#include #include #include #include #include #include #include #include "test/jtx/txflags.h" namespace ripple { namespace test { static STAmount reserve(jtx::Env& env, std::uint32_t count) { return env.current()->fees().accountReserve(count); } static void adjustAccountXRPBalance( jtx::Env& env, jtx::Account const& account, STAmount const& balanceTo) { using namespace test::jtx; XRPL_ASSERT( isXRP(balanceTo), "adjustAccountXRPBalance: balanceTo must be XRP"); auto const currentBalance = env.balance(account); if (currentBalance == balanceTo) return; auto const baseFee = env.current()->fees().base; if (currentBalance > balanceTo) env(pay(account, env.master, currentBalance - (balanceTo)), fee(XRP(1)), sponsor::as(env.master, tfSponsorFee), sig(sfSponsorSignature, env.master)); else env(pay(env.master, account, balanceTo - currentBalance), fee(baseFee)); env.close(); } class Sponsor_test : public beast::unit_test::suite { public: void testDisabled() { testcase("Disabled"); using namespace test::jtx; Env env{*this, testable_amendments() - featureSponsor}; Account const alice("alice"); Account const sponsor("sponsor"); env.fund(XRP(10000), alice, sponsor); env(noop(alice), fee(XRP(1)), sponsor::as(sponsor), sig(sfSponsorSignature, sponsor), ter(temDISABLED)); env(sponsor::transfer(alice), ter(temDISABLED)); env(sponsor::set(sponsor, 0), ter(temDISABLED)); } void testInvalidSponsorshipSet() { testcase("Invalid SponsorshipSet"); using namespace test::jtx; Env env{*this, testable_amendments()}; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); Account const noFunded("noFunded"); Account const gw("gw"); auto const USD = gw["USD"]; env.fund(XRP(10000), alice, sponsor, gw); env.close(); // // preflight // // Invalid flags { env(sponsor::set(sponsor, ~tfSponsorshipSetMask - tfInnerBatchTxn), sponsor::sponseeAcc(alice), ter(temINVALID_FLAG)); env(sponsor::set( sponsor, tfSponsorshipSetRequireSignForFee | tfSponsorshipClearRequireSignForFee), sponsor::sponseeAcc(alice), ter(temINVALID_FLAG)); env(sponsor::set( sponsor, tfSponsorshipSetRequireSignForReserve | tfSponsorshipClearRequireSignForReserve), sponsor::sponseeAcc(alice), ter(temINVALID_FLAG)); for (auto flag : {tfSponsorshipSetRequireSignForFee, tfSponsorshipClearRequireSignForFee, tfSponsorshipSetRequireSignForReserve, tfSponsorshipClearRequireSignForReserve}) { env(sponsor::set(sponsor, tfDeleteObject | flag), sponsor::sponseeAcc(alice), ter(temINVALID_FLAG)); } } // invalid SponsorAccount / Sponsee // Account = Sponsor env(sponsor::set(alice, tfDeleteObject), sponsor::sponsorAcc(alice), ter(temMALFORMED)); // Account = Sponsee env(sponsor::set(alice, tfDeleteObject), sponsor::sponseeAcc(alice), ter(temMALFORMED)); // Both Sponsor and Sponsee are specified env(sponsor::set(alice, 0), sponsor::sponsorAcc(sponsor), sponsor::sponseeAcc(alice), ter(temMALFORMED)); // Invalid feeAmount for (auto amt : {XRP(-1), XRP(0), USD(1)}) { env(sponsor::set_fee(sponsor, 0, amt), sponsor::sponseeAcc(alice), ter(temBAD_AMOUNT)); } // Invalid reserveCount env(sponsor::set_reserve(sponsor, 0, 0), sponsor::sponseeAcc(alice), ter(temMALFORMED)); // Invalid Delete operation env(sponsor::set_reserve(sponsor, tfDeleteObject, 1), sponsor::sponseeAcc(alice), ter(temMALFORMED)); env(sponsor::set_fee(sponsor, tfDeleteObject, XRP(1)), sponsor::sponseeAcc(alice), ter(temMALFORMED)); // TODO: test MaxFee with tfDeleteObject // // preclaim // // Invalid Sponsee env(sponsor::set(sponsor, 0), sponsor::sponseeAcc(noFunded), ter(tecNO_DST)); // Invalid Delete operation (not found) env(sponsor::set(sponsor, tfDeleteObject), sponsor::sponseeAcc(alice), ter(tecNO_ENTRY)); // DisallowIncomingSponsor: tested in other testcase // create sponsor to use above tests env(sponsor::set(sponsor, 0, 100, XRP(100)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); } void testSingleSigning() { testcase("Single signing"); using namespace test::jtx; Env env{*this, testable_amendments()}; Account const alice("alice"); Account const sponsor("sponsor"); Account const invalid("invalid"); env.fund(XRP(10000), alice, sponsor); env.close(); // Signature doesn't exist auto tx = noop(alice); tx[sfSponsor.jsonName][sfAccount.jsonName] = sponsor.human(); tx[sfSponsorSignature.jsonName][sfSigningPubKey.jsonName] = strHex(sponsor.pk().slice()); env(tx, fee(XRP(1)), sponsor::as(sponsor, tfSponsorReserve), ter(telENV_RPC_FAILED)); // Invalid signature tx[sfSponsorSignature.jsonName][sfTxnSignature.jsonName] = "DEADBEEF"; env(tx, fee(XRP(1)), sponsor::as(sponsor, tfSponsorReserve), ter(telENV_RPC_FAILED)); // Signer account doesn't exist env(noop(alice), fee(XRP(1)), sponsor::as(invalid, tfSponsorReserve), sig(sfSponsorSignature, invalid), ter(terNO_ACCOUNT)); // Success env(noop(alice), fee(XRP(1)), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor), ter(tesSUCCESS)); } void testMultiSigning() { testcase("Multi signing"); using namespace test::jtx; Env env{*this, testable_amendments()}; Account const alice("alice"); Account const sponsor("sponsor"); Account const invalid("invalid"); Account const signer1("signer1"); Account const signer2("signer2"); env.fund(XRP(10000), alice, sponsor); env.close(); env(signers(sponsor, 1, {{signer1, 1}, {signer2, 1}})); env.close(); // Invalid signature auto tx = noop(alice); auto& signers1 = tx[sfSponsorSignature.jsonName][sfSigners.jsonName][0U] [sfSigner.jsonName]; signers1[sfAccount.jsonName] = signer1.human(); signers1[sfSigningPubKey.jsonName] = strHex(signer1.pk().slice()); signers1[sfTxnSignature.jsonName] = "DEADBEEF"; env(tx, fee(XRP(1)), sponsor::as(sponsor, tfSponsorReserve), ter(telENV_RPC_FAILED)); // Signer account doesn't exist env(noop(alice), fee(XRP(1)), sponsor::as(invalid, tfSponsorReserve), msig(sfSponsorSignature, {signer1}), ter(tefNOT_MULTI_SIGNING)); env(noop(alice), fee(XRP(1)), sponsor::as(sponsor, tfSponsorReserve), msig(sfSponsorSignature, {signer1}), ter(tesSUCCESS)); env(signers(sponsor, 2, {{signer1, 1}, {signer2, 1}})); env.close(); env(noop(alice), fee(XRP(1)), sponsor::as(sponsor, tfSponsorReserve), msig(sfSponsorSignature, {signer1, signer2}), ter(tesSUCCESS)); } void testSimpleSponsorshipSet() { testcase("Simple SponsorshipSet"); using namespace test::jtx; Env env{*this, testable_amendments()}; Account const alice("alice"); Account const sponsor("sponsor"); env.fund(XRP(10000), alice, sponsor); env.close(); { env(sponsor::set( sponsor, tfSponsorshipSetRequireSignForFee | tfSponsorshipSetRequireSignForReserve, 100, XRP(100), XRP(1)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); auto sle = env.le(keylet::sponsor(sponsor, alice)); BEAST_EXPECT(sle); BEAST_EXPECT(sle->at(sfReserveCount) == 100); BEAST_EXPECT(sle->at(sfFeeAmount) == XRP(100)); BEAST_EXPECT(sle->at(sfMaxFee) == XRP(1)); BEAST_EXPECT(sle->isFlag(lsfSponsorshipRequireSignForFee)); BEAST_EXPECT(sle->isFlag(lsfSponsorshipRequireSignForReserve)); // update sponsorship env(sponsor::set(sponsor, 0, 100, XRP(100), XRP(2)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); auto sle2 = env.le(keylet::sponsor(sponsor, alice)); BEAST_EXPECT(sle2); BEAST_EXPECT(sle2->at(sfReserveCount) == 200); // add 100 BEAST_EXPECT(sle2->at(sfFeeAmount) == XRP(200)); // add 100 BEAST_EXPECT(sle2->at(sfMaxFee) == XRP(2)); // update to 2 // delete from sponsor env(sponsor::del(sponsor), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); env(sponsor::set( sponsor, tfSponsorshipSetRequireSignForFee | tfSponsorshipSetRequireSignForReserve, 100, XRP(100), XRP(1)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); // delete from sponsee env(sponsor::del(alice), sponsor::sponsorAcc(sponsor), ter(tesSUCCESS)); env.close(); } { // Update Sponsorship (FeeAmount) // set empty FeeAmount env(sponsor::set_reserve(sponsor, 0, 100), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); // add FeeAmount env(sponsor::set_fee(sponsor, 0, XRP(100)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); env(sponsor::del(alice), sponsor::sponsorAcc(sponsor), ter(tesSUCCESS)); env.close(); } { // Update Sponsorship (ReserveCount) // set empty ReserveCount env(sponsor::set_fee(sponsor, 0, XRP(100)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); // add ReserveCount env(sponsor::set_reserve(sponsor, 0, 100), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); env(sponsor::del(alice), sponsor::sponsorAcc(sponsor), ter(tesSUCCESS)); env.close(); } { // delete Sponsorship (only with FeeAmount) env(sponsor::set_fee(sponsor, 0, XRP(100)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); env(sponsor::del(alice), sponsor::sponsorAcc(sponsor), ter(tesSUCCESS)); env.close(); } { // delete Sponsorship (only with ReserveCount) env(sponsor::set_reserve(sponsor, 0, 100), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); env(sponsor::del(alice), sponsor::sponsorAcc(sponsor), ter(tesSUCCESS)); env.close(); } } void testPreFundAndCosign() { testcase("PreFund and Cosign"); using namespace test::jtx; Account const alice("alice"); Account const sponsor("sponsor"); { // both pre-funded and co-signed,pre-funded value is used Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, sponsor); env.close(); env(sponsor::set(sponsor, 0, 100, XRP(100), XRP(1)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); env(ticket::create(alice, 1), sponsor::as(sponsor, tfSponsorReserve | tfSponsorFee), sig(sfSponsorSignature, sponsor), fee(XRP(1)), ter(tesSUCCESS)); env.close(); auto const sle = env.le(keylet::sponsor(sponsor, alice)); BEAST_EXPECT(sle); BEAST_EXPECT(sle->at(sfReserveCount) == 99); BEAST_EXPECT(sle->at(sfFeeAmount) == XRP(99)); } { // if pre-funded value is not enough, error Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, sponsor); env.close(); env(sponsor::set(sponsor, 0, 10, XRP(10), XRP(100)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); // fee insufficient env(ticket::create(alice, 1), sponsor::as(sponsor, tfSponsorReserve | tfSponsorFee), sig(sfSponsorSignature, sponsor), fee(XRP(11)), ter(terINSUF_FEE_B)); env.close(); // reserve insufficient env(ticket::create(alice, 11), sponsor::as(sponsor, tfSponsorReserve | tfSponsorFee), sig(sfSponsorSignature, sponsor), fee(XRP(1)), ter(tecINSUFFICIENT_RESERVE)); env.close(); } } void testTransferSponsor() { testcase("Transfer Sponsor"); using namespace test::jtx; { // sponsor account Env env{*this, testable_amendments()}; Account const alice("alice"); Account const sponsor1("sponsor1"); Account const sponsor2("sponsor2"); env.fund(XRP(10000), alice); env.fund(env.current()->fees().reserve * 2 - 1, sponsor1, sponsor2); env.close(); env(sponsor::transfer(alice), sponsor::as(sponsor1, tfSponsorReserve), sig(sfSponsorSignature, sponsor1), ter(tecINSUFFICIENT_RESERVE)); env(pay(alice, sponsor1, drops(1))); env.close(); env(sponsor::transfer(alice), sponsor::as(sponsor1, tfSponsorReserve), sig(sfSponsorSignature, sponsor1)); env.close(); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringAccountCount(env, alice) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor1) == 1); auto const sle1 = env.le(keylet::account(alice)); BEAST_EXPECT(sle1->isFieldPresent(sfSponsorAccount)); BEAST_EXPECT(sle1->getAccountID(sfSponsorAccount) == sponsor1.id()); // transfer sponsor env(sponsor::transfer(alice), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2), ter(tecINSUFFICIENT_RESERVE)); env(pay(alice, sponsor2, drops(1))); env.close(); env(sponsor::transfer(alice), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, sponsor2) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); BEAST_EXPECT(sponsoringAccountCount(env, alice) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor2) == 1); auto const sle2 = env.le(keylet::account(alice)); BEAST_EXPECT(sle2->isFieldPresent(sfSponsorAccount)); BEAST_EXPECT(sle2->getAccountID(sfSponsorAccount) == sponsor2.id()); // dissolve sponsor env(pay(alice, sponsor2, (env.balance(alice).value() - env.current()->fees().reserve - XRP(1) + drops(1))), fee(XRP(1))); env.close(); BEAST_EXPECT( env.balance(alice) == env.current()->fees().reserve - drops(1)); env(sponsor::transfer(alice), ter(tecINSUFFICIENT_RESERVE)); env.close(); env(pay(sponsor2, alice, XRP(1))); env.close(); env(sponsor::transfer(alice)); env.close(); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, sponsor2) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); BEAST_EXPECT(sponsoringAccountCount(env, alice) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor2) == 0); auto const sle3 = env.le(keylet::account(alice)); BEAST_EXPECT(!sle3->isFieldPresent(sfSponsorAccount)); } { // sponsor object Env env{*this, testable_amendments()}; Account const alice("alice"); Account const bob("bob"); Account const sponsor1("sponsor1"); Account const sponsor2("sponsor2"); env.fund(XRP(10000), alice, bob); env.fund( env.current()->fees().reserve + env.current()->fees().increment - drops(1), sponsor1, sponsor2); env.close(); auto const seq = env.seq(alice); env(check::create(alice, bob, XRP(1))); env.close(); auto const checkId = keylet::check(alice, seq).key; BEAST_EXPECT(env.le(keylet::unchecked(checkId)) != nullptr); env(sponsor::transfer(alice, checkId), sponsor::as(sponsor1, tfSponsorReserve), sig(sfSponsorSignature, sponsor1), ter(tecINSUFFICIENT_RESERVE)); env.close(); env(pay(alice, sponsor1, drops(1))); env.close(); // Invalid Owner env(sponsor::transfer(bob, checkId), sponsor::as(sponsor1, tfSponsorReserve), sig(sfSponsorSignature, sponsor1), ter(tecNO_PERMISSION)); env.close(); // Valid Owner env(sponsor::transfer(alice, checkId), sponsor::as(sponsor1, tfSponsorReserve), sig(sfSponsorSignature, sponsor1)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 1); BEAST_EXPECT(sponsoringAccountCount(env, alice) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor1) == 0); auto const sle1 = env.le(keylet::unchecked(checkId)); BEAST_EXPECT(sle1->isFieldPresent(sfSponsorAccount)); BEAST_EXPECT(sle1->getAccountID(sfSponsorAccount) == sponsor1.id()); // transfer sponsor env(sponsor::transfer(alice, checkId), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2), ter(tecINSUFFICIENT_RESERVE)); env(pay(alice, sponsor2, drops(1))); env.close(); env(sponsor::transfer(alice, checkId), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, sponsor2) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); BEAST_EXPECT(sponsoringAccountCount(env, alice) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor2) == 0); auto const sle2 = env.le(keylet::unchecked(checkId)); BEAST_EXPECT(sle2->isFieldPresent(sfSponsorAccount)); BEAST_EXPECT(sle2->getAccountID(sfSponsorAccount) == sponsor2.id()); // dissolve sponsor env(pay(alice, sponsor2, (env.balance(alice).value() - env.current()->fees().reserve - env.current()->fees().increment - XRP(1) + drops(1))), fee(XRP(1))); env.close(); env(sponsor::transfer(alice, checkId), ter(tecINSUFFICIENT_RESERVE)); env.close(); env(pay(sponsor2, alice, XRP(1))); env.close(); env(sponsor::transfer(alice, checkId)); env.close(); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, sponsor2) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); BEAST_EXPECT(sponsoringAccountCount(env, alice) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor2) == 0); auto const sle3 = env.le(keylet::unchecked(checkId)); BEAST_EXPECT(!sle3->isFieldPresent(sfSponsorAccount)); } } void testSponsorFee() { using namespace test::jtx; testcase("Sponsor Fee"); { // co-signing Env env{*this, testable_amendments()}; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); env.fund(XRP(10000), alice, bob); env.close(); { // Fee should be checked before permission check, // otherwise tecNO_SPONSOR_PERMISSION returned when permission // check fails could cause context reset to pay fee because it // is tec error auto aliceBalance = env.balance(alice); auto bobBalance = env.balance(bob); auto sponsorBalance = env.balance(sponsor); env(pay(alice, bob, XRP(100)), fee(XRP(2000)), sponsor::as(sponsor, tfSponsorFee), sig(sfSponsorSignature, sponsor), ter(terNO_ACCOUNT)); env.close(); BEAST_EXPECT(env.balance(alice) == aliceBalance); BEAST_EXPECT(env.balance(bob) == bobBalance); BEAST_EXPECT(env.balance(sponsor) == sponsorBalance); } env.fund(XRP(1000), sponsor); env.close(); { // Sponsor pays the fee auto aliceBalance = env.balance(alice); auto bobBalance = env.balance(bob); auto sponsorBalance = env.balance(sponsor); auto const sendAmt = XRP(100); auto const feeAmt = XRP(10); env(pay(alice, bob, sendAmt), fee(feeAmt), sponsor::as(sponsor, tfSponsorFee), sig(sfSponsorSignature, sponsor)); env.close(); BEAST_EXPECT(env.balance(alice) == aliceBalance - sendAmt); BEAST_EXPECT(env.balance(bob) == bobBalance + sendAmt); BEAST_EXPECT(env.balance(sponsor) == sponsorBalance - feeAmt); } { // insufficient balance to pay fee auto aliceBalance = env.balance(alice); auto bobBalance = env.balance(bob); auto sponsorBalance = env.balance(sponsor); env(pay(alice, bob, XRP(100)), fee(XRP(2000)), sponsor::as(sponsor, tfSponsorFee), sig(sfSponsorSignature, sponsor), ter(terINSUF_FEE_B)); env.close(); BEAST_EXPECT(env.balance(alice) == aliceBalance); BEAST_EXPECT(env.balance(bob) == bobBalance); BEAST_EXPECT(env.balance(sponsor) == sponsorBalance); } { // fee is paid by Sponsor // on context reset (tec error) auto aliceBalance = env.balance(alice); auto bobBalance = env.balance(bob); auto sponsorBalance = env.balance(sponsor); auto const feeAmt = XRP(10); env(pay(alice, bob, XRP(20000)), fee(feeAmt), sponsor::as(sponsor, tfSponsorFee), sig(sfSponsorSignature, sponsor), ter(tecUNFUNDED_PAYMENT)); env.close(); BEAST_EXPECT(env.balance(alice) == aliceBalance); BEAST_EXPECT(env.balance(bob) == bobBalance); BEAST_EXPECT(env.balance(sponsor) == sponsorBalance - feeAmt); } } { // pre funded Env env{*this, testable_amendments()}; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); env.fund(XRP(10000), alice, bob, sponsor); env.close(); auto const sponsorFeeBalance = [&](Account const& sponsor, Account const& alice) { return env.le(keylet::sponsor(sponsor, alice)) ->getFieldAmount(sfFeeAmount) .xrp(); }; { // Fee should be checked before permission check, // otherwise tecNO_SPONSOR_PERMISSION returned when permission // check fails could cause context reset to pay fee because it // is tec error auto aliceBalance = env.balance(alice); auto bobBalance = env.balance(bob); auto sponsorBalance = env.balance(sponsor); env(pay(alice, bob, XRP(100)), fee(XRP(2000)), sponsor::as(sponsor, tfSponsorFee), ter(terNO_SPONSORSHIP)); env.close(); BEAST_EXPECT(env.balance(alice) == aliceBalance); BEAST_EXPECT(env.balance(bob) == bobBalance); BEAST_EXPECT(env.balance(sponsor) == sponsorBalance); } env(sponsor::set_fee(sponsor, 0, XRP(100)), sponsor::sponseeAcc(alice)); env.close(); { // Sponsor pays the fee auto aliceBalance = env.balance(alice); auto bobBalance = env.balance(bob); auto sponsorBalance = env.balance(sponsor); auto sponsorFee = sponsorFeeBalance(sponsor, alice); auto const sendAmt = XRP(100); auto const feeAmt = XRP(10); env(pay(alice, bob, sendAmt), fee(feeAmt), sponsor::as(sponsor, tfSponsorFee)); env.close(); BEAST_EXPECT(env.balance(alice) == aliceBalance - sendAmt); BEAST_EXPECT(env.balance(bob) == bobBalance + sendAmt); BEAST_EXPECT(env.balance(sponsor) == sponsorBalance); BEAST_EXPECT( sponsorFeeBalance(sponsor, alice) == sponsorFee - feeAmt); } { // insufficient balance to pay fee { // > FeeAmount auto aliceBalance = env.balance(alice); auto bobBalance = env.balance(bob); auto sponsorBalance = env.balance(sponsor); auto sponsorFee = sponsorFeeBalance(sponsor, alice); env(pay(alice, bob, XRP(100)), fee(XRP(100) + drops(1)), sponsor::as(sponsor, tfSponsorFee), ter(terINSUF_FEE_B)); env.close(); BEAST_EXPECT(env.balance(alice) == aliceBalance); BEAST_EXPECT(env.balance(bob) == bobBalance); BEAST_EXPECT(env.balance(sponsor) == sponsorBalance); BEAST_EXPECT( sponsorFeeBalance(sponsor, alice) == sponsorFee); } // reset FeeAmount and MaxFee env(sponsor::del(sponsor), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::set_fee(sponsor, 0, XRP(10), XRP(1)), sponsor::sponseeAcc(alice)); env.close(); { // > MaxFee auto aliceBalance = env.balance(alice); auto bobBalance = env.balance(bob); auto sponsorBalance = env.balance(sponsor); auto sponsorFee = sponsorFeeBalance(sponsor, alice); env(pay(alice, bob, XRP(100)), fee(XRP(1) + drops(1)), sponsor::as(sponsor, tfSponsorFee), ter(terINSUF_FEE_B)); env.close(); BEAST_EXPECT(env.balance(alice) == aliceBalance); BEAST_EXPECT(env.balance(bob) == bobBalance); BEAST_EXPECT(env.balance(sponsor) == sponsorBalance); BEAST_EXPECT( sponsorFeeBalance(sponsor, alice) == sponsorFee); } } { // fee is paid by Sponsor // on context reset (tec error) auto aliceBalance = env.balance(alice); auto bobBalance = env.balance(bob); auto sponsorBalance = env.balance(sponsor); auto sponsorFee = sponsorFeeBalance(sponsor, alice); auto const feeAmt = XRP(1); env(pay(alice, bob, XRP(20000)), fee(feeAmt), sponsor::as(sponsor, tfSponsorFee), ter(tecUNFUNDED_PAYMENT)); env.close(); BEAST_EXPECT(env.balance(alice) == aliceBalance); BEAST_EXPECT(env.balance(bob) == bobBalance); BEAST_EXPECT(env.balance(sponsor) == sponsorBalance); BEAST_EXPECT( sponsorFeeBalance(sponsor, alice) == sponsorFee - feeAmt); } } // test lsfSponsorshipRequireSignForFee { Env env{*this, testable_amendments()}; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); env.fund(XRP(10000), alice, bob, sponsor); env.close(); // set flag env(sponsor::set_fee( sponsor, tfSponsorshipSetRequireSignForFee, XRP(10)), sponsor::sponseeAcc(alice)); env.close(); env(pay(alice, bob, XRP(100)), fee(XRP(10)), sponsor::as(sponsor, tfSponsorFee), ter(terNO_SPONSORSHIP)); env.close(); // clear flag env(sponsor::set_fee( sponsor, tfSponsorshipClearRequireSignForFee, XRP(10)), sponsor::sponseeAcc(alice)); env.close(); env(pay(alice, bob, XRP(100)), fee(XRP(10)), sponsor::as(sponsor, tfSponsorFee), ter(tesSUCCESS)); env.close(); } } void testSponsorAccount() { testcase("Sponsor Account"); using namespace test::jtx; Env env{*this, testable_amendments()}; Account const alice("alice"); Account const sponsor("sponsor"); Account const bob("bob"); Account const charlie("charlie"); env.fund(XRP(10000), alice, sponsor); // Account is not sponsored by normal Sponsor specification { env(pay(alice, bob, STAmount(env.current()->fees().accountReserve(0))), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); env.close(); auto const bobSle = env.le(keylet::account(bob)); BEAST_EXPECT(!bobSle->isFieldPresent(sfSponsorAccount)); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor) == 0); } // Use tfSponsorCreatedAccount to sponsor an account { // to funded accoutn env(pay(sponsor, bob, STAmount(env.current()->fees().accountReserve(0))), txflags(tfSponsorCreatedAccount), ter(tecNO_SPONSOR_PERMISSION)); // to non-funded account env(pay(sponsor, charlie, STAmount(env.current()->fees().accountReserve(0))), txflags(tfSponsorCreatedAccount)); env.close(); auto const charlieSle = env.le(keylet::account(charlie)); BEAST_EXPECT(charlieSle->isFieldPresent(sfSponsorAccount)); BEAST_EXPECT( charlieSle->getAccountID(sfSponsorAccount) == sponsor.id()); BEAST_EXPECT(sponsoredOwnerCount(env, charlie) == 0); BEAST_EXPECT(sponsoringAccountCount(env, sponsor) == 1); } } void testRequireFlag() { using namespace test::jtx; { testcase("SponsorshipRequireSignForReserve"); Env env{*this, testable_amendments()}; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); env.fund(XRP(10000), alice, bob, sponsor); env.close(); // set flag env(sponsor::set_reserve( sponsor, tfSponsorshipSetRequireSignForReserve, 10), sponsor::sponseeAcc(alice)); env.close(); env(check::create(alice, bob, XRP(100)), fee(XRP(10)), sponsor::as(sponsor, tfSponsorReserve), ter(terNO_SPONSORSHIP)); env.close(); // clear flag env(sponsor::set_reserve( sponsor, tfSponsorshipClearRequireSignForReserve, 1), sponsor::sponseeAcc(alice)); env.close(); env(check::create(alice, bob, XRP(100)), fee(XRP(10)), sponsor::as(sponsor, tfSponsorReserve), ter(tesSUCCESS)); env.close(); } { testcase("SponsorshipRequireSignForFee"); Env env{*this, testable_amendments()}; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); env.fund(XRP(10000), alice, bob, sponsor); env.close(); // set flag env(sponsor::set_fee( sponsor, tfSponsorshipSetRequireSignForFee, XRP(10)), sponsor::sponseeAcc(alice)); env.close(); env(check::create(alice, bob, XRP(100)), fee(XRP(10)), sponsor::as(sponsor, tfSponsorFee), ter(terNO_SPONSORSHIP)); env.close(); // clear flag env(sponsor::set_fee( sponsor, tfSponsorshipClearRequireSignForFee, XRP(10)), sponsor::sponseeAcc(alice)); env.close(); env(check::create(alice, bob, XRP(100)), fee(XRP(10)), sponsor::as(sponsor, tfSponsorFee), ter(tesSUCCESS)); env.close(); } } // test helper for both cosigning and pre-funded sponsorship template void testEachSponsorship( test::jtx::Env& env, bool cosigning, jtx::Account const& sponsor, jtx::Account const& sponsee, uint32_t reserveCount, uint32_t sponsorReserveCount, TER insufficientReserveResult, SubmitCallback callback, std::optional> expected = std::nullopt) { using namespace test::jtx; // auto const sponsorOwnerCountBefore = ownerCount(env, sponsor); auto const sponseeOwnerCountBefore = ownerCount(env, sponsee); auto const sponseeSponsoredOwnerCountBefore = sponsoredOwnerCount(env, sponsee); auto const sponseeSponsoringOwnerCountBefore = sponsoringOwnerCount(env, sponsee); auto const sponsorSponsoringOwnerCountBefore = sponsoringOwnerCount(env, sponsor); std::optional sponsorSig = cosigning ? std::optional(sig(sfSponsorSignature, sponsor)) : std::nullopt; auto const sponsorCurrentOwnerCount = ownerCount(env, sponsor) - sponsoredOwnerCount(env, sponsor) + sponsoringOwnerCount(env, sponsor); auto submit = [&](TER _ter) { return [&, _ter](Json::Value const& jv, auto const&... fN) { if (sponsorSig) env(jv, fN..., sponsor::as(sponsor, tfSponsorReserve), *sponsorSig, ter(_ter)); else env(jv, fN..., sponsor::as(sponsor, tfSponsorReserve), ter(_ter)); }; }; // Insufficient Reserve { if (cosigning) { adjustAccountXRPBalance( env, sponsor, reserve( env, sponsorCurrentOwnerCount + sponsorReserveCount) - drops(1)); } else { // cleanup previous sponsorship if (env.le(keylet::sponsor(sponsor, sponsee))) { env(sponsor::del(sponsor), sponsor::sponseeAcc(sponsee)); env.close(); } if (sponsorReserveCount - 1 > 0) env(sponsor::set( sponsor, 0, sponsorReserveCount - 1, XRP(1)), sponsor::sponseeAcc(sponsee)); else // just create sponsor object env(sponsor::set(sponsor, 0, std::nullopt, XRP(1)), sponsor::sponseeAcc(sponsee)); env.close(); } callback(env, submit(insufficientReserveResult)); env.close(); } // Success { if (cosigning) { adjustAccountXRPBalance( env, sponsor, reserve( env, sponsorCurrentOwnerCount + sponsorReserveCount)); } else { // reset sponsorship env(sponsor::del(sponsor), sponsor::sponseeAcc(sponsee)); env(sponsor::set(sponsor, 0, sponsorReserveCount, XRP(1)), sponsor::sponseeAcc(sponsee)); env.close(); } callback(env, submit(tesSUCCESS)); env.close(); if (!cosigning) { // cleanup sponsorship env(sponsor::del(sponsor), sponsor::sponseeAcc(sponsee)); env.close(); } } if (expected) (*expected)(); else { BEAST_EXPECT( ownerCount(env, sponsee) - sponseeOwnerCountBefore == reserveCount); BEAST_EXPECT( sponsoredOwnerCount(env, sponsee) - sponseeSponsoredOwnerCountBefore == sponsorReserveCount); BEAST_EXPECT( sponsoringOwnerCount(env, sponsee) - sponseeSponsoringOwnerCountBefore == 0); BEAST_EXPECT( sponsoringOwnerCount(env, sponsor) - sponsorSponsoringOwnerCountBefore == sponsorReserveCount); } }; void testAMM(bool cosigning) { testcase("AMM"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const gw("gw"); Account const sponsor("sponsor"); auto const USD = gw["USD"]; auto const EUR = gw["EUR"]; auto const ammCreate = [&](Env& env, Account const& account, STAmount const& amount1, STAmount const& amount2) { Json::Value jv; jv[jss::TransactionType] = jss::AMMCreate; jv[jss::Account] = account.human(); jv[jss::Amount] = amount1.getJson(JsonOptions::none); jv[jss::Amount2] = amount2.getJson(JsonOptions::none); jv[jss::TradingFee] = 0; jv[jss::Fee] = std::to_string(env.current()->fees().increment.drops()); return jv; }; auto const ammDeposit = [&](Env& env, Account const& account, STAmount const& amount1, STAmount const& amount2) { Json::Value jv; jv[jss::TransactionType] = jss::AMMDeposit; jv[jss::Account] = account.human(); jv[jss::Asset] = STIssue(sfAsset, amount1.issue()).getJson(JsonOptions::none); jv[jss::Asset2] = STIssue(sfAsset, amount2.issue()).getJson(JsonOptions::none); jv[jss::Amount] = amount1.value().getJson(JsonOptions::none); jv[jss::Amount2] = amount2.value().getJson(JsonOptions::none); jv[jss::Flags] = tfTwoAsset; return jv; }; { // AMMCreate // - sponsor LPToken // - doesn't sponsor AMM object Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, gw, sponsor); env.close(); env(trust(alice, USD(10000))); env(trust(alice, EUR(10000))); env.close(); env(pay(gw, alice, USD(1000))); env(pay(gw, alice, EUR(1000))); env.close(); testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUF_RESERVE_LINE, [&](Env& env, auto const& submit) { submit(ammCreate(env, alice, USD(100), EUR(100))); }, [&]() { auto const amm = env.current()->read( keylet::amm(USD.issue(), EUR.issue())); auto const ammAccount = Account("amm", amm->getAccountID(sfAccount)); BEAST_EXPECT( ownerCount(env, alice) == 3); // RippleState (USD,EUR/LP Token) BEAST_EXPECT( ownerCount(env, ammAccount) == 2); // USD, EUR BEAST_EXPECT( sponsoredOwnerCount(env, alice) == 1); // LPToken BEAST_EXPECT(sponsoredOwnerCount(env, ammAccount) == 0); BEAST_EXPECT( sponsoringOwnerCount(env, sponsor) == 1); // LPToken BEAST_EXPECT(!env.le(keylet::amm(USD.issue(), EUR.issue())) ->isFieldPresent(sfSponsorAccount)); }); } { // AMMDeposit // - sponsor new LPToken Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, bob, gw, sponsor); env.close(); env(trust(alice, USD(10000))); env(trust(alice, EUR(10000))); env(trust(bob, USD(10000))); env(trust(bob, EUR(10000))); env.close(); env(pay(gw, alice, USD(1000))); env(pay(gw, alice, EUR(1000))); env(pay(gw, bob, USD(1000))); env(pay(gw, bob, EUR(1000))); env.close(); env(ammCreate(env, alice, USD(100), EUR(100))); env.close(); BEAST_EXPECT(ownerCount(env, bob) == 2); // RippleState (USD,EUR) testEachSponsorship( env, cosigning, sponsor, bob, 1, 1, tecINSUF_RESERVE_LINE, [&](Env& env, auto const& submit) { submit(ammDeposit(env, bob, USD(100), EUR(100))); }); } { // AMMWithdraw { // Single Asset Withdraw // - sponsor new RippleState Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, bob, gw, sponsor); env.close(); env(trust(alice, USD(10000))); env(trust(alice, EUR(10000))); env.close(); env(pay(gw, alice, USD(1000))); env(pay(gw, alice, EUR(1000))); env.close(); env(ammCreate(env, alice, USD(1000), EUR(1000)), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); env.close(); env(trust(alice, USD(0))); env(trust(alice, EUR(0))); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); // LPToken BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); // LPToken BEAST_EXPECT( sponsoringOwnerCount(env, sponsor) == 1); // LPToken Json::Value jv; jv[jss::TransactionType] = jss::AMMWithdraw; jv[jss::Account] = alice.human(); jv[jss::Asset] = STIssue(sfAsset, USD.issue()).getJson(JsonOptions::none); jv[jss::Asset2] = STIssue(sfAsset, EUR.issue()).getJson(JsonOptions::none); jv[jss::Amount] = USD(100).value().getJson(JsonOptions::none); jv[jss::Flags] = tfSingleAsset; env(ticket::create(sponsor, 1)); // adjust for free env.close(); testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(jv); }); } { // Double Asset Withdraw // - sponsor new RippleState * 2 // - remove sponsored LPToken Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, bob, gw, sponsor); env.close(); env(trust(alice, USD(10000))); env(trust(alice, EUR(10000))); env.close(); env(pay(gw, alice, USD(1000))); env(pay(gw, alice, EUR(1000))); env.close(); env(ammCreate(env, alice, USD(1000), EUR(1000)), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); env.close(); env(trust(alice, USD(0))); env(trust(alice, EUR(0))); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); // LPToken BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 1); Json::Value jv; jv[jss::TransactionType] = jss::AMMWithdraw; jv[jss::Account] = alice.human(); jv[jss::Asset] = STIssue(sfAsset, USD.issue()).getJson(JsonOptions::none); jv[jss::Asset2] = STIssue(sfAsset, EUR.issue()).getJson(JsonOptions::none); jv[jss::Flags] = tfWithdrawAll; env(ticket::create(sponsor, 1)); // adjust for free trustline env.close(); testEachSponsorship( env, cosigning, sponsor, alice, 2, 2, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(jv); }, [&]() { // LPToken deleted, USD, EUR created BEAST_EXPECT(ownerCount(env, alice) == 2); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 2); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 2); }); } } { // AMMClawback // - doesn't sponsor holder's new RippleState // - remove sponsored LPToken Account const gw2("gw2"); auto const EUR2 = gw2["EUR"]; Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, gw, gw2, sponsor); env.close(); env(fset(gw, asfAllowTrustLineClawback)); env.close(); env(trust(alice, USD(10000))); env(trust(alice, EUR2(10000))); env.close(); env(pay(gw, alice, USD(100))); env(pay(gw2, alice, EUR2(100))); env.close(); env(ammCreate(env, alice, USD(100), EUR2(100)), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); env.close(); env(trust(alice, USD(0))); env(trust(alice, EUR2(0))); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); // LPToken BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 1); { // doesn't sponsor holder's new RippleState env(amm::ammClawback(gw, alice, USD, EUR2, USD(10)), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 2); // LPToken, EUR2 BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 1); } { // remove sponsored LPToken env(amm::ammClawback(gw, alice, USD, EUR2, std::nullopt)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); // EUR2 BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); } } } void testCheck(bool cosigning) { testcase("Check"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const gw("gw"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); auto const USD = gw["USD"]; { Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, bob, sponsor, sponsor2); env.close(); // CheckCreate -> CheckCancel uint32_t seq; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { seq = env.seq(alice); submit(check::create(alice, bob, XRP(1))); }); BEAST_EXPECT(ownerCount(env, alice) == 1); // Check BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 1); auto const keylet = keylet::check(alice, seq); BEAST_EXPECT( env.le(keylet)->getAccountID(sfSponsorAccount) == sponsor.id()); if (cosigning) { // transfer sponsor env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); // transfer sponsor env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); // Check BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); BEAST_EXPECT( env.le(keylet)->getAccountID(sfSponsorAccount) == sponsor2.id()); // CheckCancel env(check::cancel(alice, keylet.key)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } { Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, bob, sponsor); env.close(); // CheckCreate -> CheckCash uint32_t seq2; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { seq2 = env.seq(alice); submit(check::create(alice, bob, XRP(1))); }); BEAST_EXPECT(ownerCount(env, bob) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 0); // CheckCash auto const checkId2 = keylet::check(alice, seq2).key; env(check::cash(bob, checkId2, XRP(1))); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(ownerCount(env, bob) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); } // RippleState sponsor (CheckCashMakesTrustLine) { Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, bob, gw, sponsor, sponsor2); env.close(); env.trust(USD(100), alice); env.close(); env(pay(gw, alice, USD(100))); env.close(); // CheckCreate -> CheckCash uint32_t seq2; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { seq2 = env.seq(alice); submit(check::create(alice, bob, USD(1))); }); BEAST_EXPECT(ownerCount(env, bob) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 0); auto const keylet = keylet::check(alice, seq2); BEAST_EXPECT( env.le(keylet)->getAccountID(sfSponsorAccount) == sponsor.id()); // CheckCash testEachSponsorship( env, cosigning, sponsor, bob, 1, 1, tecNO_LINE_INSUF_RESERVE, [&](Env& env, auto const& submit) { submit(check::cash(bob, keylet.key, USD(1))); }, [&]() { BEAST_EXPECT(ownerCount(env, alice) == 1); // RippleState BEAST_EXPECT(ownerCount(env, bob) == 1); // RippleState BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 1); }); } } void testOffer(bool cosigning) { testcase("Offer"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const gw("gw"); Account const sponsor1("sponsor1"); Account const sponsor2("sponsor2"); auto USD = gw["USD"]; auto EUR = gw["EUR"]; { Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, gw, sponsor1, sponsor2); env.close(); // OfferCreate uint32_t seq; testEachSponsorship( env, cosigning, sponsor1, alice, 1, 1, tecINSUF_RESERVE_OFFER, [&](Env& env, auto const& submit) { seq = env.seq(alice); submit(offer(alice, USD(1), XRP(1))); }); // transfer sponsor auto const keylet = keylet::offer(alice, seq); if (cosigning) { env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); BEAST_EXPECT( env.le(keylet)->getAccountID(sfSponsorAccount) == sponsor2.id()); // OfferCancel env(offer_cancel(alice, seq)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } { Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, gw, sponsor1, sponsor2); env.close(); // OfferCreate uint32_t seq; testEachSponsorship( env, cosigning, sponsor1, alice, 1, 1, tecINSUF_RESERVE_OFFER, [&](Env& env, auto const& submit) { seq = env.seq(alice); submit(offer(alice, USD(1), XRP(1))); }); // OfferCreate with Cancel (new sponsor) auto const seq2 = env.seq(alice); if (cosigning) { env(offer(alice, USD(1), XRP(1)), json(jss::OfferSequence, seq), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(offer(alice, USD(1), XRP(1)), json(jss::OfferSequence, seq), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); // OfferCreate with Cancel (no sponsor) env(offer(alice, USD(1), XRP(1)), json(jss::OfferSequence, seq2)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } // test Offer Execution doesn't sponsor new trustline { Env env{*this, testable_amendments()}; env.fund(XRP(10000), alice, bob, gw, sponsor1, sponsor2); env.close(); env(trust(alice, USD(100))); env(trust(bob, EUR(100))); env.close(); env(pay(gw, alice, USD(100))); env(pay(gw, bob, EUR(100))); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(ownerCount(env, bob) == 1); // OfferCreate if (cosigning) { env(offer(alice, EUR(1), USD(1)), sponsor::as(sponsor1, tfSponsorReserve), sig(sfSponsorSignature, sponsor1)); env.close(); } else { env(sponsor::set_reserve(sponsor1, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(offer(alice, EUR(1), USD(1)), sponsor::as(sponsor1, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 2); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 1); BEAST_EXPECT(ownerCount(env, bob) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, bob) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); // OfferCreate (cross offer) if (cosigning) { env(offer(bob, USD(1), EUR(1)), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(bob)); env.close(); env(offer(bob, USD(1), EUR(1)), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 2); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor1) == 0); // does not sponsor new trustline by cross offer BEAST_EXPECT(ownerCount(env, bob) == 2); BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, bob) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } } void testTicket(bool cosigning) { testcase("Ticket"); using namespace test::jtx; Account const alice("alice"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, sponsor, sponsor2); env.close(); // TicketCreate uint32_t ticketSeq; testEachSponsorship( env, cosigning, sponsor, alice, 250, 250, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { ticketSeq = env.seq(alice) + 1; submit(ticket::create(alice, 250)); }); auto const keylet = keylet::ticket(alice, ticketSeq); BEAST_EXPECT( env.le(keylet)->getAccountID(sfSponsorAccount) == sponsor.id()); // transfer sponsor if (cosigning) { env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 250); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 250); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 249); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); BEAST_EXPECT( env.le(keylet)->getAccountID(sfSponsorAccount) == sponsor2.id()); // use a Ticket env(noop(alice), ticket::use(ticketSeq)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 249); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 249); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 249); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } } void testCredentials(bool cosigning) { testcase("Credentials"); using namespace test::jtx; Account const issuer("issuer"); Account const subject("subject"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); auto const credType = std::string("credType"); auto const credTypeSlice = Slice(credType.data(), credType.size()); // CredentialsCreate { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), issuer, subject, sponsor, sponsor2); env.close(); testEachSponsorship( env, cosigning, sponsor, issuer, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit( credentials::create(subject, issuer, credType), credentials::uri("uri")); }); BEAST_EXPECT(ownerCount(env, subject) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, subject) == 0); // transfer sponsor auto const keylet = keylet::credential(subject, issuer, credTypeSlice); if (cosigning) { env(sponsor::transfer(issuer, keylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(issuer)); env.close(); env(sponsor::transfer(issuer, keylet.key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, issuer) == 1); BEAST_EXPECT(ownerCount(env, subject) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, issuer) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, subject) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); // CredentialsAccept testEachSponsorship( env, cosigning, sponsor, subject, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(credentials::accept(subject, issuer, credType)); }); BEAST_EXPECT(ownerCount(env, issuer) == 0); BEAST_EXPECT(ownerCount(env, subject) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, issuer) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, subject) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); // CredentialsDelete env(credentials::deleteCred(subject, subject, issuer, credType)); env.close(); BEAST_EXPECT(ownerCount(env, issuer) == 0); BEAST_EXPECT(ownerCount(env, subject) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, issuer) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, subject) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), issuer, subject, sponsor); env.close(); // Accept Sponsored Credentials without sponsoring testEachSponsorship( env, cosigning, sponsor, issuer, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(credentials::create(subject, issuer, credType)); }); env(credentials::accept(subject, issuer, credType)); env.close(); // sponsorship is removed BEAST_EXPECT(ownerCount(env, issuer) == 0); BEAST_EXPECT(ownerCount(env, subject) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, issuer) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, subject) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT( !env.le(keylet::credential(subject, issuer, credTypeSlice)) ->isFieldPresent(sfSponsorAccount)); env(credentials::deleteCred(subject, subject, issuer, credType)); env.close(); } } void testDelegate(bool cosigning) { testcase("Delegate"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor, sponsor2); env.close(); // DelegateSet testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(delegate::set(alice, bob, {"Payment"})); }); // transfer sponsor auto const keylet = keylet::delegate(alice, bob); if (cosigning) { env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); // delete env(delegate::set(alice, bob, {})); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); } } void testDepositPreauth(bool cosigning) { testcase("DepositPreauth"); using namespace test::jtx; Account const alice("alice"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, sponsor, sponsor2); env.close(); // DepositPreauthSet testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(deposit::auth(alice, sponsor)); }); // transfer sponsor auto const keylet = keylet::depositPreauth(alice, sponsor); if (cosigning) { env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); // DepositPreauthDelete env(deposit::unauth(alice, sponsor)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } } void testDID(bool cosigning) { testcase("DID"); using namespace test::jtx; Account const alice("alice"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, sponsor, sponsor2); env.close(); // DIDSet testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(did::set(alice), did::uri("uri")); }); // transfer sponsor auto const keylet = keylet::did(alice); if (cosigning) { env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); // DIDDelete env(did::del(alice)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } } void testEscrow(bool cosigning) { testcase("Escrow"); using namespace test::jtx; using namespace std::chrono_literals; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); { // Native Escrow Env env{*this, testable_amendments()}; auto const baseFee = env.current()->fees().base; env.fund(XRP(1000000), alice, bob, sponsor, sponsor2); env.close(); // EscrowCreate uint32_t seq; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { seq = env.seq(alice); submit( escrow::create(alice, bob, XRP(100)), escrow::condition(escrow::cb1), escrow::cancel_time(env.now() + 100s)); }); BEAST_EXPECT( env.le(keylet::escrow(alice, seq)) ->getAccountID(sfSponsorAccount) == sponsor.id()); // transfer sponsor if (cosigning) { env(sponsor::transfer(alice, keylet::escrow(alice, seq).key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, keylet::escrow(alice, seq).key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); BEAST_EXPECT( env.le(keylet::escrow(alice, seq)) ->getAccountID(sfSponsorAccount) == sponsor2.id()); // EscrowFinish env(escrow::finish(bob, alice, seq), escrow::condition(escrow::cb1), escrow::fulfillment(escrow::fb1), fee(baseFee * 150)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } Account const gw("gw"); auto const USD = gw["USD"]; { // IOU Escrow Env env{*this, testable_amendments()}; auto const baseFee = env.current()->fees().base; env.fund(XRP(1000000), alice, bob, gw, sponsor, sponsor2); env.close(); env(fset(gw, asfAllowTrustLineLocking)); env.close(); env.trust(USD(1000000), alice); env.close(); env(pay(gw, alice, USD(10000))); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); // EscrowCreate uint32_t seq; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { seq = env.seq(alice); submit( escrow::create(alice, bob, USD(100)), escrow::condition(escrow::cb1), escrow::cancel_time(env.now() + 100s)); }); BEAST_EXPECT( env.le(keylet::escrow(alice, seq)) ->getAccountID(sfSponsorAccount) == sponsor.id()); // EscrowFinish testEachSponsorship( env, cosigning, sponsor2, bob, 1, 1, tecNO_LINE_INSUF_RESERVE, [&](Env& env, auto const& submit) { submit( escrow::finish(bob, alice, seq), escrow::condition(escrow::cb1), escrow::fulfillment(escrow::fb1), fee(baseFee * 150)); }); BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT( env.le(keylet::line(bob, gw, USD.currency)) ->getAccountID(sfHighSponsorAccount) == sponsor2.id()); } } void testMPToken(bool cosigning) { testcase("MPToken"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor, sponsor2); env.close(); // MPTokenIssuanceCreate Json::Value jv = {}; jv[sfAccount] = alice.human(); jv[sfTransactionType] = jss::MPTokenIssuanceCreate; MPTID mptid; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { mptid = makeMptID(env.seq(alice), alice.id()); submit(jv); }); // transfer sponsor auto const mptIssuanceKeylet = keylet::mptIssuance(mptid); if (cosigning) { env(sponsor::transfer(alice, mptIssuanceKeylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, mptIssuanceKeylet.key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } // MPTokenAuthorize jv = {}; jv[sfTransactionType] = jss::MPTokenAuthorize; jv[sfAccount] = bob.human(); jv[sfMPTokenIssuanceID] = to_string(mptid); if (cosigning) { adjustAccountXRPBalance(env, sponsor, reserve(env, 2)); env(ticket::create(sponsor, 2)); // adjust for free mptoken env.close(); } testEachSponsorship( env, cosigning, sponsor, bob, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(jv); }); BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); // transfer sponsor auto const mptTokenKeylet = keylet::mptoken(mptid, bob); if (cosigning) { env(sponsor::transfer(bob, mptTokenKeylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(bob)); env.close(); env(sponsor::transfer(bob, mptTokenKeylet.key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(ownerCount(env, bob) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 2); // MPTokenAuthorize Unauthorize jv = {}; jv[sfTransactionType] = jss::MPTokenAuthorize; jv[sfAccount] = bob.human(); jv[sfMPTokenIssuanceID] = to_string(mptid); jv[sfFlags] = tfMPTUnauthorize; env(jv); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(ownerCount(env, bob) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); // MPTokenIssuanceDestroy jv = {}; jv[sfTransactionType] = jss::MPTokenIssuanceDestroy; jv[sfAccount] = alice.human(); jv[sfMPTokenIssuanceID] = to_string(mptid); env(jv); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } { // check INSUFFICIENT_RESERVE for MPToken Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor); env.close(); // MPTokenAuthorize Json::Value jv = {}; jv[sfAccount] = alice.human(); jv[sfTransactionType] = jss::MPTokenIssuanceCreate; auto const mptid = makeMptID(env.seq(alice), alice.id()); env(jv); env.close(); // for free mptoken checks // adjustAccountXRPBalance(env, sponsor, reserve(env, 2)); std::uint32_t ticketSeq{env.seq(sponsor) + 1}; env(ticket::create(sponsor, 2)); env.close(); // adjustAccountXRPBalance(env, sponsor, reserve(env, 3) - // drops(1)); jv = {}; jv[sfTransactionType] = jss::MPTokenAuthorize; jv[sfAccount] = bob.human(); jv[sfMPTokenIssuanceID] = to_string(mptid); // error (non-free mptoken) if (cosigning) { adjustAccountXRPBalance( env, sponsor, reserve(env, 3) - drops(1)); env(jv, sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor), ter(tecINSUFFICIENT_RESERVE)); env.close(); } else { env(sponsor::set(sponsor, 0, std::nullopt, XRP(1)), sponsor::sponseeAcc(bob)); env.close(); env(jv, sponsor::as(sponsor, tfSponsorReserve), ter(tecINSUFFICIENT_RESERVE)); env.close(); } env(noop(sponsor), ticket::use(ticketSeq)); env.close(); // pass (free mptoken) if (cosigning) { adjustAccountXRPBalance( env, sponsor, reserve(env, 2) - drops(1)); env(jv, sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor), ter(tesSUCCESS)); env.close(); } else { env(sponsor::set_reserve(sponsor, 0, 1), sponsor::sponseeAcc(bob)); env.close(); env(jv, sponsor::as(sponsor, tfSponsorReserve), ter(tesSUCCESS)); env.close(); } } } void testNFToken(bool cosigning) { testcase("NFToken"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor); env.close(); // NFTokenMint uint256 nftId; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { nftId = token::getNextID(env, alice, 0); submit(token::mint(alice)); }); // NFTokenBurn env(token::burn(alice, nftId)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); // NFTokenMintOffer adjustAccountXRPBalance(env, sponsor, reserve(env, 2)); env(token::mint(alice), token::amount(XRP(10000)), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); env.close(); // testEachSponsorship( // env, // cosigning, // sponsor, // alice, // 2, // 2, // tecINSUFFICIENT_RESERVE, // [&](Env& env, auto const& submit) { // token::mint(alice), token::amount(XRP(100)); // }); } { // multiple nft page process Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor); env.close(); auto const nftCount = 200; // NFTokenMint if (cosigning) { for (auto i = 0; i < nftCount; i++) { env(token::mint(alice), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); } } else { env(sponsor::set_reserve(sponsor, 0, 8), sponsor::sponseeAcc(alice)); env.close(); for (auto i = 0; i < nftCount; i++) { env(token::mint(alice), sponsor::as(sponsor, tfSponsorReserve)); } } env.close(); BEAST_EXPECT( ownerCount(env, alice) == sponsoredOwnerCount(env, alice)); BEAST_EXPECT( sponsoredOwnerCount(env, alice) == sponsoringOwnerCount(env, sponsor)); // NFTokenBurn for (auto i = 0; i < nftCount; i++) { auto const nftId = token::getID(env, alice, 0, i, 0, 0); env(token::burn(alice, nftId)); } env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); } } void testNFTokenOffer(bool cosigning) { testcase("NFTokenOffer"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const broker("broker"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); auto const taxon = 0u; { // Mint + CreateOffer + CancelOffer Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor, sponsor2); env.close(); // Mint uint256 const nftId{ token::getNextID(env, alice, taxon, tfTransferable)}; env(token::mint(alice, taxon), txflags(tfTransferable)); env.close(); // NFTokenOfferCreate uint256 offerIndex1; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { offerIndex1 = keylet::nftoffer(alice, env.seq(alice)).key; submit( token::createOffer(alice, nftId, XRP(1)), token::destination(bob), txflags(tfSellNFToken)); }); uint256 offerIndex2; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { offerIndex2 = keylet::nftoffer(alice, env.seq(alice)).key; submit( token::createOffer(alice, nftId, XRP(1)), token::destination(bob), txflags(tfSellNFToken)); }); // transfer sponsor if (cosigning) { env(sponsor::transfer(alice, offerIndex1), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, offerIndex1), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 3); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 2); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); // NFTokenOfferCancel env(token::cancelOffer(alice, {offerIndex1, offerIndex2})); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } { // Mint + CreateSellOffer + AcceptSellOffer Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor); env.close(); // Mint uint256 const nftId{ token::getNextID(env, alice, taxon, tfTransferable)}; env(token::mint(alice, taxon), txflags(tfTransferable)); env.close(); // NFTokenOfferCreate uint256 offerIndex; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { offerIndex = keylet::nftoffer(alice, env.seq(alice)).key; submit( token::createOffer(alice, nftId, XRP(1)), token::destination(bob), txflags(tfSellNFToken)); }); // NFTokenOfferAccept env(token::acceptSellOffer(bob, offerIndex)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(ownerCount(env, bob) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); } { // Mint + CreateBuyOffer + AcceptBuyOffer Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor); env.close(); // Mint uint256 const nftId{ token::getNextID(env, alice, taxon, tfTransferable)}; env(token::mint(alice, taxon), txflags(tfTransferable)); env.close(); // NFTokenOfferCreate uint256 offerIndex; testEachSponsorship( env, cosigning, sponsor, bob, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { offerIndex = keylet::nftoffer(bob, env.seq(bob)).key; submit( token::createOffer(bob, nftId, XRP(1)), token::owner(alice), token::destination(alice)); }); // NFTokenOfferAccept env(token::acceptBuyOffer(alice, offerIndex)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(ownerCount(env, bob) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); } { // Broker Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, broker, sponsor, sponsor2); env.close(); // Mint uint256 const nftId{ token::getNextID(env, alice, taxon, tfTransferable)}; env(token::mint(alice, taxon), txflags(tfTransferable)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); // NFTokenOfferCreate (BuyOffer) uint256 buyOfferIndex; testEachSponsorship( env, cosigning, sponsor, bob, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { buyOfferIndex = keylet::nftoffer(bob, env.seq(bob)).key; submit( token::createOffer(bob, nftId, XRP(1)), token::owner(alice), token::destination(broker)); }); // NFTokenOfferCreate (SellOffer) uint256 sellOfferIndex; testEachSponsorship( env, cosigning, sponsor2, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { sellOfferIndex = keylet::nftoffer(alice, env.seq(alice)).key; submit( token::createOffer(alice, nftId, XRP(1)), txflags(tfSellNFToken), token::destination(broker)); }); // NFTokenOfferAccept env(token::brokerOffers(broker, buyOfferIndex, sellOfferIndex)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(ownerCount(env, bob) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } } void testPayChan(bool cosigning) { testcase("PayChan"); using namespace test::jtx; using namespace std::literals::chrono_literals; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor, sponsor2); env.close(); // PayChanCreate auto const pk = alice.pk(); auto const settleDelay = 10s; uint256 chan; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { chan = paychan::channel(alice, bob, env.seq(alice)); submit( paychan::create(alice, bob, XRP(100), settleDelay, pk)); }); // transfer sponsor if (cosigning) { env(sponsor::transfer(alice, chan), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, chan), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); env.close(env.now() + settleDelay); // PayChanClaim (delete PayChan) env(paychan::claim(bob, chan), txflags(tfClose)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } } void testPermissionedDomain(bool cosigning) { testcase("PermissionedDomain"); using namespace test::jtx; Account const alice("alice"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, sponsor, sponsor2); env.close(); // PermissionedDomainSet pdomain::Credentials credentials{{alice, "first credential"}}; uint32_t seq; testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { seq = env.seq(alice); submit(pdomain::setTx(alice, credentials)); }); // transfer sponsor auto const keylet = keylet::permissionedDomain(alice, seq); if (cosigning) { env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); // PermissionedDomainDelete auto objects = pdomain::getObjects(alice, env); auto const domain = objects.begin()->first; env(pdomain::deleteTx(alice, domain)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } } void testOracle(bool cosigning) { testcase("Oracle"); using namespace test::jtx; using namespace std::chrono; using DataSeries = std::vector< std::tuple>; Account const alice("alice"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); auto const oracleSet = [](Env& env, Account const& account, uint8_t dataSeriesSize) { auto const now = env.timeKeeper().now(); env.close(now + oracle::testStartTime - epoch_offset); Json::Value jv; jv[jss::TransactionType] = jss::OracleSet; jv[jss::Account] = to_string(account); jv[jss::OracleDocumentID] = 1; jv[jss::LastUpdateTime] = to_string( duration_cast( env.current()->info().closeTime.time_since_epoch()) .count() + epoch_offset.count() + 100); jv[jss::PriceDataSeries] = Json::arrayValue; jv[jss::Provider] = strHex(std::string{"provider"}); jv[jss::AssetClass] = strHex(std::string{"currency"}); DataSeries const series = { {"XRP", "US1", 740, 1}, {"XRP", "US2", 750, 1}, {"XRP", "US3", 740, 1}, {"XRP", "US4", 750, 1}, {"XRP", "US5", 740, 1}, {"XRP", "US6", 750, 1}, {"XRP", "US7", 740, 1}, {"XRP", "US8", 750, 1}, {"XRP", "US9", 740, 1}, {"XRP", "U10", 750, 1}, }; DataSeries actualSeries( series.begin(), series.begin() + dataSeriesSize); Json::Value dataSeries(Json::arrayValue); for (auto const& data : actualSeries) { Json::Value priceData; Json::Value price; price[jss::BaseAsset] = std::get<0>(data); price[jss::QuoteAsset] = std::get<1>(data); price[jss::AssetPrice] = std::get<2>(data); price[jss::Scale] = std::get<3>(data); priceData[jss::PriceData] = price; dataSeries.append(priceData); } jv[jss::PriceDataSeries] = dataSeries; return jv; }; auto const oracleDelete = [&](Account const& account) { Json::Value jv; jv[jss::TransactionType] = jss::OracleDelete; jv[jss::Account] = to_string(account); jv[jss::OracleDocumentID] = 1; return jv; }; { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, sponsor, sponsor2); env.close(); { // OracleSet (reserve 1) testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(oracleSet(env, alice, 5)); }); // transfer sponsor auto const keylet = keylet::oracle(alice, 1); if (cosigning) { env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); // OracleDelete env(oracleDelete(alice)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } { // OracleSet (reserve 2) testEachSponsorship( env, cosigning, sponsor, alice, 2, 2, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(oracleSet(env, alice, 6)); }); // transfer sponsor auto const keylet = keylet::oracle(alice, 1); if (cosigning) { env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 2), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, keylet.key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 2); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 2); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 2); // OracleDelete env(oracleDelete(alice)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } { // OracleSet (reserve 1->2, sponsor1 -> no-sponsor) testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(oracleSet(env, alice, 5)); }); // reserve 1->2 env(oracleSet(env, alice, 6)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 2); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); // OracleDelete env(oracleDelete(alice)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); } { // OracleSet (reserve 1->2, sponsor1 -> sponsor2) testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(oracleSet(env, alice, 5)); }); // return; // reserve 1->2 testEachSponsorship( env, cosigning, sponsor2, alice, 1, 2, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(oracleSet(env, alice, 6)); }, [&]() { BEAST_EXPECT(ownerCount(env, alice) == 2); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 2); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 2); }); // OracleDelete env(oracleDelete(alice)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } { // OracleSet (reserve 1->2, non-sponsor -> sponsor1) env(oracleSet(env, alice, 5)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 1); // reserve 1->2 testEachSponsorship( env, cosigning, sponsor, alice, 1, 2, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(oracleSet(env, alice, 6)); }); // OracleDelete env(oracleDelete(alice)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); } for (bool isTwoOwnerCount : {false, true}) { // test sponsor transfer auto const dataSeriesSize = isTwoOwnerCount ? 6 : 5; auto const ocount = isTwoOwnerCount ? 2 : 1; testEachSponsorship( env, cosigning, sponsor, alice, ocount, ocount, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(oracleSet(env, alice, dataSeriesSize)); }); // transfer sponsor if (cosigning) { env(sponsor::transfer(alice, keylet::oracle(alice, 1).key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, ocount), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, keylet::oracle(alice, 1).key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == ocount); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == ocount); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == ocount); // disolve sponsor env(sponsor::transfer(alice, keylet::oracle(alice, 1).key)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == ocount); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); // remove sponsor env(oracleDelete(alice)); env.close(); } } } void testSignerList(bool cosigning) { testcase("SignerList"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, sponsor, sponsor2); env.close(); // SignerListSet testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(signers(alice, 1, {{bob, 1}})); }); // transfer sponsor if (cosigning) { env(sponsor::transfer(alice, keylet::signers(alice).key), sponsor::as(sponsor2, tfSponsorReserve), sig(sfSponsorSignature, sponsor2)); env.close(); } else { env(sponsor::set_reserve(sponsor2, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(sponsor::transfer(alice, keylet::signers(alice).key), sponsor::as(sponsor2, tfSponsorReserve)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 1); // Delete env(signers(alice, none)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor2) == 0); } void testTrustSet(bool cosigning) { testcase("TrustSet"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); { auto const validateSponsoredTrustline = [&](std::shared_ptr const& sle, bool isIssuerHigh, Account const& sponsor) { BEAST_EXPECT( sle->getAccountID( isIssuerHigh ? sfLowSponsorAccount : sfHighSponsorAccount) == sponsor.id()); BEAST_EXPECT(!sle->isFieldPresent( isIssuerHigh ? sfHighSponsorAccount : sfLowSponsorAccount)); }; auto const& highAcc = alice > bob ? alice : bob; auto const& lowAcc = alice > bob ? bob : alice; // create and delete for (bool isIssuerHigh : {false, true}) { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor, sponsor2); env.close(); auto const& issuer = isIssuerHigh ? highAcc : lowAcc; auto const& user = isIssuerHigh ? lowAcc : highAcc; auto const USD = issuer["USD"]; auto const currency = USD.currency; // create TrustLine if (cosigning) { adjustAccountXRPBalance(env, sponsor, reserve(env, 2)); env(ticket::create( sponsor, 2)); // adjust for free trustline env.close(); } testEachSponsorship( env, cosigning, sponsor, user, 1, 1, tecNO_LINE_INSUF_RESERVE, [&](Env& env, auto const& submit) { submit(trust(user, USD(100))); }); // delete TrustLine env(trust(user, USD(0))); env.close(); BEAST_EXPECT(ownerCount(env, user) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, user) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(!env.le(keylet::line(user, issuer, currency))); } // update for (bool isIssuerHigh : {false, true}) { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor, sponsor2); env.close(); auto const& issuer = isIssuerHigh ? highAcc : lowAcc; auto const& user = isIssuerHigh ? lowAcc : highAcc; auto const USD = issuer["USD"]; auto const currency = USD.currency; // create TrustLine from issuer env(trust(issuer, user["USD"](100))); env.close(); BEAST_EXPECT(env.le(keylet::line(user, issuer, currency))); if (cosigning) { adjustAccountXRPBalance(env, sponsor, reserve(env, 2)); env(ticket::create( sponsor, 2)); // adjust for free trustline env.close(); } testEachSponsorship( env, cosigning, sponsor, user, 1, 1, tecINSUF_RESERVE_LINE, [&](Env& env, auto const& submit) { submit(trust(user, USD(100))); }); auto const line = env.le(keylet::line(user, issuer, currency)); validateSponsoredTrustline(line, isIssuerHigh, sponsor); // update TrustLine from user to clear reserve env(trust(user, USD(0))); env.close(); BEAST_EXPECT(ownerCount(env, user) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, user) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); BEAST_EXPECT(env.le(keylet::line(user, issuer, currency))); // remove TrustLine from issuer env(trust(issuer, user["USD"](0))); env.close(); BEAST_EXPECT(!env.le(keylet::line(user, issuer, currency))); } } } void testVault(bool cosigning) { testcase("Vault"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const gw("gw"); Account const sponsor("sponsor"); Account const sponsor2("sponsor2"); Asset asset = gw["IOU"].asset(); // VaultCreate { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, gw, sponsor); env.close(); Vault vault{env}; auto [tx, keylet] = vault.create({.owner = alice, .asset = asset}); env(ticket::create(sponsor, 2)); env.close(); testEachSponsorship( env, cosigning, sponsor, alice, 2, 2, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { auto result = vault.create({.owner = alice, .asset = asset}); submit(std::get<0>(result)); keylet = std::get<1>(result); }); BEAST_EXPECT( env.le(keylet)->getAccountID(sfSponsorAccount) == sponsor.id()); } // VaultDeposit { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, gw, sponsor); env.close(); Vault vault{env}; auto [tx, keylet] = vault.create({.owner = alice, .asset = asset}); env(tx); env.close(); env(trust(bob, asset(1000))); env.close(); env(pay(gw, bob, asset(1000))); env.close(); BEAST_EXPECT(ownerCount(env, bob) == 1); // RippleState auto const depositTx = vault.deposit( {.depositor = bob, .id = keylet.key, .amount = asset(100)}); env(ticket::create(sponsor, 2)); // for free MPToken env.close(); testEachSponsorship( env, cosigning, sponsor, bob, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(depositTx); }); } // VaultWithdraw { // RippleState Vault { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, gw, sponsor); env.close(); Vault vault{env}; auto [tx, keylet] = vault.create({.owner = alice, .asset = asset}); env(tx); env.close(); env(trust(bob, asset(100))); env.close(); env(pay(gw, bob, asset(100))); env.close(); auto const depositTx = vault.deposit( {.depositor = bob, .id = keylet.key, .amount = asset(100)}); env(ticket::create(sponsor, 2)); // for free MPToken env.close(); testEachSponsorship( env, cosigning, sponsor, bob, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(depositTx); }); env(trust(bob, asset(0))); // remove trustline env.close(); BEAST_EXPECT(ownerCount(env, bob) == 1); // MPToken(share) BEAST_EXPECT( sponsoredOwnerCount(env, bob) == 1); // MPToken(share) BEAST_EXPECT( sponsoringOwnerCount(env, sponsor) == 1); // MPToken(share) // create Trustline with vault withdraw testEachSponsorship( env, cosigning, sponsor, bob, 1, 1, tecNO_LINE_INSUF_RESERVE, [&](Env& env, auto const& submit) { submit(vault.withdraw( {.depositor = bob, .id = keylet.key, .amount = asset(50)})); }); BEAST_EXPECT( ownerCount(env, bob) == 2); // RippleState, MPToken(share) BEAST_EXPECT( sponsoredOwnerCount(env, bob) == 2); // RippleState, MPToken(share) BEAST_EXPECT( sponsoringOwnerCount(env, sponsor) == 2); // RippleState, MPToken(share) // remove sponsored MPToken(share) env(vault.withdraw( {.depositor = bob, .id = keylet.key, .amount = asset(50)})); env.close(); BEAST_EXPECT(ownerCount(env, bob) == 1); // RippleState BEAST_EXPECT( sponsoredOwnerCount(env, bob) == 1); // RippleState BEAST_EXPECT( sponsoringOwnerCount(env, sponsor) == 1); // RippleState } // MPToken Vault { // VaultWithdraw doesn't create MPToken for depositor } } // VaultClawback { // remove sponsored shares MPToken Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, gw, sponsor); env.close(); env(fset(gw, asfAllowTrustLineClawback)); env.close(); Vault vault{env}; auto [tx, keylet] = vault.create({.owner = alice, .asset = asset}); env(tx); env.close(); env(trust(bob, asset(100))); env.close(); env(pay(gw, bob, asset(100))); env.close(); auto const depositTx = vault.deposit( {.depositor = bob, .id = keylet.key, .amount = asset(100)}); env(ticket::create(sponsor, 2)); // for free MPToken env.close(); testEachSponsorship( env, cosigning, sponsor, bob, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(depositTx); }); BEAST_EXPECT( ownerCount(env, bob) == 2); // RippleState, MPToken(share) BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 1); // MPToken(share) BEAST_EXPECT( sponsoringOwnerCount(env, sponsor) == 1); // MPToken(share) env(vault.clawback( {.issuer = gw, .id = keylet.key, .holder = bob, .amount = asset(0)}), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); env.close(); BEAST_EXPECT(ownerCount(env, bob) == 1); // RippleState BEAST_EXPECT(sponsoredOwnerCount(env, bob) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); } // VaultDelete { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, gw, sponsor); env.close(); env(fset(gw, asfAllowTrustLineClawback)); env.close(); Vault vault{env}; auto [tx, keylet] = vault.create({.owner = alice, .asset = asset}); env(tx, sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 2); // Vault, MPToken(share) BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 2); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 2); env(vault.del({.owner = alice, .id = keylet.key})); env.close(); BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); } } void testXChain(bool cosigning) { testcase("XChain"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const doorA("doorA"); Account const signer("signer"); Account const sponsor("sponsor"); Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor, doorA); env.close(); auto jvb = bridge(doorA, XRP, env.master, XRP); env(signers(doorA, 1, {signer})); env.close(); // XChainCreateBridge { testEachSponsorship( env, cosigning, sponsor, doorA, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(bridge_create(doorA, jvb, XRP(1), XRP(1))); }); } // XChainCreateClaimID { testEachSponsorship( env, cosigning, sponsor, alice, 1, 1, tecINSUFFICIENT_RESERVE, [&](Env& env, auto const& submit) { submit(xchain_create_claim_id(alice, jvb, XRP(1), bob)); }); } // XChainCommit { BEAST_EXPECT(ownerCount(env, alice) == 1); // XChainOwnedClaimID BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 2); if (cosigning) { env(xchain_commit(alice, jvb, 1, XRP(100), bob), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); env.close(); } else { env(sponsor::set_reserve(sponsor, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(xchain_commit(alice, jvb, 1, XRP(100), bob), sponsor::as(sponsor, tfSponsorReserve)); env.close(); env(sponsor::del(sponsor), sponsor::sponseeAcc(alice)); env.close(); } // doesn't sponsor anything BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 2); } // XChainAddClaimAttestation { BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 2); if (cosigning) { env(claim_attestation( alice, jvb, bob, XRP(1), bob, false, 1, bob, signer), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); env.close(); } else { env(sponsor::set_reserve(sponsor, 0, 1), sponsor::sponseeAcc(alice)); env.close(); env(claim_attestation( alice, jvb, bob, XRP(1), bob, false, 1, bob, signer), sponsor::as(sponsor, tfSponsorReserve)); env.close(); env(sponsor::del(sponsor), sponsor::sponseeAcc(alice)); env.close(); } // XChainOwnedClaimID deleted BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 1); } // XChainClaim { // prepare for claim { env(xchain_create_claim_id(alice, jvb, XRP(1), bob), sponsor::as(sponsor, tfSponsorReserve), sig(sfSponsorSignature, sponsor)); env(xchain_commit( alice, jvb, 2, XRP(100))); // omit destination env(claim_attestation( alice, jvb, bob, XRP(100), bob, false, 2, std::nullopt, signer)); env.close(); } BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 1); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 2); env(xchain_claim(alice, jvb, 2, XRP(100), bob)); env.close(); // XChainOwnedClaimID deleted BEAST_EXPECT(ownerCount(env, alice) == 0); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 1); } } void testDisallowIncoming() { testcase("DisallowIncoming"); using namespace test::jtx; Env env{*this, testable_amendments()}; Account const alice("alice"); Account const sponsor("sponsor"); env.fund(XRP(1000000), alice, sponsor); env.close(); // set DisallowIncomingSponsor env(fset(alice, asfDisallowIncomingSponsor)); env.close(); // Create sponsor should fail env(sponsor::set(sponsor, 0, 100, XRP(100)), sponsor::sponseeAcc(alice), ter(tecNO_PERMISSION)); env.close(); // clear flag env(fclear(alice, asfDisallowIncomingSponsor)); env.close(); // Create sponsor env(sponsor::set(sponsor, 0, 100, XRP(100)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); // set flag env(fset(alice, asfDisallowIncomingSponsor)); env.close(); // Update sponsor should success env(sponsor::set(sponsor, 0, 100, XRP(100)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); // Delete sponsor should success env(sponsor::set(sponsor, tfDeleteObject), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); } void testAccountDelete() { testcase("AccountDelete"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); { // Delete Account with ltSponsorship Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, sponsor); env.close(); // set sponsor env(sponsor::set(sponsor, 0, 100, XRP(100)), sponsor::sponseeAcc(alice), ter(tesSUCCESS)); env.close(); incLgrSeqForAccDel(env, alice); auto const keylet = keylet::sponsor(sponsor, alice); auto const sponsorObj = env.le(keylet); BEAST_EXPECT(sponsorObj); // AccountDelete auto const requiredFee = drops(env.current()->fees().increment); env(acctdelete(alice, bob), fee(requiredFee), ter(tesSUCCESS)); env.close(); BEAST_EXPECT(!env.le(keylet)); auto const jv = sponsor::ledgerEntry(env, sponsor, alice); BEAST_EXPECT( jv.isObject() && jv.isMember(jss::result) && jv[jss::result].isMember(jss::error) && jv[jss::result][jss::error] == "entryNotFound"); } { // Delete SponsoredAccount Env env{*this, testable_amendments()}; env.memoize(alice); env.fund(XRP(1000000), bob, sponsor); env.close(); // create SponsoredAccount env(pay(sponsor, alice, XRP(10000)), txflags(tfSponsorCreatedAccount)); env.close(); incLgrSeqForAccDel(env, alice); // AccountDelete: destination = non-sponsor auto const requiredFee = drops(env.current()->fees().increment); env(acctdelete(alice, bob), fee(requiredFee), ter(tecNO_SPONSOR_PERMISSION)); auto const sponsorSle = env.le(keylet::account(sponsor)); BEAST_EXPECT( sponsorSle->getFieldU32(sfSponsoringAccountCount) == 1); incLgrSeqForAccDel(env, alice); // AccountDelete: destination = sponsor env(acctdelete(alice, sponsor), fee(requiredFee), ter(tesSUCCESS)); auto const sponsorSle2 = env.le(keylet::account(sponsor)); BEAST_EXPECT( !sponsorSle2->isFieldPresent(sfSponsoringAccountCount)); } } void testDelegatePermission() { testcase("DelegatePermission"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const carol("carol"); // // Permission SponsorFee // { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, carol); env.close(); auto const testFeePermission = [&](TER result) { // FeeAmount env(sponsor::set(alice, 0, std::nullopt, XRP(100)), sponsor::sponseeAcc(bob), delegate::as(carol), ter(result)); // MaxFee env(sponsor::set( alice, 0, std::nullopt, std::nullopt, XRP(100)), sponsor::sponseeAcc(bob), delegate::as(carol), ter(result)); // SetRequireSignForFee flag env(sponsor::set(alice, tfSponsorshipSetRequireSignForFee), sponsor::sponseeAcc(bob), delegate::as(carol), ter(result)); env.close(); }; // no delegated testFeePermission(terNO_DELEGATE_PERMISSION); // set non-SponsorFee Permission env(delegate::set(alice, carol, {"SponsorReserve"})); env.close(); testFeePermission(terNO_DELEGATE_PERMISSION); // set SponsorFee Permission env(delegate::set(alice, carol, {"SponsorFee"})); env.close(); testFeePermission(tesSUCCESS); } // // Permission SponsorReserve // { Env env{*this, testable_amendments()}; env.fund(XRP(1000000), alice, bob, carol); env.close(); auto const testReservePermission = [&](TER result) { // ReserveCount env(sponsor::set(alice, 0, 100), sponsor::sponseeAcc(bob), delegate::as(carol), ter(result)); // SetRequireSignForReserve flag env(sponsor::set(alice, tfSponsorshipSetRequireSignForReserve), sponsor::sponseeAcc(bob), delegate::as(carol), ter(result)); env.close(); }; // no delegated testReservePermission(terNO_DELEGATE_PERMISSION); // set non-SponsorReserve Permission env(delegate::set(alice, carol, {"SponsorFee"})); env.close(); testReservePermission(terNO_DELEGATE_PERMISSION); // set SponsorReserve Permission env(delegate::set(alice, carol, {"SponsorReserve"})); env.close(); testReservePermission(tesSUCCESS); } } void testSponsorReserve() { testRequireFlag(); for (auto cosigning : {false, true}) { testAMM(cosigning); testCheck(cosigning); testOffer(cosigning); testTicket(cosigning); testCredentials(cosigning); testDelegate(cosigning); testDepositPreauth(cosigning); testDID(cosigning); testEscrow(cosigning); testMPToken(cosigning); testNFToken(cosigning); testNFTokenOffer(cosigning); testPayChan(cosigning); testPermissionedDomain(cosigning); testOracle(cosigning); testSignerList(cosigning); testTrustSet(cosigning); testVault(cosigning); testXChain(cosigning); } } void testBatch() { testcase("Batch"); using namespace test::jtx; Account const alice("alice"); Account const bob("bob"); Account const sponsor("sponsor"); // // Outer transaction // { // test outer transaction with co-signing sponsor Env env{*this, testable_amendments()}; env.fund(XRP(1000), alice, bob, sponsor); env.close(); auto const seq = env.seq(alice); env(batch::outer(alice, seq, XRP(1), tfAllOrNothing), batch::inner(noop(alice), seq + 1), batch::inner(ticket::create(alice, 1), seq + 2), sponsor::as(sponsor, tfSponsorReserve | tfSponsorFee), sig(sfSponsorSignature, sponsor), ter(tesSUCCESS)); env.close(); // does not affect reserve BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); // fee is paid by sponsor BEAST_EXPECT(env.balance(alice) == XRP(1000)); BEAST_EXPECT(env.balance(sponsor) == XRP(1000 - 1)); } { // test outer transaction with prefunded sponsor Env env{*this, testable_amendments()}; env.fund(XRP(1000), alice, bob); env.fund(XRP(1001), sponsor); env.close(); env(sponsor::set(sponsor, 0, 100, XRP(100)), sponsor::sponseeAcc(alice), fee(XRP(1)), ter(tesSUCCESS)); env.close(); auto const seq = env.seq(alice); env(batch::outer(alice, seq, XRP(1), tfAllOrNothing), batch::inner(noop(alice), seq + 1), batch::inner(ticket::create(alice, 1), seq + 2), sponsor::as(sponsor, tfSponsorReserve | tfSponsorFee), ter(tesSUCCESS)); env.close(); // does not affect reserve BEAST_EXPECT(ownerCount(env, alice) == 1); BEAST_EXPECT(sponsoredOwnerCount(env, alice) == 0); BEAST_EXPECT(sponsoringOwnerCount(env, sponsor) == 0); // fee is paid by sponsor object BEAST_EXPECT(env.balance(alice) == XRP(1000)); BEAST_EXPECT(env.balance(sponsor) == XRP(900)); auto const sponsorshipSle = env.le(keylet::sponsor(sponsor, alice)); BEAST_EXPECT(sponsorshipSle); BEAST_EXPECT(sponsorshipSle->at(sfFeeAmount) == XRP(100 - 1)); BEAST_EXPECT(sponsorshipSle->at(sfReserveCount) == 100); } // // Inner transaction // // TEQU: TODO } void run() override { testDisabled(); testInvalidSponsorshipSet(); testSingleSigning(); testMultiSigning(); testSimpleSponsorshipSet(); testPreFundAndCosign(); testTransferSponsor(); testSponsorFee(); testSponsorAccount(); testSponsorReserve(); testDisallowIncoming(); testAccountDelete(); testDelegatePermission(); testBatch(); } }; BEAST_DEFINE_TESTSUITE(Sponsor, app, ripple); } // namespace test } // namespace ripple