Ledger HW Bug fixes
Fix the way the REAL mode is handle: Let create_transactions_2 and create_transactions_from construct the vector of transactions. Then iterate on it and resign. We just need to add 'outs' list in the TX struct for that. Fix default secret keys value when DEBUG_HWDEVICE mode is off The magic value (00...00 for view key and FF..FF for spend key) was not correctly set when DEBUG_HWDEVICE was off. Both was set to 00...00. Add sub-address info in ABP map in order to correctly display destination sub-address on device Fix DEBUG_HWDEVICE mode: - Fix compilation errors. - Fix control device init in ledger device. - Add more log. Fix sub addr control Fix debug Info
This commit is contained in:
parent
e9f41e405f
commit
73dd883d51
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@ -140,9 +140,7 @@ DISABLE_VS_WARNINGS(4244 4345)
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hwdev.init();
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hwdev.connect();
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hwdev.get_public_address(m_keys.m_account_address);
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#ifdef DEBUG_HWDEVICE
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hwdev.get_secret_keys(m_keys.m_view_secret_key, m_keys.m_spend_secret_key);
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#endif
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struct tm timestamp = {0};
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timestamp.tm_year = 2014 - 1900; // year 2014
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timestamp.tm_mon = 4 - 1; // month april
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@ -409,7 +409,7 @@ namespace cryptonote
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r = crypto::derive_public_key(derivation, output_index, dst_entr.addr.m_spend_public_key, out_eph_public_key, hwdev);
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CHECK_AND_ASSERT_MES(r, false, "at creation outs: failed to derive_public_key(" << derivation << ", " << output_index << ", "<< dst_entr.addr.m_spend_public_key << ")");
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hwdev.add_output_key_mapping(dst_entr.addr.m_view_public_key, dst_entr.addr.m_spend_public_key, output_index, amount_keys.back(), out_eph_public_key);
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hwdev.add_output_key_mapping(dst_entr.addr.m_view_public_key, dst_entr.addr.m_spend_public_key, dst_entr.is_subaddress, output_index, amount_keys.back(), out_eph_public_key);
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tx_out out;
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out.amount = dst_entr.amount;
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@ -67,4 +67,4 @@ namespace hw {
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return *device->second;
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}
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}
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}
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@ -28,6 +28,20 @@
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//
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/* Note about debug:
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* To debug Device you can def the following :
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* #define DEBUG_HWDEVICE
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* Activate debug mechanism:
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* - Add more trace
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* - All computation done by device are checked by default device.
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* Required IODUMMYCRYPT_HWDEVICE or IONOCRYPT_HWDEVICE for fully working
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* #define IODUMMYCRYPT_HWDEVICE 1
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* - It assumes sensitive data encryption is is off on device side. a XOR with 0x55. This allow Ledger Class to make check on clear value
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* #define IONOCRYPT_HWDEVICE 1
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* - It assumes sensitive data encryption is off on device side.
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*/
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#pragma once
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#include "cryptonote_basic/cryptonote_basic.h"
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@ -128,8 +142,8 @@ namespace hw {
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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 add_output_key_mapping(const crypto::public_key &Aout, const crypto::public_key &Bout, 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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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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virtual bool mlsag_prehash(const std::string &blob, size_t inputs_size, size_t outputs_size, const rct::keyV &hashes, const rct::ctkeyV &outPk, rct::key &prehash) = 0;
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@ -29,11 +29,6 @@
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#pragma once
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//#define DEBUG_HWDEVICE
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//#define IODUMMYCRYPT 1
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//#define IONOCRYPT 1
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namespace hw {
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class device;
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@ -185,7 +185,7 @@ namespace hw {
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}
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bool device_default::add_output_key_mapping(const crypto::public_key &Aout, const crypto::public_key &Bout, size_t real_output_index,
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bool device_default::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) {
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return true;
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}
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@ -105,8 +105,8 @@ namespace hw {
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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 add_output_key_mapping(const crypto::public_key &Aout, const crypto::public_key &Bout, 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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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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bool mlsag_prehash(const std::string &blob, size_t inputs_size, size_t outputs_size, const rct::keyV &hashes, const rct::ctkeyV &outPk, rct::key &prehash) override;
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@ -55,30 +55,29 @@ namespace hw {
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#define ASSERT_T0(exp) CHECK_AND_ASSERT_THROW_MES(exp, "Protocol assert failure: "#exp ) ;
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#ifdef DEBUG_HWDEVICE
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#define DEVICE_CONTROLE :controle_device(hw::get_device("default"))
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crypto::secret_key viewkey;
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crypto::secret_key spendkey;
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#else
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#define DEVICE_CONTROLE
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#endif
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/* ===================================================================== */
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/* === Keymap ==== */
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/* ===================================================================== */
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ABPkeys::ABPkeys(const rct::key& A, const rct::key& B, size_t real_output_index, const rct::key& P, const rct::key& AK) {
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ABPkeys::ABPkeys(const rct::key& A, const rct::key& B, const bool is_subaddr, const size_t real_output_index, const rct::key& P, const rct::key& AK) {
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Aout = A;
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Bout = B;
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is_subaddress = is_subaddr;
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index = real_output_index;
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Pout = P;
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AKout = AK;
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}
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ABPkeys::ABPkeys(const ABPkeys& keys) {
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Aout = keys.Aout;
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Bout = keys.Bout;
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Aout = keys.Aout;
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Bout = keys.Bout;
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is_subaddress = keys.is_subaddress;
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index = keys.index;
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Pout = keys.Pout;
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Pout = keys.Pout;
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AKout = keys.AKout;
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}
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log_message(" keymap", std::to_string(i));
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log_hexbuffer(" Aout", (char*)ABP[i].Aout.bytes, 32);
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log_hexbuffer(" Bout", (char*)ABP[i].Bout.bytes, 32);
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log_message (" is_sub", std::to_string(ABP[i].is_subaddress));
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log_message (" index", std::to_string(ABP[i].index));
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log_hexbuffer(" Pout", (char*)ABP[i].Pout.bytes, 32);
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}
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@ -189,7 +189,7 @@ namespace hw {
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}
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/* -------------------------------------------------------------- */
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device_ledger::device_ledger() DEVICE_CONTROLE {
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device_ledger::device_ledger() {
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this->id = device_id++;
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this->hCard = 0;
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this->hContext = 0;
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@ -300,6 +300,9 @@ namespace hw {
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}
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bool device_ledger::init(void) {
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#ifdef DEBUG_HWDEVICE
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this->controle_device = &hw::get_device("default");
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#endif
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LONG rv;
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this->release();
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rv = SCardEstablishContext(SCARD_SCOPE_SYSTEM,0,0, &this->hContext);
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@ -411,12 +414,6 @@ namespace hw {
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/* WALLET & ADDRESS */
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/* ======================================================================= */
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bool device_ledger::get_secret_keys(crypto::secret_key &viewkey , crypto::secret_key &spendkey) {
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memset(viewkey.data, 0x00, 32);
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memset(spendkey.data, 0xFF, 32);
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return true;
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}
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/* Application API */
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bool device_ledger::get_public_address(cryptonote::account_public_address &pubkey){
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@ -449,8 +446,11 @@ namespace hw {
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return true;
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}
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#ifdef DEBUG_HWDEVICE
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bool device_ledger::get_secret_keys(crypto::secret_key &viewkey , crypto::secret_key &spendkey) {
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memset(viewkey.data, 0x00, 32);
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memset(spendkey.data, 0xFF, 32);
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#ifdef DEBUG_HWDEVICE
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lock_device();
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try {
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//spcialkey, normal conf handled in decrypt
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unlock_device();
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throw;
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}
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#endif
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return true;
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}
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#endif
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bool device_ledger::generate_chacha_key(const cryptonote::account_keys &keys, crypto::chacha_key &key) {
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lock_device();
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int offset;
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#ifdef DEBUG_HWDEVICE
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const cryptonote::account_keys keys_x = decrypt(keys);
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crypto::chacha_key key_x;
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this->controle_device.generate_chacha_key(keys_x, key_x);
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cryptonote::account_keys keys_x = hw::ledger::decrypt(keys);
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this->controle_device->generate_chacha_key(keys_x, key_x);
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#endif
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reset_buffer();
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const crypto::key_derivation derivation_x = hw::ledger::decrypt(derivation);
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const std::size_t output_index_x = output_index;
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crypto::public_key derived_pub_x;
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this->controle_device.derive_subaddress_public_key(pub_x, derivation_x,output_index_x,derived_pub_x);
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hw::ledger::log_hexbuffer("derive_subaddress_public_key: [[IN]] pub ", pub_x.data, 32);
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hw::ledger::log_hexbuffer("derive_subaddress_public_key: [[IN]] derivation", derivation_x.data, 32);
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hw::ledger::log_message ("derive_subaddress_public_key: [[IN]] index ", std::to_string((int)output_index_x));
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this->controle_device->derive_subaddress_public_key(pub_x, derivation_x,output_index_x,derived_pub_x);
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hw::ledger::log_hexbuffer("derive_subaddress_public_key: [[OUT]] derived_pub", derived_pub_x.data, 32);
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#endif
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reset_buffer();
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const cryptonote::account_keys keys_x = hw::ledger::decrypt(keys);
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const cryptonote::subaddress_index index_x = index;
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crypto::public_key D_x;
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this->controle_device.get_subaddress_spend_public_key(keys_x, index_x, D_x);
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hw::ledger::log_hexbuffer("derive_subaddress_public_key: [[IN]] keys.m_view_secret_key ", keys_x.m_view_secret_key.data,32);
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hw::ledger::log_hexbuffer("derive_subaddress_public_key: [[IN]] keys.m_spend_secret_key", keys_x.m_spend_secret_key.data,32);
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hw::ledger::log_message ("get_subaddress_spend_public_key: [[IN]] index ", std::to_string(index_x.major)+"."+std::to_string(index_x.minor));
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this->controle_device->get_subaddress_spend_public_key(keys_x, index_x, D_x);
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hw::ledger::log_hexbuffer("get_subaddress_spend_public_key: [[OUT]] derivation ", D_x.data, 32);
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#endif
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if (index.is_zero()) {
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const cryptonote::account_keys keys_x = hw::ledger::decrypt(keys);
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const cryptonote::subaddress_index index_x = index;
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cryptonote::account_public_address address_x;
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this->controle_device.get_subaddress(keys_x, index_x, address_x);
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hw::ledger::log_hexbuffer("derive_subaddress_public_key: [[IN]] keys.m_view_secret_key ", keys_x.m_view_secret_key.data, 32);
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hw::ledger::log_hexbuffer("derive_subaddress_public_key: [[IN]] keys.m_view_public_key", keys_x.m_account_address.m_view_public_key.data, 32);
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hw::ledger::log_hexbuffer("derive_subaddress_public_key: [[IN]] keys.m_view_secret_key ", keys_x.m_view_secret_key.data, 32);
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hw::ledger::log_hexbuffer("derive_subaddress_public_key: [[IN]] keys.m_spend_public_key", keys_x.m_account_address.m_spend_public_key.data, 32);
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hw::ledger::log_message ("get_subaddress: [[IN]] index ", std::to_string(index_x.major)+"."+std::to_string(index_x.minor));
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this->controle_device->get_subaddress(keys_x, index_x, address_x);
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hw::ledger::log_hexbuffer("derive_subaddress_public_key: [[IN]] keys.m_view_public_key ", address_x.m_view_public_key.data, 32);
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hw::ledger::log_hexbuffer("derive_subaddress_public_key: [[IN]] keys.m_spend_public_key", address_x.m_spend_public_key.data, 32);
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#endif
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if (index.is_zero()) {
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const crypto::secret_key sec_x = hw::ledger::decrypt(sec);
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const cryptonote::subaddress_index index_x = index;
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crypto::secret_key sub_sec_x;
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this->controle_device.get_subaddress_secret_key(sec_x, index_x, sub_sec_x);
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hw::ledger::log_message ("get_subaddress_secret_key: [[IN]] index ", std::to_string(index.major)+"."+std::to_string(index.minor));
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hw::ledger::log_hexbuffer("get_subaddress_secret_key: [[IN]] sec ", sec_x.data, 32);
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this->controle_device->get_subaddress_secret_key(sec_x, index_x, sub_sec_x);
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hw::ledger::log_hexbuffer("get_subaddress_secret_key: [[OUT]] sub_sec", sub_sec_x.data, 32);
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#endif
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reset_buffer();
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unsigned char options = 0;
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#ifdef DEBUG_HWDEVICE
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const rct::key pub_x = pub;
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const rct::key sec_x = hw::ledger::decrypt(sec);
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rct::key mulkey_x;
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this->controle_device.scalarmultKey(pub_x, sec_x, mulkey_x);
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const rct::key P_x = P;
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const rct::key a_x = hw::ledger::decrypt(a);
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rct::key aP_x;
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hw::ledger::log_hexbuffer("scalarmultKey: [[IN]] P ", (char*)P_x.bytes, 32);
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hw::ledger::log_hexbuffer("scalarmultKey: [[IN]] a ", (char*)a_x.bytes, 32);
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this->controle_device->scalarmultKey(aP_x, P_x, a_x);
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hw::ledger::log_hexbuffer("scalarmultKey: [[OUT]] aP", (char*)aP_x.bytes, 32);
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#endif
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reset_buffer();
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memmove(aP.bytes, &this->buffer_recv[0], 32);
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#ifdef DEBUG_HWDEVICE
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hw::ledger::check32("scalarmultKey", "mulkey", (char*)mulkey_x.bytes, (char*)mulkey.bytes);
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hw::ledger::check32("scalarmultKey", "mulkey", (char*)aP_x.bytes, (char*)aP.bytes);
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#endif
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unlock_device();
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unsigned char options = 0;
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#ifdef DEBUG_HWDEVICE
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const rct::key sec_x = hw::ledger::decrypt(sec);
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rct::key mulkey_x;
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this->controle_device.scalarmultBase(sec_x, mulkey_x);
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const rct::key a_x = hw::ledger::decrypt(a);
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rct::key aG_x;
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hw::ledger::log_hexbuffer("scalarmultKey: [[IN]] a ", (char*)a_x.bytes, 32);
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this->controle_device->scalarmultBase(aG_x, a_x);
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hw::ledger::log_hexbuffer("scalarmultKey: [[OUT]] aG", (char*)aG_x.bytes, 32);
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#endif
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reset_buffer();
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memmove(aG.bytes, &this->buffer_recv[0], 32);
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#ifdef DEBUG_HWDEVICE
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hw::ledger::check32("scalarmultBase", "mulkey", (char*)mulkey_x.bytes, (char*)mulkey.bytes);
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hw::ledger::check32("scalarmultBase", "mulkey", (char*)aG_x.bytes, (char*)aG.bytes);
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#endif
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unlock_device();
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const crypto::secret_key a_x = hw::ledger::decrypt(a);
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const crypto::secret_key b_x = hw::ledger::decrypt(b);
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crypto::secret_key r_x;
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this->controle_device.sc_secret_add(r_x, a_x, b_x);
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this->controle_device->sc_secret_add(r_x, a_x, b_x);
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#endif
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reset_buffer();
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const crypto::public_key pub_x = pub;
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const crypto::secret_key sec_x = hw::ledger::decrypt(sec);
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crypto::key_derivation derivation_x;
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this->controle_device.generate_key_derivation(pub_x, sec_x, derivation_x);
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hw::ledger::log_hexbuffer("generate_key_derivation: sec_x.data", sec_x.data, 32);
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hw::ledger::log_hexbuffer("generate_key_derivation: pub_x.data", pub_x.data, 32);
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hw::ledger::log_hexbuffer("generate_key_derivation: derivation_x.data", derivation_x.data, 32);
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hw::ledger::log_hexbuffer("generate_key_derivation: [[IN]] pub ", pub_x.data, 32);
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hw::ledger::log_hexbuffer("generate_key_derivation: [[IN]] sec ", sec_x.data, 32);
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this->controle_device->generate_key_derivation(pub_x, sec_x, derivation_x);
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hw::ledger::log_hexbuffer("generate_key_derivation: [[OUT]] derivation", derivation_x.data, 32);
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#endif
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reset_buffer();
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@ -1075,7 +1098,10 @@ namespace hw {
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const crypto::key_derivation derivation_x = hw::ledger::decrypt(derivation);
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const size_t output_index_x = output_index;
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crypto::ec_scalar res_x;
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this->controle_device.derivation_to_scalar(derivation_x, output_index_x, res_x);
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hw::ledger::log_hexbuffer("derivation_to_scalar: [[IN]] derivation ", derivation_x.data, 32);
|
||||
hw::ledger::log_message ("derivation_to_scalar: [[IN]] output_index ", std::to_string(output_index_x));
|
||||
this->controle_device->derivation_to_scalar(derivation_x, output_index_x, res_x);
|
||||
hw::ledger::log_hexbuffer("derivation_to_scalar: [[OUT]] res ", res_x.data, 32);
|
||||
#endif
|
||||
|
||||
reset_buffer();
|
||||
|
@ -1132,7 +1158,11 @@ namespace hw {
|
|||
const std::size_t output_index_x = output_index;
|
||||
const crypto::secret_key sec_x = hw::ledger::decrypt(sec);
|
||||
crypto::secret_key derived_sec_x;
|
||||
this->controle_device.derive_secret_key(derivation_x, output_index_x, sec_x, derived_sec_x);
|
||||
hw::ledger::log_hexbuffer("derive_secret_key: [[IN]] derivation ", derivation_x.data, 32);
|
||||
hw::ledger::log_message ("derive_secret_key: [[IN]] index ", std::to_string(output_index_x));
|
||||
hw::ledger::log_hexbuffer("derive_secret_key: [[IN]] sec ", sec_x.data, 32);
|
||||
this->controle_device->derive_secret_key(derivation_x, output_index_x, sec_x, derived_sec_x);
|
||||
hw::ledger::log_hexbuffer("derive_secret_key: [[OUT]] derived_sec", derived_sec_x.data, 32);
|
||||
#endif
|
||||
|
||||
reset_buffer();
|
||||
|
@ -1192,7 +1222,11 @@ namespace hw {
|
|||
const std::size_t output_index_x = output_index;
|
||||
const crypto::public_key pub_x = pub;
|
||||
crypto::public_key derived_pub_x;
|
||||
this->controle_device.derive_public_key(derivation_x, output_index_x, pub_x, derived_pub_x);
|
||||
hw::ledger::log_hexbuffer("derive_public_key: [[IN]] derivation ", derivation_x.data, 32);
|
||||
hw::ledger::log_message ("derive_public_key: [[IN]] output_index", std::to_string(output_index_x));
|
||||
hw::ledger::log_hexbuffer("derive_public_key: [[IN]] pub ", pub_x.data, 32);
|
||||
this->controle_device->derive_public_key(derivation_x, output_index_x, pub_x, derived_pub_x);
|
||||
hw::ledger::log_hexbuffer("derive_public_key: [[OUT]] derived_pub ", derived_pub_x.data, 32);
|
||||
#endif
|
||||
|
||||
reset_buffer();
|
||||
|
@ -1249,7 +1283,12 @@ namespace hw {
|
|||
#ifdef DEBUG_HWDEVICE
|
||||
const crypto::secret_key sec_x = hw::ledger::decrypt(sec);
|
||||
crypto::public_key pub_x;
|
||||
this->controle_device.secret_key_to_public_key(sec_x, pub_x);
|
||||
hw::ledger::log_hexbuffer("secret_key_to_public_key: [[IN]] sec ", sec_x.data, 32);
|
||||
bool rc = this->controle_device->secret_key_to_public_key(sec_x, pub_x);
|
||||
hw::ledger::log_hexbuffer("secret_key_to_public_key: [[OUT]] pub", pub_x.data, 32);
|
||||
if (!rc){
|
||||
hw::ledger::log_message("secret_key_to_public_key", "secret_key rejected");
|
||||
}
|
||||
#endif
|
||||
|
||||
reset_buffer();
|
||||
|
@ -1298,7 +1337,10 @@ namespace hw {
|
|||
const crypto::public_key pub_x = pub;
|
||||
const crypto::secret_key sec_x = hw::ledger::decrypt(sec);
|
||||
crypto::key_image image_x;
|
||||
this->controle_device.generate_key_image(pub_x, sec_x, image_x);
|
||||
hw::ledger::log_hexbuffer("generate_key_image: [[IN]] pub ", pub_x.data, 32);
|
||||
hw::ledger::log_hexbuffer("generate_key_image: [[IN]] sec ", sec_x.data, 32);
|
||||
this->controle_device->generate_key_image(pub_x, sec_x, image_x);
|
||||
hw::ledger::log_hexbuffer("generate_key_image: [[OUT]] image ", image_x.data, 32);
|
||||
#endif
|
||||
|
||||
reset_buffer();
|
||||
|
@ -1425,7 +1467,7 @@ namespace hw {
|
|||
const crypto::public_key public_key_x = public_key;
|
||||
const crypto::secret_key secret_key_x = hw::ledger::decrypt(secret_key);
|
||||
crypto::hash8 payment_id_x = payment_id;
|
||||
this->controle_device.encrypt_payment_id(public_key_x, secret_key_x, payment_id_x);
|
||||
this->controle_device->encrypt_payment_id(public_key_x, secret_key_x, payment_id_x);
|
||||
#endif
|
||||
|
||||
reset_buffer();
|
||||
|
@ -1466,11 +1508,11 @@ namespace hw {
|
|||
return true;
|
||||
}
|
||||
|
||||
bool device_ledger::add_output_key_mapping(const crypto::public_key &Aout, const crypto::public_key &Bout, size_t real_output_index,
|
||||
const rct::key &amount_key, const crypto::public_key &out_eph_public_key) {
|
||||
bool device_ledger::add_output_key_mapping(const crypto::public_key &Aout, const crypto::public_key &Bout, const bool is_subaddress, const size_t real_output_index,
|
||||
const rct::key &amount_key, const crypto::public_key &out_eph_public_key) {
|
||||
lock_device();
|
||||
try {
|
||||
key_map.add(ABPkeys(rct::pk2rct(Aout),rct::pk2rct(Bout), real_output_index, rct::pk2rct(out_eph_public_key), amount_key));
|
||||
key_map.add(ABPkeys(rct::pk2rct(Aout),rct::pk2rct(Bout), is_subaddress, real_output_index, rct::pk2rct(out_eph_public_key), amount_key));
|
||||
unlock_device();
|
||||
}catch (...) {
|
||||
unlock_device();
|
||||
|
@ -1488,7 +1530,7 @@ namespace hw {
|
|||
#ifdef DEBUG_HWDEVICE
|
||||
const rct::key AKout_x = hw::ledger::decrypt(AKout);
|
||||
rct::ecdhTuple unmasked_x = unmasked;
|
||||
this->controle_device.ecdhEncode(AKout_x, unmasked_x);
|
||||
this->controle_device->ecdhEncode(unmasked_x, AKout_x);
|
||||
#endif
|
||||
|
||||
reset_buffer();
|
||||
|
@ -1543,7 +1585,7 @@ namespace hw {
|
|||
#ifdef DEBUG_HWDEVICE
|
||||
const rct::key AKout_x = hw::ledger::decrypt(AKout);
|
||||
rct::ecdhTuple masked_x = masked;
|
||||
this->controle_device.ecdhDecode(AKout_x, masked_x);
|
||||
this->controle_device->ecdhDecode(masked_x, AKout_x);
|
||||
#endif
|
||||
|
||||
reset_buffer();
|
||||
|
@ -1604,7 +1646,7 @@ namespace hw {
|
|||
const rct::keyV hashes_x = hashes;
|
||||
const rct::ctkeyV outPk_x = outPk;
|
||||
rct::key prehash_x;
|
||||
this->controle_device.mlsag_prehash(blob_x, inputs_size_x, outputs_size_x, hashes_x, outPk_x, prehash_x);
|
||||
this->controle_device->mlsag_prehash(blob_x, inputs_size_x, outputs_size_x, hashes_x, outPk_x, prehash_x);
|
||||
if (inputs_size) {
|
||||
log_message("mlsag_prehash", (std::string("inputs_size not null: ") + std::to_string(inputs_size)).c_str());
|
||||
}
|
||||
|
@ -1629,6 +1671,7 @@ namespace hw {
|
|||
offset += 1;
|
||||
|
||||
//type
|
||||
uint8_t type = data[0];
|
||||
this->buffer_send[offset] = data[0];
|
||||
offset += 1;
|
||||
|
||||
|
@ -1648,25 +1691,27 @@ namespace hw {
|
|||
this->exchange();
|
||||
|
||||
//pseudoOuts
|
||||
for ( i = 0; i < inputs_size; i++) {
|
||||
reset_buffer();
|
||||
this->buffer_send[0] = 0x00;
|
||||
this->buffer_send[1] = INS_VALIDATE;
|
||||
this->buffer_send[2] = 0x01;
|
||||
this->buffer_send[3] = i+2;
|
||||
this->buffer_send[4] = 0x00;
|
||||
offset = 5;
|
||||
//options
|
||||
this->buffer_send[offset] = (i==inputs_size-1)? 0x00:0x80;
|
||||
offset += 1;
|
||||
//pseudoOut
|
||||
memmove(this->buffer_send+offset, data+data_offset,32);
|
||||
offset += 32;
|
||||
data_offset += 32;
|
||||
if ((type == rct::RCTTypeSimple) || (type == rct::RCTTypeSimpleBulletproof)) {
|
||||
for ( i = 0; i < inputs_size; i++) {
|
||||
reset_buffer();
|
||||
this->buffer_send[0] = 0x00;
|
||||
this->buffer_send[1] = INS_VALIDATE;
|
||||
this->buffer_send[2] = 0x01;
|
||||
this->buffer_send[3] = i+2;
|
||||
this->buffer_send[4] = 0x00;
|
||||
offset = 5;
|
||||
//options
|
||||
this->buffer_send[offset] = (i==inputs_size-1)? 0x00:0x80;
|
||||
offset += 1;
|
||||
//pseudoOut
|
||||
memmove(this->buffer_send+offset, data+data_offset,32);
|
||||
offset += 32;
|
||||
data_offset += 32;
|
||||
|
||||
this->buffer_send[4] = offset-5;
|
||||
this->length_send = offset;
|
||||
this->exchange();
|
||||
this->buffer_send[4] = offset-5;
|
||||
this->length_send = offset;
|
||||
this->exchange();
|
||||
}
|
||||
}
|
||||
|
||||
// ====== Aout, Bout, AKout, C, v, k ======
|
||||
|
@ -1693,6 +1738,9 @@ namespace hw {
|
|||
this->buffer_send[offset] = (i==outputs_size-1)? 0x00:0x80 ;
|
||||
offset += 1;
|
||||
if (found) {
|
||||
//is_subaddress
|
||||
this->buffer_send[offset] = outKeys.is_subaddress;
|
||||
offset++;
|
||||
//Aout
|
||||
memmove(this->buffer_send+offset, outKeys.Aout.bytes, 32);
|
||||
offset+=32;
|
||||
|
@ -1703,8 +1751,8 @@ namespace hw {
|
|||
memmove(this->buffer_send+offset, outKeys.AKout.bytes, 32);
|
||||
offset+=32;
|
||||
} else {
|
||||
// dummy: Aout Bout AKout
|
||||
offset += 32*3;
|
||||
// dummy: is_subaddress Aout Bout AKout
|
||||
offset += 1+32*3;
|
||||
}
|
||||
//C
|
||||
memmove(this->buffer_send+offset, data+C_offset,32);
|
||||
|
@ -1905,7 +1953,7 @@ namespace hw {
|
|||
#ifdef DEBUG_HWDEVICE
|
||||
const rct::keyV long_message_x = long_message;
|
||||
rct::key c_x;
|
||||
this->controle_device.mlsag_hash(long_message_x, c_x);
|
||||
this->controle_device->mlsag_hash(long_message_x, c_x);
|
||||
#endif
|
||||
|
||||
cnt = long_message.size();
|
||||
|
@ -1964,7 +2012,7 @@ namespace hw {
|
|||
const int rows_x = rows;
|
||||
const int dsRows_x = dsRows;
|
||||
rct::keyV ss_x(ss.size());
|
||||
this->controle_device.mlsag_sign(c_x, xx_x, alpha_x, rows_x, dsRows_x, ss_x);
|
||||
this->controle_device->mlsag_sign(c_x, xx_x, alpha_x, rows_x, dsRows_x, ss_x);
|
||||
#endif
|
||||
|
||||
for (size_t j = 0; j < dsRows; j++) {
|
||||
|
|
|
@ -56,12 +56,13 @@ namespace hw {
|
|||
public:
|
||||
rct::key Aout;
|
||||
rct::key Bout;
|
||||
bool is_subaddress;
|
||||
size_t index;
|
||||
rct::key Pout;
|
||||
rct::key AKout;
|
||||
ABPkeys(const rct::key& A, const rct::key& B, size_t index, const rct::key& P,const rct::key& AK);
|
||||
ABPkeys(const rct::key& A, const rct::key& B, const bool is_subaddr, size_t index, const rct::key& P,const rct::key& AK);
|
||||
ABPkeys(const ABPkeys& keys) ;
|
||||
ABPkeys() {index=0;}
|
||||
ABPkeys() {index=0;is_subaddress=false;}
|
||||
};
|
||||
|
||||
class Keymap {
|
||||
|
@ -103,8 +104,8 @@ namespace hw {
|
|||
unsigned int exchange(unsigned int ok=0x9000, unsigned int mask=0xFFFF);
|
||||
void reset_buffer(void);
|
||||
|
||||
#ifdef DEBUGLEDGER
|
||||
Device &controle_device;
|
||||
#ifdef DEBUG_HWDEVICE
|
||||
device *controle_device;
|
||||
#endif
|
||||
|
||||
public:
|
||||
|
@ -174,8 +175,8 @@ namespace hw {
|
|||
bool ecdhEncode(rct::ecdhTuple & unmasked, const rct::key & sharedSec) override;
|
||||
bool ecdhDecode(rct::ecdhTuple & masked, const rct::key & sharedSec) override;
|
||||
|
||||
bool add_output_key_mapping(const crypto::public_key &Aout, const crypto::public_key &Bout, size_t real_output_index,
|
||||
const rct::key &amount_key, const crypto::public_key &out_eph_public_key) override;
|
||||
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,
|
||||
const rct::key &amount_key, const crypto::public_key &out_eph_public_key) override;
|
||||
|
||||
|
||||
bool mlsag_prehash(const std::string &blob, size_t inputs_size, size_t outputs_size, const rct::keyV &hashes, const rct::ctkeyV &outPk, rct::key &prehash) override;
|
||||
|
@ -190,7 +191,7 @@ namespace hw {
|
|||
|
||||
|
||||
|
||||
#ifdef DEBUGLEDGER
|
||||
#ifdef DEBUG_HWDEVICE
|
||||
extern crypto::secret_key viewkey;
|
||||
extern crypto::secret_key spendkey;
|
||||
#endif
|
||||
|
|
|
@ -55,14 +55,14 @@ namespace hw {
|
|||
MDEBUG(msg << ": " << info);
|
||||
}
|
||||
|
||||
#ifdef DEBUGLEDGER
|
||||
#ifdef DEBUG_HWDEVICE
|
||||
extern crypto::secret_key viewkey;
|
||||
extern crypto::secret_key spendkey;
|
||||
|
||||
|
||||
void decrypt(char* buf, size_t len) {
|
||||
#ifdef IODUMMYCRYPT
|
||||
int i;
|
||||
#ifdef IODUMMYCRYPT_HWDEVICE
|
||||
size_t i;
|
||||
if (len == 32) {
|
||||
//view key?
|
||||
for (i = 0; i<32; i++) {
|
||||
|
@ -144,7 +144,7 @@ namespace hw {
|
|||
log_hexbuffer(" device", dd, len);
|
||||
|
||||
} else {
|
||||
buffer_to_str(logstr, dd, len);
|
||||
buffer_to_str(logstr, 128, dd, len);
|
||||
log_message("ASSERT EQ OK", msg + ": "+ info + ": "+ std::string(logstr) );
|
||||
}
|
||||
}
|
||||
|
|
|
@ -6677,6 +6677,7 @@ std::vector<wallet2::pending_tx> wallet2::create_transactions_2(std::vector<cryp
|
|||
cryptonote::transaction tx;
|
||||
pending_tx ptx;
|
||||
size_t bytes;
|
||||
std::vector<std::vector<tools::wallet2::get_outs_entry>> outs;
|
||||
|
||||
void add(const account_public_address &addr, bool is_subaddress, uint64_t amount, unsigned int original_output_index, bool merge_destinations) {
|
||||
if (merge_destinations)
|
||||
|
@ -7066,40 +7067,10 @@ std::vector<wallet2::pending_tx> wallet2::create_transactions_2(std::vector<cryp
|
|||
LOG_PRINT_L2("Made a final " << get_size_string(txBlob) << " tx, with " << print_money(test_ptx.fee) <<
|
||||
" fee and " << print_money(test_ptx.change_dts.amount) << " change");
|
||||
|
||||
if ((!dsts.empty()) ||
|
||||
(dsts.empty() && !(adding_fee || !preferred_inputs.empty() || should_pick_a_second_output(use_rct, txes.back().selected_transfers.size(), *unused_transfers_indices, *unused_dust_indices)) )
|
||||
) {
|
||||
hwdev.set_signature_mode(hw::device::SIGNATURE_REAL);
|
||||
if (use_rct) {
|
||||
transfer_selected_rct(tx.dsts, /* NOMOD std::vector<cryptonote::tx_destination_entry> dsts,*/
|
||||
tx.selected_transfers, /* const std::list<size_t> selected_transfers */
|
||||
fake_outs_count, /* CONST size_t fake_outputs_count, */
|
||||
outs, /* MOD std::vector<std::vector<tools::wallet2::get_outs_entry>> &outs, */
|
||||
unlock_time, /* CONST uint64_t unlock_time, */
|
||||
needed_fee, /* CONST uint64_t fee, */
|
||||
extra, /* const std::vector<uint8_t>& extra, */
|
||||
test_tx, /* OUT cryptonote::transaction& tx, */
|
||||
test_ptx, /* OUT cryptonote::transaction& tx, */
|
||||
bulletproof);
|
||||
} else {
|
||||
transfer_selected(tx.dsts,
|
||||
tx.selected_transfers,
|
||||
fake_outs_count,
|
||||
outs,
|
||||
unlock_time,
|
||||
needed_fee,
|
||||
extra,
|
||||
detail::digit_split_strategy,
|
||||
tx_dust_policy(::config::DEFAULT_DUST_THRESHOLD),
|
||||
test_tx,
|
||||
test_ptx);
|
||||
}
|
||||
hwdev.set_signature_mode(hw::device::SIGNATURE_FAKE);
|
||||
}
|
||||
|
||||
tx.tx = test_tx;
|
||||
tx.ptx = test_ptx;
|
||||
tx.bytes = txBlob.size();
|
||||
tx.outs = outs;
|
||||
accumulated_fee += test_ptx.fee;
|
||||
accumulated_change += test_ptx.change_dts.amount;
|
||||
adding_fee = false;
|
||||
|
@ -7139,6 +7110,42 @@ skip_tx:
|
|||
LOG_PRINT_L1("Done creating " << txes.size() << " transactions, " << print_money(accumulated_fee) <<
|
||||
" total fee, " << print_money(accumulated_change) << " total change");
|
||||
|
||||
hwdev.set_signature_mode(hw::device::SIGNATURE_REAL);
|
||||
for (std::vector<TX>::iterator i = txes.begin(); i != txes.end(); ++i)
|
||||
{
|
||||
TX &tx = *i;
|
||||
cryptonote::transaction test_tx;
|
||||
pending_tx test_ptx;
|
||||
if (use_rct) {
|
||||
transfer_selected_rct(tx.dsts, /* NOMOD std::vector<cryptonote::tx_destination_entry> dsts,*/
|
||||
tx.selected_transfers, /* const std::list<size_t> selected_transfers */
|
||||
fake_outs_count, /* CONST size_t fake_outputs_count, */
|
||||
tx.outs, /* MOD std::vector<std::vector<tools::wallet2::get_outs_entry>> &outs, */
|
||||
unlock_time, /* CONST uint64_t unlock_time, */
|
||||
needed_fee, /* CONST uint64_t fee, */
|
||||
extra, /* const std::vector<uint8_t>& extra, */
|
||||
test_tx, /* OUT cryptonote::transaction& tx, */
|
||||
test_ptx, /* OUT cryptonote::transaction& tx, */
|
||||
bulletproof);
|
||||
} else {
|
||||
transfer_selected(tx.dsts,
|
||||
tx.selected_transfers,
|
||||
fake_outs_count,
|
||||
tx.outs,
|
||||
unlock_time,
|
||||
needed_fee,
|
||||
extra,
|
||||
detail::digit_split_strategy,
|
||||
tx_dust_policy(::config::DEFAULT_DUST_THRESHOLD),
|
||||
test_tx,
|
||||
test_ptx);
|
||||
}
|
||||
auto txBlob = t_serializable_object_to_blob(test_ptx.tx);
|
||||
tx.tx = test_tx;
|
||||
tx.ptx = test_ptx;
|
||||
tx.bytes = txBlob.size();
|
||||
}
|
||||
|
||||
std::vector<wallet2::pending_tx> ptx_vector;
|
||||
for (std::vector<TX>::iterator i = txes.begin(); i != txes.end(); ++i)
|
||||
{
|
||||
|
@ -7241,6 +7248,7 @@ std::vector<wallet2::pending_tx> wallet2::create_transactions_from(const crypton
|
|||
cryptonote::transaction tx;
|
||||
pending_tx ptx;
|
||||
size_t bytes;
|
||||
std::vector<std::vector<get_outs_entry>> outs;
|
||||
};
|
||||
std::vector<TX> txes;
|
||||
uint64_t needed_fee, available_for_fee = 0;
|
||||
|
@ -7332,24 +7340,13 @@ std::vector<wallet2::pending_tx> wallet2::create_transactions_from(const crypton
|
|||
" fee and " << print_money(test_ptx.change_dts.amount) << " change");
|
||||
} while (needed_fee > test_ptx.fee);
|
||||
|
||||
if (!unused_transfers_indices.empty() || !unused_dust_indices.empty()) {
|
||||
hwdev.set_signature_mode(hw::device::SIGNATURE_REAL);
|
||||
if (use_rct) {
|
||||
transfer_selected_rct(tx.dsts, tx.selected_transfers, fake_outs_count, outs, unlock_time, needed_fee, extra,
|
||||
test_tx, test_ptx, bulletproof);
|
||||
} else {
|
||||
transfer_selected(tx.dsts, tx.selected_transfers, fake_outs_count, outs, unlock_time, needed_fee, extra,
|
||||
detail::digit_split_strategy, tx_dust_policy(::config::DEFAULT_DUST_THRESHOLD), test_tx, test_ptx);
|
||||
}
|
||||
hwdev.set_signature_mode(hw::device::SIGNATURE_FAKE);
|
||||
}
|
||||
|
||||
LOG_PRINT_L2("Made a final " << get_size_string(txBlob) << " tx, with " << print_money(test_ptx.fee) <<
|
||||
" fee and " << print_money(test_ptx.change_dts.amount) << " change");
|
||||
|
||||
tx.tx = test_tx;
|
||||
tx.ptx = test_ptx;
|
||||
tx.bytes = txBlob.size();
|
||||
tx.outs = outs;
|
||||
accumulated_fee += test_ptx.fee;
|
||||
accumulated_change += test_ptx.change_dts.amount;
|
||||
if (!unused_transfers_indices.empty() || !unused_dust_indices.empty())
|
||||
|
@ -7362,6 +7359,25 @@ std::vector<wallet2::pending_tx> wallet2::create_transactions_from(const crypton
|
|||
|
||||
LOG_PRINT_L1("Done creating " << txes.size() << " transactions, " << print_money(accumulated_fee) <<
|
||||
" total fee, " << print_money(accumulated_change) << " total change");
|
||||
|
||||
hwdev.set_signature_mode(hw::device::SIGNATURE_REAL);
|
||||
for (std::vector<TX>::iterator i = txes.begin(); i != txes.end(); ++i)
|
||||
{
|
||||
TX &tx = *i;
|
||||
cryptonote::transaction test_tx;
|
||||
pending_tx test_ptx;
|
||||
if (use_rct) {
|
||||
transfer_selected_rct(tx.dsts, tx.selected_transfers, fake_outs_count, tx.outs, unlock_time, needed_fee, extra,
|
||||
test_tx, test_ptx, bulletproof);
|
||||
} else {
|
||||
transfer_selected(tx.dsts, tx.selected_transfers, fake_outs_count, tx.outs, unlock_time, needed_fee, extra,
|
||||
detail::digit_split_strategy, tx_dust_policy(::config::DEFAULT_DUST_THRESHOLD), test_tx, test_ptx);
|
||||
}
|
||||
auto txBlob = t_serializable_object_to_blob(test_ptx.tx);
|
||||
tx.tx = test_tx;
|
||||
tx.ptx = test_ptx;
|
||||
tx.bytes = txBlob.size();
|
||||
}
|
||||
|
||||
std::vector<wallet2::pending_tx> ptx_vector;
|
||||
for (std::vector<TX>::iterator i = txes.begin(); i != txes.end(); ++i)
|
||||
|
|
Loading…
Reference in New Issue