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author | Felix Lange <fjl@twurst.com> | 2017-04-18 19:25:07 +0800 |
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committer | Felix Lange <fjl@twurst.com> | 2017-04-25 08:14:31 +0800 |
commit | f958d7d4822d257598ae36fc3b381040faa5bb30 (patch) | |
tree | 332291db0e8e1e7a41699aad291e5f13f35e6385 /trie/encoding.go | |
parent | a31d268b76ff13df8e7d060163a842b8ed569793 (diff) | |
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trie: rework and document key encoding
'encode' and 'decode' are meaningless because the code deals with three
encodings. Document the encodings and give a name to each one.
Diffstat (limited to 'trie/encoding.go')
-rw-r--r-- | trie/encoding.go | 114 |
1 files changed, 50 insertions, 64 deletions
diff --git a/trie/encoding.go b/trie/encoding.go index 2037118dd..e96a786e4 100644 --- a/trie/encoding.go +++ b/trie/encoding.go @@ -16,49 +16,54 @@ package trie -func compactEncode(hexSlice []byte) []byte { +// Trie keys are dealt with in three distinct encodings: +// +// KEYBYTES encoding contains the actual key and nothing else. This encoding is the +// input to most API functions. +// +// HEX encoding contains one byte for each nibble of the key and an optional trailing +// 'terminator' byte of value 0x10 which indicates whether or not the node at the key +// contains a value. Hex key encoding is used for nodes loaded in memory because it's +// convenient to access. +// +// COMPACT encoding is defined by the Ethereum Yellow Paper (it's called "hex prefix +// encoding" there) and contains the bytes of the key and a flag. The high nibble of the +// first byte contains the flag; the lowest bit encoding the oddness of the length and +// the second-lowest encoding whether the node at the key is a value node. The low nibble +// of the first byte is zero in the case of an even number of nibbles and the first nibble +// in the case of an odd number. All remaining nibbles (now an even number) fit properly +// into the remaining bytes. Compact encoding is used for nodes stored on disk. + +func hexToCompact(hex []byte) []byte { terminator := byte(0) - if hexSlice[len(hexSlice)-1] == 16 { + if hasTerm(hex) { terminator = 1 - hexSlice = hexSlice[:len(hexSlice)-1] - } - var ( - odd = byte(len(hexSlice) % 2) - buflen = len(hexSlice)/2 + 1 - bi, hi = 0, 0 // indices - hs = byte(0) // shift: flips between 0 and 4 - ) - if odd == 0 { - bi = 1 - hs = 4 + hex = hex[:len(hex)-1] } - buf := make([]byte, buflen) - buf[0] = terminator<<5 | byte(odd)<<4 - for bi < len(buf) && hi < len(hexSlice) { - buf[bi] |= hexSlice[hi] << hs - if hs == 0 { - bi++ - } - hi, hs = hi+1, hs^(1<<2) + buf := make([]byte, len(hex)/2+1) + buf[0] = terminator << 5 // the flag byte + if len(hex)&1 == 1 { + buf[0] |= 1 << 4 // odd flag + buf[0] |= hex[0] // first nibble is contained in the first byte + hex = hex[1:] } + decodeNibbles(hex, buf[1:]) return buf } -func compactDecode(str []byte) []byte { - base := compactHexDecode(str) +func compactToHex(compact []byte) []byte { + base := keybytesToHex(compact) base = base[:len(base)-1] + // apply terminator flag if base[0] >= 2 { base = append(base, 16) } - if base[0]%2 == 1 { - base = base[1:] - } else { - base = base[2:] - } - return base + // apply odd flag + chop := 2 - base[0]&1 + return base[chop:] } -func compactHexDecode(str []byte) []byte { +func keybytesToHex(str []byte) []byte { l := len(str)*2 + 1 var nibbles = make([]byte, l) for i, b := range str { @@ -69,35 +74,24 @@ func compactHexDecode(str []byte) []byte { return nibbles } -// compactHexEncode encodes a series of nibbles into a byte array -func compactHexEncode(nibbles []byte) []byte { - nl := len(nibbles) - if nl == 0 { - return nil - } - if nibbles[nl-1] == 16 { - nl-- +// hexToKeybytes turns hex nibbles into key bytes. +// This can only be used for keys of even length. +func hexToKeybytes(hex []byte) []byte { + if hasTerm(hex) { + hex = hex[:len(hex)-1] } - l := (nl + 1) / 2 - var str = make([]byte, l) - for i := range str { - b := nibbles[i*2] * 16 - if nl > i*2 { - b += nibbles[i*2+1] - } - str[i] = b + if len(hex)&1 != 0 { + panic("can't convert hex key of odd length") } - return str + key := make([]byte, (len(hex)+1)/2) + decodeNibbles(hex, key) + return key } -func decodeCompact(key []byte) []byte { - l := len(key) / 2 - var res = make([]byte, l) - for i := 0; i < l; i++ { - v1, v0 := key[2*i], key[2*i+1] - res[i] = v1*16 + v0 +func decodeNibbles(nibbles []byte, bytes []byte) { + for bi, ni := 0, 0; ni < len(nibbles); bi, ni = bi+1, ni+2 { + bytes[bi] = nibbles[ni]<<4 | nibbles[ni+1] } - return res } // prefixLen returns the length of the common prefix of a and b. @@ -114,15 +108,7 @@ func prefixLen(a, b []byte) int { return i } +// hasTerm returns whether a hex key has the terminator flag. func hasTerm(s []byte) bool { - return s[len(s)-1] == 16 -} - -func remTerm(s []byte) []byte { - if hasTerm(s) { - b := make([]byte, len(s)-1) - copy(b, s) - return b - } - return s + return len(s) > 0 && s[len(s)-1] == 16 } |