func testSendTx() { eyesCli := eyescli.NewLocalClient() chainID := "test_chain_id" bcApp := app.NewBasecoin(eyesCli) bcApp.SetOption("base/chainID", chainID) fmt.Println(bcApp.Info()) test1PrivAcc := tests.PrivAccountFromSecret("test1") test2PrivAcc := tests.PrivAccountFromSecret("test2") // Seed Basecoin with account test1Acc := test1PrivAcc.Account test1Acc.Balance = types.Coins{{"", 1000}} fmt.Println(bcApp.SetOption("base/account", string(wire.JSONBytes(test1Acc)))) // Construct a SendTx signature tx := &types.SendTx{ Fee: 0, Gas: 0, Inputs: []types.TxInput{ types.TxInput{ Address: test1PrivAcc.Account.PubKey.Address(), PubKey: test1PrivAcc.Account.PubKey, // TODO is this needed? Coins: types.Coins{{"", 1}}, Sequence: 1, }, }, Outputs: []types.TxOutput{ types.TxOutput{ Address: test2PrivAcc.Account.PubKey.Address(), Coins: types.Coins{{"", 1}}, }, }, } // Sign request signBytes := tx.SignBytes(chainID) fmt.Printf("Sign bytes: %X\n", signBytes) sig := test1PrivAcc.PrivKey.Sign(signBytes) tx.Inputs[0].Signature = sig //fmt.Println("tx:", tx) fmt.Printf("Signed TX bytes: %X\n", wire.BinaryBytes(struct{ types.Tx }{tx})) // Write request txBytes := wire.BinaryBytes(struct{ types.Tx }{tx}) res := bcApp.AppendTx(txBytes) fmt.Println(res) if res.IsErr() { Exit(Fmt("Failed: %v", res.Error())) } }
/* PrivKey: 019F86D081884C7D659A2FEAA0C55AD015A3BF4F1B2B0B822CD15D6C15B0F00A0867D3B5EAF0C0BF6B5A602D359DAECC86A7A74053490EC37AE08E71360587C870 PubKey: 0167D3B5EAF0C0BF6B5A602D359DAECC86A7A74053490EC37AE08E71360587C870 Address: D9B727742AA29FA638DC63D70813C976014C4CE0 */ func main() { tAcc := tests.PrivAccountFromSecret("test") fmt.Println("PrivKey:", fmt.Sprintf("%X", tAcc.PrivKey.Bytes())) fmt.Println("PubKey:", fmt.Sprintf("%X", tAcc.Account.PubKey.Bytes())) fmt.Println("Address:", fmt.Sprintf("%X", tAcc.Account.PubKey.Address())) fmt.Println(string(wire.JSONBytesPretty(tAcc))) }
func main() { // ws := rpcclient.NewWSClient("127.0.0.1:46657", "/websocket") ws := rpcclient.NewWSClient("192.168.99.100:46657", "/websocket") chainID := "test_chain_id" _, err := ws.Start() if err != nil { Exit(err.Error()) } var counter = 0 // Read a bunch of responses go func() { for { res, ok := <-ws.ResultsCh if !ok { break } fmt.Println(counter, "res:", Blue(string(res))) } }() // Get the root account root := tests.PrivAccountFromSecret("test") sequence := int(0) // Make a bunch of PrivAccounts privAccounts := tests.RandAccounts(1000, 1000000, 0) privAccountSequences := make(map[string]int) // Send coins to each account for i := 0; i < len(privAccounts); i++ { privAccount := privAccounts[i] tx := &types.SendTx{ Inputs: []types.TxInput{ types.TxInput{ Address: root.Account.PubKey.Address(), PubKey: root.Account.PubKey, // TODO is this needed? Coins: types.Coins{{"", 1000002}}, Sequence: sequence, }, }, Outputs: []types.TxOutput{ types.TxOutput{ Address: privAccount.Account.PubKey.Address(), Coins: types.Coins{{"", 1000000}}, }, }, } sequence += 1 // Sign request signBytes := tx.SignBytes(chainID) sig := root.PrivKey.Sign(signBytes) tx.Inputs[0].Signature = sig //fmt.Println("tx:", tx) // Write request txBytes := wire.BinaryBytes(struct{ types.Tx }{tx}) request := rpctypes.NewRPCRequest("fakeid", "broadcast_tx_sync", Arr(txBytes)) reqBytes := wire.JSONBytes(request) //fmt.Print(".") err := ws.WriteMessage(websocket.TextMessage, reqBytes) if err != nil { Exit("writing websocket request: " + err.Error()) } } // Now send coins between these accounts for { counter += 1 time.Sleep(time.Millisecond * 10) randA := RandInt() % len(privAccounts) randB := RandInt() % len(privAccounts) if randA == randB { continue } privAccountA := privAccounts[randA] privAccountASequence := privAccountSequences[privAccountA.Account.PubKey.KeyString()] privAccountSequences[privAccountA.Account.PubKey.KeyString()] = privAccountASequence + 1 privAccountB := privAccounts[randB] tx := &types.SendTx{ Inputs: []types.TxInput{ types.TxInput{ Address: privAccountA.Account.PubKey.Address(), PubKey: privAccountA.Account.PubKey, Coins: types.Coins{{"", 3}}, Sequence: privAccountASequence + 1, }, }, Outputs: []types.TxOutput{ types.TxOutput{ Address: privAccountB.Account.PubKey.Address(), Coins: types.Coins{{"", 1}}, }, }, } // Sign request signBytes := tx.SignBytes(chainID) sig := privAccountA.PrivKey.Sign(signBytes) tx.Inputs[0].Signature = sig //fmt.Println("tx:", tx) // Write request txBytes := wire.BinaryBytes(struct{ types.Tx }{tx}) request := rpctypes.NewRPCRequest("fakeid", "broadcast_tx_sync", Arr(txBytes)) reqBytes := wire.JSONBytes(request) //fmt.Print(".") err := ws.WriteMessage(websocket.TextMessage, reqBytes) if err != nil { Exit("writing websocket request: " + err.Error()) } } ws.Stop() }
func testGov() { eyesCli := eyescli.NewLocalClient() chainID := "test_chain_id" bcApp := app.NewBasecoin(eyesCli) bcApp.SetOption("base/chainID", chainID) fmt.Println(bcApp.Info()) adminPrivAcc := tests.PrivAccountFromSecret("admin") val0PrivKey := crypto.GenPrivKeyEd25519FromSecret([]byte("val0")) val1PrivKey := crypto.GenPrivKeyEd25519FromSecret([]byte("val1")) val2PrivKey := crypto.GenPrivKeyEd25519FromSecret([]byte("val2")) // Seed Basecoin with admin using PrivAccount adminAcc := adminPrivAcc.Account adminEntity := govtypes.Entity{ Addr: adminAcc.PubKey.Address(), PubKey: adminAcc.PubKey, } log := bcApp.SetOption("gov/admin", string(wire.JSONBytes(adminEntity))) if log != "Success" { Exit(Fmt("Failed to set option: %v", log)) } adminAccount := types.Account{ PubKey: adminAcc.PubKey, Sequence: 0, Balance: types.Coins{{"", 1 << 53}}, } log = bcApp.SetOption("base/account", string(wire.JSONBytes(adminAccount))) if log != "Success" { Exit(Fmt("Failed to set option: %v", log)) } // Call InitChain to initialize the validator set bcApp.InitChain([]*tmsp.Validator{ {PubKey: val0PrivKey.PubKey().Bytes(), Power: 1}, {PubKey: val1PrivKey.PubKey().Bytes(), Power: 1}, {PubKey: val2PrivKey.PubKey().Bytes(), Power: 1}, }) // Query for validator set res := bcApp.Query([]byte("XXX")) if res.IsErr() { Exit(Fmt("Failed to query validators: %v", res.Error())) } group := govtypes.Group{} err := wire.ReadBinaryBytes(res.Data, &group) if err != nil { Exit(Fmt("Unexpected query response bytes: %X error: %v", res.Data, err)) } // fmt.Println("Initialized gov/g/validators", group) // Mutate the validator set. proposal := govtypes.Proposal{ ID: "my_proposal_id", VoteGroupID: "admin", StartHeight: 0, EndHeight: 0, Info: &govtypes.GroupUpdateProposalInfo{ UpdateGroupID: "validators", NextVersion: 0, ChangedMembers: []govtypes.Member{ {nil, 1}, // TODO Fill this out. }, }, } proposalTx := &govtypes.ProposalTx{ EntityAddr: adminEntity.Addr, Proposal: proposal, } proposalTx.Signature = adminPrivAcc.Sign(proposalTx.SignBytes()) tx := &types.AppTx{ Fee: 1, Gas: 1, Type: app.PluginTypeByteGov, // XXX Remove typebytes? Input: types.TxInput{ Address: adminEntity.Addr, Coins: types.Coins{{"", 1}}, Sequence: 1, PubKey: adminEntity.PubKey, }, Data: wire.BinaryBytes(struct{ govtypes.Tx }{proposalTx}), } tx.SetSignature(adminPrivAcc.Sign(tx.SignBytes(chainID))) res = bcApp.AppendTx(wire.BinaryBytes(struct{ types.Tx }{tx})) if res.IsErr() { Exit(Fmt("Failed to mutate validators: %v", res.Error())) } fmt.Println(res) // XXX Difficult to debug without a stacktrace... // TODO more tests... }
func testSequence() { eyesCli := eyescli.NewLocalClient() chainID := "test_chain_id" bcApp := app.NewBasecoin(eyesCli) bcApp.SetOption("base/chainID", chainID) fmt.Println(bcApp.Info()) // Get the test account test1PrivAcc := tests.PrivAccountFromSecret("test1") test1Acc := test1PrivAcc.Account test1Acc.Balance = types.Coins{{"", 1 << 53}} fmt.Println(bcApp.SetOption("base/account", string(wire.JSONBytes(test1Acc)))) sequence := int(1) // Make a bunch of PrivAccounts privAccounts := tests.RandAccounts(1000, 1000000, 0) privAccountSequences := make(map[string]int) // Send coins to each account for i := 0; i < len(privAccounts); i++ { privAccount := privAccounts[i] tx := &types.SendTx{ Fee: 2, Gas: 2, Inputs: []types.TxInput{ types.TxInput{ Address: test1Acc.PubKey.Address(), PubKey: test1Acc.PubKey, // TODO is this needed? Coins: types.Coins{{"", 1000002}}, Sequence: sequence, }, }, Outputs: []types.TxOutput{ types.TxOutput{ Address: privAccount.Account.PubKey.Address(), Coins: types.Coins{{"", 1000000}}, }, }, } sequence += 1 // Sign request signBytes := tx.SignBytes(chainID) sig := test1PrivAcc.PrivKey.Sign(signBytes) tx.Inputs[0].Signature = sig // fmt.Printf("ADDR: %X -> %X\n", tx.Inputs[0].Address, tx.Outputs[0].Address) // Write request txBytes := wire.BinaryBytes(struct{ types.Tx }{tx}) res := bcApp.AppendTx(txBytes) if res.IsErr() { Exit("AppendTx error: " + res.Error()) } } fmt.Println("-------------------- RANDOM SENDS --------------------") // Now send coins between these accounts for i := 0; i < 10000; i++ { randA := RandInt() % len(privAccounts) randB := RandInt() % len(privAccounts) if randA == randB { continue } privAccountA := privAccounts[randA] privAccountASequence := privAccountSequences[privAccountA.Account.PubKey.KeyString()] privAccountSequences[privAccountA.Account.PubKey.KeyString()] = privAccountASequence + 1 privAccountB := privAccounts[randB] tx := &types.SendTx{ Fee: 2, Gas: 2, Inputs: []types.TxInput{ types.TxInput{ Address: privAccountA.Account.PubKey.Address(), PubKey: privAccountA.Account.PubKey, Coins: types.Coins{{"", 3}}, Sequence: privAccountASequence + 1, }, }, Outputs: []types.TxOutput{ types.TxOutput{ Address: privAccountB.Account.PubKey.Address(), Coins: types.Coins{{"", 1}}, }, }, } // Sign request signBytes := tx.SignBytes(chainID) sig := privAccountA.PrivKey.Sign(signBytes) tx.Inputs[0].Signature = sig // fmt.Printf("ADDR: %X -> %X\n", tx.Inputs[0].Address, tx.Outputs[0].Address) // Write request txBytes := wire.BinaryBytes(struct{ types.Tx }{tx}) res := bcApp.AppendTx(txBytes) if res.IsErr() { Exit("AppendTx error: " + res.Error()) } } }