- package merkle
-
- import (
- "encoding/hex"
- "fmt"
- "net/url"
- "strings"
-
- "github.com/pkg/errors"
- )
-
- /*
-
- For generalized Merkle proofs, each layer of the proof may require an
- optional key. The key may be encoded either by URL-encoding or
- (upper-case) hex-encoding.
- TODO: In the future, more encodings may be supported, like base32 (e.g.
- /32:)
-
- For example, for a Cosmos-SDK application where the first two proof layers
- are SimpleValueOps, and the third proof layer is an IAVLValueOp, the keys
- might look like:
-
- 0: []byte("App")
- 1: []byte("IBC")
- 2: []byte{0x01, 0x02, 0x03}
-
- Assuming that we know that the first two layers are always ASCII texts, we
- probably want to use URLEncoding for those, whereas the third layer will
- require HEX encoding for efficient representation.
-
- kp := new(KeyPath)
- kp.AppendKey([]byte("App"), KeyEncodingURL)
- kp.AppendKey([]byte("IBC"), KeyEncodingURL)
- kp.AppendKey([]byte{0x01, 0x02, 0x03}, KeyEncodingURL)
- kp.String() // Should return "/App/IBC/x:010203"
-
- NOTE: Key paths must begin with a `/`.
-
- NOTE: All encodings *MUST* work compatibly, such that you can choose to use
- whatever encoding, and the decoded keys will always be the same. In other
- words, it's just as good to encode all three keys using URL encoding or HEX
- encoding... it just wouldn't be optimal in terms of readability or space
- efficiency.
-
- NOTE: Punycode will never be supported here, because not all values can be
- decoded. For example, no string decodes to the string "xn--blah" in
- Punycode.
-
- */
-
- type keyEncoding int
-
- const (
- KeyEncodingURL keyEncoding = iota
- KeyEncodingHex
- KeyEncodingMax // Number of known encodings. Used for testing
- )
-
- type Key struct {
- name []byte
- enc keyEncoding
- }
-
- type KeyPath []Key
-
- func (pth KeyPath) AppendKey(key []byte, enc keyEncoding) KeyPath {
- return append(pth, Key{key, enc})
- }
-
- func (pth KeyPath) String() string {
- res := ""
- for _, key := range pth {
- switch key.enc {
- case KeyEncodingURL:
- res += "/" + url.PathEscape(string(key.name))
- case KeyEncodingHex:
- res += "/x:" + fmt.Sprintf("%X", key.name)
- default:
- panic("unexpected key encoding type")
- }
- }
- return res
- }
-
- // Decode a path to a list of keys. Path must begin with `/`.
- // Each key must use a known encoding.
- func KeyPathToKeys(path string) (keys [][]byte, err error) {
- if path == "" || path[0] != '/' {
- return nil, errors.New("key path string must start with a forward slash '/'")
- }
- parts := strings.Split(path[1:], "/")
- keys = make([][]byte, len(parts))
- for i, part := range parts {
- if strings.HasPrefix(part, "x:") {
- hexPart := part[2:]
- key, err := hex.DecodeString(hexPart)
- if err != nil {
- return nil, errors.Wrapf(err, "decoding hex-encoded part #%d: /%s", i, part)
- }
- keys[i] = key
- } else {
- key, err := url.PathUnescape(part)
- if err != nil {
- return nil, errors.Wrapf(err, "decoding url-encoded part #%d: /%s", i, part)
- }
- keys[i] = []byte(key) // TODO Test this with random bytes, I'm not sure that it works for arbitrary bytes...
- }
- }
- return keys, nil
- }
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