rct: split rct checks between semantics and other
Semantics can be checked early
This commit is contained in:
parent
2806842200
commit
ba3968f6ce
@ -2333,10 +2333,7 @@ bool Blockchain::expand_transaction_2(transaction &tx, const crypto::hash &tx_pr
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CHECK_AND_ASSERT_MES(false, false, "Unsupported rct tx type: " + boost::lexical_cast<std::string>(rv.type));
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CHECK_AND_ASSERT_MES(false, false, "Unsupported rct tx type: " + boost::lexical_cast<std::string>(rv.type));
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}
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}
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// outPk
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// outPk was already done by handle_incoming_tx
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CHECK_AND_ASSERT_MES(rv.outPk.size() == tx.vout.size(), false, "Bad outPk size");
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for (size_t n = 0; n < tx.rct_signatures.outPk.size(); ++n)
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rv.outPk[n].dest = rct::pk2rct(boost::get<txout_to_key>(tx.vout[n].target).key);
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return true;
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return true;
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}
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}
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@ -2641,7 +2638,7 @@ bool Blockchain::check_tx_inputs(transaction& tx, tx_verification_context &tvc,
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}
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}
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}
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}
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if (!rct::verRctSimple(rv))
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if (!rct::verRctSimple(rv, false))
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{
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{
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LOG_PRINT_L1("Failed to check ringct signatures!");
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LOG_PRINT_L1("Failed to check ringct signatures!");
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return false;
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return false;
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@ -2699,7 +2696,7 @@ bool Blockchain::check_tx_inputs(transaction& tx, tx_verification_context &tvc,
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}
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}
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}
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}
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if (!rct::verRct(rv))
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if (!rct::verRct(rv, false))
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{
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{
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LOG_PRINT_L1("Failed to check ringct signatures!");
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LOG_PRINT_L1("Failed to check ringct signatures!");
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return false;
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return false;
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@ -49,6 +49,7 @@ using namespace epee;
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#if defined(BERKELEY_DB)
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#if defined(BERKELEY_DB)
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#include "blockchain_db/berkeleydb/db_bdb.h"
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#include "blockchain_db/berkeleydb/db_bdb.h"
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#endif
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#endif
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#include "ringct/rctSigs.h"
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DISABLE_VS_WARNINGS(4355)
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DISABLE_VS_WARNINGS(4355)
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@ -494,6 +495,22 @@ namespace cryptonote
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return false;
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return false;
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}
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}
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// resolve outPk references in rct txes
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// outPk aren't the only thing that need resolving for a fully resolved tx,
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// but outPk (1) are needed now to check range proof semantics, and
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// (2) do not need access to the blockchain to find data
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if (tx.version >= 2)
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{
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rct::rctSig &rv = tx.rct_signatures;
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if (rv.outPk.size() != tx.vout.size())
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{
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LOG_PRINT_L1("WRONG TRANSACTION BLOB, Bad outPk size in tx " << tx_hash << ", rejected");
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return false;
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}
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for (size_t n = 0; n < tx.rct_signatures.outPk.size(); ++n)
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rv.outPk[n].dest = rct::pk2rct(boost::get<txout_to_key>(tx.vout[n].target).key);
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}
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if(!check_tx_semantic(tx, keeped_by_block))
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if(!check_tx_semantic(tx, keeped_by_block))
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{
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{
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LOG_PRINT_L1("WRONG TRANSACTION BLOB, Failed to check tx " << tx_hash << " semantic, rejected");
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LOG_PRINT_L1("WRONG TRANSACTION BLOB, Failed to check tx " << tx_hash << " semantic, rejected");
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@ -584,6 +601,33 @@ namespace cryptonote
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return false;
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return false;
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}
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}
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if (tx.version >= 2)
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{
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const rct::rctSig &rv = tx.rct_signatures;
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switch (rv.type) {
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case rct::RCTTypeNull:
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// coinbase should not come here, so we reject for all other types
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LOG_PRINT_RED_L1("Unexpected Null rctSig type");
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return false;
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case rct::RCTTypeSimple:
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if (!rct::verRctSimple(rv, true))
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{
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LOG_PRINT_RED_L1("rct signature semantics check failed");
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return false;
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}
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break;
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case rct::RCTTypeFull:
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if (!rct::verRct(rv, true))
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{
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LOG_PRINT_RED_L1("rct signature semantics check failed");
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return false;
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}
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break;
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default:
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LOG_PRINT_RED_L1("Unknown rct type: " << rv.type);
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return false;
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}
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}
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return true;
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return true;
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}
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}
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@ -710,43 +710,54 @@ namespace rct {
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//decodeRct: (c.f. http://eprint.iacr.org/2015/1098 section 5.1.1)
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//decodeRct: (c.f. http://eprint.iacr.org/2015/1098 section 5.1.1)
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// uses the attached ecdh info to find the amounts represented by each output commitment
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// uses the attached ecdh info to find the amounts represented by each output commitment
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// must know the destination private key to find the correct amount, else will return a random number
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// must know the destination private key to find the correct amount, else will return a random number
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bool verRct(const rctSig & rv) {
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bool verRct(const rctSig & rv, bool semantics) {
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PERF_TIMER(verRct);
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PERF_TIMER(verRct);
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CHECK_AND_ASSERT_MES(rv.type == RCTTypeFull, false, "verRct called on non-full rctSig");
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CHECK_AND_ASSERT_MES(rv.type == RCTTypeFull, false, "verRct called on non-full rctSig");
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CHECK_AND_ASSERT_MES(rv.outPk.size() == rv.p.rangeSigs.size(), false, "Mismatched sizes of outPk and rv.p.rangeSigs");
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if (semantics)
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CHECK_AND_ASSERT_MES(rv.outPk.size() == rv.ecdhInfo.size(), false, "Mismatched sizes of outPk and rv.ecdhInfo");
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{
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CHECK_AND_ASSERT_MES(rv.p.MGs.size() == 1, false, "full rctSig has not one MG");
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CHECK_AND_ASSERT_MES(rv.outPk.size() == rv.p.rangeSigs.size(), false, "Mismatched sizes of outPk and rv.p.rangeSigs");
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CHECK_AND_ASSERT_MES(rv.outPk.size() == rv.ecdhInfo.size(), false, "Mismatched sizes of outPk and rv.ecdhInfo");
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CHECK_AND_ASSERT_MES(rv.p.MGs.size() == 1, false, "full rctSig has not one MG");
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}
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else
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{
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// semantics check is early, we don't have the MGs resolved yet
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}
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// some rct ops can throw
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// some rct ops can throw
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try
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try
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{
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{
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std::deque<bool> results(rv.outPk.size(), false);
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if (semantics) {
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tools::thread_group threadpool(tools::thread_group::optimal_with_max(rv.outPk.size()));
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std::deque<bool> results(rv.outPk.size(), false);
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tools::thread_group threadpool(tools::thread_group::optimal_with_max(rv.outPk.size()));
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tools::task_region(threadpool, [&] (tools::task_region_handle& region) {
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tools::task_region(threadpool, [&] (tools::task_region_handle& region) {
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DP("range proofs verified?");
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DP("range proofs verified?");
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for (size_t i = 0; i < rv.outPk.size(); i++) {
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for (size_t i = 0; i < rv.outPk.size(); i++) {
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region.run([&, i] {
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region.run([&, i] {
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results[i] = verRange(rv.outPk[i].mask, rv.p.rangeSigs[i]);
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results[i] = verRange(rv.outPk[i].mask, rv.p.rangeSigs[i]);
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});
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});
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}
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}
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});
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});
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for (size_t i = 0; i < rv.outPk.size(); ++i) {
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for (size_t i = 0; i < rv.outPk.size(); ++i) {
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if (!results[i]) {
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if (!results[i]) {
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LOG_PRINT_L1("Range proof verified failed for output " << i);
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LOG_PRINT_L1("Range proof verified failed for output " << i);
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return false;
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return false;
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}
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}
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}
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}
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}
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//compute txn fee
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if (!semantics) {
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key txnFeeKey = scalarmultH(d2h(rv.txnFee));
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//compute txn fee
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bool mgVerd = verRctMG(rv.p.MGs[0], rv.mixRing, rv.outPk, txnFeeKey, get_pre_mlsag_hash(rv));
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key txnFeeKey = scalarmultH(d2h(rv.txnFee));
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DP("mg sig verified?");
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bool mgVerd = verRctMG(rv.p.MGs[0], rv.mixRing, rv.outPk, txnFeeKey, get_pre_mlsag_hash(rv));
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DP(mgVerd);
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DP("mg sig verified?");
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if (!mgVerd) {
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DP(mgVerd);
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LOG_PRINT_L1("MG signature verification failed");
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if (!mgVerd) {
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return false;
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LOG_PRINT_L1("MG signature verification failed");
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return false;
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}
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}
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}
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return true;
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return true;
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@ -759,76 +770,86 @@ namespace rct {
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//ver RingCT simple
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//ver RingCT simple
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//assumes only post-rct style inputs (at least for max anonymity)
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//assumes only post-rct style inputs (at least for max anonymity)
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bool verRctSimple(const rctSig & rv) {
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bool verRctSimple(const rctSig & rv, bool semantics) {
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try
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try
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{
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{
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PERF_TIMER(verRctSimple);
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PERF_TIMER(verRctSimple);
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CHECK_AND_ASSERT_MES(rv.type == RCTTypeSimple, false, "verRctSimple called on non simple rctSig");
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CHECK_AND_ASSERT_MES(rv.type == RCTTypeSimple, false, "verRctSimple called on non simple rctSig");
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CHECK_AND_ASSERT_MES(rv.outPk.size() == rv.p.rangeSigs.size(), false, "Mismatched sizes of outPk and rv.p.rangeSigs");
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if (semantics)
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CHECK_AND_ASSERT_MES(rv.outPk.size() == rv.ecdhInfo.size(), false, "Mismatched sizes of outPk and rv.ecdhInfo");
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{
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CHECK_AND_ASSERT_MES(rv.pseudoOuts.size() == rv.p.MGs.size(), false, "Mismatched sizes of rv.pseudoOuts and rv.p.MGs");
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CHECK_AND_ASSERT_MES(rv.outPk.size() == rv.p.rangeSigs.size(), false, "Mismatched sizes of outPk and rv.p.rangeSigs");
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CHECK_AND_ASSERT_MES(rv.pseudoOuts.size() == rv.mixRing.size(), false, "Mismatched sizes of rv.pseudoOuts and mixRing");
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CHECK_AND_ASSERT_MES(rv.outPk.size() == rv.ecdhInfo.size(), false, "Mismatched sizes of outPk and rv.ecdhInfo");
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CHECK_AND_ASSERT_MES(rv.pseudoOuts.size() == rv.p.MGs.size(), false, "Mismatched sizes of rv.pseudoOuts and rv.p.MGs");
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}
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else
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{
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// semantics check is early, and mixRing/MGs aren't resolved yet
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CHECK_AND_ASSERT_MES(rv.pseudoOuts.size() == rv.mixRing.size(), false, "Mismatched sizes of rv.pseudoOuts and mixRing");
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}
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const size_t threads = std::max(rv.outPk.size(), rv.mixRing.size());
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const size_t threads = std::max(rv.outPk.size(), rv.mixRing.size());
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std::deque<bool> results(threads);
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std::deque<bool> results(threads);
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tools::thread_group threadpool(tools::thread_group::optimal_with_max(threads));
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tools::thread_group threadpool(tools::thread_group::optimal_with_max(threads));
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results.clear();
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if (semantics) {
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results.resize(rv.outPk.size());
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results.clear();
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tools::task_region(threadpool, [&] (tools::task_region_handle& region) {
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results.resize(rv.outPk.size());
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tools::task_region(threadpool, [&] (tools::task_region_handle& region) {
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for (size_t i = 0; i < rv.outPk.size(); i++) {
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region.run([&, i] {
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results[i] = verRange(rv.outPk[i].mask, rv.p.rangeSigs[i]);
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});
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}
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});
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for (size_t i = 0; i < results.size(); ++i) {
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if (!results[i]) {
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LOG_PRINT_L1("Range proof verified failed for output " << i);
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return false;
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}
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}
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key sumOutpks = identity();
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for (size_t i = 0; i < rv.outPk.size(); i++) {
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for (size_t i = 0; i < rv.outPk.size(); i++) {
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region.run([&, i] {
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addKeys(sumOutpks, sumOutpks, rv.outPk[i].mask);
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results[i] = verRange(rv.outPk[i].mask, rv.p.rangeSigs[i]);
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});
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}
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}
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});
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DP(sumOutpks);
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key txnFeeKey = scalarmultH(d2h(rv.txnFee));
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addKeys(sumOutpks, txnFeeKey, sumOutpks);
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for (size_t i = 0; i < results.size(); ++i) {
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key sumPseudoOuts = identity();
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if (!results[i]) {
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for (size_t i = 0 ; i < rv.pseudoOuts.size() ; i++) {
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LOG_PRINT_L1("Range proof verified failed for output " << i);
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addKeys(sumPseudoOuts, sumPseudoOuts, rv.pseudoOuts[i]);
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return false;
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}
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DP(sumPseudoOuts);
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//check pseudoOuts vs Outs..
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if (!equalKeys(sumPseudoOuts, sumOutpks)) {
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LOG_PRINT_L1("Sum check failed");
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return false;
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}
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}
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}
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}
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else {
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const key message = get_pre_mlsag_hash(rv);
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key sumOutpks = identity();
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results.clear();
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for (size_t i = 0; i < rv.outPk.size(); i++) {
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results.resize(rv.mixRing.size());
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addKeys(sumOutpks, sumOutpks, rv.outPk[i].mask);
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tools::task_region(threadpool, [&] (tools::task_region_handle& region) {
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}
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for (size_t i = 0 ; i < rv.mixRing.size() ; i++) {
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DP(sumOutpks);
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region.run([&, i] {
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key txnFeeKey = scalarmultH(d2h(rv.txnFee));
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results[i] = verRctMGSimple(message, rv.p.MGs[i], rv.mixRing[i], rv.pseudoOuts[i]);
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addKeys(sumOutpks, txnFeeKey, sumOutpks);
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});
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}
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});
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key message = get_pre_mlsag_hash(rv);
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for (size_t i = 0; i < results.size(); ++i) {
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if (!results[i]) {
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results.clear();
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LOG_PRINT_L1("verRctMGSimple failed for input " << i);
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results.resize(rv.mixRing.size());
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return false;
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tools::task_region(threadpool, [&] (tools::task_region_handle& region) {
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}
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for (size_t i = 0 ; i < rv.mixRing.size() ; i++) {
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region.run([&, i] {
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results[i] = verRctMGSimple(message, rv.p.MGs[i], rv.mixRing[i], rv.pseudoOuts[i]);
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});
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}
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}
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});
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for (size_t i = 0; i < results.size(); ++i) {
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if (!results[i]) {
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LOG_PRINT_L1("verRctMGSimple failed for input " << i);
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return false;
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}
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}
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key sumPseudoOuts = identity();
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for (size_t i = 0 ; i < rv.mixRing.size() ; i++) {
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addKeys(sumPseudoOuts, sumPseudoOuts, rv.pseudoOuts[i]);
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}
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DP(sumPseudoOuts);
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//check pseudoOuts vs Outs..
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if (!equalKeys(sumPseudoOuts, sumOutpks)) {
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LOG_PRINT_L1("Sum check failed");
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return false;
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}
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}
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return true;
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return true;
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@ -126,8 +126,10 @@ namespace rct {
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rctSig genRct(const key &message, const ctkeyV & inSk, const ctkeyV & inPk, const keyV & destinations, const vector<xmr_amount> & amounts, const keyV &amount_keys, const int mixin);
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rctSig genRct(const key &message, const ctkeyV & inSk, const ctkeyV & inPk, const keyV & destinations, const vector<xmr_amount> & amounts, const keyV &amount_keys, const int mixin);
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rctSig genRctSimple(const key & message, const ctkeyV & inSk, const ctkeyV & inPk, const keyV & destinations, const vector<xmr_amount> & inamounts, const vector<xmr_amount> & outamounts, const keyV &amount_keys, xmr_amount txnFee, unsigned int mixin);
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rctSig genRctSimple(const key & message, const ctkeyV & inSk, const ctkeyV & inPk, const keyV & destinations, const vector<xmr_amount> & inamounts, const vector<xmr_amount> & outamounts, const keyV &amount_keys, xmr_amount txnFee, unsigned int mixin);
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rctSig genRctSimple(const key & message, const ctkeyV & inSk, const keyV & destinations, const vector<xmr_amount> & inamounts, const vector<xmr_amount> & outamounts, xmr_amount txnFee, const ctkeyM & mixRing, const keyV &amount_keys, const std::vector<unsigned int> & index, ctkeyV &outSk);
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rctSig genRctSimple(const key & message, const ctkeyV & inSk, const keyV & destinations, const vector<xmr_amount> & inamounts, const vector<xmr_amount> & outamounts, xmr_amount txnFee, const ctkeyM & mixRing, const keyV &amount_keys, const std::vector<unsigned int> & index, ctkeyV &outSk);
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bool verRct(const rctSig & rv);
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bool verRct(const rctSig & rv, bool semantics);
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bool verRctSimple(const rctSig & rv);
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static inline bool verRct(const rctSig & rv) { return verRct(rv, true) && verRct(rv, false); }
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|
bool verRctSimple(const rctSig & rv, bool semantics);
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||||||
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static inline bool verRctSimple(const rctSig & rv) { return verRctSimple(rv, true) && verRctSimple(rv, false); }
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xmr_amount decodeRct(const rctSig & rv, const key & sk, unsigned int i, key & mask);
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xmr_amount decodeRct(const rctSig & rv, const key & sk, unsigned int i, key & mask);
|
||||||
xmr_amount decodeRct(const rctSig & rv, const key & sk, unsigned int i);
|
xmr_amount decodeRct(const rctSig & rv, const key & sk, unsigned int i);
|
||||||
xmr_amount decodeRctSimple(const rctSig & rv, const key & sk, unsigned int i, key & mask);
|
xmr_amount decodeRctSimple(const rctSig & rv, const key & sk, unsigned int i, key & mask);
|
||||||
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Loading…
Reference in New Issue
Block a user