open-nomad/nomad/plan_apply.go

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package nomad
import (
"fmt"
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"time"
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"github.com/armon/go-metrics"
"github.com/hashicorp/nomad/nomad/state"
"github.com/hashicorp/nomad/nomad/structs"
)
// planApply is a long lived goroutine that reads plan allocations from
// the plan queue, determines if they can be applied safely and applies
// them via Raft.
func (s *Server) planApply() {
for {
// Pull the next pending plan, exit if we are no longer leader
pending, err := s.planQueue.Dequeue(0)
if err != nil {
return
}
// Verify the evaluation is outstanding, and that the tokens match.
token, ok := s.evalBroker.Outstanding(pending.plan.EvalID)
if !ok {
s.logger.Printf("[ERR] nomad: plan received for non-outstanding evaluation %s",
pending.plan.EvalID)
pending.respond(nil, fmt.Errorf("evaluation is not outstanding"))
continue
}
if pending.plan.EvalToken != token {
s.logger.Printf("[ERR] nomad: plan received for evaluation %s with wrong token",
pending.plan.EvalID)
pending.respond(nil, fmt.Errorf("evaluation token does not match"))
continue
}
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// Snapshot the state so that we have a consistent view of the world
snap, err := s.fsm.State().Snapshot()
if err != nil {
s.logger.Printf("[ERR] nomad: failed to snapshot state: %v", err)
pending.respond(nil, err)
continue
}
// Evaluate the plan
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result, err := evaluatePlan(snap, pending.plan)
if err != nil {
s.logger.Printf("[ERR] nomad: failed to evaluate plan: %v", err)
pending.respond(nil, err)
continue
}
// Apply the plan if there is anything to do
if !result.IsNoOp() {
allocIndex, err := s.applyPlan(result)
if err != nil {
s.logger.Printf("[ERR] nomad: failed to apply plan: %v", err)
pending.respond(nil, err)
continue
}
result.AllocIndex = allocIndex
}
// Respond to the plan
pending.respond(result, nil)
}
}
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// applyPlan is used to apply the plan result and to return the alloc index
func (s *Server) applyPlan(result *structs.PlanResult) (uint64, error) {
defer metrics.MeasureSince([]string{"nomad", "plan", "apply"}, time.Now())
req := structs.AllocUpdateRequest{}
for _, updateList := range result.NodeUpdate {
req.Alloc = append(req.Alloc, updateList...)
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}
for _, allocList := range result.NodeAllocation {
req.Alloc = append(req.Alloc, allocList...)
}
req.Alloc = append(req.Alloc, result.FailedAllocs...)
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_, index, err := s.raftApply(structs.AllocUpdateRequestType, &req)
return index, err
}
// evaluatePlan is used to determine what portions of a plan
// can be applied if any. Returns if there should be a plan application
// which may be partial or if there was an error
func evaluatePlan(snap *state.StateSnapshot, plan *structs.Plan) (*structs.PlanResult, error) {
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defer metrics.MeasureSince([]string{"nomad", "plan", "evaluate"}, time.Now())
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// Create a result holder for the plan
result := &structs.PlanResult{
NodeUpdate: make(map[string][]*structs.Allocation),
NodeAllocation: make(map[string][]*structs.Allocation),
FailedAllocs: plan.FailedAllocs,
}
// Collect all the nodeIDs
nodeIDs := make(map[string]struct{})
for nodeID := range plan.NodeUpdate {
nodeIDs[nodeID] = struct{}{}
}
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for nodeID := range plan.NodeAllocation {
nodeIDs[nodeID] = struct{}{}
}
// Check each allocation to see if it should be allowed
for nodeID := range nodeIDs {
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// Evaluate the plan for this node
fit, err := evaluateNodePlan(snap, plan, nodeID)
if err != nil {
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return nil, err
}
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if !fit {
// Scheduler must have stale data, RefreshIndex should force
// the latest view of allocations and nodes
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allocIndex, err := snap.Index("allocs")
if err != nil {
return nil, err
}
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nodeIndex, err := snap.Index("nodes")
if err != nil {
return nil, err
}
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result.RefreshIndex = maxUint64(nodeIndex, allocIndex)
// If we require all-at-once scheduling, there is no point
// to continue the evaluation, as we've already failed.
if plan.AllAtOnce {
result.NodeUpdate = nil
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result.NodeAllocation = nil
return result, nil
}
// Skip this node, since it cannot be used.
continue
}
// Add this to the plan result
if nodeUpdate := plan.NodeUpdate[nodeID]; len(nodeUpdate) > 0 {
result.NodeUpdate[nodeID] = nodeUpdate
}
if nodeAlloc := plan.NodeAllocation[nodeID]; len(nodeAlloc) > 0 {
result.NodeAllocation[nodeID] = nodeAlloc
}
}
return result, nil
}
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// evaluateNodePlan is used to evalute the plan for a single node,
// returning if the plan is valid or if an error is encountered
func evaluateNodePlan(snap *state.StateSnapshot, plan *structs.Plan, nodeID string) (bool, error) {
// If this is an evict-only plan, it always 'fits' since we are removing things.
if len(plan.NodeAllocation[nodeID]) == 0 {
return true, nil
}
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// Get the node itself
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node, err := snap.NodeByID(nodeID)
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if err != nil {
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return false, fmt.Errorf("failed to get node '%s': %v", nodeID, err)
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}
// If the node does not exist or is not ready for schduling it is not fit
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// XXX: There is a potential race between when we do this check and when
// the Raft commit happens.
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if node == nil || node.Status != structs.NodeStatusReady || node.Drain {
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return false, nil
}
// Get the existing allocations
existingAlloc, err := snap.AllocsByNode(nodeID)
if err != nil {
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return false, fmt.Errorf("failed to get existing allocations for '%s': %v", nodeID, err)
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}
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// Filter on alloc state
existingAlloc = structs.FilterTerminalAllocs(existingAlloc)
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// Determine the proposed allocation by first removing allocations
// that are planned evictions and adding the new allocations.
proposed := existingAlloc
var remove []*structs.Allocation
if update := plan.NodeUpdate[nodeID]; len(update) > 0 {
remove = append(remove, update...)
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}
if updated := plan.NodeAllocation[nodeID]; len(updated) > 0 {
for _, alloc := range updated {
remove = append(remove, alloc)
}
}
proposed = structs.RemoveAllocs(existingAlloc, remove)
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proposed = append(proposed, plan.NodeAllocation[nodeID]...)
// Check if these allocations fit
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fit, _, _, err := structs.AllocsFit(node, proposed, nil)
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return fit, err
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}