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coding.go
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package merkledag
import (
"fmt"
"sort"
"strings"
blocks "github.com/ipfs/go-block-format"
cid "github.com/ipfs/go-cid"
format "github.com/ipfs/go-ipld-format"
pb "github.com/ipfs/go-merkledag/pb"
dagpb "github.com/ipld/go-codec-dagpb"
ipld "github.com/ipld/go-ipld-prime"
"github.com/ipld/go-ipld-prime/fluent/qp"
cidlink "github.com/ipld/go-ipld-prime/linking/cid"
)
// Make sure the user doesn't upgrade this file.
// We need to check *here* as well as inside the `pb` package *just* in case the
// user replaces *all* go files in that package.
const _ = pb.DoNotUpgradeFileEverItWillChangeYourHashes
// for now, we use a PBNode intermediate thing.
// because native go objects are nice.
// unmarshal decodes raw data into a *Node instance.
// The conversion uses an intermediate PBNode.
func unmarshal(encodedBytes []byte) (*ProtoNode, error) {
nb := dagpb.Type.PBNode.NewBuilder()
if err := dagpb.DecodeBytes(nb, encodedBytes); err != nil {
return nil, err
}
nd := nb.Build()
return fromImmutableNode(&immutableProtoNode{encodedBytes, nd.(dagpb.PBNode)}), nil
}
func fromImmutableNode(encoded *immutableProtoNode) *ProtoNode {
n := new(ProtoNode)
n.encoded = encoded
if n.encoded.PBNode.Data.Exists() {
n.data = n.encoded.PBNode.Data.Must().Bytes()
}
numLinks := n.encoded.PBNode.Links.Length()
n.links = make([]*format.Link, numLinks)
linkAllocs := make([]format.Link, numLinks)
for i := int64(0); i < numLinks; i++ {
next := n.encoded.PBNode.Links.Lookup(i)
name := ""
if next.FieldName().Exists() {
name = next.FieldName().Must().String()
}
c := cid.Undef
c = next.FieldHash().Link().(cidlink.Link).Cid
size := uint64(0)
if next.FieldTsize().Exists() {
size = uint64(next.FieldTsize().Must().Int())
}
link := &linkAllocs[i]
link.Name = name
link.Size = size
link.Cid = c
n.links[i] = link
}
return n
}
func (n *ProtoNode) marshalImmutable() (*immutableProtoNode, error) {
nd, err := qp.BuildMap(dagpb.Type.PBNode, 2, func(ma ipld.MapAssembler) {
qp.MapEntry(ma, "Links", qp.List(int64(len(n.links)), func(la ipld.ListAssembler) {
for _, link := range n.links {
qp.ListEntry(la, qp.Map(3, func(ma ipld.MapAssembler) {
if link.Cid.Defined() {
qp.MapEntry(ma, "Hash", qp.Link(cidlink.Link{Cid: link.Cid}))
}
qp.MapEntry(ma, "Name", qp.String(link.Name))
qp.MapEntry(ma, "Tsize", qp.Int(int64(link.Size)))
}))
}
}))
if n.data != nil {
qp.MapEntry(ma, "Data", qp.Bytes(n.data))
}
})
if err != nil {
return nil, err
}
// 1KiB can be allocated on the stack, and covers most small nodes
// without having to grow the buffer and cause allocations.
enc := make([]byte, 0, 1024)
enc, err = dagpb.AppendEncode(enc, nd)
if err != nil {
return nil, err
}
return &immutableProtoNode{enc, nd.(dagpb.PBNode)}, nil
}
// Marshal encodes a *Node instance into a new byte slice.
// The conversion uses an intermediate PBNode.
func (n *ProtoNode) Marshal() ([]byte, error) {
enc, err := n.marshalImmutable()
if err != nil {
return nil, err
}
return enc.encoded, nil
}
// GetPBNode converts *ProtoNode into it's protocol buffer variant.
// If you plan on mutating the data of the original node, it is recommended
// that you call ProtoNode.Copy() before calling ProtoNode.GetPBNode()
func (n *ProtoNode) GetPBNode() *pb.PBNode {
pbn := &pb.PBNode{}
if len(n.links) > 0 {
pbn.Links = make([]*pb.PBLink, len(n.links))
}
sort.Stable(LinkSlice(n.links)) // keep links sorted
for i, l := range n.links {
pbn.Links[i] = &pb.PBLink{}
pbn.Links[i].Name = &l.Name
pbn.Links[i].Tsize = &l.Size
if l.Cid.Defined() {
pbn.Links[i].Hash = l.Cid.Bytes()
}
}
if len(n.data) > 0 {
pbn.Data = n.data
}
return pbn
}
// EncodeProtobuf returns the encoded raw data version of a Node instance.
// It may use a cached encoded version, unless the force flag is given.
func (n *ProtoNode) EncodeProtobuf(force bool) ([]byte, error) {
sort.Stable(LinkSlice(n.links)) // keep links sorted
if n.encoded == nil || force {
n.cached = cid.Undef
var err error
n.encoded, err = n.marshalImmutable()
if err != nil {
return nil, err
}
}
if !n.cached.Defined() {
c, err := n.CidBuilder().Sum(n.encoded.encoded)
if err != nil {
return nil, err
}
n.cached = c
}
return n.encoded.encoded, nil
}
// DecodeProtobuf decodes raw data and returns a new Node instance.
func DecodeProtobuf(encoded []byte) (*ProtoNode, error) {
n, err := unmarshal(encoded)
if err != nil {
return nil, fmt.Errorf("incorrectly formatted merkledag node: %s", err)
}
return n, nil
}
// DecodeProtobufBlock is a block decoder for protobuf IPLD nodes conforming to
// node.DecodeBlockFunc
func DecodeProtobufBlock(b blocks.Block) (format.Node, error) {
c := b.Cid()
if c.Type() != cid.DagProtobuf {
return nil, fmt.Errorf("this function can only decode protobuf nodes")
}
decnd, err := DecodeProtobuf(b.RawData())
if err != nil {
if strings.Contains(err.Error(), "Unmarshal failed") {
return nil, fmt.Errorf("the block referred to by '%s' was not a valid merkledag node", c)
}
return nil, fmt.Errorf("failed to decode Protocol Buffers: %v", err)
}
decnd.cached = c
decnd.builder = c.Prefix()
return decnd, nil
}
// Type assertion
var _ format.DecodeBlockFunc = DecodeProtobufBlock