// Copyright (c) HashiCorp, Inc. // SPDX-License-Identifier: MPL-2.0 package scheduler import ( "fmt" "math" "github.com/hashicorp/nomad/nomad/structs" ) // deviceAllocator is used to allocate devices to allocations. The allocator // tracks availability as to not double allocate devices. type deviceAllocator struct { *structs.DeviceAccounter ctx Context } // newDeviceAllocator returns a new device allocator. The node is used to // populate the set of available devices based on what healthy device instances // exist on the node. func newDeviceAllocator(ctx Context, n *structs.Node) *deviceAllocator { return &deviceAllocator{ ctx: ctx, DeviceAccounter: structs.NewDeviceAccounter(n), } } // AssignDevice takes a device request and returns an assignment as well as a // score for the assignment. If no assignment could be made, an error is // returned explaining why. func (d *deviceAllocator) AssignDevice(ask *structs.RequestedDevice) (out *structs.AllocatedDeviceResource, score float64, err error) { // Try to hot path if len(d.Devices) == 0 { return nil, 0.0, fmt.Errorf("no devices available") } if ask.Count == 0 { return nil, 0.0, fmt.Errorf("invalid request of zero devices") } // Hold the current best offer var offer *structs.AllocatedDeviceResource var offerScore float64 var matchedWeights float64 // Determine the devices that are feasible based on availability and // constraints for id, devInst := range d.Devices { // Check if we have enough unused instances to use this assignable := uint64(0) for _, v := range devInst.Instances { if v == 0 { assignable++ } } // This device doesn't have enough instances if assignable < ask.Count { continue } // Check if the device works if !nodeDeviceMatches(d.ctx, devInst.Device, ask) { continue } // Score the choice var choiceScore float64 // Track the sum of matched affinity weights in a separate variable // We return this if this device had the best score compared to other devices considered var sumMatchedWeights float64 if l := len(ask.Affinities); l != 0 { totalWeight := 0.0 for _, a := range ask.Affinities { // Resolve the targets lVal, lOk := resolveDeviceTarget(a.LTarget, devInst.Device) rVal, rOk := resolveDeviceTarget(a.RTarget, devInst.Device) totalWeight += math.Abs(float64(a.Weight)) // Check if satisfied if !checkAttributeAffinity(d.ctx, a.Operand, lVal, rVal, lOk, rOk) { continue } choiceScore += float64(a.Weight) sumMatchedWeights += float64(a.Weight) } // normalize choiceScore /= totalWeight } // Only use the device if it is a higher score than we have already seen if offer != nil && choiceScore < offerScore { continue } // Set the new highest score offerScore = choiceScore // Set the new sum of matching affinity weights matchedWeights = sumMatchedWeights // Build the choice offer = &structs.AllocatedDeviceResource{ Vendor: id.Vendor, Type: id.Type, Name: id.Name, DeviceIDs: make([]string, 0, ask.Count), } assigned := uint64(0) for id, v := range devInst.Instances { if v == 0 && assigned < ask.Count { assigned++ offer.DeviceIDs = append(offer.DeviceIDs, id) if assigned == ask.Count { break } } } } // Failed to find a match if offer == nil { return nil, 0.0, fmt.Errorf("no devices match request") } return offer, matchedWeights, nil }