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https://github.com/monero-project/monero.git
synced 2024-12-13 20:06:32 +02:00
ringct: encode 8 byte amount, saving 24 bytes per output
Found by knaccc
This commit is contained in:
parent
cdc3ccec5f
commit
99d946e619
@ -45,6 +45,8 @@
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#include "ringct/rctTypes.h"
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#include "ringct/rctOps.h"
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BOOST_CLASS_VERSION(rct::ecdhTuple, 1)
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//namespace cryptonote {
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namespace boost
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{
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@ -248,7 +250,15 @@ namespace boost
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inline void serialize(Archive &a, rct::ecdhTuple &x, const boost::serialization::version_type ver)
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{
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a & x.mask;
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a & x.amount;
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if (ver < 1)
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{
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a & x.amount;
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return;
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}
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crypto::hash8 &amount = (crypto::hash8&)x.amount;
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if (!Archive::is_saving::value)
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memset(&x.amount, 0, sizeof(x.amount));
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a & amount;
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// a & x.senderPk; // not serialized, as we do not use it in monero currently
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}
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@ -208,8 +208,8 @@ namespace hw {
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return encrypt_payment_id(payment_id, public_key, secret_key);
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}
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virtual bool ecdhEncode(rct::ecdhTuple & unmasked, const rct::key & sharedSec) = 0;
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virtual bool ecdhDecode(rct::ecdhTuple & masked, const rct::key & sharedSec) = 0;
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virtual bool ecdhEncode(rct::ecdhTuple & unmasked, const rct::key & sharedSec, bool short_amount) = 0;
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virtual bool ecdhDecode(rct::ecdhTuple & masked, const rct::key & sharedSec, bool short_amount) = 0;
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virtual bool add_output_key_mapping(const crypto::public_key &Aout, const crypto::public_key &Bout, const bool is_subaddress, const size_t real_output_index,
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const rct::key &amount_key, const crypto::public_key &out_eph_public_key) = 0;
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@ -302,13 +302,13 @@ namespace hw {
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return true;
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}
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bool device_default::ecdhEncode(rct::ecdhTuple & unmasked, const rct::key & sharedSec) {
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rct::ecdhEncode(unmasked, sharedSec);
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bool device_default::ecdhEncode(rct::ecdhTuple & unmasked, const rct::key & sharedSec, bool short_amount) {
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rct::ecdhEncode(unmasked, sharedSec, short_amount);
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return true;
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}
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bool device_default::ecdhDecode(rct::ecdhTuple & masked, const rct::key & sharedSec) {
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rct::ecdhDecode(masked, sharedSec);
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bool device_default::ecdhDecode(rct::ecdhTuple & masked, const rct::key & sharedSec, bool short_amount) {
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rct::ecdhDecode(masked, sharedSec, short_amount);
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return true;
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}
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@ -111,8 +111,8 @@ namespace hw {
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bool encrypt_payment_id(crypto::hash8 &payment_id, const crypto::public_key &public_key, const crypto::secret_key &secret_key) override;
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bool ecdhEncode(rct::ecdhTuple & unmasked, const rct::key & sharedSec) override;
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bool ecdhDecode(rct::ecdhTuple & masked, const rct::key & sharedSec) override;
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bool ecdhEncode(rct::ecdhTuple & unmasked, const rct::key & sharedSec, bool short_amount) override;
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bool ecdhDecode(rct::ecdhTuple & masked, const rct::key & sharedSec, bool short_amount) override;
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bool add_output_key_mapping(const crypto::public_key &Aout, const crypto::public_key &Bout, const bool is_subaddress, const size_t real_output_index,
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const rct::key &amount_key, const crypto::public_key &out_eph_public_key) override;
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@ -1140,13 +1140,13 @@ namespace hw {
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return true;
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}
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bool device_ledger::ecdhEncode(rct::ecdhTuple & unmasked, const rct::key & AKout) {
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bool device_ledger::ecdhEncode(rct::ecdhTuple & unmasked, const rct::key & AKout, bool short_amount) {
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AUTO_LOCK_CMD();
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#ifdef DEBUG_HWDEVICE
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const rct::key AKout_x = hw::ledger::decrypt(AKout);
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rct::ecdhTuple unmasked_x = unmasked;
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this->controle_device->ecdhEncode(unmasked_x, AKout_x);
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this->controle_device->ecdhEncode(unmasked_x, AKout_x, short_amount);
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#endif
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int offset = set_command_header_noopt(INS_BLIND);
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@ -1177,13 +1177,13 @@ namespace hw {
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return true;
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}
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bool device_ledger::ecdhDecode(rct::ecdhTuple & masked, const rct::key & AKout) {
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bool device_ledger::ecdhDecode(rct::ecdhTuple & masked, const rct::key & AKout, bool short_amount) {
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AUTO_LOCK_CMD();
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#ifdef DEBUG_HWDEVICE
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const rct::key AKout_x = hw::ledger::decrypt(AKout);
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rct::ecdhTuple masked_x = masked;
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this->controle_device->ecdhDecode(masked_x, AKout_x);
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this->controle_device->ecdhDecode(masked_x, AKout_x, short_amount);
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#endif
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int offset = set_command_header_noopt(INS_UNBLIND);
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@ -191,8 +191,8 @@ namespace hw {
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bool encrypt_payment_id(crypto::hash8 &payment_id, const crypto::public_key &public_key, const crypto::secret_key &secret_key) override;
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bool ecdhEncode(rct::ecdhTuple & unmasked, const rct::key & sharedSec) override;
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bool ecdhDecode(rct::ecdhTuple & masked, const rct::key & sharedSec) override;
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bool ecdhEncode(rct::ecdhTuple & unmasked, const rct::key & sharedSec, bool short_format) override;
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bool ecdhDecode(rct::ecdhTuple & masked, const rct::key & sharedSec, bool short_format) override;
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bool add_output_key_mapping(const crypto::public_key &Aout, const crypto::public_key &Bout, const bool is_subaddress, const size_t real_output_index,
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const rct::key &amount_key, const crypto::public_key &out_eph_public_key) override;
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@ -670,18 +670,38 @@ namespace rct {
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//Elliptic Curve Diffie Helman: encodes and decodes the amount b and mask a
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// where C= aG + bH
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void ecdhEncode(ecdhTuple & unmasked, const key & sharedSec) {
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static key ecdhHash(const key &k)
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{
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char data[38];
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rct::key hash;
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memcpy(data, "amount", 6);
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memcpy(data + 6, &k, sizeof(k));
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cn_fast_hash(hash, data, sizeof(data));
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return hash;
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}
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static void xor8(key &v, const key &k)
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{
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for (int i = 0; i < 8; ++i)
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v.bytes[i] ^= k.bytes[i];
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}
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void ecdhEncode(ecdhTuple & unmasked, const key & sharedSec, bool short_amount) {
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key sharedSec1 = hash_to_scalar(sharedSec);
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key sharedSec2 = hash_to_scalar(sharedSec1);
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//encode
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sc_add(unmasked.mask.bytes, unmasked.mask.bytes, sharedSec1.bytes);
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sc_add(unmasked.amount.bytes, unmasked.amount.bytes, sharedSec2.bytes);
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if (short_amount)
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xor8(unmasked.amount, ecdhHash(sharedSec));
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else
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sc_add(unmasked.amount.bytes, unmasked.amount.bytes, sharedSec2.bytes);
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}
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void ecdhDecode(ecdhTuple & masked, const key & sharedSec) {
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void ecdhDecode(ecdhTuple & masked, const key & sharedSec, bool short_amount) {
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key sharedSec1 = hash_to_scalar(sharedSec);
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key sharedSec2 = hash_to_scalar(sharedSec1);
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//decode
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sc_sub(masked.mask.bytes, masked.mask.bytes, sharedSec1.bytes);
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sc_sub(masked.amount.bytes, masked.amount.bytes, sharedSec2.bytes);
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if (short_amount)
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xor8(masked.amount, ecdhHash(sharedSec));
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else
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sc_sub(masked.amount.bytes, masked.amount.bytes, sharedSec2.bytes);
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}
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}
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@ -182,7 +182,7 @@ namespace rct {
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//Elliptic Curve Diffie Helman: encodes and decodes the amount b and mask a
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// where C= aG + bH
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void ecdhEncode(ecdhTuple & unmasked, const key & sharedSec);
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void ecdhDecode(ecdhTuple & masked, const key & sharedSec);
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void ecdhEncode(ecdhTuple & unmasked, const key & sharedSec, bool short_amount);
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void ecdhDecode(ecdhTuple & masked, const key & sharedSec, bool short_amount);
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}
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#endif /* RCTOPS_H */
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@ -716,7 +716,7 @@ namespace rct {
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//mask amount and mask
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rv.ecdhInfo[i].mask = copy(outSk[i].mask);
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rv.ecdhInfo[i].amount = d2h(amounts[i]);
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hwdev.ecdhEncode(rv.ecdhInfo[i], amount_keys[i]);
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hwdev.ecdhEncode(rv.ecdhInfo[i], amount_keys[i], rv.type == RCTTypeBulletproof2);
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}
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//set txn fee
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@ -853,7 +853,7 @@ namespace rct {
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//mask amount and mask
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rv.ecdhInfo[i].mask = copy(outSk[i].mask);
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rv.ecdhInfo[i].amount = d2h(outamounts[i]);
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hwdev.ecdhEncode(rv.ecdhInfo[i], amount_keys[i]);
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hwdev.ecdhEncode(rv.ecdhInfo[i], amount_keys[i], rv.type == RCTTypeBulletproof2);
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}
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//set txn fee
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@ -1151,7 +1151,7 @@ namespace rct {
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//mask amount and mask
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ecdhTuple ecdh_info = rv.ecdhInfo[i];
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hwdev.ecdhDecode(ecdh_info, sk);
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hwdev.ecdhDecode(ecdh_info, sk, rv.type == RCTTypeBulletproof2);
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mask = ecdh_info.mask;
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key amount = ecdh_info.amount;
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key C = rv.outPk[i].mask;
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@ -1181,7 +1181,7 @@ namespace rct {
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//mask amount and mask
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ecdhTuple ecdh_info = rv.ecdhInfo[i];
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hwdev.ecdhDecode(ecdh_info, sk);
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hwdev.ecdhDecode(ecdh_info, sk, rv.type == RCTTypeBulletproof2);
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mask = ecdh_info.mask;
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key amount = ecdh_info.amount;
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key C = rv.outPk[i].mask;
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@ -283,7 +283,20 @@ namespace rct {
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return false;
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for (size_t i = 0; i < outputs; ++i)
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{
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FIELDS(ecdhInfo[i])
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if (type == RCTTypeBulletproof2)
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{
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ar.begin_object();
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FIELD_N("mask", ecdhInfo[i].mask);
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if (!typename Archive<W>::is_saving())
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memset(ecdhInfo[i].amount.bytes, 0, sizeof(ecdhInfo[i].amount.bytes));
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crypto::hash8 &amount = (crypto::hash8&)ecdhInfo[i].amount;
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FIELD(amount);
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ar.end_object();
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}
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else
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{
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FIELDS(ecdhInfo[i])
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}
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if (outputs - i > 1)
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ar.delimit_array();
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}
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@ -10143,7 +10143,7 @@ void wallet2::check_tx_key_helper(const crypto::hash &txid, const crypto::key_de
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crypto::secret_key scalar1;
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hwdev.derivation_to_scalar(found_derivation, n, scalar1);
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rct::ecdhTuple ecdh_info = tx.rct_signatures.ecdhInfo[n];
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hwdev.ecdhDecode(ecdh_info, rct::sk2rct(scalar1));
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hwdev.ecdhDecode(ecdh_info, rct::sk2rct(scalar1), tx.rct_signatures.type == rct::RCTTypeBulletproof2);
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const rct::key C = tx.rct_signatures.outPk[n].mask;
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rct::key Ctmp;
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THROW_WALLET_EXCEPTION_IF(sc_check(ecdh_info.mask.bytes) != 0, error::wallet_internal_error, "Bad ECDH input mask");
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@ -10648,7 +10648,7 @@ bool wallet2::check_reserve_proof(const cryptonote::account_public_address &addr
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crypto::secret_key shared_secret;
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crypto::derivation_to_scalar(derivation, proof.index_in_tx, shared_secret);
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rct::ecdhTuple ecdh_info = tx.rct_signatures.ecdhInfo[proof.index_in_tx];
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rct::ecdhDecode(ecdh_info, rct::sk2rct(shared_secret));
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rct::ecdhDecode(ecdh_info, rct::sk2rct(shared_secret), tx.rct_signatures.type == rct::RCTTypeBulletproof2);
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amount = rct::h2d(ecdh_info.amount);
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}
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total += amount;
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@ -455,7 +455,7 @@ bool gen_multisig_tx_validation_base::generate_with(std::vector<test_event_entry
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crypto::secret_key scalar1;
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crypto::derivation_to_scalar(derivation, n, scalar1);
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rct::ecdhTuple ecdh_info = tx.rct_signatures.ecdhInfo[n];
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rct::ecdhDecode(ecdh_info, rct::sk2rct(scalar1));
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rct::ecdhDecode(ecdh_info, rct::sk2rct(scalar1), tx.rct_signatures.type == rct::RCTTypeBulletproof2);
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rct::key C = tx.rct_signatures.outPk[n].mask;
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rct::addKeys2(Ctmp, ecdh_info.mask, ecdh_info.amount, rct::H);
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CHECK_AND_ASSERT_MES(rct::equalKeys(C, Ctmp), false, "Failed to decode amount");
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@ -114,7 +114,7 @@ TEST(device, ops)
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ASSERT_EQ(ki0, ki1);
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}
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TEST(device, ecdh)
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TEST(device, ecdh32)
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{
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hw::core::device_default dev;
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rct::ecdhTuple tuple, tuple2;
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@ -123,8 +123,24 @@ TEST(device, ecdh)
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tuple.amount = rct::skGen();
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tuple.senderPk = rct::pkGen();
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tuple2 = tuple;
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dev.ecdhEncode(tuple, key);
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dev.ecdhDecode(tuple, key);
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dev.ecdhEncode(tuple, key, false);
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dev.ecdhDecode(tuple, key, false);
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ASSERT_EQ(tuple2.mask, tuple.mask);
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ASSERT_EQ(tuple2.amount, tuple.amount);
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ASSERT_EQ(tuple2.senderPk, tuple.senderPk);
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}
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TEST(device, ecdh8)
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{
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hw::core::device_default dev;
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rct::ecdhTuple tuple, tuple2;
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rct::key key = rct::skGen();
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tuple.mask = rct::skGen();
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tuple.amount = rct::skGen();
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tuple.senderPk = rct::pkGen();
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tuple2 = tuple;
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dev.ecdhEncode(tuple, key, true);
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dev.ecdhDecode(tuple, key, true);
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ASSERT_EQ(tuple2.mask, tuple.mask);
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ASSERT_EQ(tuple2.amount, tuple.amount);
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ASSERT_EQ(tuple2.senderPk, tuple.senderPk);
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@ -843,8 +843,8 @@ TEST(ringct, ecdh_roundtrip)
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t0.amount = d2h(amount);
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t1 = t0;
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ecdhEncode(t1, k);
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ecdhDecode(t1, k);
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ecdhEncode(t1, k, true);
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ecdhDecode(t1, k, true);
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ASSERT_TRUE(t0.mask == t1.mask);
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ASSERT_TRUE(equalKeys(t0.mask, t1.mask));
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ASSERT_TRUE(t0.amount == t1.amount);
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