b.lowestShareUsed ? a.lowestShareUsed < b.lowestShareUsed :
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a_->highestLocalPriority != b_->highestLocalPriority ? a_->highestLocalPriority > b_->highestLocalPriority :
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a.highestLocalPriority != b.highestLocalPriority ? a.highestLocalPriority > b.highestLocalPriority :
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a_->lowestBuildID < b_->lowestBuildID;
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a.lowestBuildID < b.lowestBuildID;
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});
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});
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/* Find a machine with a free slot and find a step to run
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/* Find a machine with a free slot and find a step to run
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@ -211,7 +227,8 @@ system_time State::doDispatch()
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for (auto & mi : machinesSorted) {
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for (auto & mi : machinesSorted) {
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if (mi.machine->state->currentJobs >= mi.machine->maxJobs) continue;
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if (mi.machine->state->currentJobs >= mi.machine->maxJobs) continue;
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for (auto & step : runnableSorted) {
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for (auto & stepInfo : runnableSorted) {
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auto & step(stepInfo.step);
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/* Can this machine do this step? */
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/* Can this machine do this step? */
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if (!mi.machine->supportsStep(step)) continue;
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if (!mi.machine->supportsStep(step)) continue;
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@ -171,10 +171,6 @@ struct Step
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step. */
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step. */
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int highestGlobalPriority{0};
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int highestGlobalPriority{0};
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/* The lowest share used of any jobset depending on this
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step. */
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double lowestShareUsed;
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/* The highest local priority of any build depending on this
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/* The highest local priority of any build depending on this
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step. */
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step. */
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int highestLocalPriority{0};
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int highestLocalPriority{0};
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