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-rw-r--r--src/key.cpp130
1 files changed, 119 insertions, 11 deletions
diff --git a/src/key.cpp b/src/key.cpp
index 784085da34..3c4fa77e72 100644
--- a/src/key.cpp
+++ b/src/key.cpp
@@ -5,15 +5,34 @@
#include "key.h"
#include "crypto/sha2.h"
+#include <openssl/rand.h>
+#ifdef USE_SECP256K1
+#include <secp256k1.h>
+#else
#include <openssl/bn.h>
#include <openssl/ecdsa.h>
#include <openssl/obj_mac.h>
-#include <openssl/rand.h>
+#endif
// anonymous namespace with local implementation code (OpenSSL interaction)
namespace {
+#ifdef USE_SECP256K1
+#include <secp256k1.h>
+class CSecp256k1Init {
+public:
+ CSecp256k1Init() {
+ secp256k1_start();
+ }
+ ~CSecp256k1Init() {
+ secp256k1_stop();
+ }
+};
+static CSecp256k1Init instance_of_csecp256k1;
+
+#else
+
// Generate a private key from just the secret parameter
int EC_KEY_regenerate_key(EC_KEY *eckey, BIGNUM *priv_key)
{
@@ -334,6 +353,8 @@ public:
}
};
+#endif
+
int CompareBigEndian(const unsigned char *c1, size_t c1len, const unsigned char *c2, size_t c2len) {
while (c1len > c2len) {
if (*c1)
@@ -398,10 +419,15 @@ void CKey::MakeNewKey(bool fCompressedIn) {
}
bool CKey::SetPrivKey(const CPrivKey &privkey, bool fCompressedIn) {
+#ifdef USE_SECP256K1
+ if (!secp256k1_ecdsa_privkey_import((unsigned char*)begin(), &privkey[0], privkey.size()))
+ return false;
+#else
CECKey key;
if (!key.SetPrivKey(privkey))
return false;
key.GetSecretBytes(vch);
+#endif
fCompressed = fCompressedIn;
fValid = true;
return true;
@@ -409,99 +435,167 @@ bool CKey::SetPrivKey(const CPrivKey &privkey, bool fCompressedIn) {
CPrivKey CKey::GetPrivKey() const {
assert(fValid);
+ CPrivKey privkey;
+#ifdef USE_SECP256K1
+ privkey.resize(279);
+ int privkeylen = 279;
+ int ret = secp256k1_ecdsa_privkey_export(begin(), (unsigned char*)&privkey[0], &privkeylen, fCompressed);
+ assert(ret);
+ privkey.resize(privkeylen);
+#else
CECKey key;
key.SetSecretBytes(vch);
- CPrivKey privkey;
key.GetPrivKey(privkey, fCompressed);
+#endif
return privkey;
}
CPubKey CKey::GetPubKey() const {
assert(fValid);
+ CPubKey pubkey;
+#ifdef USE_SECP256K1
+ int clen = 65;
+ int ret = secp256k1_ecdsa_pubkey_create((unsigned char*)pubkey.begin(), &clen, begin(), fCompressed);
+ assert(ret);
+ assert(pubkey.IsValid());
+ assert((int)pubkey.size() == clen);
+#else
CECKey key;
key.SetSecretBytes(vch);
- CPubKey pubkey;
key.GetPubKey(pubkey, fCompressed);
+#endif
return pubkey;
}
bool CKey::Sign(const uint256 &hash, std::vector<unsigned char>& vchSig) const {
if (!fValid)
return false;
+#ifdef USE_SECP256K1
+ vchSig.resize(72);
+ int nSigLen = 72;
+ CKey nonce;
+ do {
+ nonce.MakeNewKey(true);
+ if (secp256k1_ecdsa_sign((const unsigned char*)&hash, 32, (unsigned char*)&vchSig[0], &nSigLen, begin(), nonce.begin()))
+ break;
+ } while(true);
+ vchSig.resize(nSigLen);
+ return true;
+#else
CECKey key;
key.SetSecretBytes(vch);
return key.Sign(hash, vchSig);
+#endif
}
bool CKey::SignCompact(const uint256 &hash, std::vector<unsigned char>& vchSig) const {
if (!fValid)
return false;
- CECKey key;
- key.SetSecretBytes(vch);
vchSig.resize(65);
int rec = -1;
+#ifdef USE_SECP256K1
+ CKey nonce;
+ do {
+ nonce.MakeNewKey(true);
+ if (secp256k1_ecdsa_sign_compact((const unsigned char*)&hash, 32, &vchSig[1], begin(), nonce.begin(), &rec))
+ break;
+ } while(true);
+#else
+ CECKey key;
+ key.SetSecretBytes(vch);
if (!key.SignCompact(hash, &vchSig[1], rec))
return false;
+#endif
assert(rec != -1);
vchSig[0] = 27 + rec + (fCompressed ? 4 : 0);
return true;
}
bool CKey::Load(CPrivKey &privkey, CPubKey &vchPubKey, bool fSkipCheck=false) {
+#ifdef USE_SECP256K1
+ if (!secp256k1_ecdsa_privkey_import((unsigned char*)begin(), &privkey[0], privkey.size()))
+ return false;
+#else
CECKey key;
if (!key.SetPrivKey(privkey, fSkipCheck))
return false;
-
key.GetSecretBytes(vch);
+#endif
fCompressed = vchPubKey.IsCompressed();
fValid = true;
-
+
if (fSkipCheck)
return true;
-
+
if (GetPubKey() != vchPubKey)
return false;
-
+
return true;
}
bool CPubKey::Verify(const uint256 &hash, const std::vector<unsigned char>& vchSig) const {
if (!IsValid())
return false;
+#ifdef USE_SECP256K1
+ if (secp256k1_ecdsa_verify((const unsigned char*)&hash, 32, &vchSig[0], vchSig.size(), begin(), size()) != 1)
+ return false;
+#else
CECKey key;
if (!key.SetPubKey(*this))
return false;
if (!key.Verify(hash, vchSig))
return false;
+#endif
return true;
}
bool CPubKey::RecoverCompact(const uint256 &hash, const std::vector<unsigned char>& vchSig) {
if (vchSig.size() != 65)
return false;
+ int recid = (vchSig[0] - 27) & 3;
+ bool fComp = (vchSig[0] - 27) & 4;
+#ifdef USE_SECP256K1
+ int pubkeylen = 65;
+ if (!secp256k1_ecdsa_recover_compact((const unsigned char*)&hash, 32, &vchSig[1], (unsigned char*)begin(), &pubkeylen, fComp, recid))
+ return false;
+ assert((int)size() == pubkeylen);
+#else
CECKey key;
- if (!key.Recover(hash, &vchSig[1], (vchSig[0] - 27) & ~4))
+ if (!key.Recover(hash, &vchSig[1], recid))
return false;
- key.GetPubKey(*this, (vchSig[0] - 27) & 4);
+ key.GetPubKey(*this, fComp);
+#endif
return true;
}
bool CPubKey::IsFullyValid() const {
if (!IsValid())
return false;
+#ifdef USE_SECP256K1
+ if (!secp256k1_ecdsa_pubkey_verify(begin(), size()))
+ return false;
+#else
CECKey key;
if (!key.SetPubKey(*this))
return false;
+#endif
return true;
}
bool CPubKey::Decompress() {
if (!IsValid())
return false;
+#ifdef USE_SECP256K1
+ int clen = size();
+ int ret = secp256k1_ecdsa_pubkey_decompress((unsigned char*)begin(), &clen);
+ assert(ret);
+ assert(clen == (int)size());
+#else
CECKey key;
if (!key.SetPubKey(*this))
return false;
key.GetPubKey(*this, false);
+#endif
return true;
}
@@ -531,7 +625,12 @@ bool CKey::Derive(CKey& keyChild, unsigned char ccChild[32], unsigned int nChild
BIP32Hash(cc, nChild, 0, begin(), out);
}
memcpy(ccChild, out+32, 32);
+#ifdef USE_SECP256K1
+ memcpy((unsigned char*)keyChild.begin(), begin(), 32);
+ bool ret = secp256k1_ecdsa_privkey_tweak_add((unsigned char*)keyChild.begin(), out);
+#else
bool ret = CECKey::TweakSecret((unsigned char*)keyChild.begin(), begin(), out);
+#endif
UnlockObject(out);
keyChild.fCompressed = true;
keyChild.fValid = ret;
@@ -545,10 +644,15 @@ bool CPubKey::Derive(CPubKey& pubkeyChild, unsigned char ccChild[32], unsigned i
unsigned char out[64];
BIP32Hash(cc, nChild, *begin(), begin()+1, out);
memcpy(ccChild, out+32, 32);
+#ifdef USE_SECP256K1
+ pubkeyChild = *this;
+ bool ret = secp256k1_ecdsa_pubkey_tweak_add((unsigned char*)pubkeyChild.begin(), pubkeyChild.size(), out);
+#else
CECKey key;
bool ret = key.SetPubKey(*this);
ret &= key.TweakPublic(out);
key.GetPubKey(pubkeyChild, true);
+#endif
return ret;
}
@@ -629,6 +733,9 @@ bool CExtPubKey::Derive(CExtPubKey &out, unsigned int nChild) const {
}
bool ECC_InitSanityCheck() {
+#ifdef USE_SECP256K1
+ return true;
+#else
EC_KEY *pkey = EC_KEY_new_by_curve_name(NID_secp256k1);
if(pkey == NULL)
return false;
@@ -636,6 +743,7 @@ bool ECC_InitSanityCheck() {
// TODO Is there more EC functionality that could be missing?
return true;
+#endif
}