diff --git a/tka/tailchonk.go b/tka/tailchonk.go index 75ac70977..1bbdb8b4b 100644 --- a/tka/tailchonk.go +++ b/tka/tailchonk.go @@ -5,10 +5,12 @@ import ( "bytes" + "errors" "fmt" "os" "path/filepath" "sync" + "time" "github.com/fxamacker/cbor/v2" "tailscale.com/atomicfile" @@ -53,6 +55,24 @@ type Chonk interface { LastActiveAncestor() (*AUMHash, error) } +// CompactableChonk implementation are extensions of Chonk, which are +// able to be operated by compaction logic to deleted old AUMs. +type CompactableChonk interface { + Chonk + + // AllAUMs returns all AUMs stored in the chonk. + AllAUMs() ([]AUMHash, error) + + // CommitTime returns the time at which the AUM was committed. + // + // If the AUM does not exist, then os.ErrNotExist is returned. + CommitTime(hash AUMHash) (time.Time, error) + + // PurgeAUMs permanently and irrevocably deletes the specified + // AUMs from storage. + PurgeAUMs(hashes []AUMHash) error +} + // Mem implements in-memory storage of TKA state, suitable for // tests. // @@ -437,3 +457,302 @@ func (c *FS) commit(h AUMHash, updater func(*fsHashInfo)) error { } return atomicfile.WriteFile(filepath.Join(dir, base), buff.Bytes(), 0644) } + +// CompactionOptions describes tuneables to use when compacting a Chonk. +type CompactionOptions struct { + // The minimum number of ancestor AUMs to remember. The actual length + // of the chain post-compaction may be longer to reach a Checkpoint AUM. + MinChain int + // The minimum duration to store an AUM before it is a candidate for deletion. + MinAge time.Duration +} + +// retainState tracks the state of an AUM hash as it is being considered for +// deletion. +type retainState uint8 + +// Valid retainState flags. +const ( + retainStateActive retainState = 1 << iota // The AUM is part of the active chain and less than MinChain hops from HEAD. + retainStateYoung // The AUM is younger than MinAge. + retainStateLeaf // The AUM is a descendant of an AUM to be retained. + retainStateAncestor // The AUM is part of a chain between a retained AUM and the new lastActiveAncestor. + retainStateCandidate // The AUM is part of the active chain. + + // retainAUMMask is a bit mask of any bit which should prevent + // the deletion of an AUM. + retainAUMMask retainState = retainStateActive | retainStateYoung | retainStateLeaf | retainStateAncestor +) + +// markActiveChain marks AUMs in the active chain. +// All AUMs that are within minChain ancestors of head are +// marked retainStateActive, and all remaining ancestors are +// marked retainStateCandidate. +// +// markActiveChain returns the next ancestor AUM which is a checkpoint AUM. +func markActiveChain(storage Chonk, verdict map[AUMHash]retainState, minChain int, head AUMHash) (lastActiveAncestor AUMHash, err error) { + next, err := storage.AUM(head) + if err != nil { + return AUMHash{}, err + } + + for i := 0; i < minChain; i++ { + h := next.Hash() + verdict[h] |= retainStateActive + + parent, hasParent := next.Parent() + if !hasParent { + // Genesis AUM (beginning of time). The chain isnt long enough to need truncating. + return h, nil + } + + if next, err = storage.AUM(parent); err != nil { + if err == os.ErrNotExist { + // We've reached the end of the chain we have stored. + return h, nil + } + return AUMHash{}, fmt.Errorf("reading active chain (retainStateActive) (%d): %w", i, err) + } + } + + // If we got this far, we have at least minChain AUMs stored, and minChain number + // of ancestors have been marked for retention. We now continue to iterate backwards + // till we find an AUM which we can compact to (a Checkpoint AUM). + for { + h := next.Hash() + verdict[h] |= retainStateActive + if next.MessageKind == AUMCheckpoint { + lastActiveAncestor = h + break + } + + parent, hasParent := next.Parent() + if !hasParent { + return AUMHash{}, errors.New("reached genesis AUM without finding an appropriate lastActiveAncestor") + } + if next, err = storage.AUM(parent); err != nil { + return AUMHash{}, fmt.Errorf("searching for compaction target: %w", err) + } + } + + // Mark remaining known ancestors as retainStateCandidate. + for { + parent, hasParent := next.Parent() + if !hasParent { + break + } + verdict[parent] |= retainStateCandidate + if next, err = storage.AUM(parent); err != nil { + if err == os.ErrNotExist { + // We've reached the end of the chain we have stored. + break + } + return AUMHash{}, fmt.Errorf("reading active chain (retainStateCandidate): %w", err) + } + } + + return lastActiveAncestor, nil +} + +// markYoungAUMs marks all AUMs younger than minAge for retention. All +// candidate AUMs must exist in verdict. +func markYoungAUMs(storage CompactableChonk, verdict map[AUMHash]retainState, minAge time.Duration) error { + minTime := time.Now().Add(-minAge) + for h, _ := range verdict { + commitTime, err := storage.CommitTime(h) + if err != nil { + return err + } + + if commitTime.After(minTime) { + verdict[h] |= retainStateYoung + } + } + return nil +} + +// markAncestorIntersectionAUMs walks backwards from all AUMs to be retained, +// ensuring they intersect with candidateAncestor. All AUMs between a retained +// AUM and candidateAncestor are marked for retention. +// +// If there is no intersection between candidateAncestor and the ancestors of +// a retained AUM (this can happen if a retained AUM intersects the main chain +// before candidateAncestor) then candidate ancestor is recomputed based on +// the new oldest intersection. +// +// The final value for lastActiveAncestor is returned. +func markAncestorIntersectionAUMs(storage Chonk, verdict map[AUMHash]retainState, candidateAncestor AUMHash) (lastActiveAncestor AUMHash, err error) { + toScan := make([]AUMHash, 0, len(verdict)) + for h, v := range verdict { + if (v & retainAUMMask) == 0 { + continue // not marked for retention, so dont need to consider it + } + if h == candidateAncestor { + continue + } + toScan = append(toScan, h) + } + + var didAdjustCandidateAncestor bool + for len(toScan) > 0 { + nextIterScan := make([]AUMHash, 0, len(verdict)) + for _, h := range toScan { + if verdict[h]&retainStateAncestor != 0 { + // This AUM and its ancestors have already been iterated. + continue + } + verdict[h] |= retainStateAncestor + + a, err := storage.AUM(h) + if err != nil { + return AUMHash{}, fmt.Errorf("reading %v: %w", h, err) + } + parent, hasParent := a.Parent() + if !hasParent { + return AUMHash{}, errors.New("reached genesis AUM without intersecting with candidate ancestor") + } + + if verdict[parent]&retainAUMMask != 0 { + // Includes candidateAncestor (has retainStateActive set) + continue + } + if verdict[parent]&retainStateCandidate != 0 { + // We've intersected with the active chain but haven't done so through + // candidateAncestor. That means that we intersect the active chain + // before candidateAncestor, hence candidateAncestor actually needs + // to be earlier than it is now. + candidateAncestor = parent + didAdjustCandidateAncestor = true + verdict[parent] |= retainStateAncestor + + // There could be AUMs on the active chain between our new candidateAncestor + // and the old one, make sure they are marked as retained. + next := parent + childLoop: + for { + children, err := storage.ChildAUMs(next) + if err != nil { + return AUMHash{}, fmt.Errorf("reading children %v: %w", next, err) + } + // While there can be many children of an AUM, there can only be + // one child on the active chain (it will have retainStateCandidate set). + for _, a := range children { + h := a.Hash() + if v := verdict[h]; v&retainStateCandidate != 0 && v&retainStateActive == 0 { + verdict[h] |= retainStateAncestor + next = h + continue childLoop + } + } + break + } + } + + nextIterScan = append(nextIterScan, parent) + } + toScan = nextIterScan + } + + // If candidateAncestor was adjusted backwards, then it may not be a checkpoint + // (and hence a valid compaction candidate). If so, iterate backwards and adjust + // the candidateAncestor till we find a checkpoint. + if didAdjustCandidateAncestor { + var next AUM + if next, err = storage.AUM(candidateAncestor); err != nil { + return AUMHash{}, fmt.Errorf("searching for compaction target: %w", err) + } + + for { + h := next.Hash() + verdict[h] |= retainStateActive + if next.MessageKind == AUMCheckpoint { + candidateAncestor = h + break + } + + parent, hasParent := next.Parent() + if !hasParent { + return AUMHash{}, errors.New("reached genesis AUM without finding an appropriate candidateAncestor") + } + if next, err = storage.AUM(parent); err != nil { + return AUMHash{}, fmt.Errorf("searching for compaction target: %w", err) + } + } + } + + return candidateAncestor, nil +} + +// markDescendantAUMs marks all children of a retained AUM as retained. +func markDescendantAUMs(storage Chonk, verdict map[AUMHash]retainState) error { + toScan := make([]AUMHash, 0, len(verdict)) + for h, v := range verdict { + if v&retainAUMMask == 0 { + continue // not marked, so dont need to mark descendants + } + toScan = append(toScan, h) + } + + for len(toScan) > 0 { + nextIterScan := make([]AUMHash, 0, len(verdict)) + for _, h := range toScan { + if verdict[h]&retainStateLeaf != 0 { + // This AUM and its decendants have already been marked. + continue + } + verdict[h] |= retainStateLeaf + + children, err := storage.ChildAUMs(h) + if err != nil { + return err + } + for _, a := range children { + nextIterScan = append(nextIterScan, a.Hash()) + } + } + toScan = nextIterScan + } + + return nil +} + +// Compact deletes old AUMs from storage, based on the parameters given in opts. +func Compact(storage CompactableChonk, head AUMHash, opts CompactionOptions) (lastActiveAncestor AUMHash, err error) { + if opts.MinChain == 0 { + return AUMHash{}, errors.New("opts.MinChain must be set") + } + if opts.MinAge == 0 { + return AUMHash{}, errors.New("opts.MinAge must be set") + } + + all, err := storage.AllAUMs() + if err != nil { + return AUMHash{}, fmt.Errorf("AllAUMs: %w", err) + } + verdict := make(map[AUMHash]retainState, len(all)) + for _, h := range all { + verdict[h] = 0 + } + + if lastActiveAncestor, err = markActiveChain(storage, verdict, opts.MinChain, head); err != nil { + return AUMHash{}, fmt.Errorf("marking active chain: %w", err) + } + if err := markYoungAUMs(storage, verdict, opts.MinAge); err != nil { + return AUMHash{}, fmt.Errorf("marking young AUMs: %w", err) + } + if err := markDescendantAUMs(storage, verdict); err != nil { + return AUMHash{}, fmt.Errorf("marking decendant AUMs: %w", err) + } + if lastActiveAncestor, err = markAncestorIntersectionAUMs(storage, verdict, lastActiveAncestor); err != nil { + return AUMHash{}, fmt.Errorf("marking ancestor intersection: %w", err) + } + + toDelete := make([]AUMHash, 0, len(verdict)) + for h, v := range verdict { + if v&retainAUMMask == 0 { // no retention set + toDelete = append(toDelete, h) + } + } + + return lastActiveAncestor, storage.PurgeAUMs(toDelete) +} diff --git a/tka/tailchonk_test.go b/tka/tailchonk_test.go index cf78d2185..04c364090 100644 --- a/tka/tailchonk_test.go +++ b/tka/tailchonk_test.go @@ -4,12 +4,15 @@ package tka import ( + "bytes" "fmt" "os" "path/filepath" "testing" + "time" "github.com/google/go-cmp/cmp" + "github.com/google/go-cmp/cmp/cmpopts" "golang.org/x/crypto/blake2s" ) @@ -171,3 +174,431 @@ func TestTailchonkFS_Commit(t *testing.T) { t.Errorf("stat of AUM parent failed: %v", err) } } + +func TestMarkActiveChain(t *testing.T) { + type aumTemplate struct { + AUM AUM + } + + tcs := []struct { + name string + minChain int + chain []aumTemplate + expectLastActiveIdx int // expected lastActiveAncestor, corresponds to an index on chain. + }{ + { + name: "genesis", + minChain: 2, + chain: []aumTemplate{ + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + }, + expectLastActiveIdx: 0, + }, + { + name: "simple truncate", + minChain: 2, + chain: []aumTemplate{ + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + }, + expectLastActiveIdx: 1, + }, + { + name: "long truncate", + minChain: 5, + chain: []aumTemplate{ + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + }, + expectLastActiveIdx: 2, + }, + { + name: "truncate finding checkpoint", + minChain: 2, + chain: []aumTemplate{ + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMAddKey, Key: &Key{}}}, // Should keep searching upwards for a checkpoint + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + {AUM: AUM{MessageKind: AUMCheckpoint, State: &State{}}}, + }, + expectLastActiveIdx: 1, + }, + } + + for _, tc := range tcs { + t.Run(tc.name, func(t *testing.T) { + verdict := make(map[AUMHash]retainState, len(tc.chain)) + + // Build the state of the tailchonk for tests. + storage := &Mem{} + var prev AUMHash + for i := range tc.chain { + if !prev.IsZero() { + tc.chain[i].AUM.PrevAUMHash = make([]byte, len(prev[:])) + copy(tc.chain[i].AUM.PrevAUMHash, prev[:]) + } + if err := storage.CommitVerifiedAUMs([]AUM{tc.chain[i].AUM}); err != nil { + t.Fatal(err) + } + + h := tc.chain[i].AUM.Hash() + prev = h + verdict[h] = 0 + } + + got, err := markActiveChain(storage, verdict, tc.minChain, prev) + if err != nil { + t.Logf("state = %+v", verdict) + t.Fatalf("markActiveChain() failed: %v", err) + } + want := tc.chain[tc.expectLastActiveIdx].AUM.Hash() + if got != want { + t.Logf("state = %+v", verdict) + t.Errorf("lastActiveAncestor = %v, want %v", got, want) + } + + // Make sure the verdict array was marked correctly. + for i := range tc.chain { + h := tc.chain[i].AUM.Hash() + if i >= tc.expectLastActiveIdx { + if (verdict[h] & retainStateActive) == 0 { + t.Errorf("verdict[%v] = %v, want %v set", h, verdict[h], retainStateActive) + } + } else { + if (verdict[h] & retainStateCandidate) == 0 { + t.Errorf("verdict[%v] = %v, want %v set", h, verdict[h], retainStateCandidate) + } + } + } + }) + } +} + +func TestMarkDescendantAUMs(t *testing.T) { + c := newTestchain(t, ` + genesis -> B -> C -> C2 + | -> D + | -> E -> F -> G -> H + | -> E2 + + // tweak seeds so hashes arent identical + C.hashSeed = 1 + D.hashSeed = 2 + E.hashSeed = 3 + E2.hashSeed = 4 + `) + + verdict := make(map[AUMHash]retainState, len(c.AUMs)) + for _, a := range c.AUMs { + verdict[a.Hash()] = 0 + } + + // Mark E & C. + verdict[c.AUMHashes["C"]] = retainStateActive + verdict[c.AUMHashes["E"]] = retainStateActive + + if err := markDescendantAUMs(c.Chonk(), verdict); err != nil { + t.Errorf("markDescendantAUMs() failed: %v", err) + } + + // Make sure the descendants got marked. + hs := c.AUMHashes + for _, h := range []AUMHash{hs["C2"], hs["F"], hs["G"], hs["H"], hs["E2"]} { + if (verdict[h] & retainStateLeaf) == 0 { + t.Errorf("%v was not marked as a descendant", h) + } + } + for _, h := range []AUMHash{hs["genesis"], hs["B"], hs["D"]} { + if (verdict[h] & retainStateLeaf) != 0 { + t.Errorf("%v was marked as a descendant and shouldnt be", h) + } + } +} + +func TestMarkAncestorIntersectionAUMs(t *testing.T) { + fakeState := &State{ + Keys: []Key{{Kind: Key25519, Votes: 1}}, + DisablementSecrets: [][]byte{bytes.Repeat([]byte{1}, 32)}, + } + + tcs := []struct { + name string + chain *testChain + verdicts map[string]retainState + initialAncestor string + wantAncestor string + wantRetained []string + wantDeleted []string + }{ + { + name: "genesis", + chain: newTestchain(t, ` + A + A.template = checkpoint`, optTemplate("checkpoint", AUM{MessageKind: AUMCheckpoint, State: fakeState})), + initialAncestor: "A", + wantAncestor: "A", + verdicts: map[string]retainState{ + "A": retainStateActive, + }, + wantRetained: []string{"A"}, + }, + { + name: "no adjustment", + chain: newTestchain(t, ` + DEAD -> A -> B -> C + A.template = checkpoint + B.template = checkpoint`, optTemplate("checkpoint", AUM{MessageKind: AUMCheckpoint, State: fakeState})), + initialAncestor: "A", + wantAncestor: "A", + verdicts: map[string]retainState{ + "A": retainStateActive, + "B": retainStateActive, + "C": retainStateActive, + "DEAD": retainStateCandidate, + }, + wantRetained: []string{"A", "B", "C"}, + wantDeleted: []string{"DEAD"}, + }, + { + name: "fork", + chain: newTestchain(t, ` + A -> B -> C -> D + | -> FORK + A.template = checkpoint + C.template = checkpoint + D.template = checkpoint + FORK.hashSeed = 2`, optTemplate("checkpoint", AUM{MessageKind: AUMCheckpoint, State: fakeState})), + initialAncestor: "D", + wantAncestor: "C", + verdicts: map[string]retainState{ + "A": retainStateCandidate, + "B": retainStateCandidate, + "C": retainStateCandidate, + "D": retainStateActive, + "FORK": retainStateYoung, + }, + wantRetained: []string{"C", "D", "FORK"}, + wantDeleted: []string{"A", "B"}, + }, + { + name: "fork finding earlier checkpoint", + chain: newTestchain(t, ` + A -> B -> C -> D -> E -> F + | -> FORK + A.template = checkpoint + B.template = checkpoint + E.template = checkpoint + FORK.hashSeed = 2`, optTemplate("checkpoint", AUM{MessageKind: AUMCheckpoint, State: fakeState})), + initialAncestor: "E", + wantAncestor: "B", + verdicts: map[string]retainState{ + "A": retainStateCandidate, + "B": retainStateCandidate, + "C": retainStateCandidate, + "D": retainStateCandidate, + "E": retainStateActive, + "F": retainStateActive, + "FORK": retainStateYoung, + }, + wantRetained: []string{"B", "C", "D", "E", "F", "FORK"}, + wantDeleted: []string{"A"}, + }, + { + name: "fork multi", + chain: newTestchain(t, ` + A -> B -> C -> D -> E + | -> DEADFORK + C -> FORK + A.template = checkpoint + C.template = checkpoint + D.template = checkpoint + E.template = checkpoint + FORK.hashSeed = 2 + DEADFORK.hashSeed = 3`, optTemplate("checkpoint", AUM{MessageKind: AUMCheckpoint, State: fakeState})), + initialAncestor: "D", + wantAncestor: "C", + verdicts: map[string]retainState{ + "A": retainStateCandidate, + "B": retainStateCandidate, + "C": retainStateCandidate, + "D": retainStateActive, + "E": retainStateActive, + "FORK": retainStateYoung, + "DEADFORK": 0, + }, + wantRetained: []string{"C", "D", "E", "FORK"}, + wantDeleted: []string{"A", "B", "DEADFORK"}, + }, + { + name: "fork multi 2", + chain: newTestchain(t, ` + A -> B -> C -> D -> E -> F -> G + + F -> F1 + D -> F2 + B -> F3 + + A.template = checkpoint + B.template = checkpoint + D.template = checkpoint + F.template = checkpoint + F1.hashSeed = 2 + F2.hashSeed = 3 + F3.hashSeed = 4`, optTemplate("checkpoint", AUM{MessageKind: AUMCheckpoint, State: fakeState})), + initialAncestor: "F", + wantAncestor: "B", + verdicts: map[string]retainState{ + "A": retainStateCandidate, + "B": retainStateCandidate, + "C": retainStateCandidate, + "D": retainStateCandidate, + "E": retainStateCandidate, + "F": retainStateActive, + "G": retainStateActive, + "F1": retainStateYoung, + "F2": retainStateYoung, + "F3": retainStateYoung, + }, + wantRetained: []string{"B", "C", "D", "E", "F", "G", "F1", "F2", "F3"}, + }, + } + + for _, tc := range tcs { + t.Run(tc.name, func(t *testing.T) { + verdict := make(map[AUMHash]retainState, len(tc.verdicts)) + for name, v := range tc.verdicts { + verdict[tc.chain.AUMHashes[name]] = v + } + + got, err := markAncestorIntersectionAUMs(tc.chain.Chonk(), verdict, tc.chain.AUMHashes[tc.initialAncestor]) + if err != nil { + t.Logf("state = %+v", verdict) + t.Fatalf("markAncestorIntersectionAUMs() failed: %v", err) + } + if want := tc.chain.AUMHashes[tc.wantAncestor]; got != want { + t.Logf("state = %+v", verdict) + t.Errorf("lastActiveAncestor = %v, want %v", got, want) + } + + for _, name := range tc.wantRetained { + h := tc.chain.AUMHashes[name] + if v := verdict[h]; v&retainAUMMask == 0 { + t.Errorf("AUM %q was not retained: verdict = %v", name, v) + } + } + for _, name := range tc.wantDeleted { + h := tc.chain.AUMHashes[name] + if v := verdict[h]; v&retainAUMMask != 0 { + t.Errorf("AUM %q was retained: verdict = %v", name, v) + } + } + + if t.Failed() { + for name, hash := range tc.chain.AUMHashes { + t.Logf("AUM[%q] = %v", name, hash) + } + } + }) + } +} + +type compactingChonkFake struct { + Mem + + aumAge map[AUMHash]time.Time + t *testing.T + wantDelete []AUMHash +} + +func (c *compactingChonkFake) AllAUMs() ([]AUMHash, error) { + out := make([]AUMHash, 0, len(c.Mem.aums)) + for h, _ := range c.Mem.aums { + out = append(out, h) + } + return out, nil +} + +func (c *compactingChonkFake) CommitTime(hash AUMHash) (time.Time, error) { + return c.aumAge[hash], nil +} + +func (c *compactingChonkFake) PurgeAUMs(hashes []AUMHash) error { + lessHashes := func(a, b AUMHash) bool { + return bytes.Compare(a[:], b[:]) < 0 + } + if diff := cmp.Diff(c.wantDelete, hashes, cmpopts.SortSlices(lessHashes)); diff != "" { + c.t.Errorf("deletion set differs (-want, +got):\n%s", diff) + } + return nil +} + +func TestCompact(t *testing.T) { + fakeState := &State{ + Keys: []Key{{Kind: Key25519, Votes: 1}}, + DisablementSecrets: [][]byte{bytes.Repeat([]byte{1}, 32)}, + } + + // A & B are deleted because the new lastActiveAncestor advances beyond them. + // OLD is deleted because it does not match retention criteria, and + // though it is a descendant of the new lastActiveAncestor (C), it is not a + // descendant of a retained AUM. + // G, & H are retained as recent (MinChain=2) ancestors of HEAD. + // E & F are retained because they are between retained AUMs (G+) and + // their newest checkpoint ancestor. + // D is retained because it is the newest checkpoint ancestor from + // MinChain-retained AUMs. + // G2 is retained because it is a descendant of a retained AUM (G). + // F1 is retained because it is new enough by wall-clock time. + // F2 is retained because it is a descendant of a retained AUM (F1). + // C2 is retained because it is between an ancestor checkpoint and + // a retained AUM (F1). + // C is retained because it is the new lastActiveAncestor. It is the + // new lastActiveAncestor because it is the newest common checkpoint + // of all retained AUMs. + c := newTestchain(t, ` + A -> B -> C -> C2 -> D -> E -> F -> G -> H + | -> F1 -> F2 | -> G2 + | -> OLD + + // make {A,B,C,D} compaction candidates + A.template = checkpoint + B.template = checkpoint + C.template = checkpoint + D.template = checkpoint + + // tweak seeds of forks so hashes arent identical + F1.hashSeed = 1 + OLD.hashSeed = 2 + G2.hashSeed = 3 + `, optTemplate("checkpoint", AUM{MessageKind: AUMCheckpoint, State: fakeState})) + + storage := &compactingChonkFake{ + Mem: (*c.Chonk().(*Mem)), + aumAge: map[AUMHash]time.Time{(c.AUMHashes["F1"]): time.Now()}, + t: t, + wantDelete: []AUMHash{c.AUMHashes["A"], c.AUMHashes["B"], c.AUMHashes["OLD"]}, + } + + lastActiveAncestor, err := Compact(storage, c.AUMHashes["H"], CompactionOptions{MinChain: 2, MinAge: time.Hour}) + if err != nil { + t.Errorf("Compact() failed: %v", err) + } + if lastActiveAncestor != c.AUMHashes["C"] { + t.Errorf("last active ancestor = %v, want %v", lastActiveAncestor, c.AUMHashes["C"]) + } + + if t.Failed() { + for name, hash := range c.AUMHashes { + t.Logf("AUM[%q] = %v", name, hash) + } + } +}