package paychmgr import ( "bytes" "context" "testing" "github.com/ipfs/go-cid" ds "github.com/ipfs/go-datastore" ds_sync "github.com/ipfs/go-datastore/sync" "github.com/stretchr/testify/require" "github.com/filecoin-project/go-address" "github.com/filecoin-project/go-state-types/abi" "github.com/filecoin-project/go-state-types/big" "github.com/filecoin-project/go-state-types/crypto" "github.com/filecoin-project/specs-actors/actors/builtin" paych0 "github.com/filecoin-project/specs-actors/actors/builtin/paych" tutils "github.com/filecoin-project/specs-actors/support/testing" "github.com/filecoin-project/lotus/api" "github.com/filecoin-project/lotus/chain/actors/builtin/paych" paychmock "github.com/filecoin-project/lotus/chain/actors/builtin/paych/mock" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/lib/sigs" ) func TestCheckVoucherValid(t *testing.T) { ctx := context.Background() fromKeyPrivate, fromKeyPublic := testGenerateKeyPair(t) toKeyPrivate, toKeyPublic := testGenerateKeyPair(t) randKeyPrivate, _ := testGenerateKeyPair(t) ch := tutils.NewIDAddr(t, 100) from := tutils.NewSECP256K1Addr(t, string(fromKeyPublic)) to := tutils.NewSECP256K1Addr(t, string(toKeyPublic)) fromAcct := tutils.NewActorAddr(t, "fromAct") toAcct := tutils.NewActorAddr(t, "toAct") mock := newMockManagerAPI() mock.setAccountAddress(fromAcct, from) mock.setAccountAddress(toAcct, to) tcases := []struct { name string expectError bool key []byte actorBalance big.Int voucherAmount big.Int voucherLane uint64 voucherNonce uint64 laneStates map[uint64]paych.LaneState }{{ name: "passes when voucher amount < balance", key: fromKeyPrivate, actorBalance: big.NewInt(10), voucherAmount: big.NewInt(5), }, { name: "fails when funds too low", expectError: true, key: fromKeyPrivate, actorBalance: big.NewInt(5), voucherAmount: big.NewInt(10), }, { name: "fails when invalid signature", expectError: true, key: randKeyPrivate, actorBalance: big.NewInt(10), voucherAmount: big.NewInt(5), }, { name: "fails when signed by channel To account (instead of From account)", expectError: true, key: toKeyPrivate, actorBalance: big.NewInt(10), voucherAmount: big.NewInt(5), }, { name: "fails when nonce too low", expectError: true, key: fromKeyPrivate, actorBalance: big.NewInt(10), voucherAmount: big.NewInt(5), voucherLane: 1, voucherNonce: 2, laneStates: map[uint64]paych.LaneState{ 1: paychmock.NewMockLaneState(big.NewInt(2), 3), }, }, { name: "passes when nonce higher", key: fromKeyPrivate, actorBalance: big.NewInt(10), voucherAmount: big.NewInt(5), voucherLane: 1, voucherNonce: 3, laneStates: map[uint64]paych.LaneState{ 1: paychmock.NewMockLaneState(big.NewInt(2), 2), }, }, { name: "passes when nonce for different lane", key: fromKeyPrivate, actorBalance: big.NewInt(10), voucherAmount: big.NewInt(5), voucherLane: 2, voucherNonce: 2, laneStates: map[uint64]paych.LaneState{ 1: paychmock.NewMockLaneState(big.NewInt(2), 3), }, }, { name: "fails when voucher has higher nonce but lower value than lane state", expectError: true, key: fromKeyPrivate, actorBalance: big.NewInt(10), voucherAmount: big.NewInt(5), voucherLane: 1, voucherNonce: 3, laneStates: map[uint64]paych.LaneState{ 1: paychmock.NewMockLaneState(big.NewInt(6), 2), }, }, { // voucher supersedes lane 1 redeemed so // lane 1 effective redeemed = voucher amount // // required balance = voucher amt // = 7 // So required balance: 7 < actor balance: 10 name: "passes when voucher total redeemed <= balance", key: fromKeyPrivate, actorBalance: big.NewInt(10), voucherAmount: big.NewInt(6), voucherLane: 1, voucherNonce: 2, laneStates: map[uint64]paych.LaneState{ // Lane 1 (same as voucher lane 1) 1: paychmock.NewMockLaneState(big.NewInt(4), 1), }, }, { // required balance = total redeemed // = 6 (voucher lane 1) + 5 (lane 2) // = 11 // So required balance: 11 > actor balance: 10 name: "fails when voucher total redeemed > balance", expectError: true, key: fromKeyPrivate, actorBalance: big.NewInt(10), voucherAmount: big.NewInt(6), voucherLane: 1, voucherNonce: 1, laneStates: map[uint64]paych.LaneState{ // Lane 2 (different from voucher lane 1) 2: paychmock.NewMockLaneState(big.NewInt(5), 1), }, }, { // voucher supersedes lane 1 redeemed so // lane 1 effective redeemed = voucher amount // // required balance = total redeemed // = 6 (new voucher lane 1) + 5 (lane 2) // = 11 // So required balance: 11 > actor balance: 10 name: "fails when voucher total redeemed > balance", expectError: true, key: fromKeyPrivate, actorBalance: big.NewInt(10), voucherAmount: big.NewInt(6), voucherLane: 1, voucherNonce: 2, laneStates: map[uint64]paych.LaneState{ // Lane 1 (superseded by new voucher in voucher lane 1) 1: paychmock.NewMockLaneState(big.NewInt(5), 1), // Lane 2 (different from voucher lane 1) 2: paychmock.NewMockLaneState(big.NewInt(5), 1), }, }, { // voucher supersedes lane 1 redeemed so // lane 1 effective redeemed = voucher amount // // required balance = total redeemed // = 5 (new voucher lane 1) + 5 (lane 2) // = 10 // So required balance: 10 <= actor balance: 10 name: "passes when voucher total redeemed <= balance", expectError: false, key: fromKeyPrivate, actorBalance: big.NewInt(10), voucherAmount: big.NewInt(5), voucherLane: 1, voucherNonce: 2, laneStates: map[uint64]paych.LaneState{ // Lane 1 (superseded by new voucher in voucher lane 1) 1: paychmock.NewMockLaneState(big.NewInt(4), 1), // Lane 2 (different from voucher lane 1) 2: paychmock.NewMockLaneState(big.NewInt(5), 1), }, }} for _, tcase := range tcases { tcase := tcase t.Run(tcase.name, func(t *testing.T) { // Create an actor for the channel with the test case balance act := &types.Actor{ Code: builtin.AccountActorCodeID, Head: cid.Cid{}, Nonce: 0, Balance: tcase.actorBalance, } mock.setPaychState(ch, act, paychmock.NewMockPayChState( fromAcct, toAcct, abi.ChainEpoch(0), tcase.laneStates)) // Create a manager store := NewStore(ds_sync.MutexWrap(ds.NewMapDatastore())) mgr, err := newManager(store, mock) require.NoError(t, err) // Add channel To address to wallet mock.addWalletAddress(to) // Create the test case signed voucher sv := createTestVoucher(t, ch, tcase.voucherLane, tcase.voucherNonce, tcase.voucherAmount, tcase.key) // Check the voucher's validity err = mgr.CheckVoucherValid(ctx, ch, sv) if tcase.expectError { require.Error(t, err) } else { require.NoError(t, err) } }) } } func TestCreateVoucher(t *testing.T) { ctx := context.Background() // Set up a manager with a single payment channel s := testSetupMgrWithChannel(t) // Create a voucher in lane 1 voucherLane1Amt := big.NewInt(5) voucher := paych0.SignedVoucher{ Lane: 1, Amount: voucherLane1Amt, } res, err := s.mgr.CreateVoucher(ctx, s.ch, voucher) require.NoError(t, err) require.NotNil(t, res.Voucher) require.Equal(t, s.ch, res.Voucher.ChannelAddr) require.Equal(t, voucherLane1Amt, res.Voucher.Amount) require.EqualValues(t, 0, res.Shortfall.Int64()) nonce := res.Voucher.Nonce // Create a voucher in lane 1 again, with a higher amount voucherLane1Amt = big.NewInt(8) voucher = paych0.SignedVoucher{ Lane: 1, Amount: voucherLane1Amt, } res, err = s.mgr.CreateVoucher(ctx, s.ch, voucher) require.NoError(t, err) require.NotNil(t, res.Voucher) require.Equal(t, s.ch, res.Voucher.ChannelAddr) require.Equal(t, voucherLane1Amt, res.Voucher.Amount) require.EqualValues(t, 0, res.Shortfall.Int64()) require.Equal(t, nonce+1, res.Voucher.Nonce) // Create a voucher in lane 2 that covers all the remaining funds // in the channel voucherLane2Amt := big.Sub(s.amt, voucherLane1Amt) voucher = paych0.SignedVoucher{ Lane: 2, Amount: voucherLane2Amt, } res, err = s.mgr.CreateVoucher(ctx, s.ch, voucher) require.NoError(t, err) require.NotNil(t, res.Voucher) require.Equal(t, s.ch, res.Voucher.ChannelAddr) require.Equal(t, voucherLane2Amt, res.Voucher.Amount) require.EqualValues(t, 0, res.Shortfall.Int64()) // Create a voucher in lane 2 that exceeds the remaining funds in the // channel voucherLane2Amt = big.Add(voucherLane2Amt, big.NewInt(1)) voucher = paych0.SignedVoucher{ Lane: 2, Amount: voucherLane2Amt, } res, err = s.mgr.CreateVoucher(ctx, s.ch, voucher) require.NoError(t, err) // Expect a shortfall value equal to the amount required to add the voucher // to the channel require.Nil(t, res.Voucher) require.EqualValues(t, 1, res.Shortfall.Int64()) } func TestAddVoucherDelta(t *testing.T) { ctx := context.Background() // Set up a manager with a single payment channel s := testSetupMgrWithChannel(t) voucherLane := uint64(1) // Expect error when adding a voucher whose amount is less than minDelta minDelta := big.NewInt(2) nonce := uint64(1) voucherAmount := big.NewInt(1) sv := createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) _, err := s.mgr.AddVoucherOutbound(ctx, s.ch, sv, nil, minDelta) require.Error(t, err) // Expect success when adding a voucher whose amount is equal to minDelta nonce++ voucherAmount = big.NewInt(2) sv = createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) delta, err := s.mgr.AddVoucherOutbound(ctx, s.ch, sv, nil, minDelta) require.NoError(t, err) require.EqualValues(t, delta.Int64(), 2) // Check that delta is correct when there's an existing voucher nonce++ voucherAmount = big.NewInt(5) sv = createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) delta, err = s.mgr.AddVoucherOutbound(ctx, s.ch, sv, nil, minDelta) require.NoError(t, err) require.EqualValues(t, delta.Int64(), 3) // Check that delta is correct when voucher added to a different lane nonce = uint64(1) voucherAmount = big.NewInt(6) voucherLane = uint64(2) sv = createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) delta, err = s.mgr.AddVoucherOutbound(ctx, s.ch, sv, nil, minDelta) require.NoError(t, err) require.EqualValues(t, delta.Int64(), 6) } func TestAddVoucherNextLane(t *testing.T) { ctx := context.Background() // Set up a manager with a single payment channel s := testSetupMgrWithChannel(t) minDelta := big.NewInt(0) voucherAmount := big.NewInt(2) // Add a voucher in lane 2 nonce := uint64(1) voucherLane := uint64(2) sv := createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) _, err := s.mgr.AddVoucherOutbound(ctx, s.ch, sv, nil, minDelta) require.NoError(t, err) ci, err := s.mgr.GetChannelInfo(s.ch) require.NoError(t, err) require.EqualValues(t, ci.NextLane, 3) // Allocate a lane (should be lane 3) lane, err := s.mgr.AllocateLane(s.ch) require.NoError(t, err) require.EqualValues(t, lane, 3) ci, err = s.mgr.GetChannelInfo(s.ch) require.NoError(t, err) require.EqualValues(t, ci.NextLane, 4) // Add a voucher in lane 1 voucherLane = uint64(1) sv = createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) _, err = s.mgr.AddVoucherOutbound(ctx, s.ch, sv, nil, minDelta) require.NoError(t, err) ci, err = s.mgr.GetChannelInfo(s.ch) require.NoError(t, err) require.EqualValues(t, ci.NextLane, 4) // Add a voucher in lane 7 voucherLane = uint64(7) sv = createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) _, err = s.mgr.AddVoucherOutbound(ctx, s.ch, sv, nil, minDelta) require.NoError(t, err) ci, err = s.mgr.GetChannelInfo(s.ch) require.NoError(t, err) require.EqualValues(t, ci.NextLane, 8) } func TestAllocateLane(t *testing.T) { // Set up a manager with a single payment channel s := testSetupMgrWithChannel(t) // First lane should be 0 lane, err := s.mgr.AllocateLane(s.ch) require.NoError(t, err) require.EqualValues(t, lane, 0) // Next lane should be 1 lane, err = s.mgr.AllocateLane(s.ch) require.NoError(t, err) require.EqualValues(t, lane, 1) } func TestAllocateLaneWithExistingLaneState(t *testing.T) { ctx := context.Background() fromKeyPrivate, fromKeyPublic := testGenerateKeyPair(t) ch := tutils.NewIDAddr(t, 100) from := tutils.NewSECP256K1Addr(t, string(fromKeyPublic)) to := tutils.NewSECP256K1Addr(t, "secpTo") fromAcct := tutils.NewActorAddr(t, "fromAct") toAcct := tutils.NewActorAddr(t, "toAct") mock := newMockManagerAPI() mock.setAccountAddress(fromAcct, from) mock.setAccountAddress(toAcct, to) mock.addWalletAddress(to) store := NewStore(ds_sync.MutexWrap(ds.NewMapDatastore())) // Create a channel that will be retrieved from state actorBalance := big.NewInt(10) act := &types.Actor{ Code: builtin.AccountActorCodeID, Head: cid.Cid{}, Nonce: 0, Balance: actorBalance, } mock.setPaychState(ch, act, paychmock.NewMockPayChState(fromAcct, toAcct, abi.ChainEpoch(0), make(map[uint64]paych.LaneState))) mgr, err := newManager(store, mock) require.NoError(t, err) // Create a voucher on lane 2 // (also reads the channel from state and puts it in the store) voucherLane := uint64(2) minDelta := big.NewInt(0) nonce := uint64(2) voucherAmount := big.NewInt(5) sv := createTestVoucher(t, ch, voucherLane, nonce, voucherAmount, fromKeyPrivate) _, err = mgr.AddVoucherInbound(ctx, ch, sv, nil, minDelta) require.NoError(t, err) // Allocate lane should return the next lane (lane 3) lane, err := mgr.AllocateLane(ch) require.NoError(t, err) require.EqualValues(t, 3, lane) } func TestAddVoucherProof(t *testing.T) { ctx := context.Background() // Set up a manager with a single payment channel s := testSetupMgrWithChannel(t) nonce := uint64(1) voucherAmount := big.NewInt(1) minDelta := big.NewInt(0) voucherAmount = big.NewInt(2) voucherLane := uint64(1) // Add a voucher with no proof var proof []byte sv := createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) _, err := s.mgr.AddVoucherOutbound(ctx, s.ch, sv, nil, minDelta) require.NoError(t, err) // Expect one voucher with no proof ci, err := s.mgr.GetChannelInfo(s.ch) require.NoError(t, err) require.Len(t, ci.Vouchers, 1) require.Len(t, ci.Vouchers[0].Proof, 0) // Add same voucher with no proof voucherLane = uint64(1) _, err = s.mgr.AddVoucherOutbound(ctx, s.ch, sv, proof, minDelta) require.NoError(t, err) // Expect one voucher with no proof ci, err = s.mgr.GetChannelInfo(s.ch) require.NoError(t, err) require.Len(t, ci.Vouchers, 1) require.Len(t, ci.Vouchers[0].Proof, 0) // Add same voucher with proof proof = []byte{1} _, err = s.mgr.AddVoucherOutbound(ctx, s.ch, sv, proof, minDelta) require.NoError(t, err) // Should add proof to existing voucher ci, err = s.mgr.GetChannelInfo(s.ch) require.NoError(t, err) require.Len(t, ci.Vouchers, 1) require.Len(t, ci.Vouchers[0].Proof, 1) } func TestAddVoucherInboundWalletKey(t *testing.T) { ctx := context.Background() fromKeyPrivate, fromKeyPublic := testGenerateKeyPair(t) ch := tutils.NewIDAddr(t, 100) from := tutils.NewSECP256K1Addr(t, string(fromKeyPublic)) to := tutils.NewSECP256K1Addr(t, "secpTo") fromAcct := tutils.NewActorAddr(t, "fromAct") toAcct := tutils.NewActorAddr(t, "toAct") // Create an actor for the channel in state act := &types.Actor{ Code: builtin.AccountActorCodeID, Head: cid.Cid{}, Nonce: 0, Balance: types.NewInt(20), } mock := newMockManagerAPI() mock.setAccountAddress(fromAcct, from) mock.setAccountAddress(toAcct, to) mock.setPaychState(ch, act, paychmock.NewMockPayChState(fromAcct, toAcct, abi.ChainEpoch(0), make(map[uint64]paych.LaneState))) // Create a manager store := NewStore(ds_sync.MutexWrap(ds.NewMapDatastore())) mgr, err := newManager(store, mock) require.NoError(t, err) // Add a voucher nonce := uint64(1) voucherLane := uint64(1) minDelta := big.NewInt(0) voucherAmount := big.NewInt(2) sv := createTestVoucher(t, ch, voucherLane, nonce, voucherAmount, fromKeyPrivate) _, err = mgr.AddVoucherInbound(ctx, ch, sv, nil, minDelta) // Should fail because there is no wallet key matching the channel To // address (ie, the channel is not "owned" by this node) require.Error(t, err) // Add wallet key for To address mock.addWalletAddress(to) // Add voucher again sv = createTestVoucher(t, ch, voucherLane, nonce, voucherAmount, fromKeyPrivate) _, err = mgr.AddVoucherInbound(ctx, ch, sv, nil, minDelta) // Should now pass because there is a wallet key matching the channel To // address require.NoError(t, err) } func TestBestSpendable(t *testing.T) { ctx := context.Background() // Set up a manager with a single payment channel s := testSetupMgrWithChannel(t) // Add vouchers to lane 1 with amounts: [1, 2, 3] voucherLane := uint64(1) minDelta := big.NewInt(0) nonce := uint64(1) voucherAmount := big.NewInt(1) svL1V1 := createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) _, err := s.mgr.AddVoucherInbound(ctx, s.ch, svL1V1, nil, minDelta) require.NoError(t, err) nonce++ voucherAmount = big.NewInt(2) svL1V2 := createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) _, err = s.mgr.AddVoucherInbound(ctx, s.ch, svL1V2, nil, minDelta) require.NoError(t, err) nonce++ voucherAmount = big.NewInt(3) svL1V3 := createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) _, err = s.mgr.AddVoucherInbound(ctx, s.ch, svL1V3, nil, minDelta) require.NoError(t, err) // Add voucher to lane 2 with amounts: [2] voucherLane = uint64(2) nonce = uint64(1) voucherAmount = big.NewInt(2) svL2V1 := createTestVoucher(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) _, err = s.mgr.AddVoucherInbound(ctx, s.ch, svL2V1, nil, minDelta) require.NoError(t, err) // Return success exit code from calls to check if voucher is spendable bsapi := newMockBestSpendableAPI(s.mgr) s.mock.setCallResponse(&api.InvocResult{ MsgRct: &types.MessageReceipt{ ExitCode: 0, }, }) // Verify best spendable vouchers on each lane vouchers, err := BestSpendableByLane(ctx, bsapi, s.ch) require.NoError(t, err) require.Len(t, vouchers, 2) vchr, ok := vouchers[1] require.True(t, ok) require.EqualValues(t, 3, vchr.Amount.Int64()) vchr, ok = vouchers[2] require.True(t, ok) require.EqualValues(t, 2, vchr.Amount.Int64()) // Submit voucher from lane 2 _, err = s.mgr.SubmitVoucher(ctx, s.ch, svL2V1, nil, nil) require.NoError(t, err) // Best spendable voucher should no longer include lane 2 // (because voucher has not been submitted) vouchers, err = BestSpendableByLane(ctx, bsapi, s.ch) require.NoError(t, err) require.Len(t, vouchers, 1) // Submit first voucher from lane 1 _, err = s.mgr.SubmitVoucher(ctx, s.ch, svL1V1, nil, nil) require.NoError(t, err) // Best spendable voucher for lane 1 should still be highest value voucher vouchers, err = BestSpendableByLane(ctx, bsapi, s.ch) require.NoError(t, err) require.Len(t, vouchers, 1) vchr, ok = vouchers[1] require.True(t, ok) require.EqualValues(t, 3, vchr.Amount.Int64()) } func TestCheckSpendable(t *testing.T) { ctx := context.Background() // Set up a manager with a single payment channel s := testSetupMgrWithChannel(t) // Create voucher with Extra voucherLane := uint64(1) nonce := uint64(1) voucherAmount := big.NewInt(1) voucher := createTestVoucherWithExtra(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) // Add voucher with proof minDelta := big.NewInt(0) proof := []byte("proof") _, err := s.mgr.AddVoucherInbound(ctx, s.ch, voucher, proof, minDelta) require.NoError(t, err) // Return success exit code from VM call, which indicates that voucher is // spendable successResponse := &api.InvocResult{ MsgRct: &types.MessageReceipt{ ExitCode: 0, }, } s.mock.setCallResponse(successResponse) // Check that spendable is true secret := []byte("secret") otherProof := []byte("other proof") spendable, err := s.mgr.CheckVoucherSpendable(ctx, s.ch, voucher, secret, otherProof) require.NoError(t, err) require.True(t, spendable) // Check that the secret and proof were passed through correctly lastCall := s.mock.getLastCall() var p paych0.UpdateChannelStateParams err = p.UnmarshalCBOR(bytes.NewReader(lastCall.Params)) require.NoError(t, err) require.Equal(t, otherProof, p.Proof) require.Equal(t, secret, p.Secret) // Check that if no proof is supplied, the proof supplied to add voucher // above is used secret2 := []byte("secret2") spendable, err = s.mgr.CheckVoucherSpendable(ctx, s.ch, voucher, secret2, nil) require.NoError(t, err) require.True(t, spendable) lastCall = s.mock.getLastCall() var p2 paych0.UpdateChannelStateParams err = p2.UnmarshalCBOR(bytes.NewReader(lastCall.Params)) require.NoError(t, err) require.Equal(t, proof, p2.Proof) require.Equal(t, secret2, p2.Secret) // Check that if VM call returns non-success exit code, spendable is false s.mock.setCallResponse(&api.InvocResult{ MsgRct: &types.MessageReceipt{ ExitCode: 1, }, }) spendable, err = s.mgr.CheckVoucherSpendable(ctx, s.ch, voucher, secret, nil) require.NoError(t, err) require.False(t, spendable) // Return success exit code (indicating voucher is spendable) s.mock.setCallResponse(successResponse) spendable, err = s.mgr.CheckVoucherSpendable(ctx, s.ch, voucher, secret, nil) require.NoError(t, err) require.True(t, spendable) // Check that voucher is no longer spendable once it has been submitted _, err = s.mgr.SubmitVoucher(ctx, s.ch, voucher, nil, nil) require.NoError(t, err) spendable, err = s.mgr.CheckVoucherSpendable(ctx, s.ch, voucher, secret, nil) require.NoError(t, err) require.False(t, spendable) } func TestSubmitVoucher(t *testing.T) { ctx := context.Background() // Set up a manager with a single payment channel s := testSetupMgrWithChannel(t) // Create voucher with Extra voucherLane := uint64(1) nonce := uint64(1) voucherAmount := big.NewInt(1) voucher := createTestVoucherWithExtra(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) // Add voucher with proof minDelta := big.NewInt(0) addVoucherProof := []byte("proof") _, err := s.mgr.AddVoucherInbound(ctx, s.ch, voucher, addVoucherProof, minDelta) require.NoError(t, err) // Submit voucher secret := []byte("secret") submitProof := []byte("submit proof") submitCid, err := s.mgr.SubmitVoucher(ctx, s.ch, voucher, secret, submitProof) require.NoError(t, err) // Check that the secret and proof were passed through correctly msg := s.mock.pushedMessages(submitCid) var p paych0.UpdateChannelStateParams err = p.UnmarshalCBOR(bytes.NewReader(msg.Message.Params)) require.NoError(t, err) require.Equal(t, submitProof, p.Proof) require.Equal(t, secret, p.Secret) // Check that if no proof is supplied to submit voucher, the proof supplied // to add voucher is used nonce++ voucherAmount = big.NewInt(2) addVoucherProof2 := []byte("proof2") secret2 := []byte("secret2") voucher = createTestVoucherWithExtra(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) _, err = s.mgr.AddVoucherInbound(ctx, s.ch, voucher, addVoucherProof2, minDelta) require.NoError(t, err) submitCid, err = s.mgr.SubmitVoucher(ctx, s.ch, voucher, secret2, nil) require.NoError(t, err) msg = s.mock.pushedMessages(submitCid) var p2 paych0.UpdateChannelStateParams err = p2.UnmarshalCBOR(bytes.NewReader(msg.Message.Params)) require.NoError(t, err) require.Equal(t, addVoucherProof2, p2.Proof) require.Equal(t, secret2, p2.Secret) // Submit a voucher without first adding it nonce++ voucherAmount = big.NewInt(3) secret3 := []byte("secret2") proof3 := []byte("proof3") voucher = createTestVoucherWithExtra(t, s.ch, voucherLane, nonce, voucherAmount, s.fromKeyPrivate) submitCid, err = s.mgr.SubmitVoucher(ctx, s.ch, voucher, secret3, proof3) require.NoError(t, err) msg = s.mock.pushedMessages(submitCid) var p3 paych0.UpdateChannelStateParams err = p3.UnmarshalCBOR(bytes.NewReader(msg.Message.Params)) require.NoError(t, err) require.Equal(t, proof3, p3.Proof) require.Equal(t, secret3, p3.Secret) // Verify that vouchers are marked as submitted vis, err := s.mgr.ListVouchers(ctx, s.ch) require.NoError(t, err) require.Len(t, vis, 3) for _, vi := range vis { require.True(t, vi.Submitted) } // Attempting to submit the same voucher again should fail _, err = s.mgr.SubmitVoucher(ctx, s.ch, voucher, secret2, nil) require.Error(t, err) } type testScaffold struct { mgr *Manager mock *mockManagerAPI ch address.Address amt big.Int fromAcct address.Address fromKeyPrivate []byte } func testSetupMgrWithChannel(t *testing.T) *testScaffold { fromKeyPrivate, fromKeyPublic := testGenerateKeyPair(t) ch := tutils.NewIDAddr(t, 100) from := tutils.NewSECP256K1Addr(t, string(fromKeyPublic)) to := tutils.NewSECP256K1Addr(t, "secpTo") fromAcct := tutils.NewActorAddr(t, "fromAct") toAcct := tutils.NewActorAddr(t, "toAct") mock := newMockManagerAPI() mock.setAccountAddress(fromAcct, from) mock.setAccountAddress(toAcct, to) // Create channel in state balance := big.NewInt(20) act := &types.Actor{ Code: builtin.AccountActorCodeID, Head: cid.Cid{}, Nonce: 0, Balance: balance, } mock.setPaychState(ch, act, paychmock.NewMockPayChState(fromAcct, toAcct, abi.ChainEpoch(0), make(map[uint64]paych.LaneState))) store := NewStore(ds_sync.MutexWrap(ds.NewMapDatastore())) mgr, err := newManager(store, mock) require.NoError(t, err) // Create the channel in the manager's store ci := &ChannelInfo{ Channel: &ch, Control: fromAcct, Target: toAcct, Direction: DirOutbound, } err = mgr.store.putChannelInfo(ci) require.NoError(t, err) // Add the from signing key to the wallet mock.addSigningKey(fromKeyPrivate) return &testScaffold{ mgr: mgr, mock: mock, ch: ch, amt: balance, fromAcct: fromAcct, fromKeyPrivate: fromKeyPrivate, } } func testGenerateKeyPair(t *testing.T) ([]byte, []byte) { priv, err := sigs.Generate(crypto.SigTypeSecp256k1) require.NoError(t, err) pub, err := sigs.ToPublic(crypto.SigTypeSecp256k1, priv) require.NoError(t, err) return priv, pub } func createTestVoucher(t *testing.T, ch address.Address, voucherLane uint64, nonce uint64, voucherAmount big.Int, key []byte) *paych0.SignedVoucher { sv := &paych0.SignedVoucher{ ChannelAddr: ch, Lane: voucherLane, Nonce: nonce, Amount: voucherAmount, } signingBytes, err := sv.SigningBytes() require.NoError(t, err) sig, err := sigs.Sign(crypto.SigTypeSecp256k1, key, signingBytes) require.NoError(t, err) sv.Signature = sig return sv } func createTestVoucherWithExtra(t *testing.T, ch address.Address, voucherLane uint64, nonce uint64, voucherAmount big.Int, key []byte) *paych0.SignedVoucher { sv := &paych0.SignedVoucher{ ChannelAddr: ch, Lane: voucherLane, Nonce: nonce, Amount: voucherAmount, Extra: &paych0.ModVerifyParams{ Actor: tutils.NewActorAddr(t, "act"), }, } signingBytes, err := sv.SigningBytes() require.NoError(t, err) sig, err := sigs.Sign(crypto.SigTypeSecp256k1, key, signingBytes) require.NoError(t, err) sv.Signature = sig return sv } type mockBestSpendableAPI struct { mgr *Manager } func (m *mockBestSpendableAPI) PaychVoucherList(ctx context.Context, ch address.Address) ([]*paych0.SignedVoucher, error) { vi, err := m.mgr.ListVouchers(ctx, ch) if err != nil { return nil, err } out := make([]*paych0.SignedVoucher, len(vi)) for k, v := range vi { out[k] = v.Voucher } return out, nil } func (m *mockBestSpendableAPI) PaychVoucherCheckSpendable(ctx context.Context, ch address.Address, voucher *paych0.SignedVoucher, secret []byte, proof []byte) (bool, error) { return m.mgr.CheckVoucherSpendable(ctx, ch, voucher, secret, proof) } func newMockBestSpendableAPI(mgr *Manager) BestSpendableAPI { return &mockBestSpendableAPI{mgr: mgr} }