package cpuset import ( "fmt" "reflect" "sort" "strconv" "strings" ) // CPUSet is a set like object that provides methods helpful when working with cpus with systems // such as the Linux cpuset cgroup subsystem. A CPUSet is immutable and can be safely accessed concurrently. type CPUSet struct { cpus map[uint16]struct{} } // New initializes a new CPUSet with 0 or more containing cpus func New(cpus ...uint16) CPUSet { cpuset := CPUSet{ cpus: make(map[uint16]struct{}), } for _, v := range cpus { cpuset.cpus[v] = struct{}{} } return cpuset } // String returns the cpuset as a comma delimited set of core values and ranged func (c CPUSet) String() string { if c.Size() == 0 { return "" } cores := c.ToSlice() cpusetStrs := []string{} cur := [2]uint16{cores[0], cores[0]} for i := 1; i < len(cores); i++ { if cores[i] == cur[1]+1 { cur[1] = cores[i] continue } if cur[0] == cur[1] { cpusetStrs = append(cpusetStrs, fmt.Sprintf("%d", cur[0])) } else { cpusetStrs = append(cpusetStrs, fmt.Sprintf("%d-%d", cur[0], cur[1])) } // new range cur = [2]uint16{cores[i], cores[i]} } if cur[0] == cur[1] { cpusetStrs = append(cpusetStrs, fmt.Sprintf("%d", cur[0])) } else { cpusetStrs = append(cpusetStrs, fmt.Sprintf("%d-%d", cur[0], cur[1])) } return strings.Join(cpusetStrs, ",") } // Size returns to the number of cpus contained in the CPUSet func (c CPUSet) Size() int { return len(c.cpus) } // ToSlice returns a sorted slice of uint16 CPU IDs contained in the CPUSet. func (c CPUSet) ToSlice() []uint16 { cpus := []uint16{} for k := range c.cpus { cpus = append(cpus, k) } sort.Slice(cpus, func(i, j int) bool { return cpus[i] < cpus[j] }) return cpus } // Union returns a new set that is the union of this CPUSet and the supplied other. // Ex. [0,1,2,3].Union([2,3,4,5]) = [0,1,2,3,4,5] func (c CPUSet) Union(other CPUSet) CPUSet { s := New() for k := range c.cpus { s.cpus[k] = struct{}{} } for k := range other.cpus { s.cpus[k] = struct{}{} } return s } // Difference returns a new set that is the difference of this CPUSet and the supplied other. // [0,1,2,3].Difference([2,3,4]) = [0,1] func (c CPUSet) Difference(other CPUSet) CPUSet { s := New() for k := range c.cpus { s.cpus[k] = struct{}{} } for k := range other.cpus { delete(s.cpus, k) } return s } // IsSubsetOf returns true if all cpus of the this CPUSet are present in the other CPUSet. func (s CPUSet) IsSubsetOf(other CPUSet) bool { for cpu := range s.cpus { if _, ok := other.cpus[cpu]; !ok { return false } } return true } func (s CPUSet) IsSupersetOf(other CPUSet) bool { for cpu := range other.cpus { if _, ok := s.cpus[cpu]; !ok { return false } } return true } // ContainsAny returns true if any cpus in other CPUSet are present func (s CPUSet) ContainsAny(other CPUSet) bool { for cpu := range other.cpus { if _, ok := s.cpus[cpu]; ok { return true } } return false } // Equals tests the equality of the elements in the CPUSet func (s CPUSet) Equals(other CPUSet) bool { return reflect.DeepEqual(s.cpus, other.cpus) } // Parse parses the Linux cpuset format into a CPUSet // // Ref: http://man7.org/linux/man-pages/man7/cpuset.7.html#FORMATS func Parse(s string) (CPUSet, error) { cpuset := New() s = strings.TrimSpace(s) if s == "" { return cpuset, nil } sets := strings.Split(s, ",") for _, set := range sets { bounds := strings.Split(set, "-") if len(bounds) == 1 { v, err := strconv.Atoi(bounds[0]) if err != nil { return New(), err } cpuset.cpus[uint16(v)] = struct{}{} continue } if len(bounds) > 2 { return New(), fmt.Errorf("failed to parse element %s, more than 1 '-' found", set) } lower, err := strconv.Atoi(bounds[0]) if err != nil { return New(), err } upper, err := strconv.Atoi(bounds[1]) if err != nil { return New(), err } for v := lower; v <= upper; v++ { cpuset.cpus[uint16(v)] = struct{}{} } } return cpuset, nil }