package actors_test import ( "testing" cbor "github.com/ipfs/go-ipld-cbor" "github.com/stretchr/testify/assert" cbg "github.com/whyrusleeping/cbor-gen" "github.com/filecoin-project/go-address" "github.com/filecoin-project/lotus/chain/actors" "github.com/filecoin-project/lotus/chain/types" "github.com/filecoin-project/lotus/chain/vm" ) func TestMultiSigCreate(t *testing.T) { var creatorAddr, sig1Addr, sig2Addr, outsideAddr address.Address opts := []HarnessOpt{ HarnessAddr(&creatorAddr, 100000), HarnessAddr(&sig1Addr, 100000), HarnessAddr(&sig2Addr, 100000), HarnessAddr(&outsideAddr, 100000), } h := NewHarness(t, opts...) ret, _ := h.CreateActor(t, creatorAddr, actors.MultisigCodeCid, &actors.MultiSigConstructorParams{ Signers: []address.Address{creatorAddr, sig1Addr, sig2Addr}, Required: 2, }) ApplyOK(t, ret) } func ApplyOK(t testing.TB, ret *vm.ApplyRet) { t.Helper() if ret.ExitCode != 0 { t.Fatalf("exit code should be 0, got %d, actorErr: %+v", ret.ExitCode, ret.ActorErr) } if ret.ActorErr != nil { t.Fatalf("somehow got an error with exit == 0: %s", ret.ActorErr) } } func TestMultiSigOps(t *testing.T) { var creatorAddr, sig1Addr, sig2Addr, outsideAddr address.Address var multSigAddr address.Address opts := []HarnessOpt{ HarnessAddr(&creatorAddr, 100000), HarnessAddr(&sig1Addr, 100000), HarnessAddr(&sig2Addr, 100000), HarnessAddr(&outsideAddr, 100000), HarnessActor(&multSigAddr, &creatorAddr, actors.MultisigCodeCid, func() cbg.CBORMarshaler { return &actors.MultiSigConstructorParams{ Signers: []address.Address{creatorAddr, sig1Addr, sig2Addr}, Required: 2, } }), } h := NewHarness(t, opts...) { const chargeVal = 2000 // Send funds into the multisig ret, _ := h.SendFunds(t, creatorAddr, multSigAddr, types.NewInt(chargeVal)) ApplyOK(t, ret) h.AssertBalanceChange(t, creatorAddr, -chargeVal) h.AssertBalanceChange(t, multSigAddr, chargeVal) } { // Transfer funds outside of multsig const sendVal = 1000 ret, _ := h.Invoke(t, creatorAddr, multSigAddr, actors.MultiSigMethods.Propose, &actors.MultiSigProposeParams{ To: outsideAddr, Value: types.NewInt(sendVal), }) ApplyOK(t, ret) var txIDParam actors.MultiSigTxID err := cbor.DecodeInto(ret.Return, &txIDParam.TxID) assert.NoError(t, err, "decoding txid") ret, _ = h.Invoke(t, outsideAddr, multSigAddr, actors.MultiSigMethods.Approve, &txIDParam) assert.Equal(t, uint8(1), ret.ExitCode, "outsideAddr should not approve") h.AssertBalanceChange(t, multSigAddr, 0) ret2, _ := h.Invoke(t, sig1Addr, multSigAddr, actors.MultiSigMethods.Approve, &txIDParam) ApplyOK(t, ret2) h.AssertBalanceChange(t, outsideAddr, sendVal) h.AssertBalanceChange(t, multSigAddr, -sendVal) } }