forked from cerc-io/plugeth
crypto/ecies: improve concatKDF (#20836)
This removes a bunch of weird code around the counter overflow check in concatKDF and makes it actually work for different hash output sizes. The overflow check worked as follows: concatKDF applies the hash function N times, where N is roundup(kdLen, hashsize) / hashsize. N should not overflow 32 bits because that would lead to a repetition in the KDF output. A couple issues with the overflow check: - It used the hash.BlockSize, which is wrong because the block size is about the input of the hash function. Luckily, all standard hash functions have a block size that's greater than the output size, so concatKDF didn't crash, it just generated too much key material. - The check used big.Int to compare against 2^32-1. - The calculation could still overflow before reaching the check. The new code in concatKDF doesn't check for overflow. Instead, there is a new check on ECIESParams which ensures that params.KeyLen is < 512. This removes any possibility of overflow. There are a couple of miscellaneous improvements bundled in with this change: - The key buffer is pre-allocated instead of appending the hash output to an initially empty slice. - The code that uses concatKDF to derive keys is now shared between Encrypt and Decrypt. - There was a redundant invocation of IsOnCurve in Decrypt. This is now removed because elliptic.Unmarshal already checks whether the input is a valid curve point since Go 1.5. Co-authored-by: Felix Lange <fjl@twurst.com>
This commit is contained in:
parent
f7b29ec942
commit
462ddce5b2
@ -35,6 +35,7 @@ import (
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"crypto/elliptic"
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"crypto/elliptic"
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"crypto/hmac"
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"crypto/hmac"
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"crypto/subtle"
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"crypto/subtle"
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"encoding/binary"
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"fmt"
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"fmt"
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"hash"
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"hash"
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"io"
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"io"
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@ -44,7 +45,6 @@ import (
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var (
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var (
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ErrImport = fmt.Errorf("ecies: failed to import key")
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ErrImport = fmt.Errorf("ecies: failed to import key")
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ErrInvalidCurve = fmt.Errorf("ecies: invalid elliptic curve")
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ErrInvalidCurve = fmt.Errorf("ecies: invalid elliptic curve")
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ErrInvalidParams = fmt.Errorf("ecies: invalid ECIES parameters")
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ErrInvalidPublicKey = fmt.Errorf("ecies: invalid public key")
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ErrInvalidPublicKey = fmt.Errorf("ecies: invalid public key")
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ErrSharedKeyIsPointAtInfinity = fmt.Errorf("ecies: shared key is point at infinity")
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ErrSharedKeyIsPointAtInfinity = fmt.Errorf("ecies: shared key is point at infinity")
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ErrSharedKeyTooBig = fmt.Errorf("ecies: shared key params are too big")
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ErrSharedKeyTooBig = fmt.Errorf("ecies: shared key params are too big")
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@ -138,57 +138,39 @@ func (prv *PrivateKey) GenerateShared(pub *PublicKey, skLen, macLen int) (sk []b
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}
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}
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var (
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var (
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ErrKeyDataTooLong = fmt.Errorf("ecies: can't supply requested key data")
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ErrSharedTooLong = fmt.Errorf("ecies: shared secret is too long")
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ErrSharedTooLong = fmt.Errorf("ecies: shared secret is too long")
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ErrInvalidMessage = fmt.Errorf("ecies: invalid message")
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ErrInvalidMessage = fmt.Errorf("ecies: invalid message")
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)
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)
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var (
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big2To32 = new(big.Int).Exp(big.NewInt(2), big.NewInt(32), nil)
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big2To32M1 = new(big.Int).Sub(big2To32, big.NewInt(1))
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)
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func incCounter(ctr []byte) {
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if ctr[3]++; ctr[3] != 0 {
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return
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}
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if ctr[2]++; ctr[2] != 0 {
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return
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}
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if ctr[1]++; ctr[1] != 0 {
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return
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}
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if ctr[0]++; ctr[0] != 0 {
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return
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}
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}
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// NIST SP 800-56 Concatenation Key Derivation Function (see section 5.8.1).
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// NIST SP 800-56 Concatenation Key Derivation Function (see section 5.8.1).
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func concatKDF(hash hash.Hash, z, s1 []byte, kdLen int) (k []byte, err error) {
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func concatKDF(hash hash.Hash, z, s1 []byte, kdLen int) []byte {
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if s1 == nil {
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counterBytes := make([]byte, 4)
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s1 = make([]byte, 0)
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k := make([]byte, 0, roundup(kdLen, hash.Size()))
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}
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for counter := uint32(1); len(k) < kdLen; counter++ {
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binary.BigEndian.PutUint32(counterBytes, counter)
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reps := ((kdLen + 7) * 8) / (hash.BlockSize() * 8)
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hash.Reset()
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if big.NewInt(int64(reps)).Cmp(big2To32M1) > 0 {
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hash.Write(counterBytes)
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fmt.Println(big2To32M1)
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return nil, ErrKeyDataTooLong
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}
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counter := []byte{0, 0, 0, 1}
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k = make([]byte, 0)
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for i := 0; i <= reps; i++ {
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hash.Write(counter)
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hash.Write(z)
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hash.Write(z)
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hash.Write(s1)
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hash.Write(s1)
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k = append(k, hash.Sum(nil)...)
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k = hash.Sum(k)
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hash.Reset()
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incCounter(counter)
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}
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}
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return k[:kdLen]
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}
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k = k[:kdLen]
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// roundup rounds size up to the next multiple of blocksize.
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return
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func roundup(size, blocksize int) int {
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return size + blocksize - (size % blocksize)
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}
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// deriveKeys creates the encryption and MAC keys using concatKDF.
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func deriveKeys(hash hash.Hash, z, s1 []byte, keyLen int) (Ke, Km []byte) {
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K := concatKDF(hash, z, s1, 2*keyLen)
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Ke = K[:keyLen]
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Km = K[keyLen:]
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hash.Reset()
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hash.Write(Km)
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Km = hash.Sum(Km[:0])
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return Ke, Km
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}
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}
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// messageTag computes the MAC of a message (called the tag) as per
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// messageTag computes the MAC of a message (called the tag) as per
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@ -209,7 +191,6 @@ func generateIV(params *ECIESParams, rand io.Reader) (iv []byte, err error) {
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}
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}
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// symEncrypt carries out CTR encryption using the block cipher specified in the
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// symEncrypt carries out CTR encryption using the block cipher specified in the
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// parameters.
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func symEncrypt(rand io.Reader, params *ECIESParams, key, m []byte) (ct []byte, err error) {
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func symEncrypt(rand io.Reader, params *ECIESParams, key, m []byte) (ct []byte, err error) {
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c, err := params.Cipher(key)
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c, err := params.Cipher(key)
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if err != nil {
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if err != nil {
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@ -249,36 +230,27 @@ func symDecrypt(params *ECIESParams, key, ct []byte) (m []byte, err error) {
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// ciphertext. s1 is fed into key derivation, s2 is fed into the MAC. If the
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// ciphertext. s1 is fed into key derivation, s2 is fed into the MAC. If the
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// shared information parameters aren't being used, they should be nil.
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// shared information parameters aren't being used, they should be nil.
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func Encrypt(rand io.Reader, pub *PublicKey, m, s1, s2 []byte) (ct []byte, err error) {
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func Encrypt(rand io.Reader, pub *PublicKey, m, s1, s2 []byte) (ct []byte, err error) {
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params := pub.Params
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params, err := pubkeyParams(pub)
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if params == nil {
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if err != nil {
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if params = ParamsFromCurve(pub.Curve); params == nil {
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return nil, err
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err = ErrUnsupportedECIESParameters
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return
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}
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}
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}
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R, err := GenerateKey(rand, pub.Curve, params)
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R, err := GenerateKey(rand, pub.Curve, params)
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if err != nil {
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if err != nil {
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return
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return nil, err
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}
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z, err := R.GenerateShared(pub, params.KeyLen, params.KeyLen)
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if err != nil {
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return nil, err
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}
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}
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hash := params.Hash()
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hash := params.Hash()
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z, err := R.GenerateShared(pub, params.KeyLen, params.KeyLen)
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Ke, Km := deriveKeys(hash, z, s1, params.KeyLen)
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if err != nil {
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return
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}
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K, err := concatKDF(hash, z, s1, params.KeyLen+params.KeyLen)
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if err != nil {
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return
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}
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Ke := K[:params.KeyLen]
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Km := K[params.KeyLen:]
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hash.Write(Km)
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Km = hash.Sum(nil)
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hash.Reset()
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em, err := symEncrypt(rand, params, Ke, m)
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em, err := symEncrypt(rand, params, Ke, m)
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if err != nil || len(em) <= params.BlockSize {
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if err != nil || len(em) <= params.BlockSize {
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return
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return nil, err
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}
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}
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d := messageTag(params.Hash, Km, em, s2)
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d := messageTag(params.Hash, Km, em, s2)
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@ -288,7 +260,7 @@ func Encrypt(rand io.Reader, pub *PublicKey, m, s1, s2 []byte) (ct []byte, err e
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copy(ct, Rb)
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copy(ct, Rb)
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copy(ct[len(Rb):], em)
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copy(ct[len(Rb):], em)
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copy(ct[len(Rb)+len(em):], d)
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copy(ct[len(Rb)+len(em):], d)
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return
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return ct, nil
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}
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}
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// Decrypt decrypts an ECIES ciphertext.
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// Decrypt decrypts an ECIES ciphertext.
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@ -296,13 +268,11 @@ func (prv *PrivateKey) Decrypt(c, s1, s2 []byte) (m []byte, err error) {
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if len(c) == 0 {
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if len(c) == 0 {
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return nil, ErrInvalidMessage
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return nil, ErrInvalidMessage
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}
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}
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params := prv.PublicKey.Params
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params, err := pubkeyParams(&prv.PublicKey)
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if params == nil {
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if err != nil {
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if params = ParamsFromCurve(prv.PublicKey.Curve); params == nil {
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return nil, err
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err = ErrUnsupportedECIESParameters
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return
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}
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}
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}
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hash := params.Hash()
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hash := params.Hash()
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var (
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var (
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@ -316,12 +286,10 @@ func (prv *PrivateKey) Decrypt(c, s1, s2 []byte) (m []byte, err error) {
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case 2, 3, 4:
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case 2, 3, 4:
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rLen = (prv.PublicKey.Curve.Params().BitSize + 7) / 4
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rLen = (prv.PublicKey.Curve.Params().BitSize + 7) / 4
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if len(c) < (rLen + hLen + 1) {
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if len(c) < (rLen + hLen + 1) {
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err = ErrInvalidMessage
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return nil, ErrInvalidMessage
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return
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}
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}
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default:
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default:
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err = ErrInvalidPublicKey
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return nil, ErrInvalidPublicKey
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return
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}
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}
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mStart = rLen
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mStart = rLen
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@ -331,36 +299,19 @@ func (prv *PrivateKey) Decrypt(c, s1, s2 []byte) (m []byte, err error) {
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R.Curve = prv.PublicKey.Curve
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R.Curve = prv.PublicKey.Curve
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R.X, R.Y = elliptic.Unmarshal(R.Curve, c[:rLen])
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R.X, R.Y = elliptic.Unmarshal(R.Curve, c[:rLen])
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if R.X == nil {
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if R.X == nil {
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err = ErrInvalidPublicKey
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return nil, ErrInvalidPublicKey
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return
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}
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if !R.Curve.IsOnCurve(R.X, R.Y) {
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err = ErrInvalidCurve
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return
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}
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}
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z, err := prv.GenerateShared(R, params.KeyLen, params.KeyLen)
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z, err := prv.GenerateShared(R, params.KeyLen, params.KeyLen)
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if err != nil {
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if err != nil {
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return
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return nil, err
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}
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}
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Ke, Km := deriveKeys(hash, z, s1, params.KeyLen)
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K, err := concatKDF(hash, z, s1, params.KeyLen+params.KeyLen)
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if err != nil {
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return
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}
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Ke := K[:params.KeyLen]
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Km := K[params.KeyLen:]
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hash.Write(Km)
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Km = hash.Sum(nil)
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hash.Reset()
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d := messageTag(params.Hash, Km, c[mStart:mEnd], s2)
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d := messageTag(params.Hash, Km, c[mStart:mEnd], s2)
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if subtle.ConstantTimeCompare(c[mEnd:], d) != 1 {
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if subtle.ConstantTimeCompare(c[mEnd:], d) != 1 {
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err = ErrInvalidMessage
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return nil, ErrInvalidMessage
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return
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}
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}
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m, err = symDecrypt(params, Ke, c[mStart:mEnd])
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return symDecrypt(params, Ke, c[mStart:mEnd])
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return
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}
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}
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@ -42,17 +42,23 @@ import (
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"github.com/ethereum/go-ethereum/crypto"
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"github.com/ethereum/go-ethereum/crypto"
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)
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)
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// Ensure the KDF generates appropriately sized keys.
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func TestKDF(t *testing.T) {
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func TestKDF(t *testing.T) {
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msg := []byte("Hello, world")
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tests := []struct {
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h := sha256.New()
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length int
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output []byte
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k, err := concatKDF(h, msg, nil, 64)
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}{
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if err != nil {
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{6, decode("858b192fa2ed")},
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t.Fatal(err)
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{32, decode("858b192fa2ed4395e2bf88dd8d5770d67dc284ee539f12da8bceaa45d06ebae0")},
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{48, decode("858b192fa2ed4395e2bf88dd8d5770d67dc284ee539f12da8bceaa45d06ebae0700f1ab918a5f0413b8140f9940d6955")},
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{64, decode("858b192fa2ed4395e2bf88dd8d5770d67dc284ee539f12da8bceaa45d06ebae0700f1ab918a5f0413b8140f9940d6955f3467fd6672cce1024c5b1effccc0f61")},
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}
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for _, test := range tests {
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h := sha256.New()
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k := concatKDF(h, []byte("input"), nil, test.length)
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if !bytes.Equal(k, test.output) {
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t.Fatalf("KDF: generated key %x does not match expected output %x", k, test.output)
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}
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}
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if len(k) != 64 {
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t.Fatalf("KDF: generated key is the wrong size (%d instead of 64\n", len(k))
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}
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}
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}
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}
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@ -293,8 +299,8 @@ func TestParamSelection(t *testing.T) {
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func testParamSelection(t *testing.T, c testCase) {
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func testParamSelection(t *testing.T, c testCase) {
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params := ParamsFromCurve(c.Curve)
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params := ParamsFromCurve(c.Curve)
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if params == nil && c.Expected != nil {
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if params == nil {
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t.Fatalf("%s (%s)\n", ErrInvalidParams.Error(), c.Name)
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t.Fatal("ParamsFromCurve returned nil")
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} else if params != nil && !cmpParams(params, c.Expected) {
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} else if params != nil && !cmpParams(params, c.Expected) {
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t.Fatalf("ecies: parameters should be invalid (%s)\n", c.Name)
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t.Fatalf("ecies: parameters should be invalid (%s)\n", c.Name)
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}
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}
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@ -401,7 +407,7 @@ func TestSharedKeyStatic(t *testing.T) {
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t.Fatal(ErrBadSharedKeys)
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t.Fatal(ErrBadSharedKeys)
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}
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}
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sk, _ := hex.DecodeString("167ccc13ac5e8a26b131c3446030c60fbfac6aa8e31149d0869f93626a4cdf62")
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sk := decode("167ccc13ac5e8a26b131c3446030c60fbfac6aa8e31149d0869f93626a4cdf62")
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if !bytes.Equal(sk1, sk) {
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if !bytes.Equal(sk1, sk) {
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t.Fatalf("shared secret mismatch: want: %x have: %x", sk, sk1)
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t.Fatalf("shared secret mismatch: want: %x have: %x", sk, sk1)
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}
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}
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@ -414,3 +420,11 @@ func hexKey(prv string) *PrivateKey {
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}
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}
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return ImportECDSA(key)
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return ImportECDSA(key)
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}
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}
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func decode(s string) []byte {
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bytes, err := hex.DecodeString(s)
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if err != nil {
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panic(err)
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}
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return bytes
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}
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@ -49,8 +49,14 @@ var (
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DefaultCurve = ethcrypto.S256()
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DefaultCurve = ethcrypto.S256()
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ErrUnsupportedECDHAlgorithm = fmt.Errorf("ecies: unsupported ECDH algorithm")
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ErrUnsupportedECDHAlgorithm = fmt.Errorf("ecies: unsupported ECDH algorithm")
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ErrUnsupportedECIESParameters = fmt.Errorf("ecies: unsupported ECIES parameters")
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ErrUnsupportedECIESParameters = fmt.Errorf("ecies: unsupported ECIES parameters")
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ErrInvalidKeyLen = fmt.Errorf("ecies: invalid key size (> %d) in ECIESParams", maxKeyLen)
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)
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)
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// KeyLen is limited to prevent overflow of the counter
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// in concatKDF. While the theoretical limit is much higher,
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// no known cipher uses keys larger than 512 bytes.
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const maxKeyLen = 512
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type ECIESParams struct {
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type ECIESParams struct {
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Hash func() hash.Hash // hash function
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Hash func() hash.Hash // hash function
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hashAlgo crypto.Hash
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hashAlgo crypto.Hash
|
||||||
@ -115,3 +121,16 @@ func AddParamsForCurve(curve elliptic.Curve, params *ECIESParams) {
|
|||||||
func ParamsFromCurve(curve elliptic.Curve) (params *ECIESParams) {
|
func ParamsFromCurve(curve elliptic.Curve) (params *ECIESParams) {
|
||||||
return paramsFromCurve[curve]
|
return paramsFromCurve[curve]
|
||||||
}
|
}
|
||||||
|
|
||||||
|
func pubkeyParams(key *PublicKey) (*ECIESParams, error) {
|
||||||
|
params := key.Params
|
||||||
|
if params == nil {
|
||||||
|
if params = ParamsFromCurve(key.Curve); params == nil {
|
||||||
|
return nil, ErrUnsupportedECIESParameters
|
||||||
|
}
|
||||||
|
}
|
||||||
|
if params.KeyLen > maxKeyLen {
|
||||||
|
return nil, ErrInvalidKeyLen
|
||||||
|
}
|
||||||
|
return params, nil
|
||||||
|
}
|
||||||
|
Loading…
Reference in New Issue
Block a user