package solver import ( "context" "sync" "time" "github.com/pkg/errors" ) func NewInMemoryCacheStorage() CacheKeyStorage { return &inMemoryStore{ byID: map[string]*inMemoryKey{}, byResult: map[string]map[string]struct{}{}, } } type inMemoryStore struct { mu sync.RWMutex byID map[string]*inMemoryKey byResult map[string]map[string]struct{} } type inMemoryKey struct { id string results map[string]CacheResult links map[CacheInfoLink]map[string]struct{} backlinks map[string]struct{} } func (s *inMemoryStore) Exists(id string) bool { s.mu.RLock() defer s.mu.RUnlock() if k, ok := s.byID[id]; ok { return len(k.links) > 0 || len(k.results) > 0 } return false } func newInMemoryKey(id string) *inMemoryKey { return &inMemoryKey{ results: map[string]CacheResult{}, links: map[CacheInfoLink]map[string]struct{}{}, backlinks: map[string]struct{}{}, id: id, } } func (s *inMemoryStore) Walk(fn func(string) error) error { s.mu.RLock() ids := make([]string, 0, len(s.byID)) for id := range s.byID { ids = append(ids, id) } s.mu.RUnlock() for _, id := range ids { if err := fn(id); err != nil { return err } } return nil } func (s *inMemoryStore) WalkResults(id string, fn func(CacheResult) error) error { s.mu.RLock() k, ok := s.byID[id] if !ok { s.mu.RUnlock() return nil } copy := make([]CacheResult, 0, len(k.results)) for _, res := range k.results { copy = append(copy, res) } s.mu.RUnlock() for _, res := range copy { if err := fn(res); err != nil { return err } } return nil } func (s *inMemoryStore) Load(id string, resultID string) (CacheResult, error) { s.mu.RLock() defer s.mu.RUnlock() k, ok := s.byID[id] if !ok { return CacheResult{}, errors.Wrapf(ErrNotFound, "no such key %s", id) } r, ok := k.results[resultID] if !ok { return CacheResult{}, errors.WithStack(ErrNotFound) } return r, nil } func (s *inMemoryStore) AddResult(id string, res CacheResult) error { s.mu.Lock() defer s.mu.Unlock() k, ok := s.byID[id] if !ok { k = newInMemoryKey(id) s.byID[id] = k } k.results[res.ID] = res m, ok := s.byResult[res.ID] if !ok { m = map[string]struct{}{} s.byResult[res.ID] = m } m[id] = struct{}{} return nil } func (s *inMemoryStore) WalkIDsByResult(resultID string, fn func(string) error) error { s.mu.Lock() ids := map[string]struct{}{} for id := range s.byResult[resultID] { ids[id] = struct{}{} } s.mu.Unlock() for id := range ids { if err := fn(id); err != nil { return err } } return nil } func (s *inMemoryStore) Release(resultID string) error { s.mu.Lock() defer s.mu.Unlock() ids, ok := s.byResult[resultID] if !ok { return nil } for id := range ids { k, ok := s.byID[id] if !ok { continue } delete(k.results, resultID) delete(s.byResult[resultID], id) if len(s.byResult[resultID]) == 0 { delete(s.byResult, resultID) } s.emptyBranchWithParents(k) } return nil } func (s *inMemoryStore) emptyBranchWithParents(k *inMemoryKey) { if len(k.results) != 0 || len(k.links) != 0 { return } for id := range k.backlinks { p, ok := s.byID[id] if !ok { continue } for l := range p.links { delete(p.links[l], k.id) if len(p.links[l]) == 0 { delete(p.links, l) } } s.emptyBranchWithParents(p) } delete(s.byID, k.id) } func (s *inMemoryStore) AddLink(id string, link CacheInfoLink, target string) error { s.mu.Lock() defer s.mu.Unlock() k, ok := s.byID[id] if !ok { k = newInMemoryKey(id) s.byID[id] = k } k2, ok := s.byID[target] if !ok { k2 = newInMemoryKey(target) s.byID[target] = k2 } m, ok := k.links[link] if !ok { m = map[string]struct{}{} k.links[link] = m } k2.backlinks[id] = struct{}{} m[target] = struct{}{} return nil } func (s *inMemoryStore) WalkLinks(id string, link CacheInfoLink, fn func(id string) error) error { s.mu.RLock() k, ok := s.byID[id] if !ok { s.mu.RUnlock() return nil } var links []string for target := range k.links[link] { links = append(links, target) } s.mu.RUnlock() for _, t := range links { if err := fn(t); err != nil { return err } } return nil } func (s *inMemoryStore) HasLink(id string, link CacheInfoLink, target string) bool { s.mu.RLock() defer s.mu.RUnlock() if k, ok := s.byID[id]; ok { if v, ok := k.links[link]; ok { if _, ok := v[target]; ok { return true } } } return false } func (s *inMemoryStore) WalkBacklinks(id string, fn func(id string, link CacheInfoLink) error) error { s.mu.RLock() k, ok := s.byID[id] if !ok { s.mu.RUnlock() return nil } var outIDs []string var outLinks []CacheInfoLink for bid := range k.backlinks { b, ok := s.byID[bid] if !ok { continue } for l, m := range b.links { if _, ok := m[id]; !ok { continue } outIDs = append(outIDs, bid) outLinks = append(outLinks, CacheInfoLink{ Digest: rootKey(l.Digest, l.Output), Input: l.Input, Selector: l.Selector, }) } } s.mu.RUnlock() for i := range outIDs { if err := fn(outIDs[i], outLinks[i]); err != nil { return err } } return nil } func NewInMemoryResultStorage() CacheResultStorage { return &inMemoryResultStore{m: &sync.Map{}} } type inMemoryResultStore struct { m *sync.Map } func (s *inMemoryResultStore) Save(r Result, createdAt time.Time) (CacheResult, error) { s.m.Store(r.ID(), r) return CacheResult{ID: r.ID(), CreatedAt: createdAt}, nil } func (s *inMemoryResultStore) Load(ctx context.Context, res CacheResult) (Result, error) { v, ok := s.m.Load(res.ID) if !ok { return nil, errors.WithStack(ErrNotFound) } return v.(Result), nil } func (s *inMemoryResultStore) LoadRemote(ctx context.Context, res CacheResult) (*Remote, error) { return nil, nil } func (s *inMemoryResultStore) Exists(id string) bool { _, ok := s.m.Load(id) return ok }