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idset.go
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idset.go
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package storage
import (
"fmt"
"strings"
"github.com/containers/storage/pkg/idtools"
"github.com/containers/storage/types"
"github.com/google/go-intervals/intervalset"
)
// idSet represents a set of integer IDs. It is stored as an ordered set of intervals.
type idSet struct {
set *intervalset.ImmutableSet
}
func newIDSet(intervals []interval) *idSet {
s := intervalset.Empty()
for _, i := range intervals {
s.Add(intervalset.NewSet([]intervalset.Interval{i}))
}
return &idSet{set: s.ImmutableSet()}
}
// getHostIDs returns all the host ids in the id map.
func getHostIDs(idMaps []idtools.IDMap) *idSet {
var intervals []interval
for _, m := range idMaps {
intervals = append(intervals, interval{start: m.HostID, end: m.HostID + m.Size})
}
return newIDSet(intervals)
}
// getContainerIDs returns all the container ids in the id map.
func getContainerIDs(idMaps []idtools.IDMap) *idSet {
var intervals []interval
for _, m := range idMaps {
intervals = append(intervals, interval{start: m.ContainerID, end: m.ContainerID + m.Size})
}
return newIDSet(intervals)
}
// subtract returns the subtraction of `s` and `t`. `s` and `t` are unchanged.
func (s *idSet) subtract(t *idSet) *idSet {
if s == nil || t == nil {
return s
}
return &idSet{set: s.set.Sub(t.set)}
}
// union returns the union of `s` and `t`. `s` and `t` are unchanged.
func (s *idSet) union(t *idSet) *idSet {
if s == nil {
return t
} else if t == nil {
return s
}
return &idSet{set: s.set.Union(t.set)}
}
// Methods to iterate over the intervals of the idSet. intervalset doesn't provide one :-(
// iterator to idSet. Returns nil if iteration finishes.
type iteratorFn func() *interval
// cancelFn must be called exactly once unless iteratorFn returns nil, otherwise go routine might
// leak.
type cancelFn func()
func (s *idSet) iterator() (iteratorFn, cancelFn) {
if s == nil {
return func() *interval { return nil }, func() {}
}
cancelCh := make(chan byte)
dataCh := make(chan interval)
go func() {
s.set.Intervals(func(ii intervalset.Interval) bool {
select {
case <-cancelCh:
return false
case dataCh <- ii.(interval):
return true
}
})
close(dataCh)
}()
iterator := func() *interval {
i, ok := <-dataCh
if !ok {
return nil
}
return &i
}
return iterator, func() { close(cancelCh) }
}
// size returns the total number of ids in the ID set.
func (s *idSet) size() int {
var size int
iterator, cancel := s.iterator()
defer cancel()
for i := iterator(); i != nil; i = iterator() {
size += i.length()
}
return size
}
// findAvailable finds the `n` ids from `s`.
func (s *idSet) findAvailable(n int) (*idSet, error) {
var intervals []intervalset.Interval
iterator, cancel := s.iterator()
defer cancel()
for i := iterator(); n > 0 && i != nil; i = iterator() {
i.end = min(i.end, i.start+n)
intervals = append(intervals, *i)
n -= i.length()
}
if n > 0 {
return nil, types.ErrNoAvailableIDs
}
return &idSet{set: intervalset.NewImmutableSet(intervals)}, nil
}
// zip creates an id map from `s` (host ids) and container ids.
func (s *idSet) zip(container *idSet) []idtools.IDMap {
hostIterator, hostCancel := s.iterator()
defer hostCancel()
containerIterator, containerCancel := container.iterator()
defer containerCancel()
var out []idtools.IDMap
for h, c := hostIterator(), containerIterator(); h != nil && c != nil; {
if n := min(h.length(), c.length()); n > 0 {
out = append(out, idtools.IDMap{
ContainerID: c.start,
HostID: h.start,
Size: n,
})
h.start += n
c.start += n
}
if h.IsZero() {
h = hostIterator()
}
if c.IsZero() {
c = containerIterator()
}
}
return out
}
// interval represents an interval of integers [start, end). Note it is allowed to have
// start >= end, in which case it is treated as an empty interval. It implements interface
// intervalset.Interval.
type interval struct {
// Start of the interval (inclusive).
start int
// End of the interval (exclusive).
end int
}
func (i interval) length() int {
return max(0, i.end-i.start)
}
func (i interval) Intersect(other intervalset.Interval) intervalset.Interval {
j := other.(interval)
return interval{start: max(i.start, j.start), end: min(i.end, j.end)}
}
func (i interval) Before(other intervalset.Interval) bool {
j := other.(interval)
return !i.IsZero() && !j.IsZero() && i.end < j.start
}
func (i interval) IsZero() bool {
return i.length() <= 0
}
func (i interval) Bisect(other intervalset.Interval) (intervalset.Interval, intervalset.Interval) {
j := other.(interval)
if j.IsZero() {
return i, interval{}
}
// Subtracting [j.start, j.end) is equivalent to the union of intersecting (-inf, j.start) and
// [j.end, +inf).
left := interval{start: i.start, end: min(i.end, j.start)}
right := interval{start: max(i.start, j.end), end: i.end}
return left, right
}
func (i interval) Adjoin(other intervalset.Interval) intervalset.Interval {
j := other.(interval)
if !i.IsZero() && !j.IsZero() && (i.end == j.start || j.end == i.start) {
return interval{start: min(i.start, j.start), end: max(i.end, j.end)}
}
return interval{}
}
func (i interval) Encompass(other intervalset.Interval) intervalset.Interval {
j := other.(interval)
switch {
case i.IsZero():
return j
case j.IsZero():
return i
default:
return interval{start: min(i.start, j.start), end: max(i.end, j.end)}
}
}
func hasOverlappingRanges(mappings []idtools.IDMap) error {
hostIntervals := intervalset.Empty()
containerIntervals := intervalset.Empty()
var conflicts []string
for _, m := range mappings {
c := interval{start: m.ContainerID, end: m.ContainerID + m.Size}
h := interval{start: m.HostID, end: m.HostID + m.Size}
added := false
overlaps := false
containerIntervals.IntervalsBetween(c, func(x intervalset.Interval) bool {
overlaps = true
return false
})
if overlaps {
conflicts = append(conflicts, fmt.Sprintf("%v:%v:%v", m.ContainerID, m.HostID, m.Size))
added = true
}
containerIntervals.Add(intervalset.NewSet([]intervalset.Interval{c}))
hostIntervals.IntervalsBetween(h, func(x intervalset.Interval) bool {
overlaps = true
return false
})
if overlaps && !added {
conflicts = append(conflicts, fmt.Sprintf("%v:%v:%v", m.ContainerID, m.HostID, m.Size))
}
hostIntervals.Add(intervalset.NewSet([]intervalset.Interval{h}))
}
if conflicts != nil {
if len(conflicts) == 1 {
return fmt.Errorf("the specified UID and/or GID mapping %s conflicts with other mappings: %w", conflicts[0], ErrInvalidMappings)
}
return fmt.Errorf("the specified UID and/or GID mappings %s conflict with other mappings: %w", strings.Join(conflicts, ", "), ErrInvalidMappings)
}
return nil
}