diff options
author | gVisor bot <gvisor-bot@google.com> | 2020-10-23 20:00:48 +0000 |
---|---|---|
committer | gVisor bot <gvisor-bot@google.com> | 2020-10-23 20:00:48 +0000 |
commit | efe9f453ad890f27c8df0df4e292f8c74912ad95 (patch) | |
tree | 78c00013c2ef0cbc19f5f9d08e7359be8cd71334 /pkg/state | |
parent | 6431f2956194c5408dd7a008f5b778d143f9cb9a (diff) | |
parent | 227fd9f1b0a9123446907a662a5fe8e756cac16d (diff) |
Merge release-20201019.0-44-g227fd9f1b (automated)
Diffstat (limited to 'pkg/state')
-rw-r--r-- | pkg/state/decode.go | 80 | ||||
-rw-r--r-- | pkg/state/decode_unsafe.go | 57 | ||||
-rw-r--r-- | pkg/state/encode.go | 221 | ||||
-rw-r--r-- | pkg/state/pending_list.go | 178 | ||||
-rw-r--r-- | pkg/state/pretty/pretty.go | 41 | ||||
-rw-r--r-- | pkg/state/state.go | 10 |
6 files changed, 256 insertions, 331 deletions
diff --git a/pkg/state/decode.go b/pkg/state/decode.go index 89467ca8e..e519ddeca 100644 --- a/pkg/state/decode.go +++ b/pkg/state/decode.go @@ -21,6 +21,7 @@ import ( "math" "reflect" + "gvisor.dev/gvisor/pkg/log" "gvisor.dev/gvisor/pkg/state/wire" ) @@ -258,7 +259,7 @@ func (ds *decodeState) waitObject(ods *objectDecodeState, encoded wire.Object, c // For the purposes of this function, a child object is either a field within a // struct or an array element, with one such indirection per element in // path. The returned value may be an unexported field, so it may not be -// directly assignable. See unsafePointerTo. +// directly assignable. See decode_unsafe.go. func walkChild(path []wire.Dot, obj reflect.Value) reflect.Value { // See wire.Ref.Dots. The path here is specified in reverse order. for i := len(path) - 1; i >= 0; i-- { @@ -519,9 +520,7 @@ func (ds *decodeState) decodeObject(ods *objectDecodeState, obj reflect.Value, e // Normal assignment: authoritative only if no dots. v := ds.register(x, obj.Type().Elem()) - if v.IsValid() { - obj.Set(unsafePointerTo(v)) - } + obj.Set(reflectValueRWAddr(v)) case wire.Bool: obj.SetBool(bool(x)) case wire.Int: @@ -559,7 +558,7 @@ func (ds *decodeState) decodeObject(ods *objectDecodeState, obj reflect.Value, e // contents will still be filled in later on. typ := reflect.ArrayOf(int(x.Capacity), obj.Type().Elem()) // The object type. v := ds.register(&x.Ref, typ) - obj.Set(v.Slice3(0, int(x.Length), int(x.Capacity))) + obj.Set(reflectValueRWSlice3(v, 0, int(x.Length), int(x.Capacity))) case *wire.Array: ds.decodeArray(ods, obj, x) case *wire.Struct: @@ -592,7 +591,7 @@ func (ds *decodeState) Load(obj reflect.Value) { ds.pending.PushBack(rootOds) // Read the number of objects. - lastID, object, err := ReadHeader(ds.r) + numObjects, object, err := ReadHeader(ds.r) if err != nil { Failf("header error: %w", err) } @@ -604,42 +603,44 @@ func (ds *decodeState) Load(obj reflect.Value) { var ( encoded wire.Object ods *objectDecodeState - id = objectID(1) + id objectID tid = typeID(1) ) if err := safely(func() { // Decode all objects in the stream. // - // Note that the structure of this decoding loop should match - // the raw decoding loop in printer.go. - for id <= objectID(lastID) { - // Unmarshal the object. + // Note that the structure of this decoding loop should match the raw + // decoding loop in state/pretty/pretty.printer.printStream(). + for i := uint64(0); i < numObjects; { + // Unmarshal either a type object or object ID. encoded = wire.Load(ds.r) - - // Is this a type object? Handle inline. - if wt, ok := encoded.(*wire.Type); ok { - ds.types.Register(wt) + switch we := encoded.(type) { + case *wire.Type: + ds.types.Register(we) tid++ encoded = nil continue + case wire.Uint: + id = objectID(we) + i++ + // Unmarshal and resolve the actual object. + encoded = wire.Load(ds.r) + ods = ds.lookup(id) + if ods != nil { + // Decode the object. + ds.decodeObject(ods, ods.obj, encoded) + } else { + // If an object hasn't had interest registered + // previously or isn't yet valid, we deferred + // decoding until interest is registered. + ds.deferred[id] = encoded + } + // For error handling. + ods = nil + encoded = nil + default: + Failf("wanted type or object ID, got %#v", encoded) } - - // Actually resolve the object. - ods = ds.lookup(id) - if ods != nil { - // Decode the object. - ds.decodeObject(ods, ods.obj, encoded) - } else { - // If an object hasn't had interest registered - // previously or isn't yet valid, we deferred - // decoding until interest is registered. - ds.deferred[id] = encoded - } - - // For error handling. - ods = nil - encoded = nil - id++ } }); err != nil { // Include as much information as we can, taking into account @@ -647,16 +648,25 @@ func (ds *decodeState) Load(obj reflect.Value) { if ods != nil { Failf("error decoding object ID %d (%T) from %#v: %w", id, ods.obj.Interface(), encoded, err) } else if encoded != nil { - Failf("lookup error decoding object ID %d from %#v: %w", id, encoded, err) + Failf("error decoding from %#v: %w", encoded, err) } else { Failf("general decoding error: %w", err) } } // Check if we have any deferred objects. + numDeferred := 0 for id, encoded := range ds.deferred { - // Shoud never happen, the graph was bogus. - Failf("still have deferred objects: one is ID %d, %#v", id, encoded) + numDeferred++ + if s, ok := encoded.(*wire.Struct); ok && s.TypeID != 0 { + typ := ds.types.LookupType(typeID(s.TypeID)) + log.Warningf("unused deferred object: ID %d, type %v", id, typ) + } else { + log.Warningf("unused deferred object: ID %d, %#v", id, encoded) + } + } + if numDeferred != 0 { + Failf("still had %d deferred objects", numDeferred) } // Scan and fire all callbacks. We iterate over the list of incomplete diff --git a/pkg/state/decode_unsafe.go b/pkg/state/decode_unsafe.go index d048f61a1..f1208e2a2 100644 --- a/pkg/state/decode_unsafe.go +++ b/pkg/state/decode_unsafe.go @@ -15,13 +15,62 @@ package state import ( + "fmt" "reflect" + "runtime" "unsafe" ) -// unsafePointerTo is logically equivalent to reflect.Value.Addr, but works on -// values representing unexported fields. This bypasses visibility, but not -// type safety. -func unsafePointerTo(obj reflect.Value) reflect.Value { +// reflectValueRWAddr is equivalent to obj.Addr(), except that the returned +// reflect.Value is usable in assignments even if obj was obtained by the use +// of unexported struct fields. +// +// Preconditions: obj.CanAddr(). +func reflectValueRWAddr(obj reflect.Value) reflect.Value { return reflect.NewAt(obj.Type(), unsafe.Pointer(obj.UnsafeAddr())) } + +// reflectValueRWSlice3 is equivalent to arr.Slice3(i, j, k), except that the +// returned reflect.Value is usable in assignments even if obj was obtained by +// the use of unexported struct fields. +// +// Preconditions: +// * arr.Kind() == reflect.Array. +// * i, j, k >= 0. +// * i <= j <= k <= arr.Len(). +func reflectValueRWSlice3(arr reflect.Value, i, j, k int) reflect.Value { + if arr.Kind() != reflect.Array { + panic(fmt.Sprintf("arr has kind %v, wanted %v", arr.Kind(), reflect.Array)) + } + if i < 0 || j < 0 || k < 0 { + panic(fmt.Sprintf("negative subscripts (%d, %d, %d)", i, j, k)) + } + if i > j { + panic(fmt.Sprintf("subscript i (%d) > j (%d)", i, j)) + } + if j > k { + panic(fmt.Sprintf("subscript j (%d) > k (%d)", j, k)) + } + if k > arr.Len() { + panic(fmt.Sprintf("subscript k (%d) > array length (%d)", k, arr.Len())) + } + + sliceTyp := reflect.SliceOf(arr.Type().Elem()) + if i == arr.Len() { + // By precondition, i == j == k == arr.Len(). + return reflect.MakeSlice(sliceTyp, 0, 0) + } + slh := reflect.SliceHeader{ + // reflect.Value.CanAddr() == false for arrays, so we need to get the + // address from the first element of the array. + Data: arr.Index(i).UnsafeAddr(), + Len: j - i, + Cap: k - i, + } + slobj := reflect.NewAt(sliceTyp, unsafe.Pointer(&slh)).Elem() + // Before slobj is constructed, arr holds the only pointer-typed pointer to + // the array since reflect.SliceHeader.Data is a uintptr, so arr must be + // kept alive. + runtime.KeepAlive(arr) + return slobj +} diff --git a/pkg/state/encode.go b/pkg/state/encode.go index 92fcad4e9..560e7c2a3 100644 --- a/pkg/state/encode.go +++ b/pkg/state/encode.go @@ -17,13 +17,14 @@ package state import ( "context" "reflect" + "sort" "gvisor.dev/gvisor/pkg/state/wire" ) // objectEncodeState the type and identity of an object occupying a memory // address range. This is the value type for addrSet, and the intrusive entry -// for the pending and deferred lists. +// for the deferred list. type objectEncodeState struct { // id is the assigned ID for this object. id objectID @@ -47,7 +48,6 @@ type objectEncodeState struct { // references may be updated directly and automatically. refs []*wire.Ref - pendingEntry deferredEntry } @@ -93,9 +93,15 @@ type encodeState struct { // serialized. pendingTypes []wire.Type - // pending is the list of objects to be serialized. Serialization does + // pending maps object IDs to objects to be serialized. Serialization does // not actually occur until the full object graph is computed. - pending pendingList + pending map[objectID]*objectEncodeState + + // encodedStructs maps reflect.Values representing structs to previous + // encodings of those structs. This is necessary to avoid duplicate calls + // to SaverLoader.StateSave() that may result in multiple calls to + // Sink.SaveValue() for a given field, resulting in object duplication. + encodedStructs map[reflect.Value]*wire.Struct // stats tracks time data. stats Stats @@ -189,7 +195,8 @@ func (es *encodeState) resolve(obj reflect.Value, ref *wire.Ref) { // depending on this value knows there's nothing there. return } - if seg, _ := es.values.Find(addr); seg.Ok() { + seg, gap := es.values.Find(addr) + if seg.Ok() { // Ensure the map types match. existing := seg.Value() if existing.obj.Type() != obj.Type() { @@ -203,13 +210,20 @@ func (es *encodeState) resolve(obj reflect.Value, ref *wire.Ref) { } // Record the map. + r := addrRange{addr, addr + 1} oes := &objectEncodeState{ id: es.nextID(), obj: obj, how: encodeMapAsValue, } - es.values.Add(addrRange{addr, addr + 1}, oes) - es.pending.PushBack(oes) + // Use Insert instead of InsertWithoutMergingUnchecked when race + // detection is enabled to get additional sanity-checking from Merge. + if !raceEnabled { + es.values.InsertWithoutMergingUnchecked(gap, r, oes) + } else { + es.values.Insert(gap, r, oes) + } + es.pending[oes.id] = oes es.deferred.PushBack(oes) // See above: no ref recording. @@ -245,7 +259,7 @@ func (es *encodeState) resolve(obj reflect.Value, ref *wire.Ref) { obj: obj, } es.zeroValues[typ] = oes - es.pending.PushBack(oes) + es.pending[oes.id] = oes es.deferred.PushBack(oes) } @@ -258,86 +272,112 @@ func (es *encodeState) resolve(obj reflect.Value, ref *wire.Ref) { size = 1 // See above. } - // Calculate the container. end := addr + size r := addrRange{addr, end} - if seg, _ := es.values.Find(addr); seg.Ok() { + seg := es.values.LowerBoundSegment(addr) + var ( + oes *objectEncodeState + gap addrGapIterator + ) + + // Does at least one previously-registered object overlap this one? + if seg.Ok() && seg.Start() < end { existing := seg.Value() - switch { - case seg.Start() == addr && seg.End() == end && obj.Type() == existing.obj.Type(): - // The object is a perfect match. Happy path. Avoid the - // traversal and just return directly. We don't need to - // encode the type information or any dots here. + + if seg.Range() == r && typ == existing.obj.Type() { + // This exact object is already registered. Avoid the traversal and + // just return directly. We don't need to encode the type + // information or any dots here. ref.Root = wire.Uint(existing.id) existing.refs = append(existing.refs, ref) return + } - case (seg.Start() < addr && seg.End() >= end) || (seg.Start() <= addr && seg.End() > end): - // The previously registered object is larger than - // this, no need to update. But we expect some - // traversal below. + if seg.Range().IsSupersetOf(r) && (seg.Range() != r || isSameSizeParent(existing.obj, typ)) { + // This object is contained within a previously-registered object. + // Perform traversal from the container to the new object. + ref.Root = wire.Uint(existing.id) + ref.Dots = traverse(existing.obj.Type(), typ, seg.Start(), addr) + ref.Type = es.findType(existing.obj.Type()) + existing.refs = append(existing.refs, ref) + return + } - case seg.Start() == addr && seg.End() == end: - if !isSameSizeParent(obj, existing.obj.Type()) { - break // Needs traversal. + // This object contains one or more previously-registered objects. + // Remove them and update existing references to use the new one. + oes := &objectEncodeState{ + // Reuse the root ID of the first contained element. + id: existing.id, + obj: obj, + } + type elementEncodeState struct { + addr uintptr + typ reflect.Type + refs []*wire.Ref + } + var ( + elems []elementEncodeState + gap addrGapIterator + ) + for { + // Each contained object should be completely contained within + // this one. + if raceEnabled && !r.IsSupersetOf(seg.Range()) { + Failf("containing object %#v does not contain existing object %#v", obj, existing.obj) } - fallthrough // Needs update. - - case (seg.Start() > addr && seg.End() <= end) || (seg.Start() >= addr && seg.End() < end): - // Update the object and redo the encoding. - old := existing.obj - existing.obj = obj + elems = append(elems, elementEncodeState{ + addr: seg.Start(), + typ: existing.obj.Type(), + refs: existing.refs, + }) + delete(es.pending, existing.id) es.deferred.Remove(existing) - es.deferred.PushBack(existing) - - // The previously registered object is superseded by - // this new object. We are guaranteed to not have any - // mergeable neighbours in this segment set. - if !raceEnabled { - seg.SetRangeUnchecked(r) - } else { - // Add extra paranoid. This will be statically - // removed at compile time unless a race build. - es.values.Remove(seg) - es.values.Add(r, existing) - seg = es.values.LowerBoundSegment(addr) + gap = es.values.Remove(seg) + seg = gap.NextSegment() + if !seg.Ok() || seg.Start() >= end { + break } - - // Compute the traversal required & update references. - dots := traverse(obj.Type(), old.Type(), addr, seg.Start()) - wt := es.findType(obj.Type()) - for _, ref := range existing.refs { + existing = seg.Value() + } + wt := es.findType(typ) + for _, elem := range elems { + dots := traverse(typ, elem.typ, addr, elem.addr) + for _, ref := range elem.refs { + ref.Root = wire.Uint(oes.id) ref.Dots = append(ref.Dots, dots...) ref.Type = wt } - default: - // There is a non-sensical overlap. - Failf("overlapping objects: [new object] %#v [existing object] %#v", obj, existing.obj) + oes.refs = append(oes.refs, elem.refs...) } - - // Compute the new reference, record and return it. - ref.Root = wire.Uint(existing.id) - ref.Dots = traverse(existing.obj.Type(), obj.Type(), seg.Start(), addr) - ref.Type = es.findType(obj.Type()) - existing.refs = append(existing.refs, ref) + // Finally register the new containing object. + if !raceEnabled { + es.values.InsertWithoutMergingUnchecked(gap, r, oes) + } else { + es.values.Insert(gap, r, oes) + } + es.pending[oes.id] = oes + es.deferred.PushBack(oes) + ref.Root = wire.Uint(oes.id) + oes.refs = append(oes.refs, ref) return } - // The only remaining case is a pointer value that doesn't overlap with - // any registered addresses. Create a new entry for it, and start - // tracking the first reference we just created. - oes := &objectEncodeState{ + // No existing object overlaps this one. Register a new object. + oes = &objectEncodeState{ id: es.nextID(), obj: obj, } + if seg.Ok() { + gap = seg.PrevGap() + } else { + gap = es.values.LastGap() + } if !raceEnabled { - es.values.AddWithoutMerging(r, oes) + es.values.InsertWithoutMergingUnchecked(gap, r, oes) } else { - // Merges should never happen. This is just enabled extra - // sanity checks because the Merge function below will panic. - es.values.Add(r, oes) + es.values.Insert(gap, r, oes) } - es.pending.PushBack(oes) + es.pending[oes.id] = oes es.deferred.PushBack(oes) ref.Root = wire.Uint(oes.id) oes.refs = append(oes.refs, ref) @@ -439,6 +479,14 @@ func (oe *objectEncoder) save(slot int, obj reflect.Value) { // encodeStruct encodes a composite object. func (es *encodeState) encodeStruct(obj reflect.Value, dest *wire.Object) { + if s, ok := es.encodedStructs[obj]; ok { + *dest = s + return + } + s := &wire.Struct{} + *dest = s + es.encodedStructs[obj] = s + // Ensure that the obj is addressable. There are two cases when it is // not. First, is when this is dispatched via SaveValue. Second, when // this is a map key as a struct. Either way, we need to make a copy to @@ -449,10 +497,6 @@ func (es *encodeState) encodeStruct(obj reflect.Value, dest *wire.Object) { obj = localObj.Elem() } - // Prepare the value. - s := &wire.Struct{} - *dest = s - // Look the type up in the database. te, ok := es.types.Lookup(obj.Type()) if te == nil { @@ -730,45 +774,43 @@ func (es *encodeState) Save(obj reflect.Value) { Failf("encoding error at object %#v: %w", oes.obj.Interface(), err) } - // Check that items are pending. - if es.pending.Front() == nil { + // Check that we have objects to serialize. + if len(es.pending) == 0 { Failf("pending is empty?") } - // Write the header with the number of objects. Note that there is no - // way that es.lastID could conflict with objectID, which would - // indicate that an impossibly large encoding. - if err := WriteHeader(es.w, uint64(es.lastID), true); err != nil { + // Write the header with the number of objects. + if err := WriteHeader(es.w, uint64(len(es.pending)), true); err != nil { Failf("error writing header: %w", err) } // Serialize all pending types and pending objects. Note that we don't // bother removing from this list as we walk it because that just // wastes time. It will not change after this point. - var id objectID if err := safely(func() { for _, wt := range es.pendingTypes { // Encode the type. wire.Save(es.w, &wt) } - for oes = es.pending.Front(); oes != nil; oes = oes.pendingEntry.Next() { - id++ // First object is 1. - if oes.id != id { - Failf("expected id %d, got %d", id, oes.id) - } - - // Marshall the object. + // Emit objects in ID order. + ids := make([]objectID, 0, len(es.pending)) + for id := range es.pending { + ids = append(ids, id) + } + sort.Slice(ids, func(i, j int) bool { + return ids[i] < ids[j] + }) + for _, id := range ids { + // Encode the id. + wire.Save(es.w, wire.Uint(id)) + // Marshal the object. + oes := es.pending[id] wire.Save(es.w, oes.encoded) } }); err != nil { // Include the object and the error. Failf("error serializing object %#v: %w", oes.encoded, err) } - - // Check what we wrote. - if id != es.lastID { - Failf("expected %d objects, wrote %d", es.lastID, id) - } } // objectFlag indicates that the length is a # of objects, rather than a raw @@ -797,11 +839,6 @@ func WriteHeader(w wire.Writer, length uint64, object bool) error { }) } -// pendingMapper is for the pending list. -type pendingMapper struct{} - -func (pendingMapper) linkerFor(oes *objectEncodeState) *pendingEntry { return &oes.pendingEntry } - // deferredMapper is for the deferred list. type deferredMapper struct{} diff --git a/pkg/state/pending_list.go b/pkg/state/pending_list.go deleted file mode 100644 index d30b1b8dc..000000000 --- a/pkg/state/pending_list.go +++ /dev/null @@ -1,178 +0,0 @@ -package state - -// List is an intrusive list. Entries can be added to or removed from the list -// in O(1) time and with no additional memory allocations. -// -// The zero value for List is an empty list ready to use. -// -// To iterate over a list (where l is a List): -// for e := l.Front(); e != nil; e = e.Next() { -// // do something with e. -// } -// -// +stateify savable -type pendingList struct { - head *objectEncodeState - tail *objectEncodeState -} - -// Reset resets list l to the empty state. -func (l *pendingList) Reset() { - l.head = nil - l.tail = nil -} - -// Empty returns true iff the list is empty. -func (l *pendingList) Empty() bool { - return l.head == nil -} - -// Front returns the first element of list l or nil. -func (l *pendingList) Front() *objectEncodeState { - return l.head -} - -// Back returns the last element of list l or nil. -func (l *pendingList) Back() *objectEncodeState { - return l.tail -} - -// Len returns the number of elements in the list. -// -// NOTE: This is an O(n) operation. -func (l *pendingList) Len() (count int) { - for e := l.Front(); e != nil; e = (pendingMapper{}.linkerFor(e)).Next() { - count++ - } - return count -} - -// PushFront inserts the element e at the front of list l. -func (l *pendingList) PushFront(e *objectEncodeState) { - linker := pendingMapper{}.linkerFor(e) - linker.SetNext(l.head) - linker.SetPrev(nil) - if l.head != nil { - pendingMapper{}.linkerFor(l.head).SetPrev(e) - } else { - l.tail = e - } - - l.head = e -} - -// PushBack inserts the element e at the back of list l. -func (l *pendingList) PushBack(e *objectEncodeState) { - linker := pendingMapper{}.linkerFor(e) - linker.SetNext(nil) - linker.SetPrev(l.tail) - if l.tail != nil { - pendingMapper{}.linkerFor(l.tail).SetNext(e) - } else { - l.head = e - } - - l.tail = e -} - -// PushBackList inserts list m at the end of list l, emptying m. -func (l *pendingList) PushBackList(m *pendingList) { - if l.head == nil { - l.head = m.head - l.tail = m.tail - } else if m.head != nil { - pendingMapper{}.linkerFor(l.tail).SetNext(m.head) - pendingMapper{}.linkerFor(m.head).SetPrev(l.tail) - - l.tail = m.tail - } - m.head = nil - m.tail = nil -} - -// InsertAfter inserts e after b. -func (l *pendingList) InsertAfter(b, e *objectEncodeState) { - bLinker := pendingMapper{}.linkerFor(b) - eLinker := pendingMapper{}.linkerFor(e) - - a := bLinker.Next() - - eLinker.SetNext(a) - eLinker.SetPrev(b) - bLinker.SetNext(e) - - if a != nil { - pendingMapper{}.linkerFor(a).SetPrev(e) - } else { - l.tail = e - } -} - -// InsertBefore inserts e before a. -func (l *pendingList) InsertBefore(a, e *objectEncodeState) { - aLinker := pendingMapper{}.linkerFor(a) - eLinker := pendingMapper{}.linkerFor(e) - - b := aLinker.Prev() - eLinker.SetNext(a) - eLinker.SetPrev(b) - aLinker.SetPrev(e) - - if b != nil { - pendingMapper{}.linkerFor(b).SetNext(e) - } else { - l.head = e - } -} - -// Remove removes e from l. -func (l *pendingList) Remove(e *objectEncodeState) { - linker := pendingMapper{}.linkerFor(e) - prev := linker.Prev() - next := linker.Next() - - if prev != nil { - pendingMapper{}.linkerFor(prev).SetNext(next) - } else if l.head == e { - l.head = next - } - - if next != nil { - pendingMapper{}.linkerFor(next).SetPrev(prev) - } else if l.tail == e { - l.tail = prev - } - - linker.SetNext(nil) - linker.SetPrev(nil) -} - -// Entry is a default implementation of Linker. Users can add anonymous fields -// of this type to their structs to make them automatically implement the -// methods needed by List. -// -// +stateify savable -type pendingEntry struct { - next *objectEncodeState - prev *objectEncodeState -} - -// Next returns the entry that follows e in the list. -func (e *pendingEntry) Next() *objectEncodeState { - return e.next -} - -// Prev returns the entry that precedes e in the list. -func (e *pendingEntry) Prev() *objectEncodeState { - return e.prev -} - -// SetNext assigns 'entry' as the entry that follows e in the list. -func (e *pendingEntry) SetNext(elem *objectEncodeState) { - e.next = elem -} - -// SetPrev assigns 'entry' as the entry that precedes e in the list. -func (e *pendingEntry) SetPrev(elem *objectEncodeState) { - e.prev = elem -} diff --git a/pkg/state/pretty/pretty.go b/pkg/state/pretty/pretty.go index 887f453a9..c6e8bb31d 100644 --- a/pkg/state/pretty/pretty.go +++ b/pkg/state/pretty/pretty.go @@ -42,6 +42,7 @@ func (p *printer) formatRef(x *wire.Ref, graph uint64) string { buf.WriteString(typ) buf.WriteString(")(") buf.WriteString(baseRef) + buf.WriteString(")") for _, component := range x.Dots { switch v := component.(type) { case *wire.FieldName: @@ -53,7 +54,6 @@ func (p *printer) formatRef(x *wire.Ref, graph uint64) string { panic(fmt.Sprintf("unreachable: switch should be exhaustive, unhandled case %v", reflect.TypeOf(component))) } } - buf.WriteString(")") fullRef = buf.String() } if p.html { @@ -242,19 +242,22 @@ func (p *printer) printStream(w io.Writer, r wire.Reader) (err error) { // Note that this loop must match the general structure of the // loop in decode.go. But we don't register type information, // etc. and just print the raw structures. + type objectAndID struct { + id uint64 + obj wire.Object + } var ( tid uint64 = 1 - objects []wire.Object + objects []objectAndID ) - for oid := uint64(1); oid <= length; { - // Unmarshal the object. + for i := uint64(0); i < length; { + // Unmarshal either a type object or object ID. encoded := wire.Load(r) - - // Is this a type? - if typ, ok := encoded.(*wire.Type); ok { + switch we := encoded.(type) { + case *wire.Type: str, _ := p.format(graph, 0, encoded) tag := fmt.Sprintf("g%dt%d", graph, tid) - p.typeSpecs[tag] = typ + p.typeSpecs[tag] = we if p.html { // See below. tag = fmt.Sprintf("<a name=\"%s\">%s</a><a href=\"#%s\">⚓</a>", tag, tag, tag) @@ -263,20 +266,22 @@ func (p *printer) printStream(w io.Writer, r wire.Reader) (err error) { return err } tid++ - continue + case wire.Uint: + // Unmarshal the actual object. + objects = append(objects, objectAndID{ + id: uint64(we), + obj: wire.Load(r), + }) + i++ + default: + return fmt.Errorf("wanted type or object ID, got %#v", encoded) } - - // Otherwise, it is a node. - objects = append(objects, encoded) - oid++ } - for i, encoded := range objects { - // oid starts at 1. - oid := i + 1 + for _, objAndID := range objects { // Format the node. - str, _ := p.format(graph, 0, encoded) - tag := fmt.Sprintf("g%dr%d", graph, oid) + str, _ := p.format(graph, 0, objAndID.obj) + tag := fmt.Sprintf("g%dr%d", graph, objAndID.id) if p.html { // Create a little tag with an anchor next to it for linking. tag = fmt.Sprintf("<a name=\"%s\">%s</a><a href=\"#%s\">⚓</a>", tag, tag, tag) diff --git a/pkg/state/state.go b/pkg/state/state.go index acb629969..6b8540f03 100644 --- a/pkg/state/state.go +++ b/pkg/state/state.go @@ -90,10 +90,12 @@ func (e *ErrState) Unwrap() error { func Save(ctx context.Context, w wire.Writer, rootPtr interface{}) (Stats, error) { // Create the encoding state. es := encodeState{ - ctx: ctx, - w: w, - types: makeTypeEncodeDatabase(), - zeroValues: make(map[reflect.Type]*objectEncodeState), + ctx: ctx, + w: w, + types: makeTypeEncodeDatabase(), + zeroValues: make(map[reflect.Type]*objectEncodeState), + pending: make(map[objectID]*objectEncodeState), + encodedStructs: make(map[reflect.Value]*wire.Struct), } // Perform the encoding. |