package solver import ( "sync" "github.com/moby/buildkit/identity" ) // edgeIndex is a synchronous map for detecting edge collisions. type edgeIndex struct { mu sync.Mutex items map[string]*indexItem backRefs map[*edge]map[string]struct{} } type indexItem struct { edge *edge links map[CacheInfoLink]map[string]struct{} deps map[string]struct{} } func newEdgeIndex() *edgeIndex { return &edgeIndex{ items: map[string]*indexItem{}, backRefs: map[*edge]map[string]struct{}{}, } } func (ei *edgeIndex) Release(e *edge) { ei.mu.Lock() defer ei.mu.Unlock() for id := range ei.backRefs[e] { ei.releaseEdge(id, e) } delete(ei.backRefs, e) } func (ei *edgeIndex) releaseEdge(id string, e *edge) { item, ok := ei.items[id] if !ok { return } item.edge = nil if len(item.links) == 0 { for d := range item.deps { ei.releaseLink(d, id) } delete(ei.items, id) } } func (ei *edgeIndex) releaseLink(id, target string) { item, ok := ei.items[id] if !ok { return } for lid, links := range item.links { for check := range links { if check == target { delete(links, check) } } if len(links) == 0 { delete(item.links, lid) } } if item.edge == nil && len(item.links) == 0 { for d := range item.deps { ei.releaseLink(d, id) } delete(ei.items, id) } } func (ei *edgeIndex) LoadOrStore(k *CacheKey, e *edge) *edge { ei.mu.Lock() defer ei.mu.Unlock() // get all current edges that match the cachekey ids := ei.getAllMatches(k) var oldID string var old *edge for _, id := range ids { if item, ok := ei.items[id]; ok { if item.edge != e { oldID = id old = item.edge } } } if old != nil && !(!isIgnoreCache(old) && isIgnoreCache(e)) { ei.enforceLinked(oldID, k) return old } id := identity.NewID() if len(ids) > 0 { id = ids[0] } ei.enforceLinked(id, k) ei.items[id].edge = e backRefs, ok := ei.backRefs[e] if !ok { backRefs = map[string]struct{}{} ei.backRefs[e] = backRefs } backRefs[id] = struct{}{} return nil } // enforceLinked adds links from current ID to all dep keys func (er *edgeIndex) enforceLinked(id string, k *CacheKey) { main, ok := er.items[id] if !ok { main = &indexItem{ links: map[CacheInfoLink]map[string]struct{}{}, deps: map[string]struct{}{}, } er.items[id] = main } deps := k.Deps() for i, dd := range deps { for _, d := range dd { ck := d.CacheKey.CacheKey er.enforceIndexID(ck) ll := CacheInfoLink{Input: Index(i), Digest: k.Digest(), Output: k.Output(), Selector: d.Selector} for _, ckID := range ck.indexIDs { if item, ok := er.items[ckID]; ok { links, ok := item.links[ll] if !ok { links = map[string]struct{}{} item.links[ll] = links } links[id] = struct{}{} main.deps[ckID] = struct{}{} } } } } } func (ei *edgeIndex) enforceIndexID(k *CacheKey) { if len(k.indexIDs) > 0 { return } matches := ei.getAllMatches(k) if len(matches) > 0 { k.indexIDs = matches } else { k.indexIDs = []string{identity.NewID()} } for _, id := range k.indexIDs { ei.enforceLinked(id, k) } } func (ei *edgeIndex) getAllMatches(k *CacheKey) []string { deps := k.Deps() if len(deps) == 0 { return []string{rootKey(k.Digest(), k.Output()).String()} } for _, dd := range deps { for _, k := range dd { ei.enforceIndexID(k.CacheKey.CacheKey) } } matches := map[string]struct{}{} for i, dd := range deps { if i == 0 { for _, d := range dd { ll := CacheInfoLink{Input: Index(i), Digest: k.Digest(), Output: k.Output(), Selector: d.Selector} for _, ckID := range d.CacheKey.CacheKey.indexIDs { item, ok := ei.items[ckID] if ok { for l := range item.links[ll] { matches[l] = struct{}{} } } } } continue } if len(matches) == 0 { break } for m := range matches { found := false for _, d := range dd { ll := CacheInfoLink{Input: Index(i), Digest: k.Digest(), Output: k.Output(), Selector: d.Selector} for _, ckID := range d.CacheKey.CacheKey.indexIDs { if l, ok := ei.items[ckID].links[ll]; ok { if _, ok := l[m]; ok { found = true break } } } } if !found { delete(matches, m) } } } out := make([]string, 0, len(matches)) for m := range matches { out = append(out, m) } return out } func isIgnoreCache(e *edge) bool { if e.edge.Vertex == nil { return false } return e.edge.Vertex.Options().IgnoreCache }