package main import ( "os" "github.com/filecoin-project/go-address" "github.com/filecoin-project/specs-actors/actors/abi" "github.com/filecoin-project/specs-actors/actors/abi/big" init_ "github.com/filecoin-project/specs-actors/actors/builtin/init" "github.com/filecoin-project/specs-actors/actors/builtin/paych" "github.com/filecoin-project/specs-actors/actors/crypto" "github.com/filecoin-project/specs-actors/actors/runtime/exitcode" . "github.com/filecoin-project/oni/tvx/builders" "github.com/filecoin-project/oni/tvx/schema" ) func happyPathCreate() { metadata := &schema.Metadata{ID: "paych-create-ok", Version: "v1", Desc: "payment channel create"} v := MessageVector(metadata) v.Messages.SetDefaults(GasLimit(1_000_000_000), GasPrice(1)) // Set up sender and receiver accounts. var sender, receiver AddressHandle v.Actors.AccountN(address.SECP256K1, initialBal, &sender, &receiver) v.CommitPreconditions() // Add the constructor message. createMsg := v.Messages.Sugar().CreatePaychActor(sender.Robust, receiver.Robust, Value(toSend)) v.CommitApplies() expectedActorAddr := AddressHandle{ ID: MustNewIDAddr(MustIDFromAddress(receiver.ID) + 1), Robust: sender.NextActorAddress(0, 0), } // Verify init actor return. var ret init_.ExecReturn MustDeserialize(createMsg.Result.Return, &ret) v.Assert.Equal(expectedActorAddr.Robust, ret.RobustAddress) v.Assert.Equal(expectedActorAddr.ID, ret.IDAddress) // Verify the paych state. var state paych.State actor := v.Actors.ActorState(ret.IDAddress, &state) v.Assert.Equal(sender.ID, state.From) v.Assert.Equal(receiver.ID, state.To) v.Assert.Equal(toSend, actor.Balance) v.Finish(os.Stdout) } func happyPathUpdate() { metadata := &schema.Metadata{ID: "paych-update-ok", Version: "v1", Desc: "payment channel update"} var ( timelock = abi.ChainEpoch(0) lane = uint64(123) nonce = uint64(1) amount = big.NewInt(10) ) // Set up sender and receiver accounts. var sender, receiver AddressHandle var paychAddr AddressHandle v := MessageVector(metadata) v.Messages.SetDefaults(GasLimit(1_000_000_000), GasPrice(1)) v.Actors.AccountN(address.SECP256K1, initialBal, &sender, &receiver) paychAddr = AddressHandle{ ID: MustNewIDAddr(MustIDFromAddress(receiver.ID) + 1), Robust: sender.NextActorAddress(0, 0), } v.CommitPreconditions() // Construct the payment channel. createMsg := v.Messages.Sugar().CreatePaychActor(sender.Robust, receiver.Robust, Value(toSend)) // Update the payment channel. v.Messages.Typed(sender.Robust, paychAddr.Robust, PaychUpdateChannelState(&paych.UpdateChannelStateParams{ Sv: paych.SignedVoucher{ ChannelAddr: paychAddr.Robust, TimeLockMin: timelock, TimeLockMax: 0, // TimeLockMax set to 0 means no timeout Lane: lane, Nonce: nonce, Amount: amount, MinSettleHeight: 0, Signature: &crypto.Signature{ Type: crypto.SigTypeBLS, Data: []byte("signature goes here"), // TODO may need to generate an actual signature }, }}), Nonce(1), Value(big.Zero())) v.CommitApplies() // all messages succeeded. v.Assert.EveryMessageResultSatisfies(ExitCode(exitcode.Ok)) // Verify init actor return. var ret init_.ExecReturn MustDeserialize(createMsg.Result.Return, &ret) // Verify the paych state. var state paych.State v.Actors.ActorState(ret.RobustAddress, &state) v.Assert.Len(state.LaneStates, 1) ls := state.LaneStates[0] v.Assert.Equal(amount, ls.Redeemed) v.Assert.Equal(nonce, ls.Nonce) v.Assert.Equal(lane, ls.ID) v.Finish(os.Stdout) } func happyPathCollect() { metadata := &schema.Metadata{ID: "paych-collect-ok", Version: "v1", Desc: "payment channel collect"} v := MessageVector(metadata) v.Messages.SetDefaults(GasLimit(1_000_000_000), GasPrice(1)) // Set up sender and receiver accounts. var sender, receiver AddressHandle var paychAddr AddressHandle v.Actors.AccountN(address.SECP256K1, initialBal, &sender, &receiver) paychAddr = AddressHandle{ ID: MustNewIDAddr(MustIDFromAddress(receiver.ID) + 1), Robust: sender.NextActorAddress(0, 0), } v.CommitPreconditions() // Construct the payment channel. v.Messages.Sugar().CreatePaychActor(sender.Robust, receiver.Robust, Value(toSend)) // Update the payment channel. v.Messages.Typed(sender.Robust, paychAddr.Robust, PaychUpdateChannelState(&paych.UpdateChannelStateParams{ Sv: paych.SignedVoucher{ ChannelAddr: paychAddr.Robust, TimeLockMin: 0, TimeLockMax: 0, // TimeLockMax set to 0 means no timeout Lane: 1, Nonce: 1, Amount: toSend, MinSettleHeight: 0, Signature: &crypto.Signature{ Type: crypto.SigTypeBLS, Data: []byte("signature goes here"), // TODO may need to generate an actual signature }, }}), Nonce(1), Value(big.Zero())) settleMsg := v.Messages.Typed(receiver.Robust, paychAddr.Robust, PaychSettle(nil), Value(big.Zero()), Nonce(0)) // advance the epoch so the funds may be redeemed. collectMsg := v.Messages.Typed(receiver.Robust, paychAddr.Robust, PaychCollect(nil), Value(big.Zero()), Nonce(1), Epoch(paych.SettleDelay)) v.CommitApplies() // all messages succeeded. v.Assert.EveryMessageResultSatisfies(ExitCode(exitcode.Ok)) // receiver_balance = initial_balance + paych_send - settle_paych_msg_gas - collect_paych_msg_gas gasUsed := big.Add(big.NewInt(settleMsg.Result.MessageReceipt.GasUsed), big.NewInt(collectMsg.Result.MessageReceipt.GasUsed)) v.Assert.BalanceEq(receiver.Robust, big.Sub(big.Add(toSend, initialBal), gasUsed)) // the paych actor should have been deleted after the collect v.Assert.ActorMissing(paychAddr.Robust) v.Assert.ActorMissing(paychAddr.ID) v.Finish(os.Stdout) }