refactor mcrypto signature code to have an actual Signature type which implicitely handles its salt and timestamp
This commit is contained in:
parent
56dbb1827e
commit
9b6c42572c
@ -4,11 +4,6 @@
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package mcrypto
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package mcrypto
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import (
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import (
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"bytes"
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"encoding/hex"
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"fmt"
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"io"
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"strconv"
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"strings"
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"strings"
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)
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)
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@ -23,8 +18,6 @@ import (
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const (
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const (
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uuidV0 = "0u" // u for uuid
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uuidV0 = "0u" // u for uuid
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sigV0 = "0s" // s for signature
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sigV0 = "0s" // s for signature
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exSigV0 = "0t" // t for time
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uniqueSigV0 = "0q" // q for uni"q"ue
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encryptedV0 = "0n" // n for "n"-crypted, harharhar
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encryptedV0 = "0n" // n for "n"-crypted, harharhar
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)
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)
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@ -32,12 +25,3 @@ func stripPrefix(s, prefix string) (string, bool) {
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trimmed := strings.TrimPrefix(s, prefix)
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trimmed := strings.TrimPrefix(s, prefix)
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return trimmed, len(trimmed) < len(s)
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return trimmed, len(trimmed) < len(s)
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}
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}
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func prefixReader(r io.Reader, prefix []byte) io.Reader {
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b := make([]byte, 0, len(prefix)+hex.EncodedLen(strconv.IntSize)+2)
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buf := bytes.NewBuffer(b)
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fmt.Fprintf(buf, "%x\n", len(prefix))
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buf.Write(prefix)
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buf.WriteByte('\n')
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return io.MultiReader(buf, r)
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}
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350
mcrypto/sig.go
350
mcrypto/sig.go
@ -7,10 +7,9 @@ import (
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"crypto/sha256"
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"crypto/sha256"
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"encoding/binary"
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"encoding/binary"
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"encoding/hex"
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"encoding/hex"
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"encoding/json"
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"errors"
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"errors"
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"hash"
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"io"
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"io"
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"strings"
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"time"
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"time"
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"github.com/mediocregopher/mediocre-go-lib/mlog"
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"github.com/mediocregopher/mediocre-go-lib/mlog"
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@ -25,23 +24,131 @@ var (
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ErrInvalidSig = errors.New("invalid signature")
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ErrInvalidSig = errors.New("invalid signature")
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)
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)
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// Signature marshals/unmarshals an actual signature, produced internally by a
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// Signer, along with the timestamp the signing took place and a random salt.
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//
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// All signatures produced in this package will have had the timestamp and salt
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// included in the signature's input data, and so are also checked by the
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// Verifier.
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type Signature struct {
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sig, salt []byte // neither of these should ever be more than 255 bytes long
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t time.Time
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}
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// Time returns the timestamp the Signature was generated at
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func (s Signature) Time() time.Time {
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return s.t
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}
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func (s Signature) String() string {
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// ts:8 + saltHeader:1 + salt + sigHeader:1 + sig
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b := make([]byte, 10+len(s.salt)+len(s.sig))
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// It will be year 2286 before the nano doesn't fit in uint64
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binary.BigEndian.PutUint64(b, uint64(s.t.UnixNano()))
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ptr := 8
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b[ptr], ptr = uint8(len(s.salt)), ptr+1
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ptr += copy(b[ptr:], s.salt)
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b[ptr], ptr = uint8(len(s.sig)), ptr+1
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copy(b[ptr:], s.sig)
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return sigV0 + hex.EncodeToString(b)
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}
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// KV implements the method for the mlog.KVer interface
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func (s Signature) KV() mlog.KV {
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return mlog.KV{"sig": s.String()}
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}
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// MarshalText implements the method for the encoding.TextMarshaler interface
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func (s Signature) MarshalText() ([]byte, error) {
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return []byte(s.String()), nil
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}
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// UnmarshalText implements the method for the encoding.TextUnmarshaler
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// interface
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func (s *Signature) UnmarshalText(b []byte) error {
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str := string(b)
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strEnc, ok := stripPrefix(str, sigV0)
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if !ok || len(strEnc) < hex.EncodedLen(10) {
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return mlog.ErrWithKV(errMalformedSig, mlog.KV{"sigStr": str})
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}
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b, err := hex.DecodeString(strEnc)
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if err != nil {
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return mlog.ErrWithKV(err, mlog.KV{"sigStr": str})
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}
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unixNano, b := int64(binary.BigEndian.Uint64(b[:8])), b[8:]
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s.t = time.Unix(0, unixNano).Local()
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readBytes := func() []byte {
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if err != nil {
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return nil
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} else if len(b) < 1+int(b[0]) {
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err = mlog.ErrWithKV(errMalformedSig, mlog.KV{"sigStr": str})
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return nil
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}
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out := b[1 : 1+b[0]]
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b = b[1+b[0]:]
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return out
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}
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s.salt = readBytes()
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s.sig = readBytes()
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return err
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}
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// MarshalJSON implements the method for the json.Marshaler interface
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func (s Signature) MarshalJSON() ([]byte, error) {
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return json.Marshal(s.String())
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}
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// UnmarshalJSON implements the method for the json.Unmarshaler interface
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func (s *Signature) UnmarshalJSON(b []byte) error {
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var str string
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if err := json.Unmarshal(b, &str); err != nil {
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return err
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}
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return s.UnmarshalText([]byte(str))
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}
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// returns an io.Reader which will first read out information about the
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// Signature which is going to be generated for the data, and then the data from
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// the io.Reader itself. When used in conjunction with the Signer/Verifier's
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// hashing algorithm this ensures that the other data encoded in the Signature
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// (the time and salt) are also encompassed in the sig.
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func sigPrefixReader(r io.Reader, sigLen uint8, salt []byte, t time.Time) io.Reader {
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// ts:8 + saltHeader:1 + salt + sigLen:1
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b := make([]byte, 10+len(salt))
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binary.BigEndian.PutUint64(b, uint64(t.UnixNano()))
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b[9] = uint8(len(salt))
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copy(b[9:9+len(salt)], salt)
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b[9+len(salt)] = sigLen
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return io.MultiReader(bytes.NewBuffer(b), r)
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}
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////////////////////////////////////////////////////////////////////////////////
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// Signer is some entity which can generate signatures for arbitrary data and
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// Signer is some entity which can generate signatures for arbitrary data and
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// can later verify those signatures
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// can later verify those signatures
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type Signer interface {
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type Signer interface {
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sign(io.Reader) (string, error)
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sign(io.Reader) (Signature, error)
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}
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// returns an error if io.Reader returns one ever, or if the signature
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// Verifier is some entity which can verify Signatures produced by a Signer for
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// some arbitrary data
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type Verifier interface {
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// returns an error if io.Reader returns one ever, or if the Signature
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// couldn't be verified
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// couldn't be verified
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verify(string, io.Reader) error
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verify(Signature, io.Reader) error
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}
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}
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// Sign reads all data from the io.Reader and signs it using the given Signer
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// Sign reads all data from the io.Reader and signs it using the given Signer
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func Sign(s Signer, r io.Reader) (string, error) {
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func Sign(s Signer, r io.Reader) (Signature, error) {
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return s.sign(r)
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return s.sign(r)
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}
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}
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// SignBytes uses the Signer to generate a signature for the given []bytes
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// SignBytes uses the Signer to generate a Signature for the given []bytes
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func SignBytes(s Signer, b []byte) string {
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func SignBytes(s Signer, b []byte) Signature {
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sig, err := s.sign(bytes.NewBuffer(b))
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sig, err := s.sign(bytes.NewBuffer(b))
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if err != nil {
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if err != nil {
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panic(err)
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panic(err)
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@ -49,219 +156,104 @@ func SignBytes(s Signer, b []byte) string {
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return sig
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return sig
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}
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}
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// SignString uses the Signer to generate a signature for the given string
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// SignString uses the Signer to generate a Signature for the given string
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func SignString(s Signer, in string) string {
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func SignString(s Signer, in string) Signature {
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return SignBytes(s, []byte(in))
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return SignBytes(s, []byte(in))
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}
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}
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// Verify reads all data from the io.Reader and uses the Signer to verify that
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// Verify reads all data from the io.Reader and uses the Verifier to verify that
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// the signature is for that data.
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// the Signature is for that data.
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//
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//
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// Returns any errors from io.Reader, or ErrInvalidSig (use merry.Is(err,
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// Returns any errors from io.Reader, or ErrInvalidSig (use merry.Is(err,
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// mcrypto.ErrInvalidSig) to check).
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// mcrypto.ErrInvalidSig) to check).
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func Verify(s Signer, sig string, r io.Reader) error {
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func Verify(v Verifier, s Signature, r io.Reader) error {
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return s.verify(sig, r)
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return v.verify(s, r)
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}
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}
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// VerifyBytes uses the Signer to verify that the signature is for the given
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// VerifyBytes uses the Verifier to verify that the Signature is for the given
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// []bytes.
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// []bytes.
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//
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//
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// Returns any errors from io.Reader, or ErrInvalidSig (use merry.Is(err,
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// Returns any errors from io.Reader, or ErrInvalidSig (use merry.Is(err,
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// mcrypto.ErrInvalidSig) to check).
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// mcrypto.ErrInvalidSig) to check).
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func VerifyBytes(s Signer, sig string, b []byte) error {
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func VerifyBytes(v Verifier, s Signature, b []byte) error {
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return s.verify(sig, bytes.NewBuffer(b))
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return v.verify(s, bytes.NewBuffer(b))
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}
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}
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// VerifyString uses the Signer to verify that the signature is for the given
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// VerifyString uses the Verifier to verify that the Signature is for the given
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// string.
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// string.
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//
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//
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// Returns any errors from io.Reader, or ErrInvalidSig (use merry.Is(err,
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// Returns any errors from io.Reader, or ErrInvalidSig (use merry.Is(err,
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// mcrypto.ErrInvalidSig) to check).
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// mcrypto.ErrInvalidSig) to check).
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func VerifyString(s Signer, sig, in string) error {
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func VerifyString(v Verifier, s Signature, in string) error {
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return VerifyBytes(s, sig, []byte(in))
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return VerifyBytes(v, s, []byte(in))
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}
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}
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////////////////////////////////////////////////////////////////////////////////
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////////////////////////////////////////////////////////////////////////////////
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type signer struct {
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type signVerifier struct {
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outSize uint8 // in bytes, shouldn't be more than 32, cause sha256
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outSize uint8 // in bytes, shouldn't be more than 32, cause sha256
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secret []byte
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secret []byte
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}
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// NewSigner returns a Signer instance which will use the given secret to sign
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// and verify all signatures. The signatures generated by this Signer have no
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// expiration
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func NewSigner(secret []byte) Signer {
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return signer{outSize: 20, secret: secret}
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}
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// NewWeakSigner returns a Signer, similar to how NewSigner does. The signatures
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// generated by this Signer will be smaller in text size, and therefore weaker,
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// but are still fine for most applications.
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//
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// The Signers returned by both NewSigner and NewWeakSigner can verify
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// each-other's signatures, as long as the secret is the same.
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func NewWeakSigner(secret []byte) Signer {
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return signer{outSize: 8, secret: secret}
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}
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func (s signer) signRaw(r io.Reader) (hash.Hash, error) {
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h := hmac.New(sha256.New, s.secret)
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_, err := io.Copy(h, r)
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return h, err
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}
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func (s signer) sign(r io.Reader) (string, error) {
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h, err := s.signRaw(r)
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if err != nil {
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return "", err
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}
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b := make([]byte, 1+h.Size())
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b[0] = s.outSize
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h.Sum(b[1:1])
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return sigV0 + hex.EncodeToString(b[:1+int(s.outSize)]), nil
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}
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func (s signer) verify(sig string, r io.Reader) error {
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sig, ok := stripPrefix(sig, sigV0)
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if !ok || len(sig) < 2 {
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return mlog.ErrWithKV(errMalformedSig, mlog.KV{"sig": sig})
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}
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sig = strings.TrimPrefix(sig, sigV0)
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sizeStr, sig := sig[:2], sig[2:]
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sizeB, err := hex.DecodeString(sizeStr)
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if err != nil {
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return mlog.ErrWithKV(err, mlog.KV{"sig": sig})
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}
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size := sizeB[0]
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if hex.DecodedLen(len(sig)) != int(size) {
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return mlog.ErrWithKV(errMalformedSig, mlog.KV{"sig": sig})
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}
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sigB, err := hex.DecodeString(sig)
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if err != nil {
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return mlog.ErrWithKV(err, mlog.KV{"sig": sig})
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}
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h, err := s.signRaw(r)
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if err != nil {
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return mlog.ErrWithKV(err, mlog.KV{"sig": sig})
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}
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if !hmac.Equal(sigB, h.Sum(nil)[:size]) {
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return mlog.ErrWithKV(ErrInvalidSig, mlog.KV{"sig": sig})
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}
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return nil
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}
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////////////////////////////////////////////////////////////////////////////////
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type expireSigner struct {
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s Signer
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timeout time.Duration
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// only used during tests
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// only used during tests
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testNow time.Time
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testNow time.Time
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}
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}
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// ExpireSigner wraps a Signer so that the signatures produced include timestamp
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// NewSignerVerifier returns Signer and Verifier instances which will use the
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// information about when the signature was made. That information is then used
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// given secret to sign and verify all Signatures
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// during verifying to ensure the signature isn't older than the timeout.
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func NewSignerVerifier(secret []byte) (Signer, Verifier) {
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//
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sv := signVerifier{outSize: 20, secret: secret}
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// It is allowed to change the timeout ExpireSigner is initialized with.
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return sv, sv
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// Previously generated signatures will be verified (or rejected) using the new
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// timeout.
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func ExpireSigner(s Signer, timeout time.Duration) Signer {
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return expireSigner{s: s, timeout: timeout}
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}
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}
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func (es expireSigner) now() time.Time {
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// NewWeakSignerVerifier returns Signer and Verifier instances, similar to how
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if !es.testNow.IsZero() {
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// NewSignVerifier does. The Signatures generated by this Signer will be smaller
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return es.testNow
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// in text size, and therefore weaker, but are still fine for most applications.
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//
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// The Verifiers returned by both NewSignVerifier and NewWeakSignVerifier can
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// verify each-other's signatures, as long as the secret is the same.
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func NewWeakSignerVerifier(secret []byte) (Signer, Verifier) {
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sv := signVerifier{outSize: 8, secret: secret}
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return sv, sv
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}
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func (sv signVerifier) now() time.Time {
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if !sv.testNow.IsZero() {
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return sv.testNow
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}
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}
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return time.Now()
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return time.Now()
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}
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}
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func (es expireSigner) sign(r io.Reader) (string, error) {
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func (sv signVerifier) signRaw(
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b := make([]byte, 8)
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r io.Reader,
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binary.BigEndian.PutUint64(b, uint64(es.now().UnixNano()))
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sigLen uint8, salt []byte, t time.Time,
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sig, err := es.s.sign(prefixReader(r, b))
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) (
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return exSigV0 + hex.EncodeToString(b) + sig, err
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[]byte, error,
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}
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) {
|
||||||
|
h := hmac.New(sha256.New, sv.secret)
|
||||||
var exSigTimeLen = hex.EncodedLen(8)
|
r = sigPrefixReader(r, sigLen, salt, t)
|
||||||
|
if _, err := io.Copy(h, r); err != nil {
|
||||||
func (es expireSigner) verify(sig string, r io.Reader) error {
|
return nil, err
|
||||||
sig, ok := stripPrefix(sig, exSigV0)
|
|
||||||
if !ok || len(sig) < exSigTimeLen {
|
|
||||||
return mlog.ErrWithKV(errMalformedSig, mlog.KV{"sig": sig})
|
|
||||||
}
|
}
|
||||||
|
return h.Sum(nil)[:sigLen], nil
|
||||||
tStr, sig := sig[:exSigTimeLen], sig[exSigTimeLen:]
|
|
||||||
tB, err := hex.DecodeString(tStr)
|
|
||||||
if err != nil {
|
|
||||||
return mlog.ErrWithKV(err, mlog.KV{"sig": sig})
|
|
||||||
}
|
|
||||||
|
|
||||||
t := time.Unix(0, int64(binary.BigEndian.Uint64(tB)))
|
|
||||||
if es.now().Sub(t) > es.timeout {
|
|
||||||
return mlog.ErrWithKV(ErrInvalidSig, mlog.KV{"sig": sig})
|
|
||||||
}
|
|
||||||
|
|
||||||
return es.s.verify(sig, prefixReader(r, tB))
|
|
||||||
}
|
}
|
||||||
|
|
||||||
////////////////////////////////////////////////////////////////////////////////
|
func (sv signVerifier) sign(r io.Reader) (Signature, error) {
|
||||||
|
salt := make([]byte, 8)
|
||||||
type uniqueSigner struct {
|
if _, err := rand.Read(salt); err != nil {
|
||||||
s Signer
|
|
||||||
randSize uint8 // in bytes
|
|
||||||
}
|
|
||||||
|
|
||||||
// UniqueSigner wraps a Signer so that when data is signed some random data is
|
|
||||||
// included in the signed data, and that random data is included in the
|
|
||||||
// signature as well. This ensures that even for the same input data signatures
|
|
||||||
// produced are all unique.
|
|
||||||
func UniqueSigner(s Signer) Signer {
|
|
||||||
return uniqueSigner{s: s, randSize: 10}
|
|
||||||
}
|
|
||||||
|
|
||||||
func (us uniqueSigner) sign(r io.Reader) (string, error) {
|
|
||||||
b := make([]byte, 1+us.randSize)
|
|
||||||
b[0] = us.randSize
|
|
||||||
if _, err := rand.Read(b[1:]); err != nil {
|
|
||||||
panic(err)
|
panic(err)
|
||||||
}
|
}
|
||||||
sig, err := us.s.sign(prefixReader(r, b[1:]))
|
|
||||||
return uniqueSigV0 + hex.EncodeToString(b) + sig, err
|
t := sv.now()
|
||||||
|
sig, err := sv.signRaw(r, sv.outSize, salt, t)
|
||||||
|
return Signature{sig: sig, salt: salt, t: t}, err
|
||||||
}
|
}
|
||||||
|
|
||||||
func (us uniqueSigner) verify(sig string, r io.Reader) error {
|
func (sv signVerifier) verify(s Signature, r io.Reader) error {
|
||||||
sig, ok := stripPrefix(sig, uniqueSigV0)
|
sig, err := sv.signRaw(r, uint8(len(s.sig)), s.salt, s.t)
|
||||||
if !ok || len(sig) < 2 {
|
|
||||||
return mlog.ErrWithKV(errMalformedSig, mlog.KV{"sig": sig})
|
|
||||||
}
|
|
||||||
|
|
||||||
sizeStr, sig := sig[:2], sig[2:]
|
|
||||||
sizeB, err := hex.DecodeString(sizeStr)
|
|
||||||
if err != nil {
|
if err != nil {
|
||||||
return mlog.ErrWithKV(err, mlog.KV{"sig": sig})
|
return mlog.ErrWithKV(err, s)
|
||||||
|
} else if !hmac.Equal(sig, s.sig) {
|
||||||
|
return mlog.ErrWithKV(ErrInvalidSig, s)
|
||||||
}
|
}
|
||||||
|
return nil
|
||||||
size := sizeB[0]
|
|
||||||
sizeEnc := hex.EncodedLen(int(size))
|
|
||||||
if len(sig) < sizeEnc {
|
|
||||||
return mlog.ErrWithKV(errMalformedSig, mlog.KV{"sig": sig})
|
|
||||||
}
|
|
||||||
|
|
||||||
bStr, sig := sig[:sizeEnc], sig[sizeEnc:]
|
|
||||||
b, err := hex.DecodeString(bStr)
|
|
||||||
if err != nil {
|
|
||||||
return mlog.ErrWithKV(err, mlog.KV{"sig": sig})
|
|
||||||
}
|
|
||||||
|
|
||||||
return us.s.verify(sig, prefixReader(r, b))
|
|
||||||
}
|
}
|
||||||
|
@ -9,31 +9,55 @@ import (
|
|||||||
"github.com/stretchr/testify/assert"
|
"github.com/stretchr/testify/assert"
|
||||||
)
|
)
|
||||||
|
|
||||||
func TestSigner(t *T) {
|
func TestSignerVerifier(t *T) {
|
||||||
secret := mtest.RandBytes(16)
|
secret := mtest.RandBytes(16)
|
||||||
signer, weakSigner := NewSigner(secret), NewWeakSigner(secret)
|
sigI, ver := NewSignerVerifier(secret)
|
||||||
var prevStr, prevSig, prevWeakSig string
|
sig := sigI.(signVerifier)
|
||||||
|
weakSigI, weakVer := NewWeakSignerVerifier(secret)
|
||||||
|
weakSig := weakSigI.(signVerifier)
|
||||||
|
var prevStr string
|
||||||
|
var prevSig, prevWeakSig Signature
|
||||||
for i := 0; i < 10000; i++ {
|
for i := 0; i < 10000; i++ {
|
||||||
|
now := time.Now().Round(0)
|
||||||
|
sig.testNow = now
|
||||||
|
weakSig.testNow = now
|
||||||
|
|
||||||
thisStr := mtest.RandHex(512)
|
thisStr := mtest.RandHex(512)
|
||||||
thisSig := SignString(signer, thisStr)
|
thisSig := SignString(sig, thisStr)
|
||||||
thisWeakSig := SignString(weakSigner, thisStr)
|
thisWeakSig := SignString(weakSig, thisStr)
|
||||||
|
thisSigStr, thisWeakSigStr := thisSig.String(), thisWeakSig.String()
|
||||||
|
|
||||||
|
// checking the times made it
|
||||||
|
assert.Equal(t, now, thisSig.Time())
|
||||||
|
assert.Equal(t, now, thisWeakSig.Time())
|
||||||
|
|
||||||
// sanity checks
|
// sanity checks
|
||||||
assert.NotEqual(t, thisSig, thisWeakSig)
|
assert.NotEmpty(t, thisSigStr)
|
||||||
assert.True(t, len(thisSig) > len(thisWeakSig))
|
assert.NotEmpty(t, thisWeakSigStr)
|
||||||
|
assert.NotEqual(t, thisSigStr, thisWeakSigStr)
|
||||||
|
assert.True(t, len(thisSigStr) > len(thisWeakSigStr))
|
||||||
|
|
||||||
// Either signer should be able to verify either signature
|
// marshaling/unmarshaling
|
||||||
assert.NoError(t, VerifyString(signer, thisSig, thisStr))
|
var thisSig2, thisWeakSig2 Signature
|
||||||
assert.NoError(t, VerifyString(weakSigner, thisWeakSig, thisStr))
|
assert.NoError(t, thisSig2.UnmarshalText([]byte(thisSigStr)))
|
||||||
assert.NoError(t, VerifyString(signer, thisWeakSig, thisStr))
|
assert.Equal(t, thisSigStr, thisSig2.String())
|
||||||
assert.NoError(t, VerifyString(weakSigner, thisSig, thisStr))
|
assert.NoError(t, thisWeakSig2.UnmarshalText([]byte(thisWeakSigStr)))
|
||||||
|
assert.Equal(t, thisWeakSigStr, thisWeakSig2.String())
|
||||||
|
assert.Equal(t, now, thisSig2.Time())
|
||||||
|
assert.Equal(t, now, thisWeakSig2.Time())
|
||||||
|
|
||||||
|
// Either sigVer should be able to verify either signature
|
||||||
|
assert.NoError(t, VerifyString(ver, thisSig, thisStr))
|
||||||
|
assert.NoError(t, VerifyString(weakVer, thisWeakSig, thisStr))
|
||||||
|
assert.NoError(t, VerifyString(ver, thisWeakSig, thisStr))
|
||||||
|
assert.NoError(t, VerifyString(weakVer, thisSig, thisStr))
|
||||||
|
|
||||||
if prevStr != "" {
|
if prevStr != "" {
|
||||||
assert.NotEqual(t, prevSig, thisSig)
|
assert.NotEqual(t, prevSig.String(), thisSigStr)
|
||||||
assert.NotEqual(t, prevWeakSig, thisWeakSig)
|
assert.NotEqual(t, prevWeakSig.String(), thisWeakSigStr)
|
||||||
err := VerifyString(signer, prevSig, thisStr)
|
err := VerifyString(ver, prevSig, thisStr)
|
||||||
assert.True(t, merry.Is(err, ErrInvalidSig))
|
assert.True(t, merry.Is(err, ErrInvalidSig))
|
||||||
err = VerifyString(signer, prevWeakSig, thisStr)
|
err = VerifyString(ver, prevWeakSig, thisStr)
|
||||||
assert.True(t, merry.Is(err, ErrInvalidSig))
|
assert.True(t, merry.Is(err, ErrInvalidSig))
|
||||||
}
|
}
|
||||||
prevStr = thisStr
|
prevStr = thisStr
|
||||||
@ -41,40 +65,3 @@ func TestSigner(t *T) {
|
|||||||
prevWeakSig = thisWeakSig
|
prevWeakSig = thisWeakSig
|
||||||
}
|
}
|
||||||
}
|
}
|
||||||
|
|
||||||
func TestExpireSigner(t *T) {
|
|
||||||
origNow := time.Now()
|
|
||||||
s := ExpireSigner(NewSigner(mtest.RandBytes(16)), 1*time.Hour).(expireSigner)
|
|
||||||
s.testNow = origNow
|
|
||||||
str := mtest.RandHex(32)
|
|
||||||
sig := SignString(s, str)
|
|
||||||
|
|
||||||
// in the immediate the sig should obviously work
|
|
||||||
assert.NoError(t, VerifyString(s, sig, str))
|
|
||||||
err := VerifyString(s, sig, mtest.RandHex(32))
|
|
||||||
assert.True(t, merry.Is(err, ErrInvalidSig))
|
|
||||||
|
|
||||||
// within the timeout it should still work
|
|
||||||
s.testNow = s.testNow.Add(1 * time.Minute)
|
|
||||||
assert.NoError(t, VerifyString(s, sig, str))
|
|
||||||
|
|
||||||
// but a new "now" should then generate a different sig
|
|
||||||
sig2 := SignString(s, str)
|
|
||||||
assert.NotEqual(t, sig, sig2)
|
|
||||||
assert.NoError(t, VerifyString(s, sig2, str))
|
|
||||||
|
|
||||||
// jumping forward an hour should expire the first sig, but not the second
|
|
||||||
s.testNow = s.testNow.Add(1 * time.Hour)
|
|
||||||
err = VerifyString(s, sig, str)
|
|
||||||
assert.True(t, merry.Is(err, ErrInvalidSig))
|
|
||||||
assert.NoError(t, VerifyString(s, sig2, str))
|
|
||||||
}
|
|
||||||
|
|
||||||
func TestUniqueSigner(t *T) {
|
|
||||||
s := UniqueSigner(NewSigner(mtest.RandBytes(16)))
|
|
||||||
str := mtest.RandHex(32)
|
|
||||||
sigA, sigB := SignString(s, str), SignString(s, str)
|
|
||||||
assert.NotEqual(t, sigA, sigB)
|
|
||||||
assert.NoError(t, VerifyString(s, sigA, str))
|
|
||||||
assert.NoError(t, VerifyString(s, sigB, str))
|
|
||||||
}
|
|
||||||
|
@ -78,8 +78,7 @@ func (u UUID) MarshalText() ([]byte, error) {
|
|||||||
// interface
|
// interface
|
||||||
func (u *UUID) UnmarshalText(b []byte) error {
|
func (u *UUID) UnmarshalText(b []byte) error {
|
||||||
if !bytes.HasPrefix(b, []byte(uuidV0)) || len(b) != len(uuidV0)+32 {
|
if !bytes.HasPrefix(b, []byte(uuidV0)) || len(b) != len(uuidV0)+32 {
|
||||||
err := errors.New("malformed uuid string")
|
return mlog.ErrWithKV(errMalformedUUID, mlog.KV{"uuidStr": string(b)})
|
||||||
return mlog.ErrWithKV(err, mlog.KV{"uuidStr": string(b)})
|
|
||||||
}
|
}
|
||||||
u.str = string(b)
|
u.str = string(b)
|
||||||
return nil
|
return nil
|
||||||
|
Loading…
Reference in New Issue
Block a user