rpc_test.go

//go:build integrationtests
// +build integrationtests

package xrpl_test

import (
	"context"
	"fmt"
	"strings"
	"testing"

	rippledata "github.com/rubblelabs/ripple/data"
	"github.com/samber/lo"
	"github.com/stretchr/testify/require"

	integrationtests "github.com/CoreumFoundation/coreumbridge-xrpl/integration-tests"
	"github.com/CoreumFoundation/coreumbridge-xrpl/relayer/xrpl"
)

func TestXRPAndIssuedTokensPayment(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	issuerAcc := chains.XRPL.GenAccount(ctx, t, 10)
	t.Logf("Issuer account: %s", issuerAcc)

	recipientAcc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Recipient account: %s", recipientAcc)

	xrpAmount, err := rippledata.NewAmount("100000") // 0.1 XRP tokens
	require.NoError(t, err)
	xrpPaymentTx := rippledata.Payment{
		Destination: recipientAcc,
		Amount:      *xrpAmount,
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.PAYMENT,
		},
	}

	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &xrpPaymentTx, issuerAcc))

	// allow the FOO coin issued by the issuer to be received by the recipient
	const fooCurrencyCode = "FOO"
	fooCurrency, err := rippledata.NewCurrency(fooCurrencyCode)
	require.NoError(t, err)
	fooCurrencyTrustSetValue, err := rippledata.NewValue("10000000000000000", false)
	require.NoError(t, err)
	fooCurrencyTrustSetTx := rippledata.TrustSet{
		LimitAmount: rippledata.Amount{
			Value:    fooCurrencyTrustSetValue,
			Currency: fooCurrency,
			Issuer:   issuerAcc,
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.TRUST_SET,
			Flags:           lo.ToPtr(rippledata.TxSetNoRipple),
		},
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &fooCurrencyTrustSetTx, recipientAcc))

	// send/issue the FOO token
	fooAmount, err := rippledata.NewValue("100000", false)
	require.NoError(t, err)
	fooPaymentTx := rippledata.Payment{
		Destination: recipientAcc,
		Amount: rippledata.Amount{
			Value:    fooAmount,
			Currency: fooCurrency,
			Issuer:   issuerAcc,
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.PAYMENT,
		},
	}
	t.Logf("Recipient account balance before: %s", chains.XRPL.GetAccountBalances(ctx, t, recipientAcc))
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &fooPaymentTx, issuerAcc))
	t.Logf("Recipient account balance after: %s", chains.XRPL.GetAccountBalances(ctx, t, recipientAcc))
}

func TestMultisigPayment(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	multisigAcc := chains.XRPL.GenAccount(ctx, t, 10)
	t.Logf("Multisig account: %s", multisigAcc)

	signer1Acc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Signer1 account: %s", signer1Acc)

	signer2Acc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Signer2 account: %s", signer2Acc)

	signer3Acc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Signer3 account: %s", signer3Acc)

	signerListSetTx := rippledata.SignerListSet{
		SignerQuorum: 2, // weighted threshold
		SignerEntries: []rippledata.SignerEntry{
			{
				SignerEntry: rippledata.SignerEntryItem{
					Account:      &signer1Acc,
					SignerWeight: lo.ToPtr(uint16(1)),
				},
			},
			{
				SignerEntry: rippledata.SignerEntryItem{
					Account:      &signer2Acc,
					SignerWeight: lo.ToPtr(uint16(1)),
				},
			},
			{
				SignerEntry: rippledata.SignerEntryItem{
					Account:      &signer3Acc,
					SignerWeight: lo.ToPtr(uint16(1)),
				},
			},
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.SIGNER_LIST_SET,
		},
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &signerListSetTx, multisigAcc))
	t.Logf("The signers set is updated")

	accInfo, err := chains.XRPL.RPCClient().AccountInfo(ctx, multisigAcc)
	require.NoError(t, err)

	require.Len(t, accInfo.AccountData.SignerList, 1)
	signerEntries := accInfo.AccountData.SignerList[0].SignerEntries
	require.Len(t, signerEntries, 3)
	require.ElementsMatch(t, signerListSetTx.SignerEntries, signerEntries)

	xrplPaymentTx := buildXrpPaymentTxForMultiSigning(ctx, t, chains.XRPL, multisigAcc, signer1Acc)
	signer1 := chains.XRPL.Multisign(t, &xrplPaymentTx, signer1Acc)

	xrplPaymentTx = buildXrpPaymentTxForMultiSigning(ctx, t, chains.XRPL, multisigAcc, signer1Acc)
	signer2 := chains.XRPL.Multisign(t, &xrplPaymentTx, signer2Acc)

	xrplPaymentTx = buildXrpPaymentTxForMultiSigning(ctx, t, chains.XRPL, multisigAcc, signer1Acc)
	signer3 := chains.XRPL.Multisign(t, &xrplPaymentTx, signer3Acc)

	xrpPaymentTxTwoSigners := buildXrpPaymentTxForMultiSigning(ctx, t, chains.XRPL, multisigAcc, signer1Acc)
	require.NoError(t, rippledata.SetSigners(&xrpPaymentTxTwoSigners, signer1, signer2))

	xrpPaymentTxThreeSigners := buildXrpPaymentTxForMultiSigning(ctx, t, chains.XRPL, multisigAcc, signer1Acc)
	require.NoError(t, rippledata.SetSigners(&xrpPaymentTxThreeSigners, signer1, signer2, signer3))

	// compare hashes
	t.Logf("TwoSignersHash/ThreeSignersHash: %s/%s", xrpPaymentTxTwoSigners.Hash, xrpPaymentTxThreeSigners.Hash)
	require.NotEqual(t, strings.ToUpper(xrpPaymentTxTwoSigners.GetHash().String()), xrpPaymentTxThreeSigners.Hash.String())

	t.Logf(
		"Recipient account balance before: %s",
		chains.XRPL.GetAccountBalances(ctx, t, xrpPaymentTxTwoSigners.Destination),
	)
	require.NoError(t, chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &xrpPaymentTxTwoSigners))
	t.Logf(
		"Recipient account balance after: %s",
		chains.XRPL.GetAccountBalances(ctx, t, xrpPaymentTxTwoSigners.Destination),
	)

	// try to submit with three signers (the transaction won't be accepted)
	require.ErrorContains(
		t,
		chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &xrpPaymentTxThreeSigners),
		"This sequence number has already passed",
	)
}

func TestXRPReserves(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	singleSigTxFee, err := chains.XRPL.RPCClient().CalculateFee(1, xrpl.DefaultXRPLBaseFee)
	require.NoError(t, err)

	multisigAcc := chains.XRPL.GenEmptyAccount(t)

	signerListSetTx1 := buildSignerListSetTx(t, chains.XRPL, 3, 2)

	// Fund with account activation reserve.
	chains.XRPL.FundAccount(ctx, t, multisigAcc, xrpl.ReserveToActivateAccount)
	require.NoError(t, chains.XRPL.RPCClient().AutoFillTx(ctx, &signerListSetTx1, multisigAcc, 1))
	err = chains.XRPL.SignAndSubmitTx(ctx, t, &signerListSetTx1, multisigAcc)
	require.ErrorContains(t, err, "tecINSUFFICIENT_RESERVE")

	// Fund with new ledger object reserve.
	chains.XRPL.FundAccount(ctx, t, multisigAcc, xrpl.ReservePerItem)
	require.NoError(t, chains.XRPL.RPCClient().AutoFillTx(ctx, &signerListSetTx1, multisigAcc, 1))
	err = chains.XRPL.SignAndSubmitTx(ctx, t, &signerListSetTx1, multisigAcc)
	require.ErrorContains(t, err, "tecINSUFFICIENT_RESERVE")

	// Fund with fee. Note that we should also consider fees for previous 2 failed txs plus current one.
	chains.XRPL.FundAccount(ctx, t, multisigAcc, 3*singleSigTxFee.Float())
	require.NoError(t, chains.XRPL.RPCClient().AutoFillTx(ctx, &signerListSetTx1, multisigAcc, 1))
	err = chains.XRPL.SignAndSubmitTx(ctx, t, &signerListSetTx1, multisigAcc)
	require.NoError(t, err)

	// Set multising to max allowed signer to verify that multisig reserve doesn't depend on signer entries.
	// Note that reserve is used to pay fees here. It is possible when don't create a new ledger object.
	signerListSetTx2 := buildSignerListSetTx(
		t,
		chains.XRPL,
		int(xrpl.MaxAllowedXRPLSigners),
		int(xrpl.MaxAllowedXRPLSigners),
	)
	chains.XRPL.FundAccount(ctx, t, multisigAcc, 3*singleSigTxFee.Float())
	require.NoError(t, chains.XRPL.RPCClient().AutoFillTx(ctx, &signerListSetTx2, multisigAcc, 1))
	err = chains.XRPL.SignAndSubmitTx(ctx, t, &signerListSetTx2, multisigAcc)
	require.NoError(t, err)
}

func TestCreateAndUseTicketForPaymentAndTicketsCreation(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	senderAcc := chains.XRPL.GenAccount(ctx, t, 10)
	t.Logf("Sender account: %s", senderAcc)

	recipientAcc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Recipient account: %s", recipientAcc)

	ticketsToCreate := 1
	createTicketsTx := rippledata.TicketCreate{
		TicketCount: lo.ToPtr(uint32(ticketsToCreate)),
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.TICKET_CREATE,
		},
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &createTicketsTx, senderAcc))
	txRes, err := chains.XRPL.RPCClient().Tx(ctx, *createTicketsTx.GetHash())
	require.NoError(t, err)

	createdTickets := integrationtests.ExtractTicketsFromMeta(txRes)
	require.Len(t, createdTickets, ticketsToCreate)

	// create tickets with ticket
	ticketsToCreate = 2
	createTicketsTx = rippledata.TicketCreate{
		TicketCount: lo.ToPtr(uint32(ticketsToCreate)),
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.TICKET_CREATE,
		},
	}
	chains.XRPL.AutoFillTx(ctx, t, &createTicketsTx, senderAcc)
	// reset sequence and add ticket
	createTicketsTx.TxBase.Sequence = 0
	createTicketsTx.TicketSequence = createdTickets[0].TicketSequence
	require.NoError(t, chains.XRPL.SignAndSubmitTx(ctx, t, &createTicketsTx, senderAcc))

	txRes, err = chains.XRPL.RPCClient().Tx(ctx, *createTicketsTx.GetHash())
	require.NoError(t, err)

	createdTickets = integrationtests.ExtractTicketsFromMeta(txRes)
	require.Len(t, createdTickets, ticketsToCreate)

	// send XRP coins from sender to recipient with ticket
	xrpAmount, err := rippledata.NewAmount("100000") // 0.1 XRP tokens
	require.NoError(t, err)
	xrpPaymentTx := rippledata.Payment{
		Destination: recipientAcc,
		Amount:      *xrpAmount,
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.PAYMENT,
		},
	}
	chains.XRPL.AutoFillTx(ctx, t, &xrpPaymentTx, senderAcc)
	// reset sequence and add ticket
	xrpPaymentTx.TxBase.Sequence = 0
	xrpPaymentTx.TicketSequence = createdTickets[0].TicketSequence

	t.Logf("Recipient account balance before: %s", chains.XRPL.GetAccountBalances(ctx, t, recipientAcc))
	require.NoError(t, chains.XRPL.SignAndSubmitTx(ctx, t, &xrpPaymentTx, senderAcc))
	t.Logf("Recipient account balance after: %s", chains.XRPL.GetAccountBalances(ctx, t, recipientAcc))

	// try to use tickets for the transactions without the trust-line
	const newFooCurrencyCode = "NFO"
	fooCurrency, err := rippledata.NewCurrency(newFooCurrencyCode)
	require.NoError(t, err)
	// send/issue the FOO token
	fooAmount, err := rippledata.NewValue("100000", false)
	require.NoError(t, err)
	ticketForFailingTx := createdTickets[1].TicketSequence
	fooPaymentTx := rippledata.Payment{
		Destination: recipientAcc,
		Amount: rippledata.Amount{
			Value:    fooAmount,
			Currency: fooCurrency,
			Issuer:   senderAcc,
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.PAYMENT,
		},
	}
	chains.XRPL.AutoFillTx(ctx, t, &fooPaymentTx, senderAcc)
	// reset sequence and add ticket
	fooPaymentTx.TxBase.Sequence = 0
	fooPaymentTx.TicketSequence = ticketForFailingTx
	// there is no trust set so the tx should fail and use the ticket
	require.ErrorContains(
		t,
		chains.XRPL.SignAndSubmitTx(ctx, t, &fooPaymentTx, senderAcc),
		"Path could not send partial amount",
	)

	// try to reuse the ticket for the success tx
	xrpPaymentTx = rippledata.Payment{
		Destination: recipientAcc,
		Amount:      *xrpAmount,
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.PAYMENT,
		},
	}
	chains.XRPL.AutoFillTx(ctx, t, &xrpPaymentTx, senderAcc)
	// reset sequence and add ticket
	xrpPaymentTx.TxBase.Sequence = 0
	xrpPaymentTx.TicketSequence = ticketForFailingTx
	// the ticket is used in prev failed transaction so can't be used here
	require.ErrorContains(t, chains.XRPL.SignAndSubmitTx(ctx, t, &fooPaymentTx, senderAcc), "Ticket is not in ledger")
}

func TestCreateAndUseTicketForTicketsCreationWithMultisigning(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	multisigAcc := chains.XRPL.GenAccount(ctx, t, 10)
	t.Logf("Multisig account: %s", multisigAcc)

	signer1Acc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Signer1 account: %s", signer1Acc)

	signerListSetTx := rippledata.SignerListSet{
		SignerQuorum: 1, // weighted threshold
		SignerEntries: []rippledata.SignerEntry{
			{
				SignerEntry: rippledata.SignerEntryItem{
					Account:      &signer1Acc,
					SignerWeight: lo.ToPtr(uint16(1)),
				},
			},
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.SIGNER_LIST_SET,
		},
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &signerListSetTx, multisigAcc))
	t.Logf("The signers set is updated")

	ticketsToCreate := uint32(1)
	createTicketsTx := buildCreateTicketsTxForMultiSigning(ctx, t, chains.XRPL, ticketsToCreate, 0, nil, multisigAcc)
	signer1 := chains.XRPL.Multisign(t, &createTicketsTx, signer1Acc)

	createTicketsTx = buildCreateTicketsTxForMultiSigning(ctx, t, chains.XRPL, ticketsToCreate, 0, nil, multisigAcc)
	require.NoError(t, rippledata.SetSigners(&createTicketsTx, signer1))

	require.NoError(t, chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &createTicketsTx))

	txRes, err := chains.XRPL.RPCClient().Tx(ctx, *createTicketsTx.GetHash())
	require.NoError(t, err)

	createdTickets := integrationtests.ExtractTicketsFromMeta(txRes)
	require.Len(t, createdTickets, int(ticketsToCreate))

	createTicketsTx = buildCreateTicketsTxForMultiSigning(
		ctx, t, chains.XRPL, ticketsToCreate, 0, createdTickets[0].TicketSequence, multisigAcc,
	)
	signer1 = chains.XRPL.Multisign(t, &createTicketsTx, signer1Acc)

	createTicketsTx = buildCreateTicketsTxForMultiSigning(
		ctx, t, chains.XRPL, ticketsToCreate, 0, createdTickets[0].TicketSequence, multisigAcc,
	)
	require.NoError(t, rippledata.SetSigners(&createTicketsTx, signer1))

	require.NoError(t, chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &createTicketsTx))

	txRes, err = chains.XRPL.RPCClient().Tx(ctx, *createTicketsTx.GetHash())
	require.NoError(t, err)

	createdTickets = integrationtests.ExtractTicketsFromMeta(txRes)
	require.Len(t, createdTickets, int(ticketsToCreate))
}

func TestCreateAndUseTicketForMultisigningKeysRotation(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	multisigAcc := chains.XRPL.GenAccount(ctx, t, 10)
	t.Logf("Multisig account: %s", multisigAcc)

	signer1Acc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Signer1 account: %s", signer1Acc)

	signer2Acc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Signer2 account: %s", signer2Acc)

	signerListSetTx := rippledata.SignerListSet{
		SignerQuorum: 1, // weighted threshold
		SignerEntries: []rippledata.SignerEntry{
			{
				SignerEntry: rippledata.SignerEntryItem{
					Account:      &signer1Acc,
					SignerWeight: lo.ToPtr(uint16(1)),
				},
			},
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.SIGNER_LIST_SET,
		},
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &signerListSetTx, multisigAcc))

	ticketsToCreate := uint32(2)

	createTicketsTx := buildCreateTicketsTxForMultiSigning(ctx, t, chains.XRPL, ticketsToCreate, 0, nil, multisigAcc)
	signer1 := chains.XRPL.Multisign(t, &createTicketsTx, signer1Acc)

	createTicketsTx = buildCreateTicketsTxForMultiSigning(ctx, t, chains.XRPL, ticketsToCreate, 0, nil, multisigAcc)
	require.NoError(t, rippledata.SetSigners(&createTicketsTx, signer1))
	require.NoError(t, chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &createTicketsTx))

	txRes, err := chains.XRPL.RPCClient().Tx(ctx, *createTicketsTx.GetHash())
	require.NoError(t, err)

	createdTickets := integrationtests.ExtractTicketsFromMeta(txRes)
	require.Len(t, createdTickets, int(ticketsToCreate))

	updateSignerListSetTx := buildUpdateSignerListSetTxForMultiSigning(
		ctx, t, chains.XRPL, signer2Acc, createdTickets[0].TicketSequence, multisigAcc,
	)
	signer1 = chains.XRPL.Multisign(t, &updateSignerListSetTx, signer1Acc)

	updateSignerListSetTx = buildUpdateSignerListSetTxForMultiSigning(
		ctx, t, chains.XRPL, signer2Acc, createdTickets[0].TicketSequence, multisigAcc,
	)
	require.NoError(t, rippledata.SetSigners(&updateSignerListSetTx, signer1))
	require.NoError(t, chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &updateSignerListSetTx))

	// try to sign and send with previous signer
	restoreSignerListSetTx := buildUpdateSignerListSetTxForMultiSigning(
		ctx, t, chains.XRPL, signer1Acc, createdTickets[1].TicketSequence, multisigAcc,
	)
	signer1 = chains.XRPL.Multisign(t, &restoreSignerListSetTx, signer1Acc)

	restoreSignerListSetTx = buildUpdateSignerListSetTxForMultiSigning(
		ctx, t, chains.XRPL, signer1Acc, createdTickets[1].TicketSequence, multisigAcc,
	)
	require.NoError(t, rippledata.SetSigners(&restoreSignerListSetTx, signer1))
	require.ErrorContains(
		t,
		chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &restoreSignerListSetTx),
		"A signature is provided for a non-signer",
	)

	// build and send with correct signer
	restoreSignerListSetTx = buildUpdateSignerListSetTxForMultiSigning(
		ctx, t, chains.XRPL, signer1Acc, createdTickets[1].TicketSequence, multisigAcc,
	)
	signer2 := chains.XRPL.Multisign(t, &restoreSignerListSetTx, signer2Acc)

	restoreSignerListSetTx = buildUpdateSignerListSetTxForMultiSigning(
		ctx, t, chains.XRPL, signer1Acc, createdTickets[1].TicketSequence, multisigAcc,
	)
	require.NoError(t, rippledata.SetSigners(&restoreSignerListSetTx, signer2))
	require.NoError(t, chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &restoreSignerListSetTx))
}

func TestMultisigSignerSetWithMaxSigners(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	multiSigAcc := chains.XRPL.GenAccount(ctx, t, 10)
	t.Logf("Multisig account: %s", multiSigAcc)
	signerCount := xrpl.MaxAllowedXRPLSigners
	chains.XRPL.FundAccountForSignerListSet(ctx, t, multiSigAcc)
	signerSignerEntries := make([]rippledata.SignerEntry, 0)
	for i := 0; i < int(signerCount); i++ {
		signer := chains.XRPL.GenAccount(ctx, t, 0)
		signerSignerEntries = append(signerSignerEntries, rippledata.SignerEntry{
			SignerEntry: rippledata.SignerEntryItem{
				Account:      &signer,
				SignerWeight: lo.ToPtr(uint16(1)),
			},
		})
	}
	signerListSetTx := rippledata.SignerListSet{
		SignerQuorum:  signerCount,
		SignerEntries: signerSignerEntries,
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.SIGNER_LIST_SET,
		},
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &signerListSetTx, multiSigAcc))
}

func TestMultisigWithMasterKeyRemoval(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	multisigAccToDisable := chains.XRPL.GenAccount(ctx, t, 10)
	t.Logf("Multisig account: %s", multisigAccToDisable)

	signer1Acc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Signer1 account: %s", signer1Acc)

	signer2Acc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Signer2 account: %s", signer2Acc)

	signerListSetTx := rippledata.SignerListSet{
		SignerQuorum: 2, // weighted threshold
		SignerEntries: []rippledata.SignerEntry{
			{
				SignerEntry: rippledata.SignerEntryItem{
					Account:      &signer1Acc,
					SignerWeight: lo.ToPtr(uint16(1)),
				},
			},
			{
				SignerEntry: rippledata.SignerEntryItem{
					Account:      &signer2Acc,
					SignerWeight: lo.ToPtr(uint16(1)),
				},
			},
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.SIGNER_LIST_SET,
		},
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &signerListSetTx, multisigAccToDisable))
	t.Logf("The signers set is updated")

	// disable master key now to be able to use multi-signing only
	disableMasterKeyTx := rippledata.AccountSet{
		TxBase: rippledata.TxBase{
			Account:         multisigAccToDisable,
			TransactionType: rippledata.ACCOUNT_SET,
		},
		SetFlag: lo.ToPtr(uint32(rippledata.TxSetDisableMaster)),
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &disableMasterKeyTx, multisigAccToDisable))
	t.Logf("The master key is disabled")

	// try to update signers one more time
	require.ErrorContains(
		t,
		chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &signerListSetTx, multisigAccToDisable),
		"Master key is disabled",
	)

	// now use multi-signing for the account
	xrpPaymentTx := buildXrpPaymentTxForMultiSigning(ctx, t, chains.XRPL, multisigAccToDisable, signer1Acc)
	signer1 := chains.XRPL.Multisign(t, &xrpPaymentTx, signer1Acc)

	xrpPaymentTx = buildXrpPaymentTxForMultiSigning(ctx, t, chains.XRPL, multisigAccToDisable, signer1Acc)
	signer2 := chains.XRPL.Multisign(t, &xrpPaymentTx, signer2Acc)

	xrpPaymentTx = buildXrpPaymentTxForMultiSigning(ctx, t, chains.XRPL, multisigAccToDisable, signer1Acc)
	require.NoError(t, rippledata.SetSigners(&xrpPaymentTx, signer1, signer2))

	t.Logf("Recipient account balance before: %s", chains.XRPL.GetAccountBalances(ctx, t, xrpPaymentTx.Destination))
	require.NoError(t, chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &xrpPaymentTx))
	t.Logf("Recipient account balance after: %s", chains.XRPL.GetAccountBalances(ctx, t, xrpPaymentTx.Destination))
}

func TestCreateAndUseUsedTicketAndSequencesWithMultisigning(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	multisigAcc := chains.XRPL.GenAccount(ctx, t, 10)
	t.Logf("Multisig account: %s", multisigAcc)

	signer1Acc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Signer1 account: %s", signer1Acc)

	signerListSetTx := rippledata.SignerListSet{
		SignerQuorum: 1, // weighted threshold
		SignerEntries: []rippledata.SignerEntry{
			{
				SignerEntry: rippledata.SignerEntryItem{
					Account:      &signer1Acc,
					SignerWeight: lo.ToPtr(uint16(1)),
				},
			},
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.SIGNER_LIST_SET,
		},
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &signerListSetTx, multisigAcc))
	t.Logf("The signers set is updated")

	ticketsToCreate := uint32(1)
	createTicketsTx := buildCreateTicketsTxForMultiSigning(ctx, t, chains.XRPL, ticketsToCreate, 0, nil, multisigAcc)
	signer1 := chains.XRPL.Multisign(t, &createTicketsTx, signer1Acc)

	createTicketsTx = buildCreateTicketsTxForMultiSigning(ctx, t, chains.XRPL, ticketsToCreate, 0, nil, multisigAcc)
	require.NoError(t, rippledata.SetSigners(&createTicketsTx, signer1))

	require.NoError(t, chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &createTicketsTx))

	txRes, err := chains.XRPL.RPCClient().Tx(ctx, *createTicketsTx.GetHash())
	require.NoError(t, err)

	createdTickets := integrationtests.ExtractTicketsFromMeta(txRes)
	require.Len(t, createdTickets, int(ticketsToCreate))

	usedTicket := createdTickets[0].TicketSequence
	createTicketsTx = buildCreateTicketsTxForMultiSigning(ctx, t, chains.XRPL, ticketsToCreate, 0, usedTicket, multisigAcc)
	signer1 = chains.XRPL.Multisign(t, &createTicketsTx, signer1Acc)

	createTicketsTx = buildCreateTicketsTxForMultiSigning(ctx, t, chains.XRPL, ticketsToCreate, 0, usedTicket, multisigAcc)
	require.NoError(t, rippledata.SetSigners(&createTicketsTx, signer1))
	require.NoError(t, chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &createTicketsTx))

	txRes, err = chains.XRPL.RPCClient().Tx(ctx, *createTicketsTx.GetHash())
	require.NoError(t, err)

	createdTickets = integrationtests.ExtractTicketsFromMeta(txRes)
	require.Len(t, createdTickets, int(ticketsToCreate))

	// try to submit the same transaction one more time
	res, err := chains.XRPL.RPCClient().Submit(ctx, &createTicketsTx)
	require.NoError(t, err)
	// the tx wasn't accepted
	require.Equal(t, "tefNO_TICKET", res.EngineResult.String())

	// use seq number to create the tx
	multisigAccInfo, err := chains.XRPL.RPCClient().AccountInfo(ctx, multisigAcc)
	require.NoError(t, err)
	seqNo := multisigAccInfo.AccountData.Sequence
	createTicketsTx = buildCreateTicketsTxForMultiSigning(ctx, t, chains.XRPL, ticketsToCreate, *seqNo, nil, multisigAcc)
	signer1 = chains.XRPL.Multisign(t, &createTicketsTx, signer1Acc)
	createTicketsTx = buildCreateTicketsTxForMultiSigning(ctx, t, chains.XRPL, ticketsToCreate, *seqNo, nil, multisigAcc)
	require.NoError(t, rippledata.SetSigners(&createTicketsTx, signer1))
	require.NoError(t, chains.XRPL.RPCClient().SubmitAndAwaitSuccess(ctx, &createTicketsTx))
	createdTickets = integrationtests.ExtractTicketsFromMeta(txRes)
	require.Len(t, createdTickets, int(ticketsToCreate))

	// use ticket number as sequence number
	ticketSequence := createdTickets[0].TicketSequence
	createTicketsTx = buildCreateTicketsTxForMultiSigning(
		ctx, t, chains.XRPL, ticketsToCreate, *ticketSequence, nil, multisigAcc,
	)
	signer1 = chains.XRPL.Multisign(t, &createTicketsTx, signer1Acc)
	createTicketsTx = buildCreateTicketsTxForMultiSigning(
		ctx, t, chains.XRPL, ticketsToCreate, *ticketSequence, nil, multisigAcc,
	)
	require.NoError(t, rippledata.SetSigners(&createTicketsTx, signer1))
	res, err = chains.XRPL.RPCClient().Submit(ctx, &createTicketsTx)
	require.NoError(t, err)
	// the tx wasn't accepted
	require.Equal(t, "tefPAST_SEQ", res.EngineResult.String())
	t.Logf("Tx was rejected, hash:%s", createTicketsTx.GetHash())

	// use sequence number from the future
	multisigAccInfo, err = chains.XRPL.RPCClient().AccountInfo(ctx, multisigAcc)
	require.NoError(t, err)
	futureSeqNo := *multisigAccInfo.AccountData.Sequence + 10000
	createTicketsTx = buildCreateTicketsTxForMultiSigning(
		ctx, t, chains.XRPL, ticketsToCreate, futureSeqNo, nil, multisigAcc,
	)
	signer1 = chains.XRPL.Multisign(t, &createTicketsTx, signer1Acc)
	createTicketsTx = buildCreateTicketsTxForMultiSigning(
		ctx, t, chains.XRPL, ticketsToCreate, futureSeqNo, nil, multisigAcc,
	)
	require.NoError(t, rippledata.SetSigners(&createTicketsTx, signer1))
	res, err = chains.XRPL.RPCClient().Submit(ctx, &createTicketsTx)
	require.NoError(t, err)
	// the tx wasn't accepted
	require.Equal(t, "terPRE_SEQ", res.EngineResult.String())
	t.Logf("Tx was rejected, hash:%s", createTicketsTx.GetHash())
}

func TestLedgerCurrent(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)
	currentLedger, err := chains.XRPL.RPCClient().LedgerCurrent(ctx)
	require.NoError(t, err)
	require.Greater(t, currentLedger.LedgerCurrentIndex, int64(0))
}

func TestServerState(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)
	serverState, err := chains.XRPL.RPCClient().ServerState(ctx)
	require.NoError(t, err)
	require.Equal(t, "success", serverState.Status)
	require.Equal(t, uint32(256), serverState.State.LoadFactor)
	require.Equal(t, uint32(256), serverState.State.LoadBase)
	require.Equal(t, uint32(10), serverState.State.ValidatedLedger.BaseFee)
}

func TestAccountTx(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	senderAcc := chains.XRPL.GenAccount(ctx, t, 10)
	t.Logf("Sender account: %s", senderAcc)

	recipientAcc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Recipient account: %s", recipientAcc)

	// send 4 txs from is the sender to the recipient
	for i := 0; i < 4; i++ {
		xrpAmount, err := rippledata.NewAmount("100000") // 0.1 XRP tokens
		require.NoError(t, err)
		xrpPaymentTx := rippledata.Payment{
			Destination: recipientAcc,
			Amount:      *xrpAmount,
			TxBase: rippledata.TxBase{
				TransactionType: rippledata.PAYMENT,
			},
		}
		require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &xrpPaymentTx, senderAcc))
	}

	accountTxRes, err := chains.XRPL.RPCClient().AccountTx(ctx, senderAcc, -1, -1, nil)
	require.NoError(t, err)
	require.Len(t, accountTxRes.Transactions, 5) // faucet send + 4 more
}

func TestXRPLHighLowAmountsPayments(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	//nolint:lll // breaking down test case string will make it less readable.
	tests := []struct {
		name                      string
		senderBalanceBefore       string
		recipientBalanceBefore    string
		sendingAmounts            []string
		sendingBackAmount         string
		wantSenderBalanceAfter    string
		wantRecipientBalanceAfter string
		wantDeliveredAmounts      []string
	}{
		{
			name:                   "normal_send",
			senderBalanceBefore:    "1000.0",
			recipientBalanceBefore: "1000.0",
			sendingAmounts:         []string{"0.0001"},

			wantSenderBalanceAfter:    "999.9999",
			wantRecipientBalanceAfter: "1000.0001",
			wantDeliveredAmounts:      []string{"0.0001"},
		},
		{
			name:                      "low_sender_high_recipient_balance_low_amount_sending",
			senderBalanceBefore:       "10",
			recipientBalanceBefore:    "1e17",
			sendingAmounts:            []string{"10"},
			wantSenderBalanceAfter:    "0",
			wantRecipientBalanceAfter: "1e17",
			wantDeliveredAmounts:      []string{"10"}, // the delivery amount says that 10 is delivered but in reality zero
		},
		{
			name:                      "high_sender_low_recipient_balance_low_amount_sending",
			senderBalanceBefore:       "1e17",
			recipientBalanceBefore:    "0",
			sendingAmounts:            []string{"10"},
			wantSenderBalanceAfter:    "1e17",
			wantRecipientBalanceAfter: "10", // the sender balance remains the same, but recipient has received tokens
			wantDeliveredAmounts:      []string{"10"},
		},
		{
			name:                      "high_sender_low_recipient_balance_low_amount_sending_multiple_sum_100",
			senderBalanceBefore:       "1e17",
			recipientBalanceBefore:    "0",
			sendingAmounts:            []string{"49", "49", "2"},
			wantSenderBalanceAfter:    "1e17",
			wantRecipientBalanceAfter: "100", // the sender balance remains the same, but recipient has received tokens
			wantDeliveredAmounts:      []string{"49", "49", "2"},
		},
		{
			name:                      "high_sender_low_recipient_balance_low_amount_sending_single_100",
			senderBalanceBefore:       "1e17",
			recipientBalanceBefore:    "0",
			sendingAmounts:            []string{"100"},
			wantSenderBalanceAfter:    "999999999999999e2", // the test case in sum  similar to previous but affects the balance
			wantRecipientBalanceAfter: "100",
			wantDeliveredAmounts:      []string{"100"},
		},
		{
			name:                   "high_sender_low_recipient_balance_low_amount_sending_many_low_amounts_with_high_sum_and_sending_back",
			senderBalanceBefore:    "1e17",
			recipientBalanceBefore: "0",
			// !!! the test works with 99 on the localnet, but not on the testnet for some reason !!!
			sendingAmounts: lo.Times(21, func(index int) string {
				return "49"
			}),
			sendingBackAmount:         "1029",
			wantSenderBalanceAfter:    "100000000000001e3", // 100000000000001e3 - 1e17 = 1000, so we have minted `1000` tokens
			wantRecipientBalanceAfter: "0",
			wantDeliveredAmounts: lo.Times(21, func(index int) string { // the total delivered amount completely incorrect
				return "49"
			}),
		},
	}
	for _, tt := range tests {
		tt := tt
		t.Run(tt.name, func(t *testing.T) {
			t.Parallel()

			issuerAcc := chains.XRPL.GenAccount(ctx, t, 1)
			t.Logf("Issuer account: %s", issuerAcc)
			senderAcc := chains.XRPL.GenAccount(ctx, t, 1)
			t.Logf("Sender account: %s", senderAcc)
			recipientAcc := chains.XRPL.GenAccount(ctx, t, 1)
			t.Logf("Recipient account: %s", recipientAcc)

			// Enable rippling on this account's trust lines by default.
			defaultRippleAccountSetTx := rippledata.AccountSet{
				SetFlag: lo.ToPtr(uint32(rippledata.TxDefaultRipple)),
				TxBase: rippledata.TxBase{
					TransactionType: rippledata.ACCOUNT_SET,
				},
			}
			require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &defaultRippleAccountSetTx, issuerAcc))

			currency, err := rippledata.NewCurrency("FOO")
			require.NoError(t, err)
			currencyTrustSetValue, err := rippledata.NewValue("10e80", false)
			require.NoError(t, err)

			// all allow the coin to be consumed by and sender and recipient
			for _, acc := range []rippledata.Account{senderAcc, recipientAcc} {
				fooCurrencyTrustSetTx := rippledata.TrustSet{
					LimitAmount: rippledata.Amount{
						Value:    currencyTrustSetValue,
						Currency: currency,
						Issuer:   issuerAcc,
					},
					TxBase: rippledata.TxBase{
						TransactionType: rippledata.TRUST_SET,
						Flags:           lo.ToPtr(rippledata.TxSetNoRipple),
					},
				}
				require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &fooCurrencyTrustSetTx, acc))
			}

			// fill initial sender balance
			if tt.senderBalanceBefore != "0" {
				senderBalanceBeforeAmount, err := rippledata.NewValue(tt.senderBalanceBefore, false)
				require.NoError(t, err)
				issuerToSenderPaymentTx := rippledata.Payment{
					Destination: senderAcc,
					Amount: rippledata.Amount{
						Value:    senderBalanceBeforeAmount,
						Currency: currency,
						Issuer:   issuerAcc,
					},
					TxBase: rippledata.TxBase{
						TransactionType: rippledata.PAYMENT,
					},
				}
				require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &issuerToSenderPaymentTx, issuerAcc))
			}

			// fill initial recipient balance
			if tt.recipientBalanceBefore != "0" {
				recipientBalanceBeforeAmount, err := rippledata.NewValue(tt.recipientBalanceBefore, false)
				require.NoError(t, err)
				issuerToRecipientPaymentTx := rippledata.Payment{
					Destination: recipientAcc,
					Amount: rippledata.Amount{
						Value:    recipientBalanceBeforeAmount,
						Currency: currency,
						Issuer:   issuerAcc,
					},
					TxBase: rippledata.TxBase{
						TransactionType: rippledata.PAYMENT,
					},
				}
				require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &issuerToRecipientPaymentTx, issuerAcc))
			}

			senderBalanceBefore := getBalanceAccount(ctx, t, chains.XRPL, senderAcc, issuerAcc, currency)
			recipientBalanceBefore := getBalanceAccount(ctx, t, chains.XRPL, recipientAcc, issuerAcc, currency)

			deliveredAmounts := make([]string, 0, len(tt.sendingAmounts))
			for _, sendingAmount := range tt.sendingAmounts {
				sendingAmount, err := rippledata.NewValue(sendingAmount, false)
				require.NoError(t, err)
				senderToRecipientPaymentTx := rippledata.Payment{
					Destination: recipientAcc,
					Amount: rippledata.Amount{
						Value:    sendingAmount,
						Currency: currency,
						Issuer:   issuerAcc,
					},
					TxBase: rippledata.TxBase{
						TransactionType: rippledata.PAYMENT,
					},
				}
				require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &senderToRecipientPaymentTx, senderAcc))
				// fetch account transactions
				txWithMetaData, err := chains.XRPL.RPCClient().Tx(ctx, *senderToRecipientPaymentTx.GetHash())
				require.NoError(t, err)
				deliveredAmount := txWithMetaData.MetaData.DeliveredAmount.Value.String()
				deliveredAmounts = append(deliveredAmounts, deliveredAmount)
			}

			if tt.sendingBackAmount != "" && tt.sendingBackAmount != "0" {
				sendingAmount, err := rippledata.NewValue(tt.sendingBackAmount, false)
				require.NoError(t, err)
				senderToRecipientPaymentTx := rippledata.Payment{
					Destination: senderAcc,
					Amount: rippledata.Amount{
						Value:    sendingAmount,
						Currency: currency,
						Issuer:   issuerAcc,
					},
					TxBase: rippledata.TxBase{
						TransactionType: rippledata.PAYMENT,
					},
				}
				require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &senderToRecipientPaymentTx, recipientAcc))
			}

			senderBalanceAfter := getBalanceAccount(ctx, t, chains.XRPL, senderAcc, issuerAcc, currency)
			recipientBalanceAfter := getBalanceAccount(ctx, t, chains.XRPL, recipientAcc, issuerAcc, currency)

			//nolint:lll // breaking down the log line will make it less readable.
			t.Logf(
				"Sender before: %s | Recipient before: %s | Sending amounts: %+v | Sender after: %s | Recipient after: %s | Delivered amount: %v",
				senderBalanceBefore, recipientBalanceBefore, tt.sendingAmounts, senderBalanceAfter, recipientBalanceAfter, deliveredAmounts,
			)

			require.Equal(t, tt.wantSenderBalanceAfter, senderBalanceAfter)
			require.Equal(t, tt.wantRecipientBalanceAfter, recipientBalanceAfter)
			require.Equal(t, tt.wantDeliveredAmounts, deliveredAmounts)
		})
	}
}

func TestXRPLClawback(t *testing.T) {
	t.Parallel()

	ctx, chains := integrationtests.NewTestingContext(t)

	issuerClawbackAcc := chains.XRPL.GenAccount(ctx, t, 10)
	t.Logf("Issuer clawback account: %s", issuerClawbackAcc)

	issuerNoClawbackAcc := chains.XRPL.GenAccount(ctx, t, 10)
	t.Logf("Issuer no-clawback account: %s", issuerClawbackAcc)

	recipientAcc := chains.XRPL.GenAccount(ctx, t, 0)
	t.Logf("Recipient account: %s", recipientAcc)

	// enable clawback
	allowClawbackTx := rippledata.AccountSet{
		TxBase: rippledata.TxBase{
			Account:         issuerClawbackAcc,
			TransactionType: rippledata.ACCOUNT_SET,
		},
		// https://xrpl.org/docs/references/protocol/transactions/types/accountset/#accountset-flags
		// asfAllowTrustLineClawback	16
		SetFlag: lo.ToPtr(uint32(16)),
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &allowClawbackTx, issuerClawbackAcc))

	const fooCurrencyCode = "FOO"
	fooCurrency, err := rippledata.NewCurrency(fooCurrencyCode)
	require.NoError(t, err)
	fooCurrencyTrustSetValue, err := rippledata.NewValue("10000000000000000", false)
	require.NoError(t, err)
	fooClawbackCurrencyTrustSetTx := rippledata.TrustSet{
		LimitAmount: rippledata.Amount{
			Value:    fooCurrencyTrustSetValue,
			Currency: fooCurrency,
			Issuer:   issuerClawbackAcc,
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.TRUST_SET,
		},
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &fooClawbackCurrencyTrustSetTx, recipientAcc))

	fooValue, err := rippledata.NewValue("100000", false)
	require.NoError(t, err)
	fooPaymentTx := rippledata.Payment{
		Destination: recipientAcc,
		Amount: rippledata.Amount{
			Value:    fooValue,
			Currency: fooCurrency,
			Issuer:   issuerClawbackAcc,
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.PAYMENT,
		},
	}

	currencyIssuerClawbackKey := fmt.Sprintf(
		"%s/%s", xrpl.ConvertCurrencyToString(fooCurrency), issuerClawbackAcc.String(),
	)
	balancesBefore := chains.XRPL.GetAccountBalances(ctx, t, recipientAcc)
	t.Logf("Recipient account balances before: %s", balancesBefore)
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &fooPaymentTx, issuerClawbackAcc))
	balancesAfter := chains.XRPL.GetAccountBalances(ctx, t, recipientAcc)
	t.Logf("Recipient account balances after: %s", balancesAfter)
	require.Equal(t, fooValue.String(), balancesAfter[currencyIssuerClawbackKey].Value.String())

	// clawback the amount
	clawbackTx := rippledata.Clawback{
		Amount: rippledata.Amount{
			Value:    fooValue,
			Currency: fooCurrency,
			// the issuer here is the holder
			Issuer: recipientAcc,
		},
		TxBase: rippledata.TxBase{
			Account:         issuerClawbackAcc,
			TransactionType: rippledata.CLAWBACK,
		},
	}

	balancesBefore = chains.XRPL.GetAccountBalances(ctx, t, recipientAcc)
	t.Logf("Recipient account balances before: %s", balancesBefore)
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &clawbackTx, issuerClawbackAcc))
	balancesAfter = chains.XRPL.GetAccountBalances(ctx, t, recipientAcc)
	t.Logf("Recipient account balances after: %s", balancesAfter)
	require.True(t, balancesAfter[currencyIssuerClawbackKey].Value.IsZero())

	// try to do the clawback after the issuance
	fooNoClawbackCurrencyTrustSetTx := rippledata.TrustSet{
		LimitAmount: rippledata.Amount{
			Value:    fooCurrencyTrustSetValue,
			Currency: fooCurrency,
			Issuer:   issuerNoClawbackAcc,
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.TRUST_SET,
		},
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &fooNoClawbackCurrencyTrustSetTx, recipientAcc))

	fooPaymentTx = rippledata.Payment{
		Destination: recipientAcc,
		Amount: rippledata.Amount{
			Value:    fooValue,
			Currency: fooCurrency,
			Issuer:   issuerNoClawbackAcc,
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.PAYMENT,
		},
	}
	require.NoError(t, chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &fooPaymentTx, issuerNoClawbackAcc))

	// try to enable the clawback now
	allowClawbackTx = rippledata.AccountSet{
		TxBase: rippledata.TxBase{
			Account:         issuerNoClawbackAcc,
			TransactionType: rippledata.ACCOUNT_SET,
		},
		// https://xrpl.org/docs/references/protocol/transactions/types/accountset/#accountset-flags
		// asfAllowTrustLineClawback	16
		SetFlag: lo.ToPtr(uint32(16)),
	}
	require.ErrorContains(
		t,
		chains.XRPL.AutoFillSignAndSubmitTx(ctx, t, &allowClawbackTx, issuerNoClawbackAcc),
		rippledata.TecOWNERS.Human(),
	)
}

func getBalanceAccount(
	ctx context.Context,
	t *testing.T,
	xrplChain integrationtests.XRPLChain,
	acc,
	issuer rippledata.Account,
	currency rippledata.Currency,
) string {
	t.Helper()
	currencyIssuerKey := fmt.Sprintf("%s/%s", xrpl.ConvertCurrencyToString(currency), issuer.String())
	balance, ok := xrplChain.GetAccountBalances(ctx, t, acc)[currencyIssuerKey]
	if !ok {
		return "0"
	}
	if balance.Value == nil {
		return "0"
	}

	return balance.Value.String()
}

func buildXrpPaymentTxForMultiSigning(
	ctx context.Context,
	t *testing.T,
	xrplChain integrationtests.XRPLChain,
	from, to rippledata.Account,
) rippledata.Payment {
	t.Helper()

	xrpAmount, err := rippledata.NewAmount("100000") // 0.1 XRP tokens
	require.NoError(t, err)

	tx := rippledata.Payment{
		Destination: to,
		Amount:      *xrpAmount,
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.PAYMENT,
		},
	}
	xrplChain.AutoFillTx(ctx, t, &tx, from)
	// important for the multi-signing
	tx.TxBase.SigningPubKey = &rippledata.PublicKey{}

	return tx
}

func buildCreateTicketsTxForMultiSigning(
	ctx context.Context,
	t *testing.T,
	xrplChain integrationtests.XRPLChain,
	ticketsToCreate uint32,
	seqNumber uint32,
	ticketSeq *uint32,
	from rippledata.Account,
) rippledata.TicketCreate {
	t.Helper()

	tx := rippledata.TicketCreate{
		TicketCount: lo.ToPtr(ticketsToCreate),
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.TICKET_CREATE,
		},
	}
	xrplChain.AutoFillTx(ctx, t, &tx, from)

	if seqNumber != 0 {
		tx.Sequence = seqNumber
	}
	if ticketSeq != nil {
		tx.Sequence = 0
		tx.TicketSequence = ticketSeq
	}
	// important for the multi-signing
	tx.TxBase.SigningPubKey = &rippledata.PublicKey{}

	return tx
}

func buildUpdateSignerListSetTxForMultiSigning(
	ctx context.Context,
	t *testing.T,
	xrplChain integrationtests.XRPLChain,
	signerAcc rippledata.Account,
	ticketSeq *uint32,
	from rippledata.Account,
) rippledata.SignerListSet {
	t.Helper()

	tx := rippledata.SignerListSet{
		SignerQuorum: 1, // weighted threshold
		SignerEntries: []rippledata.SignerEntry{
			{
				SignerEntry: rippledata.SignerEntryItem{
					Account:      &signerAcc,
					SignerWeight: lo.ToPtr(uint16(1)),
				},
			},
		},
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.SIGNER_LIST_SET,
		},
	}
	xrplChain.AutoFillTx(ctx, t, &tx, from)
	// important for the multi-signing
	tx.TxBase.SigningPubKey = &rippledata.PublicKey{}

	if ticketSeq != nil {
		tx.Sequence = 0
		tx.TicketSequence = ticketSeq
	}

	return tx
}

func buildSignerListSetTx(
	t *testing.T,
	xrplChain integrationtests.XRPLChain,
	signerCount, quorum int,
) rippledata.SignerListSet {
	t.Helper()

	signerEntries := lo.Times(signerCount, func(_ int) rippledata.SignerEntry {
		return rippledata.SignerEntry{
			SignerEntry: rippledata.SignerEntryItem{
				Account:      lo.ToPtr(xrplChain.GenEmptyAccount(t)),
				SignerWeight: lo.ToPtr(uint16(1)),
			},
		}
	})

	return rippledata.SignerListSet{
		SignerQuorum:  uint32(quorum),
		SignerEntries: signerEntries,
		TxBase: rippledata.TxBase{
			TransactionType: rippledata.SIGNER_LIST_SET,
		},
	}
}