src/pkg/gob/debug.go - go - Git at Google

 package gob

 // This file is not normally included in the gob package.  Used only for debugging the package itself.
 // Add debug.go to the files listed in the Makefile to add Debug to the gob package.

 import (
 	"bytes"
 	"fmt"
 	"io"
 	"os"
 	"reflect"
 	"runtime"
 )

 var dump = false // If true, print the remaining bytes in the input buffer at each item.

 // Init installs the debugging facility. If this file is not compiled in the
 // package, the test in codec_test.go is a no-op.
 func init() {
 	debugFunc = Debug
 }

 // Debug prints a human-readable representation of the gob data read from r.
 func Debug(r io.Reader) {
 	defer func() {
 		if e := recover(); e != nil {
 			if _, ok := e.(runtime.Error); ok {
 				panic(e)
 			}
 			fmt.Printf("error during debugging: %v\n", e)
 		}
 	}()
 	NewDecoder(r).debug()
 }

 // debugRecv is like recv but prints what it sees.
 func (dec *Decoder) debugRecv() {
 	if dec.byteBuffer != nil && dec.byteBuffer.Len() != 0 {
 		fmt.Printf("error in recv: %d bytes left in input buffer\n", dec.byteBuffer.Len())
 		return
 	}
 	// Read a count.
 	var nbytes uint64
 	nbytes, dec.err = decodeUintReader(dec.r, dec.countBuf[0:])
 	if dec.err != nil {
 		fmt.Printf("receiver error on count: %s\n", dec.err)
 		return
 	}
 	// Allocate the buffer.
 	if nbytes > uint64(len(dec.buf)) {
 		dec.buf = make([]byte, nbytes+1000)
 	}
 	dec.byteBuffer = bytes.NewBuffer(dec.buf[0:nbytes])

 	// Read the data
 	_, dec.err = io.ReadFull(dec.r, dec.buf[0:nbytes])
 	if dec.err != nil {
 		fmt.Printf("receiver error on data: %s\n", dec.err)
 		if dec.err == os.EOF {
 			dec.err = io.ErrUnexpectedEOF
 		}
 		return
 	}
 	if dump {
 		fmt.Printf("received %d bytes:\n\t% x\n", nbytes, dec.byteBuffer.Bytes())
 	}
 }


 // debug is like Decode but just prints what it finds.  It should be safe even for corrupted data.
 func (dec *Decoder) debug() {
 	// Make sure we're single-threaded through here.
 	dec.mutex.Lock()
 	defer dec.mutex.Unlock()

 	dec.err = nil
 	dec.debugRecv()
 	if dec.err != nil {
 		return
 	}
 	dec.debugFromBuffer(0, false)
 }

 // printFromBuffer prints the next value.  The buffer contains data, but it may
 // be a type descriptor and we may need to load more data to see the value;
 // printType takes care of that.
 func (dec *Decoder) debugFromBuffer(indent int, countPresent bool) {
 	for dec.state.b.Len() > 0 {
 		// Receive a type id.
 		id := typeId(decodeInt(dec.state))

 		// Is it a new type?
 		if id < 0 { // 0 is the error state, handled above
 			// If the id is negative, we have a type.
 			dec.debugRecvType(-id)
 			if dec.err != nil {
 				break
 			}
 			continue
 		}

 		// No, it's a value.
 		// Make sure the type has been defined already or is a builtin type (for
 		// top-level singleton values).
 		if dec.wireType[id] == nil && builtinIdToType[id] == nil {
 			dec.err = errBadType
 			break
 		}
 		if countPresent {
 			decodeUint(dec.state)
 		}
 		dec.debugPrint(indent, id)
 		break
 	}
 }

 func (dec *Decoder) debugRecvType(id typeId) {
 	// Have we already seen this type?  That's an error
 	if _, alreadySeen := dec.wireType[id]; alreadySeen {
 		dec.err = os.ErrorString("gob: duplicate type received")
 		return
 	}

 	// Type:
 	wire := new(wireType)
 	dec.err = dec.decode(tWireType, reflect.NewValue(wire))
 	if dec.err == nil {
 		printWireType(wire)
 	}
 	// Remember we've seen this type.
 	dec.wireType[id] = wire

 	// Load the next parcel.
 	dec.debugRecv()
 }

 func printWireType(wire *wireType) {
 	fmt.Printf("type definition {\n")
 	switch {
 	case wire.arrayT != nil:
 		printCommonType("array", &wire.arrayT.commonType)
 		fmt.Printf("\tlen %d\n\telemid %d\n", wire.arrayT.Len, wire.arrayT.Elem)
 	case wire.mapT != nil:
 		printCommonType("map", &wire.mapT.commonType)
 		fmt.Printf("\tkeyid %d\n", wire.mapT.Key)
 		fmt.Printf("\telemid %d\n", wire.mapT.Elem)
 	case wire.sliceT != nil:
 		printCommonType("slice", &wire.sliceT.commonType)
 		fmt.Printf("\telemid %d\n", wire.sliceT.Elem)
 	case wire.structT != nil:
 		printCommonType("struct", &wire.structT.commonType)
 		for i, field := range wire.structT.field {
 			fmt.Printf("\tfield %d:\t%s\tid=%d\n", i, field.name, field.id)
 		}
 	}
 	fmt.Printf("}\n")
 }

 func printCommonType(kind string, common *commonType) {
 	fmt.Printf("\t%s %q\n\tid: %d\n", kind, common.name, common._id)
 }

 func (dec *Decoder) debugPrint(indent int, id typeId) {
 	wire, ok := dec.wireType[id]
 	if ok && wire.structT != nil {
 		dec.debugStruct(indent+1, id, wire)
 	} else {
 		dec.debugSingle(indent+1, id, wire)
 	}
 }

 func (dec *Decoder) debugSingle(indent int, id typeId, wire *wireType) {
 	// is it a builtin type?
 	_, ok := builtinIdToType[id]
 	if !ok && wire == nil {
 		errorf("type id %d not defined\n", id)
 	}
 	decodeUint(dec.state)
 	dec.printItem(indent, id)
 }

 func (dec *Decoder) printItem(indent int, id typeId) {
 	if dump {
 		fmt.Printf("print item %d bytes: % x\n", dec.state.b.Len(), dec.state.b.Bytes())
 	}
 	_, ok := builtinIdToType[id]
 	if ok {
 		dec.printBuiltin(indent, id)
 		return
 	}
 	wire, ok := dec.wireType[id]
 	if !ok {
 		errorf("type id %d not defined\n", id)
 	}
 	switch {
 	case wire.arrayT != nil:
 		dec.printArray(indent, wire)
 	case wire.mapT != nil:
 		dec.printMap(indent, wire)
 	case wire.sliceT != nil:
 		dec.printSlice(indent, wire)
 	case wire.structT != nil:
 		dec.debugStruct(indent, id, wire)
 	}
 }

 func (dec *Decoder) printArray(indent int, wire *wireType) {
 	elemId := wire.arrayT.Elem
 	n := int(decodeUint(dec.state))
 	for i := 0; i < n && dec.err == nil; i++ {
 		dec.printItem(indent, elemId)
 	}
 	if n != wire.arrayT.Len {
 		tab(indent)
 		fmt.Printf("(wrong length for array: %d should be %d)\n", n, wire.arrayT.Len)
 	}
 }

 func (dec *Decoder) printMap(indent int, wire *wireType) {
 	keyId := wire.mapT.Key
 	elemId := wire.mapT.Elem
 	n := int(decodeUint(dec.state))
 	for i := 0; i < n && dec.err == nil; i++ {
 		dec.printItem(indent, keyId)
 		dec.printItem(indent+1, elemId)
 	}
 }

 func (dec *Decoder) printSlice(indent int, wire *wireType) {
 	elemId := wire.sliceT.Elem
 	n := int(decodeUint(dec.state))
 	for i := 0; i < n && dec.err == nil; i++ {
 		dec.printItem(indent, elemId)
 	}
 }

 func (dec *Decoder) printBuiltin(indent int, id typeId) {
 	tab(indent)
 	switch id {
 	case tBool:
 		if decodeInt(dec.state) == 0 {
 			fmt.Printf("false\n")
 		} else {
 			fmt.Printf("true\n")
 		}
 	case tInt:
 		fmt.Printf("%d\n", decodeInt(dec.state))
 	case tUint:
 		fmt.Printf("%d\n", decodeUint(dec.state))
 	case tFloat:
 		fmt.Printf("%g\n", floatFromBits(decodeUint(dec.state)))
 	case tBytes:
 		b := make([]byte, decodeUint(dec.state))
 		dec.state.b.Read(b)
 		fmt.Printf("% x\n", b)
 	case tString:
 		b := make([]byte, decodeUint(dec.state))
 		dec.state.b.Read(b)
 		fmt.Printf("%q\n", b)
 	case tInterface:
 		b := make([]byte, decodeUint(dec.state))
 		dec.state.b.Read(b)
 		if len(b) == 0 {
 			fmt.Printf("nil interface")
 		} else {
 			fmt.Printf("interface value; type %q\n", b)
 			dec.debugFromBuffer(indent, true)
 		}
 	default:
 		fmt.Print("unknown\n")
 	}
 }

 func (dec *Decoder) debugStruct(indent int, id typeId, wire *wireType) {
 	tab(indent)
 	fmt.Printf("%s struct {\n", id.Name())
 	strct := wire.structT
 	state := newDecodeState(dec, dec.state.b)
 	state.fieldnum = -1
 	for dec.err == nil {
 		delta := int(decodeUint(state))
 		if delta < 0 {
 			errorf("gob decode: corrupted data: negative delta")
 		}
 		if delta == 0 { // struct terminator is zero delta fieldnum
 			break
 		}
 		fieldNum := state.fieldnum + delta
 		if fieldNum < 0 || fieldNum >= len(strct.field) {
 			errorf("field number out of range")
 			break
 		}
 		tab(indent)
 		fmt.Printf("%s(%d):\n", wire.structT.field[fieldNum].name, fieldNum)
 		dec.printItem(indent+1, strct.field[fieldNum].id)
 		state.fieldnum = fieldNum
 	}
 	tab(indent)
 	fmt.Printf(" } // end %s struct\n", id.Name())
 }

 func tab(indent int) {
 	for i, w := 0, 0; i < indent; i += w {
 		w = 10
 		if i+w > indent {
 			w = indent - i
 		}
 		fmt.Print("\t\t\t\t\t\t\t\t\t\t"[:w])
 	}
 }
	package gob

	// This file is not normally included in the gob package. Used only for debugging the package itself.
	// Add debug.go to the files listed in the Makefile to add Debug to the gob package.

	import (
	"bytes"
	"fmt"
	"io"
	"os"
	"reflect"
	"runtime"
	)

	var dump = false // If true, print the remaining bytes in the input buffer at each item.

	// Init installs the debugging facility. If this file is not compiled in the
	// package, the test in codec_test.go is a no-op.
	func init() {
	debugFunc = Debug
	}

	// Debug prints a human-readable representation of the gob data read from r.
	func Debug(r io.Reader) {
	defer func() {
	if e := recover(); e != nil {
	if _, ok := e.(runtime.Error); ok {
	panic(e)
	}
	fmt.Printf("error during debugging: %v\n", e)
	}
	}()
	NewDecoder(r).debug()
	}

	// debugRecv is like recv but prints what it sees.
	func (dec *Decoder) debugRecv() {
	if dec.byteBuffer != nil && dec.byteBuffer.Len() != 0 {
	fmt.Printf("error in recv: %d bytes left in input buffer\n", dec.byteBuffer.Len())
	return
	}
	// Read a count.
	var nbytes uint64
	nbytes, dec.err = decodeUintReader(dec.r, dec.countBuf[0:])
	if dec.err != nil {
	fmt.Printf("receiver error on count: %s\n", dec.err)
	return
	}
	// Allocate the buffer.
	if nbytes > uint64(len(dec.buf)) {
	dec.buf = make([]byte, nbytes+1000)
	}
	dec.byteBuffer = bytes.NewBuffer(dec.buf[0:nbytes])

	// Read the data
	_, dec.err = io.ReadFull(dec.r, dec.buf[0:nbytes])
	if dec.err != nil {
	fmt.Printf("receiver error on data: %s\n", dec.err)
	if dec.err == os.EOF {
	dec.err = io.ErrUnexpectedEOF
	}
	return
	}
	if dump {
	fmt.Printf("received %d bytes:\n\t% x\n", nbytes, dec.byteBuffer.Bytes())
	}
	}


	// debug is like Decode but just prints what it finds. It should be safe even for corrupted data.
	func (dec *Decoder) debug() {
	// Make sure we're single-threaded through here.
	dec.mutex.Lock()
	defer dec.mutex.Unlock()

	dec.err = nil
	dec.debugRecv()
	if dec.err != nil {
	return
	}
	dec.debugFromBuffer(0, false)
	}

	// printFromBuffer prints the next value. The buffer contains data, but it may
	// be a type descriptor and we may need to load more data to see the value;
	// printType takes care of that.
	func (dec *Decoder) debugFromBuffer(indent int, countPresent bool) {
	for dec.state.b.Len() > 0 {
	// Receive a type id.
	id := typeId(decodeInt(dec.state))

	// Is it a new type?
	if id < 0 { // 0 is the error state, handled above
	// If the id is negative, we have a type.
	dec.debugRecvType(-id)
	if dec.err != nil {
	break
	}
	continue
	}

	// No, it's a value.
	// Make sure the type has been defined already or is a builtin type (for
	// top-level singleton values).
	if dec.wireType[id] == nil && builtinIdToType[id] == nil {
	dec.err = errBadType
	break
	}
	if countPresent {
	decodeUint(dec.state)
	}
	dec.debugPrint(indent, id)
	break
	}
	}

	func (dec *Decoder) debugRecvType(id typeId) {
	// Have we already seen this type? That's an error
	if _, alreadySeen := dec.wireType[id]; alreadySeen {
	dec.err = os.ErrorString("gob: duplicate type received")
	return
	}

	// Type:
	wire := new(wireType)
	dec.err = dec.decode(tWireType, reflect.NewValue(wire))
	if dec.err == nil {
	printWireType(wire)
	}
	// Remember we've seen this type.
	dec.wireType[id] = wire

	// Load the next parcel.
	dec.debugRecv()
	}

	func printWireType(wire *wireType) {
	fmt.Printf("type definition {\n")
	switch {
	case wire.arrayT != nil:
	printCommonType("array", &wire.arrayT.commonType)
	fmt.Printf("\tlen %d\n\telemid %d\n", wire.arrayT.Len, wire.arrayT.Elem)
	case wire.mapT != nil:
	printCommonType("map", &wire.mapT.commonType)
	fmt.Printf("\tkeyid %d\n", wire.mapT.Key)
	fmt.Printf("\telemid %d\n", wire.mapT.Elem)
	case wire.sliceT != nil:
	printCommonType("slice", &wire.sliceT.commonType)
	fmt.Printf("\telemid %d\n", wire.sliceT.Elem)
	case wire.structT != nil:
	printCommonType("struct", &wire.structT.commonType)
	for i, field := range wire.structT.field {
	fmt.Printf("\tfield %d:\t%s\tid=%d\n", i, field.name, field.id)
	}
	}
	fmt.Printf("}\n")
	}

	func printCommonType(kind string, common *commonType) {
	fmt.Printf("\t%s %q\n\tid: %d\n", kind, common.name, common._id)
	}

	func (dec *Decoder) debugPrint(indent int, id typeId) {
	wire, ok := dec.wireType[id]
	if ok && wire.structT != nil {
	dec.debugStruct(indent+1, id, wire)
	} else {
	dec.debugSingle(indent+1, id, wire)
	}
	}

	func (dec Decoder) debugSingle(indent int, id typeId, wire wireType) {
	// is it a builtin type?
	_, ok := builtinIdToType[id]
	if !ok && wire == nil {
	errorf("type id %d not defined\n", id)
	}
	decodeUint(dec.state)
	dec.printItem(indent, id)
	}

	func (dec *Decoder) printItem(indent int, id typeId) {
	if dump {
	fmt.Printf("print item %d bytes: % x\n", dec.state.b.Len(), dec.state.b.Bytes())
	}
	_, ok := builtinIdToType[id]
	if ok {
	dec.printBuiltin(indent, id)
	return
	}
	wire, ok := dec.wireType[id]
	if !ok {
	errorf("type id %d not defined\n", id)
	}
	switch {
	case wire.arrayT != nil:
	dec.printArray(indent, wire)
	case wire.mapT != nil:
	dec.printMap(indent, wire)
	case wire.sliceT != nil:
	dec.printSlice(indent, wire)
	case wire.structT != nil:
	dec.debugStruct(indent, id, wire)
	}
	}

	func (dec Decoder) printArray(indent int, wire wireType) {
	elemId := wire.arrayT.Elem
	n := int(decodeUint(dec.state))
	for i := 0; i < n && dec.err == nil; i++ {
	dec.printItem(indent, elemId)
	}
	if n != wire.arrayT.Len {
	tab(indent)
	fmt.Printf("(wrong length for array: %d should be %d)\n", n, wire.arrayT.Len)
	}
	}

	func (dec Decoder) printMap(indent int, wire wireType) {
	keyId := wire.mapT.Key
	elemId := wire.mapT.Elem
	n := int(decodeUint(dec.state))
	for i := 0; i < n && dec.err == nil; i++ {
	dec.printItem(indent, keyId)
	dec.printItem(indent+1, elemId)
	}
	}

	func (dec Decoder) printSlice(indent int, wire wireType) {
	elemId := wire.sliceT.Elem
	n := int(decodeUint(dec.state))
	for i := 0; i < n && dec.err == nil; i++ {
	dec.printItem(indent, elemId)
	}
	}

	func (dec *Decoder) printBuiltin(indent int, id typeId) {
	tab(indent)
	switch id {
	case tBool:
	if decodeInt(dec.state) == 0 {
	fmt.Printf("false\n")
	} else {
	fmt.Printf("true\n")
	}
	case tInt:
	fmt.Printf("%d\n", decodeInt(dec.state))
	case tUint:
	fmt.Printf("%d\n", decodeUint(dec.state))
	case tFloat:
	fmt.Printf("%g\n", floatFromBits(decodeUint(dec.state)))
	case tBytes:
	b := make([]byte, decodeUint(dec.state))
	dec.state.b.Read(b)
	fmt.Printf("% x\n", b)
	case tString:
	b := make([]byte, decodeUint(dec.state))
	dec.state.b.Read(b)
	fmt.Printf("%q\n", b)
	case tInterface:
	b := make([]byte, decodeUint(dec.state))
	dec.state.b.Read(b)
	if len(b) == 0 {
	fmt.Printf("nil interface")
	} else {
	fmt.Printf("interface value; type %q\n", b)
	dec.debugFromBuffer(indent, true)
	}
	default:
	fmt.Print("unknown\n")
	}
	}

	func (dec Decoder) debugStruct(indent int, id typeId, wire wireType) {
	tab(indent)
	fmt.Printf("%s struct {\n", id.Name())
	strct := wire.structT
	state := newDecodeState(dec, dec.state.b)
	state.fieldnum = -1
	for dec.err == nil {
	delta := int(decodeUint(state))
	if delta < 0 {
	errorf("gob decode: corrupted data: negative delta")
	}
	if delta == 0 { // struct terminator is zero delta fieldnum
	break
	}
	fieldNum := state.fieldnum + delta
	if fieldNum < 0 \|\| fieldNum >= len(strct.field) {
	errorf("field number out of range")
	break
	}
	tab(indent)
	fmt.Printf("%s(%d):\n", wire.structT.field[fieldNum].name, fieldNum)
	dec.printItem(indent+1, strct.field[fieldNum].id)
	state.fieldnum = fieldNum
	}
	tab(indent)
	fmt.Printf(" } // end %s struct\n", id.Name())
	}

	func tab(indent int) {
	for i, w := 0, 0; i < indent; i += w {
	w = 10
	if i+w > indent {
	w = indent - i
	}
	fmt.Print("\t\t\t\t\t\t\t\t\t\t"[:w])
	}
	}