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package dns import ( "bufio" "crypto" "crypto/ecdsa" "crypto/ed25519" "crypto/rsa" "io" "math/big" "strconv" "strings" ) // NewPrivateKey returns a PrivateKey by parsing the string s. // s should be in the same form of the BIND private key files. func (k *DNSKEY) NewPrivateKey(s string) (crypto.PrivateKey, error) { if s == "" || s[len(s)-1] != '\n' { // We need a closing newline return k.ReadPrivateKey(strings.NewReader(s+"\n"), "") } return k.ReadPrivateKey(strings.NewReader(s), "") } // ReadPrivateKey reads a private key from the io.Reader q. The string file is // only used in error reporting. // The public key must be known, because some cryptographic algorithms embed // the public inside the privatekey. func (k *DNSKEY) ReadPrivateKey(q io.Reader, file string) (crypto.PrivateKey, error) { m, err := parseKey(q, file) if m == nil { return nil, err } if _, ok := m["private-key-format"]; !ok { return nil, ErrPrivKey } if m["private-key-format"] != "v1.2" && m["private-key-format"] != "v1.3" { return nil, ErrPrivKey } // TODO(mg): check if the pubkey matches the private key algo, err := strconv.ParseUint(strings.SplitN(m["algorithm"], " ", 2)[0], 10, 8) if err != nil { return nil, ErrPrivKey } switch uint8(algo) { case RSASHA1, RSASHA1NSEC3SHA1, RSASHA256, RSASHA512: priv, err := readPrivateKeyRSA(m) if err != nil { return nil, err } pub := k.publicKeyRSA() if pub == nil { return nil, ErrKey } priv.PublicKey = *pub return priv, nil case ECDSAP256SHA256, ECDSAP384SHA384: priv, err := readPrivateKeyECDSA(m) if err != nil { return nil, err } pub := k.publicKeyECDSA() if pub == nil { return nil, ErrKey } priv.PublicKey = *pub return priv, nil case ED25519: return readPrivateKeyED25519(m) default: return nil, ErrAlg } } // Read a private key (file) string and create a public key. Return the private key. func readPrivateKeyRSA(m map[string]string) (*rsa.PrivateKey, error) { p := new(rsa.PrivateKey) p.Primes = []*big.Int{nil, nil} for k, v := range m { switch k { case "modulus", "publicexponent", "privateexponent", "prime1", "prime2": v1, err := fromBase64([]byte(v)) if err != nil { return nil, err } switch k { case "modulus": p.PublicKey.N = new(big.Int).SetBytes(v1) case "publicexponent": i := new(big.Int).SetBytes(v1) p.PublicKey.E = int(i.Int64()) // int64 should be large enough case "privateexponent": p.D = new(big.Int).SetBytes(v1) case "prime1": p.Primes[0] = new(big.Int).SetBytes(v1) case "prime2": p.Primes[1] = new(big.Int).SetBytes(v1) } case "exponent1", "exponent2", "coefficient": // not used in Go (yet) case "created", "publish", "activate": // not used in Go (yet) } } return p, nil } func readPrivateKeyECDSA(m map[string]string) (*ecdsa.PrivateKey, error) { p := new(ecdsa.PrivateKey) p.D = new(big.Int) // TODO: validate that the required flags are present for k, v := range m { switch k { case "privatekey": v1, err := fromBase64([]byte(v)) if err != nil { return nil, err } p.D.SetBytes(v1) case "created", "publish", "activate": /* not used in Go (yet) */ } } return p, nil } func readPrivateKeyED25519(m map[string]string) (ed25519.PrivateKey, error) { var p ed25519.PrivateKey // TODO: validate that the required flags are present for k, v := range m { switch k { case "privatekey": p1, err := fromBase64([]byte(v)) if err != nil { return nil, err } if len(p1) != ed25519.SeedSize { return nil, ErrPrivKey } p = ed25519.NewKeyFromSeed(p1) case "created", "publish", "activate": /* not used in Go (yet) */ } } return p, nil } // parseKey reads a private key from r. It returns a map[string]string, // with the key-value pairs, or an error when the file is not correct. func parseKey(r io.Reader, file string) (map[string]string, error) { m := make(map[string]string) var k string c := newKLexer(r) for l, ok := c.Next(); ok; l, ok = c.Next() { // It should alternate switch l.value { case zKey: k = l.token case zValue: if k == "" { return nil, &ParseError{file, "no private key seen", l} } m[strings.ToLower(k)] = l.token k = "" } } // Surface any read errors from r. if err := c.Err(); err != nil { return nil, &ParseError{file: file, err: err.Error()} } return m, nil } type klexer struct { br io.ByteReader readErr error line int column int key bool eol bool // end-of-line } func newKLexer(r io.Reader) *klexer { br, ok := r.(io.ByteReader) if !ok { br = bufio.NewReaderSize(r, 1024) } return &klexer{ br: br, line: 1, key: true, } } func (kl *klexer) Err() error { if kl.readErr == io.EOF { return nil } return kl.readErr } // readByte returns the next byte from the input func (kl *klexer) readByte() (byte, bool) { if kl.readErr != nil { return 0, false } c, err := kl.br.ReadByte() if err != nil { kl.readErr = err return 0, false } // delay the newline handling until the next token is delivered, // fixes off-by-one errors when reporting a parse error. if kl.eol { kl.line++ kl.column = 0 kl.eol = false } if c == '\n' { kl.eol = true } else { kl.column++ } return c, true } func (kl *klexer) Next() (lex, bool) { var ( l lex str strings.Builder commt bool ) for x, ok := kl.readByte(); ok; x, ok = kl.readByte() { l.line, l.column = kl.line, kl.column switch x { case ':': if commt || !kl.key { break } kl.key = false // Next token is a space, eat it kl.readByte() l.value = zKey l.token = str.String() return l, true case ';': commt = true case '\n': if commt { // Reset a comment commt = false } if kl.key && str.Len() == 0 { // ignore empty lines break } kl.key = true l.value = zValue l.token = str.String() return l, true default: if commt { break } str.WriteByte(x) } } if kl.readErr != nil && kl.readErr != io.EOF { // Don't return any tokens after a read error occurs. return lex{value: zEOF}, false } if str.Len() > 0 { // Send remainder l.value = zValue l.token = str.String() return l, true } return lex{value: zEOF}, false }