feat(trezor): add HF15 support, BP+

- BP+ support added for Trezor
- old Trezor firmware version support removed, code cleanup
This commit is contained in:
Dusan Klinec 2022-04-12 02:06:19 +02:00
parent b6a029f222
commit 6075be9cc8
No known key found for this signature in database
GPG key ID: 6337E118CCBCE103
6 changed files with 232 additions and 181 deletions

View file

@ -324,8 +324,8 @@ namespace trezor {
std::vector<protocol::ki::MoneroTransferDetails> mtds; std::vector<protocol::ki::MoneroTransferDetails> mtds;
std::vector<protocol::ki::MoneroExportedKeyImage> kis; std::vector<protocol::ki::MoneroExportedKeyImage> kis;
protocol::ki::key_image_data(wallet, transfers, mtds, client_version() <= 1); protocol::ki::key_image_data(wallet, transfers, mtds);
protocol::ki::generate_commitment(mtds, transfers, req, client_version() <= 1); protocol::ki::generate_commitment(mtds, transfers, req);
EVENT_PROGRESS(0.); EVENT_PROGRESS(0.);
this->set_msg_addr<messages::monero::MoneroKeyImageExportInitRequest>(req.get()); this->set_msg_addr<messages::monero::MoneroKeyImageExportInitRequest>(req.get());
@ -635,11 +635,7 @@ namespace trezor {
} }
// Step: sort // Step: sort
auto perm_req = signer->step_permutation(); signer->sort_ki();
if (perm_req){
auto perm_ack = this->client_exchange<messages::monero::MoneroTransactionInputsPermutationAck>(perm_req);
signer->step_permutation_ack(perm_ack);
}
EVENT_PROGRESS(3, 1, 1); EVENT_PROGRESS(3, 1, 1);
// Step: input_vini // Step: input_vini
@ -697,13 +693,13 @@ namespace trezor {
unsigned device_trezor::client_version() unsigned device_trezor::client_version()
{ {
auto trezor_version = get_version(); auto trezor_version = get_version();
if (trezor_version <= pack_version(2, 0, 10)){ if (trezor_version < pack_version(2, 4, 3)){
throw exc::TrezorException("Trezor firmware 2.0.10 and lower are not supported. Please update."); throw exc::TrezorException("Minimal Trezor firmware version is 2.4.3. Please update.");
} }
unsigned client_version = 1; unsigned client_version = 3;
if (trezor_version >= pack_version(2, 3, 1)){ if (trezor_version >= pack_version(2, 5, 2)){
client_version = 3; client_version = 4;
} }
#ifdef WITH_TREZOR_DEBUGGING #ifdef WITH_TREZOR_DEBUGGING
@ -739,14 +735,6 @@ namespace trezor {
CHECK_AND_ASSERT_THROW_MES(init_msg, "TransactionInitRequest is empty"); CHECK_AND_ASSERT_THROW_MES(init_msg, "TransactionInitRequest is empty");
CHECK_AND_ASSERT_THROW_MES(init_msg->has_tsx_data(), "TransactionInitRequest has no transaction data"); CHECK_AND_ASSERT_THROW_MES(init_msg->has_tsx_data(), "TransactionInitRequest has no transaction data");
CHECK_AND_ASSERT_THROW_MES(m_features, "Device state not initialized"); // make sure the caller did not reset features CHECK_AND_ASSERT_THROW_MES(m_features, "Device state not initialized"); // make sure the caller did not reset features
const bool nonce_required = init_msg->tsx_data().has_payment_id() && init_msg->tsx_data().payment_id().size() > 0;
if (nonce_required && init_msg->tsx_data().payment_id().size() == 8){
// Versions 2.0.9 and lower do not support payment ID
if (get_version() <= pack_version(2, 0, 9)) {
throw exc::TrezorException("Trezor firmware 2.0.9 and lower does not support transactions with short payment IDs or integrated addresses. Please update.");
}
}
} }
void device_trezor::transaction_check(const protocol::tx::TData & tdata, const hw::tx_aux_data & aux_data) void device_trezor::transaction_check(const protocol::tx::TData & tdata, const hw::tx_aux_data & aux_data)

View file

@ -38,6 +38,7 @@
#include <crypto/hmac-keccak.h> #include <crypto/hmac-keccak.h>
#include <ringct/rctSigs.h> #include <ringct/rctSigs.h>
#include <ringct/bulletproofs.h> #include <ringct/bulletproofs.h>
#include <ringct/bulletproofs_plus.h>
#include "cryptonote_config.h" #include "cryptonote_config.h"
#include <sodium.h> #include <sodium.h>
#include <sodium/crypto_verify_32.h> #include <sodium/crypto_verify_32.h>
@ -145,8 +146,7 @@ namespace ki {
bool key_image_data(wallet_shim * wallet, bool key_image_data(wallet_shim * wallet,
const std::vector<tools::wallet2::transfer_details> & transfers, const std::vector<tools::wallet2::transfer_details> & transfers,
std::vector<MoneroTransferDetails> & res, std::vector<MoneroTransferDetails> & res)
bool need_all_additionals)
{ {
for(auto & td : transfers){ for(auto & td : transfers){
::crypto::public_key tx_pub_key = wallet->get_tx_pub_key_from_received_outs(td); ::crypto::public_key tx_pub_key = wallet->get_tx_pub_key_from_received_outs(td);
@ -159,11 +159,7 @@ namespace ki {
cres.set_internal_output_index(td.m_internal_output_index); cres.set_internal_output_index(td.m_internal_output_index);
cres.set_sub_addr_major(td.m_subaddr_index.major); cres.set_sub_addr_major(td.m_subaddr_index.major);
cres.set_sub_addr_minor(td.m_subaddr_index.minor); cres.set_sub_addr_minor(td.m_subaddr_index.minor);
if (need_all_additionals) { if (!additional_tx_pub_keys.empty() && additional_tx_pub_keys.size() > td.m_internal_output_index) {
for (auto &aux : additional_tx_pub_keys) {
cres.add_additional_tx_pub_keys(key_to_string(aux));
}
} else if (!additional_tx_pub_keys.empty() && additional_tx_pub_keys.size() > td.m_internal_output_index) {
cres.add_additional_tx_pub_keys(key_to_string(additional_tx_pub_keys[td.m_internal_output_index])); cres.add_additional_tx_pub_keys(key_to_string(additional_tx_pub_keys[td.m_internal_output_index]));
} }
} }
@ -194,8 +190,7 @@ namespace ki {
void generate_commitment(std::vector<MoneroTransferDetails> & mtds, void generate_commitment(std::vector<MoneroTransferDetails> & mtds,
const std::vector<tools::wallet2::transfer_details> & transfers, const std::vector<tools::wallet2::transfer_details> & transfers,
std::shared_ptr<messages::monero::MoneroKeyImageExportInitRequest> & req, std::shared_ptr<messages::monero::MoneroKeyImageExportInitRequest> & req)
bool need_subaddr_indices)
{ {
req = std::make_shared<messages::monero::MoneroKeyImageExportInitRequest>(); req = std::make_shared<messages::monero::MoneroKeyImageExportInitRequest>();
@ -219,16 +214,6 @@ namespace ki {
auto & st = search.first->second; auto & st = search.first->second;
st.insert(cur.m_subaddr_index.minor); st.insert(cur.m_subaddr_index.minor);
} }
if (need_subaddr_indices) {
for (auto &x: sub_indices) {
auto subs = req->add_subs();
subs->set_account(x.first);
for (auto minor : x.second) {
subs->add_minor_indices(minor);
}
}
}
} }
void live_refresh_ack(const ::crypto::secret_key & view_key_priv, void live_refresh_ack(const ::crypto::secret_key & view_key_priv,
@ -399,7 +384,7 @@ namespace tx {
m_tx_idx = tx_idx; m_tx_idx = tx_idx;
m_ct.tx_data = cur_src_tx(); m_ct.tx_data = cur_src_tx();
m_multisig = false; m_multisig = false;
m_client_version = 1; m_client_version = 3;
} }
void Signer::extract_payment_id(){ void Signer::extract_payment_id(){
@ -474,25 +459,19 @@ namespace tx {
auto & cur = src.outputs[i]; auto & cur = src.outputs[i];
auto out = dst->add_outputs(); auto out = dst->add_outputs();
if (i == src.real_output || need_ring_indices || client_version() <= 1) { if (i == src.real_output || need_ring_indices) {
out->set_idx(cur.first); out->set_idx(cur.first);
} }
if (i == src.real_output || need_ring_keys || client_version() <= 1) { if (i == src.real_output || need_ring_keys) {
translate_rct_key(out->mutable_key(), &(cur.second)); translate_rct_key(out->mutable_key(), &(cur.second));
} }
} }
dst->set_real_out_tx_key(key_to_string(src.real_out_tx_key)); dst->set_real_out_tx_key(key_to_string(src.real_out_tx_key));
dst->set_real_output_in_tx_index(src.real_output_in_tx_index); dst->set_real_output_in_tx_index(src.real_output_in_tx_index);
if (!src.real_out_additional_tx_keys.empty()) {
if (client_version() <= 1) {
for (auto &cur : src.real_out_additional_tx_keys) {
dst->add_real_out_additional_tx_keys(key_to_string(cur));
}
} else if (!src.real_out_additional_tx_keys.empty()) {
dst->add_real_out_additional_tx_keys(key_to_string(src.real_out_additional_tx_keys.at(src.real_output_in_tx_index))); dst->add_real_out_additional_tx_keys(key_to_string(src.real_out_additional_tx_keys.at(src.real_output_in_tx_index)));
} }
dst->set_amount(src.amount); dst->set_amount(src.amount);
dst->set_rct(src.rct); dst->set_rct(src.rct);
dst->set_mask(key_to_string(src.mask)); dst->set_mask(key_to_string(src.mask));
@ -532,7 +511,7 @@ namespace tx {
m_ct.tx.version = 2; m_ct.tx.version = 2;
m_ct.tx.unlock_time = tx.unlock_time; m_ct.tx.unlock_time = tx.unlock_time;
m_client_version = (m_aux_data->client_version ? m_aux_data->client_version.get() : 1); m_client_version = (m_aux_data->client_version ? m_aux_data->client_version.get() : 3);
tsx_data.set_version(1); tsx_data.set_version(1);
tsx_data.set_client_version(client_version()); tsx_data.set_client_version(client_version());
@ -543,18 +522,13 @@ namespace tx {
tsx_data.set_monero_version(std::string(MONERO_VERSION) + "|" + MONERO_VERSION_TAG); tsx_data.set_monero_version(std::string(MONERO_VERSION) + "|" + MONERO_VERSION_TAG);
tsx_data.set_hard_fork(m_aux_data->hard_fork ? m_aux_data->hard_fork.get() : 0); tsx_data.set_hard_fork(m_aux_data->hard_fork ? m_aux_data->hard_fork.get() : 0);
if (client_version() <= 1){
assign_to_repeatable(tsx_data.mutable_minor_indices(), tx.subaddr_indices.begin(), tx.subaddr_indices.end());
}
// Rsig decision // Rsig decision
auto rsig_data = tsx_data.mutable_rsig_data(); auto rsig_data = tsx_data.mutable_rsig_data();
m_ct.rsig_type = get_rsig_type(tx.rct_config, tx.splitted_dsts.size()); m_ct.rsig_type = get_rsig_type(tx.rct_config, tx.splitted_dsts.size());
rsig_data->set_rsig_type(m_ct.rsig_type); rsig_data->set_rsig_type(m_ct.rsig_type);
if (tx.rct_config.range_proof_type != rct::RangeProofBorromean){ CHECK_AND_ASSERT_THROW_MES(tx.rct_config.range_proof_type != rct::RangeProofBorromean, "Borromean rsig not supported");
m_ct.bp_version = (m_aux_data->bp_version ? m_aux_data->bp_version.get() : 1); m_ct.bp_version = (m_aux_data->bp_version ? m_aux_data->bp_version.get() : 1);
rsig_data->set_bp_version((uint32_t) m_ct.bp_version); rsig_data->set_bp_version((uint32_t) m_ct.bp_version);
}
generate_rsig_batch_sizes(m_ct.grouping_vct, m_ct.rsig_type, tx.splitted_dsts.size()); generate_rsig_batch_sizes(m_ct.grouping_vct, m_ct.rsig_type, tx.splitted_dsts.size());
assign_to_repeatable(rsig_data->mutable_grouping(), m_ct.grouping_vct.begin(), m_ct.grouping_vct.end()); assign_to_repeatable(rsig_data->mutable_grouping(), m_ct.grouping_vct.begin(), m_ct.grouping_vct.end());
@ -652,22 +626,6 @@ namespace tx {
}); });
} }
std::shared_ptr<messages::monero::MoneroTransactionInputsPermutationRequest> Signer::step_permutation(){
sort_ki();
if (client_version() >= 2){
return nullptr;
}
auto res = std::make_shared<messages::monero::MoneroTransactionInputsPermutationRequest>();
assign_to_repeatable(res->mutable_perm(), m_ct.source_permutation.begin(), m_ct.source_permutation.end());
return res;
}
void Signer::step_permutation_ack(std::shared_ptr<const messages::monero::MoneroTransactionInputsPermutationAck> ack){
}
std::shared_ptr<messages::monero::MoneroTransactionInputViniRequest> Signer::step_set_vini_input(size_t idx){ std::shared_ptr<messages::monero::MoneroTransactionInputViniRequest> Signer::step_set_vini_input(size_t idx){
CHECK_AND_ASSERT_THROW_MES(idx < m_ct.tx_data.sources.size(), "Invalid transaction index"); CHECK_AND_ASSERT_THROW_MES(idx < m_ct.tx_data.sources.size(), "Invalid transaction index");
CHECK_AND_ASSERT_THROW_MES(idx < m_ct.tx.vin.size(), "Invalid transaction index"); CHECK_AND_ASSERT_THROW_MES(idx < m_ct.tx.vin.size(), "Invalid transaction index");
@ -711,8 +669,10 @@ namespace tx {
} }
void Signer::step_set_output_ack(std::shared_ptr<const messages::monero::MoneroTransactionSetOutputAck> ack){ void Signer::step_set_output_ack(std::shared_ptr<const messages::monero::MoneroTransactionSetOutputAck> ack){
CHECK_AND_ASSERT_THROW_MES(is_req_bulletproof(), "Borromean rsig not supported");
cryptonote::tx_out tx_out; cryptonote::tx_out tx_out;
rct::Bulletproof bproof{}; rct::Bulletproof bproof{};
rct::BulletproofPlus bproof_plus{};
rct::ctkey out_pk{}; rct::ctkey out_pk{};
rct::ecdhTuple ecdh{}; rct::ecdhTuple ecdh{};
@ -727,7 +687,7 @@ namespace tx {
rsig_buff = rsig_data.rsig(); rsig_buff = rsig_data.rsig();
} }
if (client_version() >= 1 && rsig_data.has_mask()){ if (rsig_data.has_mask()){
rct::key cmask{}; rct::key cmask{};
string_to_key(cmask, rsig_data.mask()); string_to_key(cmask, rsig_data.mask());
m_ct.rsig_gamma.emplace_back(cmask); m_ct.rsig_gamma.emplace_back(cmask);
@ -751,22 +711,32 @@ namespace tx {
memcpy(ecdh.amount.bytes, ack->ecdh_info().data(), 8); memcpy(ecdh.amount.bytes, ack->ecdh_info().data(), 8);
} }
if (has_rsig && is_req_bulletproof() && !cn_deserialize(rsig_buff, bproof)){
throw exc::ProtocolException("Cannot deserialize bulletproof rangesig");
}
m_ct.tx.vout.emplace_back(tx_out); m_ct.tx.vout.emplace_back(tx_out);
m_ct.tx_out_hmacs.push_back(ack->vouti_hmac()); m_ct.tx_out_hmacs.push_back(ack->vouti_hmac());
m_ct.tx_out_pk.emplace_back(out_pk); m_ct.tx_out_pk.emplace_back(out_pk);
m_ct.tx_out_ecdh.emplace_back(ecdh); m_ct.tx_out_ecdh.emplace_back(ecdh);
// ClientV0, if no rsig was generated on Trezor, do not continue. rsig_v bp_obj{};
// ClientV1+ generates BP after all masks in the current batch are generated if (has_rsig) {
if (!has_rsig || (client_version() >= 1 && is_offloading())){ bool deserialize_success;
if (is_req_bulletproof_plus()) {
deserialize_success = cn_deserialize(rsig_buff, bproof_plus);
bp_obj = bproof_plus;
} else {
deserialize_success = cn_deserialize(rsig_buff, bproof);
bp_obj = bproof;
}
if (!deserialize_success) {
throw exc::ProtocolException("Cannot deserialize bulletproof rangesig");
}
}
// Generates BP after all masks in the current batch are generated
if (!has_rsig || is_offloading()){
return; return;
} }
process_bproof(bproof); process_bproof(bp_obj);
m_ct.cur_batch_idx += 1; m_ct.cur_batch_idx += 1;
m_ct.cur_output_in_batch_idx = 0; m_ct.cur_output_in_batch_idx = 0;
} }
@ -791,13 +761,21 @@ namespace tx {
masks.push_back(m_ct.rsig_gamma[bidx]); masks.push_back(m_ct.rsig_gamma[bidx]);
} }
auto bp = bulletproof_PROVE(amounts, masks); std::string serRsig;
auto serRsig = cn_serialize(bp); if (is_req_bulletproof_plus()) {
m_ct.tx_out_rsigs.emplace_back(bp); auto bp = bulletproof_plus_PROVE(amounts, masks);
serRsig = cn_serialize(bp);
m_ct.tx_out_rsigs.emplace_back(bp);
} else {
auto bp = bulletproof_PROVE(amounts, masks);
serRsig = cn_serialize(bp);
m_ct.tx_out_rsigs.emplace_back(bp);
}
rsig_data.set_rsig(serRsig); rsig_data.set_rsig(serRsig);
} }
void Signer::process_bproof(rct::Bulletproof & bproof){ void Signer::process_bproof(rsig_v & bproof){
CHECK_AND_ASSERT_THROW_MES(m_ct.cur_batch_idx < m_ct.grouping_vct.size(), "Invalid batch index"); CHECK_AND_ASSERT_THROW_MES(m_ct.cur_batch_idx < m_ct.grouping_vct.size(), "Invalid batch index");
auto batch_size = m_ct.grouping_vct[m_ct.cur_batch_idx]; auto batch_size = m_ct.grouping_vct[m_ct.cur_batch_idx];
for (size_t i = 0; i < batch_size; ++i){ for (size_t i = 0; i < batch_size; ++i){
@ -806,12 +784,22 @@ namespace tx {
rct::key commitment = m_ct.tx_out_pk[bidx].mask; rct::key commitment = m_ct.tx_out_pk[bidx].mask;
commitment = rct::scalarmultKey(commitment, rct::INV_EIGHT); commitment = rct::scalarmultKey(commitment, rct::INV_EIGHT);
bproof.V.push_back(commitment); if (is_req_bulletproof_plus()) {
boost::get<rct::BulletproofPlus>(bproof).V.push_back(commitment);
} else {
boost::get<rct::Bulletproof>(bproof).V.push_back(commitment);
}
} }
m_ct.tx_out_rsigs.emplace_back(bproof); m_ct.tx_out_rsigs.emplace_back(bproof);
if (!rct::bulletproof_VERIFY(boost::get<rct::Bulletproof>(m_ct.tx_out_rsigs.back()))) { if (is_req_bulletproof_plus()) {
throw exc::ProtocolException("Returned range signature is invalid"); if (!rct::bulletproof_plus_VERIFY(boost::get<rct::BulletproofPlus>(m_ct.tx_out_rsigs.back()))) {
throw exc::ProtocolException("Returned range signature is invalid");
}
} else {
if (!rct::bulletproof_VERIFY(boost::get<rct::Bulletproof>(m_ct.tx_out_rsigs.back()))) {
throw exc::ProtocolException("Returned range signature is invalid");
}
} }
} }
@ -840,6 +828,7 @@ namespace tx {
} }
void Signer::step_all_outs_set_ack(std::shared_ptr<const messages::monero::MoneroTransactionAllOutSetAck> ack, hw::device &hwdev){ void Signer::step_all_outs_set_ack(std::shared_ptr<const messages::monero::MoneroTransactionAllOutSetAck> ack, hw::device &hwdev){
CHECK_AND_ASSERT_THROW_MES(is_req_bulletproof(), "Borromean rsig not supported");
m_ct.rv = std::make_shared<rct::rctSig>(); m_ct.rv = std::make_shared<rct::rctSig>();
m_ct.rv->txnFee = ack->rv().txn_fee(); m_ct.rv->txnFee = ack->rv().txn_fee();
m_ct.rv->type = static_cast<uint8_t>(ack->rv().rv_type()); m_ct.rv->type = static_cast<uint8_t>(ack->rv().rv_type());
@ -864,24 +853,15 @@ namespace tx {
// RctSig // RctSig
auto num_sources = m_ct.tx_data.sources.size(); auto num_sources = m_ct.tx_data.sources.size();
if (is_simple() || is_req_bulletproof()){ auto dst = &m_ct.rv->p.pseudoOuts;
auto dst = &m_ct.rv->pseudoOuts; dst->clear();
if (is_bulletproof()){ for (const auto &pseudo_out : m_ct.pseudo_outs) {
dst = &m_ct.rv->p.pseudoOuts; dst->emplace_back();
} string_to_key(dst->back(), pseudo_out);
dst->clear();
for (const auto &pseudo_out : m_ct.pseudo_outs) {
dst->emplace_back();
string_to_key(dst->back(), pseudo_out);
}
m_ct.rv->mixRing.resize(num_sources);
} else {
m_ct.rv->mixRing.resize(m_ct.tsx_data.mixin());
m_ct.rv->mixRing[0].resize(num_sources);
} }
m_ct.rv->mixRing.resize(num_sources);
CHECK_AND_ASSERT_THROW_MES(m_ct.tx_out_pk.size() == m_ct.tx_out_ecdh.size(), "Invalid vector sizes"); CHECK_AND_ASSERT_THROW_MES(m_ct.tx_out_pk.size() == m_ct.tx_out_ecdh.size(), "Invalid vector sizes");
for(size_t i = 0; i < m_ct.tx_out_ecdh.size(); ++i){ for(size_t i = 0; i < m_ct.tx_out_ecdh.size(); ++i){
m_ct.rv->outPk.push_back(m_ct.tx_out_pk[i]); m_ct.rv->outPk.push_back(m_ct.tx_out_pk[i]);
@ -889,10 +869,10 @@ namespace tx {
} }
for(size_t i = 0; i < m_ct.tx_out_rsigs.size(); ++i){ for(size_t i = 0; i < m_ct.tx_out_rsigs.size(); ++i){
if (is_bulletproof()){ if (is_req_bulletproof_plus()) {
m_ct.rv->p.bulletproofs.push_back(boost::get<rct::Bulletproof>(m_ct.tx_out_rsigs[i])); m_ct.rv->p.bulletproofs_plus.push_back(boost::get<rct::BulletproofPlus>(m_ct.tx_out_rsigs[i]));
} else { } else {
m_ct.rv->p.rangeSigs.push_back(boost::get<rct::rangeSig>(m_ct.tx_out_rsigs[i])); m_ct.rv->p.bulletproofs.push_back(boost::get<rct::Bulletproof>(m_ct.tx_out_rsigs[i]));
} }
} }
@ -936,8 +916,8 @@ namespace tx {
void Signer::step_sign_input_ack(std::shared_ptr<const messages::monero::MoneroTransactionSignInputAck> ack){ void Signer::step_sign_input_ack(std::shared_ptr<const messages::monero::MoneroTransactionSignInputAck> ack){
m_ct.signatures.push_back(ack->signature()); m_ct.signatures.push_back(ack->signature());
// Sync updated pseudo_outputs, client_version>=1, HF10+ // Sync updated pseudo_outputs
if (client_version() >= 1 && ack->has_pseudo_out()){ if (ack->has_pseudo_out()){
CHECK_AND_ASSERT_THROW_MES(m_ct.cur_input_idx < m_ct.pseudo_outs.size(), "Invalid pseudo-out index"); CHECK_AND_ASSERT_THROW_MES(m_ct.cur_input_idx < m_ct.pseudo_outs.size(), "Invalid pseudo-out index");
m_ct.pseudo_outs[m_ct.cur_input_idx] = ack->pseudo_out(); m_ct.pseudo_outs[m_ct.cur_input_idx] = ack->pseudo_out();
if (is_bulletproof()){ if (is_bulletproof()){
@ -955,6 +935,8 @@ namespace tx {
} }
void Signer::step_final_ack(std::shared_ptr<const messages::monero::MoneroTransactionFinalAck> ack){ void Signer::step_final_ack(std::shared_ptr<const messages::monero::MoneroTransactionFinalAck> ack){
CHECK_AND_ASSERT_THROW_MES(is_clsag(), "Only CLSAGs signatures are supported");
if (m_multisig){ if (m_multisig){
auto & cout_key = ack->cout_key(); auto & cout_key = ack->cout_key();
for(auto & cur : m_ct.couts){ for(auto & cur : m_ct.couts){
@ -975,47 +957,34 @@ namespace tx {
m_ct.enc_keys = ack->tx_enc_keys(); m_ct.enc_keys = ack->tx_enc_keys();
// Opening the sealed signatures // Opening the sealed signatures
if (client_version() >= 3){ if(!ack->has_opening_key()){
if(!ack->has_opening_key()){ throw exc::ProtocolException("Client version 3+ requires sealed signatures");
throw exc::ProtocolException("Client version 3+ requires sealed signatures");
}
for(size_t i = 0; i < m_ct.signatures.size(); ++i){
CHECK_AND_ASSERT_THROW_MES(m_ct.signatures[i].size() > crypto::chacha::TAG_SIZE, "Invalid signature size");
std::string nonce = compute_sealing_key(ack->opening_key(), i, true);
std::string key = compute_sealing_key(ack->opening_key(), i, false);
size_t plen = m_ct.signatures[i].size() - crypto::chacha::TAG_SIZE;
std::unique_ptr<uint8_t[]> plaintext(new uint8_t[plen]);
uint8_t * buff = plaintext.get();
protocol::crypto::chacha::decrypt(
m_ct.signatures[i].data(),
m_ct.signatures[i].size(),
reinterpret_cast<const uint8_t *>(key.data()),
reinterpret_cast<const uint8_t *>(nonce.data()),
reinterpret_cast<char *>(buff), &plen);
m_ct.signatures[i].assign(reinterpret_cast<const char *>(buff), plen);
}
} }
if (m_ct.rv->type == rct::RCTTypeCLSAG){ for(size_t i = 0; i < m_ct.signatures.size(); ++i){
m_ct.rv->p.CLSAGs.reserve(m_ct.signatures.size()); CHECK_AND_ASSERT_THROW_MES(m_ct.signatures[i].size() > crypto::chacha::TAG_SIZE, "Invalid signature size");
for (size_t i = 0; i < m_ct.signatures.size(); ++i) { std::string nonce = compute_sealing_key(ack->opening_key(), i, true);
rct::clsag clsag; std::string key = compute_sealing_key(ack->opening_key(), i, false);
if (!cn_deserialize(m_ct.signatures[i], clsag)) { size_t plen = m_ct.signatures[i].size() - crypto::chacha::TAG_SIZE;
throw exc::ProtocolException("Cannot deserialize clsag[i]"); std::unique_ptr<uint8_t[]> plaintext(new uint8_t[plen]);
} uint8_t * buff = plaintext.get();
m_ct.rv->p.CLSAGs.push_back(clsag);
} protocol::crypto::chacha::decrypt(
} else { m_ct.signatures[i].data(),
m_ct.rv->p.MGs.reserve(m_ct.signatures.size()); m_ct.signatures[i].size(),
for (size_t i = 0; i < m_ct.signatures.size(); ++i) { reinterpret_cast<const uint8_t *>(key.data()),
rct::mgSig mg; reinterpret_cast<const uint8_t *>(nonce.data()),
if (!cn_deserialize(m_ct.signatures[i], mg)) { reinterpret_cast<char *>(buff), &plen);
throw exc::ProtocolException("Cannot deserialize mg[i]"); m_ct.signatures[i].assign(reinterpret_cast<const char *>(buff), plen);
} }
m_ct.rv->p.MGs.push_back(mg);
m_ct.rv->p.CLSAGs.reserve(m_ct.signatures.size());
for (size_t i = 0; i < m_ct.signatures.size(); ++i) {
rct::clsag clsag;
if (!cn_deserialize(m_ct.signatures[i], clsag)) {
throw exc::ProtocolException("Cannot deserialize clsag[i]");
} }
m_ct.rv->p.CLSAGs.push_back(clsag);
} }
m_ct.tx.rct_signatures = *(m_ct.rv); m_ct.tx.rct_signatures = *(m_ct.rv);

View file

@ -116,8 +116,7 @@ namespace ki {
*/ */
bool key_image_data(wallet_shim * wallet, bool key_image_data(wallet_shim * wallet,
const std::vector<tools::wallet2::transfer_details> & transfers, const std::vector<tools::wallet2::transfer_details> & transfers,
std::vector<MoneroTransferDetails> & res, std::vector<MoneroTransferDetails> & res);
bool need_all_additionals=false);
/** /**
* Computes a hash over MoneroTransferDetails. Commitment used in the KI sync. * Computes a hash over MoneroTransferDetails. Commitment used in the KI sync.
@ -129,8 +128,7 @@ namespace ki {
*/ */
void generate_commitment(std::vector<MoneroTransferDetails> & mtds, void generate_commitment(std::vector<MoneroTransferDetails> & mtds,
const std::vector<tools::wallet2::transfer_details> & transfers, const std::vector<tools::wallet2::transfer_details> & transfers,
std::shared_ptr<messages::monero::MoneroKeyImageExportInitRequest> & req, std::shared_ptr<messages::monero::MoneroKeyImageExportInitRequest> & req);
bool need_subaddr_indices=false);
/** /**
* Processes Live refresh step response, parses KI, checks the signature * Processes Live refresh step response, parses KI, checks the signature
@ -166,7 +164,7 @@ namespace tx {
::crypto::secret_key compute_enc_key(const ::crypto::secret_key & private_view_key, const std::string & aux, const std::string & salt); ::crypto::secret_key compute_enc_key(const ::crypto::secret_key & private_view_key, const std::string & aux, const std::string & salt);
std::string compute_sealing_key(const std::string & master_key, size_t idx, bool is_iv=false); std::string compute_sealing_key(const std::string & master_key, size_t idx, bool is_iv=false);
typedef boost::variant<rct::rangeSig, rct::Bulletproof> rsig_v; typedef boost::variant<rct::Bulletproof, rct::BulletproofPlus> rsig_v;
/** /**
* Transaction signer state holder. * Transaction signer state holder.
@ -247,7 +245,7 @@ namespace tx {
void compute_integrated_indices(TsxData * tsx_data); void compute_integrated_indices(TsxData * tsx_data);
bool should_compute_bp_now() const; bool should_compute_bp_now() const;
void compute_bproof(messages::monero::MoneroTransactionRsigData & rsig_data); void compute_bproof(messages::monero::MoneroTransactionRsigData & rsig_data);
void process_bproof(rct::Bulletproof & bproof); void process_bproof(rsig_v & bproof);
void set_tx_input(MoneroTransactionSourceEntry * dst, size_t idx, bool need_ring_keys=false, bool need_ring_indices=false); void set_tx_input(MoneroTransactionSourceEntry * dst, size_t idx, bool need_ring_keys=false, bool need_ring_indices=false);
public: public:
@ -260,8 +258,6 @@ namespace tx {
void step_set_input_ack(std::shared_ptr<const messages::monero::MoneroTransactionSetInputAck> ack); void step_set_input_ack(std::shared_ptr<const messages::monero::MoneroTransactionSetInputAck> ack);
void sort_ki(); void sort_ki();
std::shared_ptr<messages::monero::MoneroTransactionInputsPermutationRequest> step_permutation();
void step_permutation_ack(std::shared_ptr<const messages::monero::MoneroTransactionInputsPermutationAck> ack);
std::shared_ptr<messages::monero::MoneroTransactionInputViniRequest> step_set_vini_input(size_t idx); std::shared_ptr<messages::monero::MoneroTransactionInputViniRequest> step_set_vini_input(size_t idx);
void step_set_vini_input_ack(std::shared_ptr<const messages::monero::MoneroTransactionInputViniAck> ack); void step_set_vini_input_ack(std::shared_ptr<const messages::monero::MoneroTransactionInputViniAck> ack);
@ -290,11 +286,15 @@ namespace tx {
return m_client_version; return m_client_version;
} }
bool is_simple() const { uint8_t get_rv_type() const {
if (!m_ct.rv){ if (!m_ct.rv){
throw std::invalid_argument("RV not initialized"); throw std::invalid_argument("RV not initialized");
} }
auto tp = m_ct.rv->type; return m_ct.rv->type;
}
bool is_simple() const {
auto tp = get_rv_type();
return tp == rct::RCTTypeSimple; return tp == rct::RCTTypeSimple;
} }
@ -302,12 +302,27 @@ namespace tx {
return m_ct.tx_data.rct_config.range_proof_type != rct::RangeProofBorromean; return m_ct.tx_data.rct_config.range_proof_type != rct::RangeProofBorromean;
} }
bool is_req_clsag() const {
return is_req_bulletproof() && m_ct.tx_data.rct_config.bp_version >= 3;
}
bool is_req_bulletproof_plus() const {
return is_req_bulletproof() && m_ct.tx_data.rct_config.bp_version == 4; // rct::genRctSimple
}
bool is_bulletproof() const { bool is_bulletproof() const {
if (!m_ct.rv){ auto tp = get_rv_type();
throw std::invalid_argument("RV not initialized"); return rct::is_rct_bulletproof(tp) || rct::is_rct_bulletproof_plus(tp);
} }
auto tp = m_ct.rv->type;
return tp == rct::RCTTypeBulletproof || tp == rct::RCTTypeBulletproof2 || tp == rct::RCTTypeCLSAG; bool is_bulletproof_plus() const {
auto tp = get_rv_type();
return rct::is_rct_bulletproof_plus(tp);
}
bool is_clsag() const {
auto tp = get_rv_type();
return rct::is_rct_clsag(tp);
} }
bool is_offloading() const { bool is_offloading() const {

View file

@ -661,7 +661,7 @@ void block_tracker::process(const block* blk, const transaction * tx, size_t i)
for (size_t j = 0; j < tx->vout.size(); ++j) { for (size_t j = 0; j < tx->vout.size(); ++j) {
const tx_out &out = tx->vout[j]; const tx_out &out = tx->vout[j];
if (typeid(cryptonote::txout_to_key) != out.target.type()) { // out_to_key if (typeid(cryptonote::txout_to_key) != out.target.type() && typeid(cryptonote::txout_to_tagged_key) != out.target.type()) {
continue; continue;
} }

View file

@ -52,7 +52,6 @@ namespace po = boost::program_options;
namespace namespace
{ {
const command_line::arg_descriptor<std::string> arg_filter = { "filter", "Regular expression filter for which tests to run" }; const command_line::arg_descriptor<std::string> arg_filter = { "filter", "Regular expression filter for which tests to run" };
const command_line::arg_descriptor<bool> arg_generate_and_play_test_data = {"generate_and_play_test_data", ""};
const command_line::arg_descriptor<std::string> arg_trezor_path = {"trezor_path", "Path to the trezor device to use, has to support debug link", ""}; const command_line::arg_descriptor<std::string> arg_trezor_path = {"trezor_path", "Path to the trezor device to use, has to support debug link", ""};
const command_line::arg_descriptor<bool> arg_heavy_tests = {"heavy_tests", "Runs expensive tests (volume tests with real device)", false}; const command_line::arg_descriptor<bool> arg_heavy_tests = {"heavy_tests", "Runs expensive tests (volume tests with real device)", false};
const command_line::arg_descriptor<std::string> arg_chain_path = {"chain_path", "Path to the serialized blockchain, speeds up testing", ""}; const command_line::arg_descriptor<std::string> arg_chain_path = {"chain_path", "Path to the serialized blockchain, speeds up testing", ""};
@ -138,7 +137,7 @@ int main(int argc, char* argv[])
hw::register_device(HW_TREZOR_NAME, ensure_trezor_test_device()); // shim device for call tracking hw::register_device(HW_TREZOR_NAME, ensure_trezor_test_device()); // shim device for call tracking
// Bootstrapping common chain & accounts // Bootstrapping common chain & accounts
const uint8_t initial_hf = (uint8_t)get_env_long("TEST_MIN_HF", 12); const uint8_t initial_hf = (uint8_t)get_env_long("TEST_MIN_HF", HF_VERSION_CLSAG);
const uint8_t max_hf = (uint8_t)get_env_long("TEST_MAX_HF", HF_VERSION_CLSAG); const uint8_t max_hf = (uint8_t)get_env_long("TEST_MAX_HF", HF_VERSION_CLSAG);
auto sync_test = get_env_long("TEST_KI_SYNC", 1); auto sync_test = get_env_long("TEST_KI_SYNC", 1);
MINFO("Test versions " << MONERO_RELEASE_NAME << "' (v" << MONERO_VERSION_FULL << ")"); MINFO("Test versions " << MONERO_RELEASE_NAME << "' (v" << MONERO_VERSION_FULL << ")");
@ -162,6 +161,10 @@ int main(int argc, char* argv[])
// Transaction tests // Transaction tests
for(uint8_t hf=initial_hf; hf <= max_hf + 1; ++hf) for(uint8_t hf=initial_hf; hf <= max_hf + 1; ++hf)
{ {
if (hf == 14) { // HF 14 is skipped.
continue;
}
if (hf > initial_hf || hf > max_hf) if (hf > initial_hf || hf > max_hf)
{ {
daemon->stop_and_deinit(); daemon->stop_and_deinit();
@ -201,12 +204,14 @@ int main(int argc, char* argv[])
TREZOR_COMMON_TEST_CASE(gen_trezor_4utxo_to_1norm_2sub, core, trezor_base); TREZOR_COMMON_TEST_CASE(gen_trezor_4utxo_to_1norm_2sub, core, trezor_base);
TREZOR_COMMON_TEST_CASE(gen_trezor_2utxo_sub_acc_to_1norm_2sub, core, trezor_base); TREZOR_COMMON_TEST_CASE(gen_trezor_2utxo_sub_acc_to_1norm_2sub, core, trezor_base);
TREZOR_COMMON_TEST_CASE(gen_trezor_4utxo_to_7outs, core, trezor_base); TREZOR_COMMON_TEST_CASE(gen_trezor_4utxo_to_7outs, core, trezor_base);
TREZOR_COMMON_TEST_CASE(gen_trezor_4utxo_to_15outs, core, trezor_base);
TREZOR_COMMON_TEST_CASE(wallet_api_tests, core, trezor_base); TREZOR_COMMON_TEST_CASE(wallet_api_tests, core, trezor_base);
} }
if (trezor_base.heavy_tests()) if (trezor_base.heavy_tests())
{ {
TREZOR_COMMON_TEST_CASE(gen_trezor_many_utxo, core, trezor_base); TREZOR_COMMON_TEST_CASE(gen_trezor_many_utxo, core, trezor_base);
TREZOR_COMMON_TEST_CASE(gen_trezor_many_utxo_many_txo, core, trezor_base);
} }
core->deinit(); core->deinit();
@ -555,7 +560,7 @@ static void expand_tsx(cryptonote::transaction &tx)
rv.p.MGs[n].II[0] = rct::ki2rct(boost::get<txin_to_key>(tx.vin[n]).k_image); rv.p.MGs[n].II[0] = rct::ki2rct(boost::get<txin_to_key>(tx.vin[n]).k_image);
} }
} }
else if (rv.type == rct::RCTTypeCLSAG) else if (rv.type == rct::RCTTypeCLSAG || rv.type == rct::RCTTypeBulletproofPlus)
{ {
if (!tx.pruned) if (!tx.pruned)
{ {
@ -1269,6 +1274,8 @@ void gen_trezor_base::set_hard_fork(uint8_t hf)
rct_config({rct::RangeProofPaddedBulletproof, 2}); rct_config({rct::RangeProofPaddedBulletproof, 2});
} else if (hf == HF_VERSION_CLSAG){ } else if (hf == HF_VERSION_CLSAG){
rct_config({rct::RangeProofPaddedBulletproof, 3}); rct_config({rct::RangeProofPaddedBulletproof, 3});
} else if (hf == HF_VERSION_BULLETPROOF_PLUS){
rct_config({rct::RangeProofPaddedBulletproof, 4});
} else { } else {
throw std::runtime_error("Unsupported HF"); throw std::runtime_error("Unsupported HF");
} }
@ -1655,7 +1662,7 @@ bool gen_trezor_1utxo::generate(std::vector<test_event_entry>& events)
{ {
TREZOR_TEST_PREFIX(); TREZOR_TEST_PREFIX();
t_builder->cur_height(num_blocks(events) - 1) t_builder->cur_height(num_blocks(events) - 1)
->mixin(TREZOR_TEST_MIXIN) ->mixin(num_mixin())
->fee(TREZOR_TEST_FEE) ->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0) ->from(m_wl_alice.get(), 0)
->compute_sources(boost::none, MK_COINS(1), -1, -1) ->compute_sources(boost::none, MK_COINS(1), -1, -1)
@ -1671,7 +1678,7 @@ bool gen_trezor_1utxo_paymentid_short::generate(std::vector<test_event_entry>& e
TREZOR_TEST_PREFIX(); TREZOR_TEST_PREFIX();
TREZOR_SKIP_IF_VERSION_LEQ(hw::trezor::pack_version(2, 0, 9)); TREZOR_SKIP_IF_VERSION_LEQ(hw::trezor::pack_version(2, 0, 9));
t_builder->cur_height(num_blocks(events) - 1) t_builder->cur_height(num_blocks(events) - 1)
->mixin(TREZOR_TEST_MIXIN) ->mixin(num_mixin())
->fee(TREZOR_TEST_FEE) ->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0) ->from(m_wl_alice.get(), 0)
->compute_sources(boost::none, MK_COINS(1), -1, -1) ->compute_sources(boost::none, MK_COINS(1), -1, -1)
@ -1688,7 +1695,7 @@ bool gen_trezor_1utxo_paymentid_short_integrated::generate(std::vector<test_even
TREZOR_TEST_PREFIX(); TREZOR_TEST_PREFIX();
TREZOR_SKIP_IF_VERSION_LEQ(hw::trezor::pack_version(2, 0, 9)); TREZOR_SKIP_IF_VERSION_LEQ(hw::trezor::pack_version(2, 0, 9));
t_builder->cur_height(num_blocks(events) - 1) t_builder->cur_height(num_blocks(events) - 1)
->mixin(TREZOR_TEST_MIXIN) ->mixin(num_mixin())
->fee(TREZOR_TEST_FEE) ->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0) ->from(m_wl_alice.get(), 0)
->compute_sources(boost::none, MK_COINS(1), -1, -1) ->compute_sources(boost::none, MK_COINS(1), -1, -1)
@ -1705,7 +1712,7 @@ bool gen_trezor_4utxo::generate(std::vector<test_event_entry>& events)
{ {
TREZOR_TEST_PREFIX(); TREZOR_TEST_PREFIX();
t_builder->cur_height(num_blocks(events) - 1) t_builder->cur_height(num_blocks(events) - 1)
->mixin(TREZOR_TEST_MIXIN) ->mixin(num_mixin())
->fee(TREZOR_TEST_FEE) ->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0) ->from(m_wl_alice.get(), 0)
->compute_sources(4, MK_COINS(1), -1, -1) ->compute_sources(4, MK_COINS(1), -1, -1)
@ -1720,7 +1727,7 @@ bool gen_trezor_4utxo_acc1::generate(std::vector<test_event_entry>& events)
{ {
TREZOR_TEST_PREFIX(); TREZOR_TEST_PREFIX();
t_builder->cur_height(num_blocks(events) - 1) t_builder->cur_height(num_blocks(events) - 1)
->mixin(TREZOR_TEST_MIXIN) ->mixin(num_mixin())
->fee(TREZOR_TEST_FEE) ->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 1) ->from(m_wl_alice.get(), 1)
->compute_sources(4, MK_COINS(1), -1, -1) ->compute_sources(4, MK_COINS(1), -1, -1)
@ -1735,7 +1742,7 @@ bool gen_trezor_4utxo_to_sub::generate(std::vector<test_event_entry>& events)
{ {
TREZOR_TEST_PREFIX(); TREZOR_TEST_PREFIX();
t_builder->cur_height(num_blocks(events) - 1) t_builder->cur_height(num_blocks(events) - 1)
->mixin(TREZOR_TEST_MIXIN) ->mixin(num_mixin())
->fee(TREZOR_TEST_FEE) ->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0) ->from(m_wl_alice.get(), 0)
->compute_sources(4, MK_COINS(1), -1, -1) ->compute_sources(4, MK_COINS(1), -1, -1)
@ -1750,7 +1757,7 @@ bool gen_trezor_4utxo_to_2sub::generate(std::vector<test_event_entry>& events)
{ {
TREZOR_TEST_PREFIX(); TREZOR_TEST_PREFIX();
t_builder->cur_height(num_blocks(events) - 1) t_builder->cur_height(num_blocks(events) - 1)
->mixin(TREZOR_TEST_MIXIN) ->mixin(num_mixin())
->fee(TREZOR_TEST_FEE) ->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0) ->from(m_wl_alice.get(), 0)
->compute_sources(4, MK_COINS(1), -1, -1) ->compute_sources(4, MK_COINS(1), -1, -1)
@ -1766,7 +1773,7 @@ bool gen_trezor_4utxo_to_1norm_2sub::generate(std::vector<test_event_entry>& eve
{ {
TREZOR_TEST_PREFIX(); TREZOR_TEST_PREFIX();
t_builder->cur_height(num_blocks(events) - 1) t_builder->cur_height(num_blocks(events) - 1)
->mixin(TREZOR_TEST_MIXIN) ->mixin(num_mixin())
->fee(TREZOR_TEST_FEE) ->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0) ->from(m_wl_alice.get(), 0)
->compute_sources(4, MK_COINS(1), -1, -1) ->compute_sources(4, MK_COINS(1), -1, -1)
@ -1783,7 +1790,7 @@ bool gen_trezor_2utxo_sub_acc_to_1norm_2sub::generate(std::vector<test_event_ent
{ {
TREZOR_TEST_PREFIX(); TREZOR_TEST_PREFIX();
t_builder->cur_height(num_blocks(events) - 1) t_builder->cur_height(num_blocks(events) - 1)
->mixin(TREZOR_TEST_MIXIN) ->mixin(num_mixin())
->fee(TREZOR_TEST_FEE) ->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0) ->from(m_wl_alice.get(), 0)
->compute_sources_to_sub_acc(2, MK_COINS(1) >> 2, -1, -1) ->compute_sources_to_sub_acc(2, MK_COINS(1) >> 2, -1, -1)
@ -1800,7 +1807,7 @@ bool gen_trezor_4utxo_to_7outs::generate(std::vector<test_event_entry>& events)
{ {
TREZOR_TEST_PREFIX(); TREZOR_TEST_PREFIX();
t_builder->cur_height(num_blocks(events) - 1) t_builder->cur_height(num_blocks(events) - 1)
->mixin(TREZOR_TEST_MIXIN) ->mixin(num_mixin())
->fee(TREZOR_TEST_FEE) ->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0) ->from(m_wl_alice.get(), 0)
->compute_sources(4, MK_COINS(1), -1, -1) ->compute_sources(4, MK_COINS(1), -1, -1)
@ -1817,11 +1824,39 @@ bool gen_trezor_4utxo_to_7outs::generate(std::vector<test_event_entry>& events)
TREZOR_TEST_SUFFIX(); TREZOR_TEST_SUFFIX();
} }
bool gen_trezor_4utxo_to_15outs::generate(std::vector<test_event_entry>& events)
{
TREZOR_TEST_PREFIX();
t_builder->cur_height(num_blocks(events) - 1)
->mixin(num_mixin())
->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0)
->compute_sources(4, MK_COINS(1), -1, -1)
->add_destination(m_wl_eve->get_subaddress({1, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({2, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 2}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 3}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 4}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({1, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({2, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 2}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 3}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 4}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 4}), true, 1000)
->add_destination(m_wl_eve.get(), false, 1000)
->rct_config(m_rct_config)
->build_tx();
TREZOR_TEST_SUFFIX();
}
bool gen_trezor_many_utxo::generate(std::vector<test_event_entry>& events) bool gen_trezor_many_utxo::generate(std::vector<test_event_entry>& events)
{ {
TREZOR_TEST_PREFIX(); TREZOR_TEST_PREFIX();
t_builder->cur_height(num_blocks(events) - 1) t_builder->cur_height(num_blocks(events) - 1)
->mixin(TREZOR_TEST_MIXIN) ->mixin(num_mixin())
->fee(TREZOR_TEST_FEE) ->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0) ->from(m_wl_alice.get(), 0)
->compute_sources(110, MK_COINS(1), -1, -1) ->compute_sources(110, MK_COINS(1), -1, -1)
@ -1832,6 +1867,35 @@ bool gen_trezor_many_utxo::generate(std::vector<test_event_entry>& events)
TREZOR_TEST_SUFFIX(); TREZOR_TEST_SUFFIX();
} }
bool gen_trezor_many_utxo_many_txo::generate(std::vector<test_event_entry>& events)
{
TREZOR_TEST_PREFIX();
t_builder->cur_height(num_blocks(events) - 1)
->mixin(num_mixin())
->fee(TREZOR_TEST_FEE)
->from(m_wl_alice.get(), 0)
->compute_sources(40, MK_COINS(1), -1, -1)
->add_destination(m_eve_account, false, 1000)
->add_destination(m_wl_eve->get_subaddress({1, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({2, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 2}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 3}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 4}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({1, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({2, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 1}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 2}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({0, 3}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({1, 4}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({2, 4}), true, 1000)
->add_destination(m_wl_eve->get_subaddress({3, 4}), true, 1000)
->rct_config(m_rct_config)
->build_tx();
TREZOR_TEST_SUFFIX();
}
void wallet_api_tests::init() void wallet_api_tests::init()
{ {
m_wallet_dir = boost::filesystem::unique_path(); m_wallet_dir = boost::filesystem::unique_path();
@ -1873,7 +1937,7 @@ bool wallet_api_tests::generate(std::vector<test_event_entry>& events)
Monero::PendingTransaction * transaction = w->createTransaction(recepient_address, Monero::PendingTransaction * transaction = w->createTransaction(recepient_address,
"", "",
MK_COINS(10), MK_COINS(10),
TREZOR_TEST_MIXIN, num_mixin(),
Monero::PendingTransaction::Priority_Medium, Monero::PendingTransaction::Priority_Medium,
0, 0,
std::set<uint32_t>{}); std::set<uint32_t>{});

View file

@ -37,7 +37,9 @@
#include "../core_tests/wallet_tools.h" #include "../core_tests/wallet_tools.h"
#define TREZOR_TEST_FEE 90000000000 #define TREZOR_TEST_FEE 90000000000
#define TREZOR_TEST_MIXIN 11 #define TREZOR_TEST_CLSAG_MIXIN 11
#define TREZOR_TEST_HF15_MIXIN 16
#define TREZOR_TEST_MIXIN TREZOR_TEST_CLSAG_MIXIN
/************************************************************************/ /************************************************************************/
/* */ /* */
@ -93,6 +95,7 @@ public:
bool heavy_tests() const { return m_heavy_tests; } bool heavy_tests() const { return m_heavy_tests; }
void rct_config(rct::RCTConfig rct_config) { m_rct_config = rct_config; } void rct_config(rct::RCTConfig rct_config) { m_rct_config = rct_config; }
uint8_t cur_hf() const { return m_hard_forks.size() > 0 ? m_hard_forks.back().first : 0; } uint8_t cur_hf() const { return m_hard_forks.size() > 0 ? m_hard_forks.back().first : 0; }
size_t num_mixin() const { return m_top_hard_fork >= HF_VERSION_BULLETPROOF_PLUS ? TREZOR_TEST_HF15_MIXIN : TREZOR_TEST_CLSAG_MIXIN; }
cryptonote::network_type nettype() const { return m_network_type; } cryptonote::network_type nettype() const { return m_network_type; }
std::shared_ptr<mock_daemon> daemon() const { return m_daemon; } std::shared_ptr<mock_daemon> daemon() const { return m_daemon; }
void daemon(std::shared_ptr<mock_daemon> daemon){ m_daemon = std::move(daemon); } void daemon(std::shared_ptr<mock_daemon> daemon){ m_daemon = std::move(daemon); }
@ -306,12 +309,24 @@ public:
bool generate(std::vector<test_event_entry>& events) override; bool generate(std::vector<test_event_entry>& events) override;
}; };
class gen_trezor_4utxo_to_15outs : public gen_trezor_base
{
public:
bool generate(std::vector<test_event_entry>& events) override;
};
class gen_trezor_many_utxo : public gen_trezor_base class gen_trezor_many_utxo : public gen_trezor_base
{ {
public: public:
bool generate(std::vector<test_event_entry>& events) override; bool generate(std::vector<test_event_entry>& events) override;
}; };
class gen_trezor_many_utxo_many_txo : public gen_trezor_base
{
public:
bool generate(std::vector<test_event_entry>& events) override;
};
// Wallet::API tests // Wallet::API tests
class wallet_api_tests : public gen_trezor_base class wallet_api_tests : public gen_trezor_base
{ {