diff options
Diffstat (limited to 'pkg/state')
-rw-r--r-- | pkg/state/pretty/pretty.go | 103 |
1 files changed, 66 insertions, 37 deletions
diff --git a/pkg/state/pretty/pretty.go b/pkg/state/pretty/pretty.go index 1375fcc38..887f453a9 100644 --- a/pkg/state/pretty/pretty.go +++ b/pkg/state/pretty/pretty.go @@ -26,12 +26,17 @@ import ( "gvisor.dev/gvisor/pkg/state/wire" ) -func formatRef(x *wire.Ref, graph uint64, html bool) string { +type printer struct { + html bool + typeSpecs map[string]*wire.Type +} + +func (p *printer) formatRef(x *wire.Ref, graph uint64) string { baseRef := fmt.Sprintf("g%dr%d", graph, x.Root) fullRef := baseRef if len(x.Dots) > 0 { // See wire.Ref; Type valid if Dots non-zero. - typ, _ := formatType(x.Type, graph, html) + typ, _ := p.formatType(x.Type, graph) var buf strings.Builder buf.WriteString("(*") buf.WriteString(typ) @@ -51,34 +56,40 @@ func formatRef(x *wire.Ref, graph uint64, html bool) string { buf.WriteString(")") fullRef = buf.String() } - if html { + if p.html { return fmt.Sprintf("<a href=\"#%s\">%s</a>", baseRef, fullRef) } return fullRef } -func formatType(t wire.TypeSpec, graph uint64, html bool) (string, bool) { +func (p *printer) formatType(t wire.TypeSpec, graph uint64) (string, bool) { switch x := t.(type) { case wire.TypeID: - base := fmt.Sprintf("g%dt%d", graph, x) - if html { - return fmt.Sprintf("<a href=\"#%s\">%s</a>", base, base), true + tag := fmt.Sprintf("g%dt%d", graph, x) + desc := tag + if spec, ok := p.typeSpecs[tag]; ok { + desc += fmt.Sprintf("=%s", spec.Name) + } else { + desc += "!missing-type-spec" + } + if p.html { + return fmt.Sprintf("<a href=\"#%s\">%s</a>", tag, desc), true } - return fmt.Sprintf("%s", base), true + return desc, true case wire.TypeSpecNil: return "", false // Only nil type. case *wire.TypeSpecPointer: - element, _ := formatType(x.Type, graph, html) + element, _ := p.formatType(x.Type, graph) return fmt.Sprintf("(*%s)", element), true case *wire.TypeSpecArray: - element, _ := formatType(x.Type, graph, html) + element, _ := p.formatType(x.Type, graph) return fmt.Sprintf("[%d](%s)", x.Count, element), true case *wire.TypeSpecSlice: - element, _ := formatType(x.Type, graph, html) + element, _ := p.formatType(x.Type, graph) return fmt.Sprintf("([]%s)", element), true case *wire.TypeSpecMap: - key, _ := formatType(x.Key, graph, html) - value, _ := formatType(x.Value, graph, html) + key, _ := p.formatType(x.Key, graph) + value, _ := p.formatType(x.Value, graph) return fmt.Sprintf("(map[%s]%s)", key, value), true default: panic(fmt.Sprintf("unreachable: unknown type %T", t)) @@ -87,7 +98,7 @@ func formatType(t wire.TypeSpec, graph uint64, html bool) (string, bool) { // format formats a single object, for pretty-printing. It also returns whether // the value is a non-zero value. -func format(graph uint64, depth int, encoded wire.Object, html bool) (string, bool) { +func (p *printer) format(graph uint64, depth int, encoded wire.Object) (string, bool) { switch x := encoded.(type) { case wire.Nil: return "nil", false @@ -98,7 +109,7 @@ func format(graph uint64, depth int, encoded wire.Object, html bool) (string, bo case *wire.Complex128: return fmt.Sprintf("%f+%fi", real(*x), imag(*x)), *x != 0.0 case *wire.Ref: - return formatRef(x, graph, html), x.Root != 0 + return p.formatRef(x, graph), x.Root != 0 case *wire.Type: tabs := "\n" + strings.Repeat("\t", depth) items := make([]string, 0, len(x.Fields)+2) @@ -109,7 +120,7 @@ func format(graph uint64, depth int, encoded wire.Object, html bool) (string, bo items = append(items, "}") return strings.Join(items, tabs), true // No zero value. case *wire.Slice: - return fmt.Sprintf("%s{len:%d,cap:%d}", formatRef(&x.Ref, graph, html), x.Length, x.Capacity), x.Capacity != 0 + return fmt.Sprintf("%s{len:%d,cap:%d}", p.formatRef(&x.Ref, graph), x.Length, x.Capacity), x.Capacity != 0 case *wire.Array: if len(x.Contents) == 0 { return "[]", false @@ -119,7 +130,7 @@ func format(graph uint64, depth int, encoded wire.Object, html bool) (string, bo items = append(items, "[") tabs := "\n" + strings.Repeat("\t", depth) for i := 0; i < len(x.Contents); i++ { - item, ok := format(graph, depth+1, x.Contents[i], html) + item, ok := p.format(graph, depth+1, x.Contents[i]) if !ok { zeros = append(zeros, fmt.Sprintf("\t%s,", item)) continue @@ -136,7 +147,9 @@ func format(graph uint64, depth int, encoded wire.Object, html bool) (string, bo items = append(items, "]") return strings.Join(items, tabs), len(zeros) < len(x.Contents) case *wire.Struct: - typ, _ := formatType(x.TypeID, graph, html) + tag := fmt.Sprintf("g%dt%d", graph, x.TypeID) + spec, _ := p.typeSpecs[tag] + typ, _ := p.formatType(x.TypeID, graph) if x.Fields() == 0 { return fmt.Sprintf("struct[%s]{}", typ), false } @@ -145,9 +158,15 @@ func format(graph uint64, depth int, encoded wire.Object, html bool) (string, bo tabs := "\n" + strings.Repeat("\t", depth) allZero := true for i := 0; i < x.Fields(); i++ { - element, ok := format(graph, depth+1, *x.Field(i), html) + var name string + if spec != nil && i < len(spec.Fields) { + name = spec.Fields[i] + } else { + name = fmt.Sprintf("%d", i) + } + element, ok := p.format(graph, depth+1, *x.Field(i)) allZero = allZero && !ok - items = append(items, fmt.Sprintf("\t%d: %s,", i, element)) + items = append(items, fmt.Sprintf("\t%s: %s,", name, element)) } items = append(items, "}") return strings.Join(items, tabs), !allZero @@ -159,15 +178,15 @@ func format(graph uint64, depth int, encoded wire.Object, html bool) (string, bo items = append(items, "map{") tabs := "\n" + strings.Repeat("\t", depth) for i := 0; i < len(x.Keys); i++ { - key, _ := format(graph, depth+1, x.Keys[i], html) - value, _ := format(graph, depth+1, x.Values[i], html) + key, _ := p.format(graph, depth+1, x.Keys[i]) + value, _ := p.format(graph, depth+1, x.Values[i]) items = append(items, fmt.Sprintf("\t%s: %s,", key, value)) } items = append(items, "}") return strings.Join(items, tabs), true case *wire.Interface: - typ, typOk := formatType(x.Type, graph, html) - element, elementOk := format(graph, depth+1, x.Value, html) + typ, typOk := p.formatType(x.Type, graph) + element, elementOk := p.format(graph, depth+1, x.Value) return fmt.Sprintf("interface[%s]{%s}", typ, element), typOk || elementOk default: // Must be a primitive; use reflection. @@ -176,11 +195,11 @@ func format(graph uint64, depth int, encoded wire.Object, html bool) (string, bo } // printStream is the basic print implementation. -func printStream(w io.Writer, r wire.Reader, html bool) (err error) { +func (p *printer) printStream(w io.Writer, r wire.Reader) (err error) { // current graph ID. var graph uint64 - if html { + if p.html { fmt.Fprintf(w, "<pre>") defer fmt.Fprintf(w, "</pre>") } @@ -195,6 +214,8 @@ func printStream(w io.Writer, r wire.Reader, html bool) (err error) { } }() + p.typeSpecs = make(map[string]*wire.Type) + for { // Find the first object to begin generation. length, object, err := state.ReadHeader(r) @@ -222,18 +243,19 @@ func printStream(w io.Writer, r wire.Reader, html bool) (err error) { // loop in decode.go. But we don't register type information, // etc. and just print the raw structures. var ( - oid uint64 = 1 - tid uint64 = 1 + tid uint64 = 1 + objects []wire.Object ) - for oid <= length { + for oid := uint64(1); oid <= length; { // Unmarshal the object. encoded := wire.Load(r) // Is this a type? - if _, ok := encoded.(*wire.Type); ok { - str, _ := format(graph, 0, encoded, html) + if typ, ok := encoded.(*wire.Type); ok { + str, _ := p.format(graph, 0, encoded) tag := fmt.Sprintf("g%dt%d", graph, tid) - if html { + p.typeSpecs[tag] = typ + if p.html { // See below. tag = fmt.Sprintf("<a name=\"%s\">%s</a><a href=\"#%s\">⚓</a>", tag, tag, tag) } @@ -244,17 +266,24 @@ func printStream(w io.Writer, r wire.Reader, html bool) (err error) { continue } + // Otherwise, it is a node. + objects = append(objects, encoded) + oid++ + } + + for i, encoded := range objects { + // oid starts at 1. + oid := i + 1 // Format the node. - str, _ := format(graph, 0, encoded, html) + str, _ := p.format(graph, 0, encoded) tag := fmt.Sprintf("g%dr%d", graph, oid) - if html { + 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) } if _, err := fmt.Fprintf(w, "%s = %s\n", tag, str); err != nil { return err } - oid++ } } @@ -263,10 +292,10 @@ func printStream(w io.Writer, r wire.Reader, html bool) (err error) { // PrintText reads the stream from r and prints text to w. func PrintText(w io.Writer, r wire.Reader) error { - return printStream(w, r, false /* html */) + return (&printer{}).printStream(w, r) } // PrintHTML reads the stream from r and prints html to w. func PrintHTML(w io.Writer, r wire.Reader) error { - return printStream(w, r, true /* html */) + return (&printer{html: true}).printStream(w, r) } |