diff --git a/cmd/geth/blocktestcmd.go b/cmd/geth/blocktestcmd.go deleted file mode 100644 index e4d97aa53..000000000 --- a/cmd/geth/blocktestcmd.go +++ /dev/null @@ -1,135 +0,0 @@ -// Copyright 2015 The go-ethereum Authors -// This file is part of go-ethereum. -// -// go-ethereum is free software: you can redistribute it and/or modify -// it under the terms of the GNU General Public License as published by -// the Free Software Foundation, either version 3 of the License, or -// (at your option) any later version. -// -// go-ethereum is distributed in the hope that it will be useful, -// but WITHOUT ANY WARRANTY; without even the implied warranty of -// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the -// GNU General Public License for more details. -// -// You should have received a copy of the GNU General Public License -// along with go-ethereum. If not, see . - -package main - -import ( - "fmt" - "os" - - "github.com/codegangsta/cli" - "github.com/ethereum/go-ethereum/cmd/utils" - "github.com/ethereum/go-ethereum/eth" - "github.com/ethereum/go-ethereum/ethdb" - "github.com/ethereum/go-ethereum/tests" -) - -var blocktestCommand = cli.Command{ - Action: runBlockTest, - Name: "blocktest", - Usage: `loads a block test file`, - Description: ` -The first argument should be a block test file. -The second argument is the name of a block test from the file. - -The block test will be loaded into an in-memory database. -If loading succeeds, the RPC server is started. Clients will -be able to interact with the chain defined by the test. -`, -} - -func runBlockTest(ctx *cli.Context) { - var ( - file, testname string - rpc bool - ) - args := ctx.Args() - switch { - case len(args) == 1: - file = args[0] - case len(args) == 2: - file, testname = args[0], args[1] - case len(args) == 3: - file, testname = args[0], args[1] - rpc = true - default: - utils.Fatalf(`Usage: ethereum blocktest [ [ "rpc" ] ]`) - } - bt, err := tests.LoadBlockTests(file) - if err != nil { - utils.Fatalf("%v", err) - } - - // run all tests if no test name is specified - if testname == "" { - ecode := 0 - for name, test := range bt { - fmt.Printf("----------------- Running Block Test %q\n", name) - ethereum, err := runOneBlockTest(ctx, test) - if err != nil { - fmt.Println(err) - fmt.Println("FAIL") - ecode = 1 - } - if ethereum != nil { - ethereum.Stop() - ethereum.WaitForShutdown() - } - } - os.Exit(ecode) - return - } - // otherwise, run the given test - test, ok := bt[testname] - if !ok { - utils.Fatalf("Test file does not contain test named %q", testname) - } - ethereum, err := runOneBlockTest(ctx, test) - if err != nil { - utils.Fatalf("%v", err) - } - if rpc { - fmt.Println("Block Test post state validated, starting RPC interface.") - startEth(ctx, ethereum) - utils.StartRPC(ethereum, ctx) - ethereum.WaitForShutdown() - } -} - -func runOneBlockTest(ctx *cli.Context, test *tests.BlockTest) (*eth.Ethereum, error) { - cfg := utils.MakeEthConfig(ClientIdentifier, Version, ctx) - db, _ := ethdb.NewMemDatabase() - cfg.NewDB = func(path string) (ethdb.Database, error) { return db, nil } - cfg.MaxPeers = 0 // disable network - cfg.Shh = false // disable whisper - cfg.NAT = nil // disable port mapping - ethereum, err := eth.New(cfg) - if err != nil { - return nil, err - } - - // import the genesis block - ethereum.ResetWithGenesisBlock(test.Genesis) - // import pre accounts - _, err = test.InsertPreState(db, cfg.AccountManager) - if err != nil { - return ethereum, fmt.Errorf("InsertPreState: %v", err) - } - - cm := ethereum.BlockChain() - validBlocks, err := test.TryBlocksInsert(cm) - if err != nil { - return ethereum, fmt.Errorf("Block Test load error: %v", err) - } - newDB, err := cm.State() - if err != nil { - return ethereum, fmt.Errorf("Block Test get state error: %v", err) - } - if err := test.ValidatePostState(newDB); err != nil { - return ethereum, fmt.Errorf("post state validation failed: %v", err) - } - return ethereum, test.ValidateImportedHeaders(cm, validBlocks) -} diff --git a/cmd/geth/js.go b/cmd/geth/js.go index 17f781f06..196f3af59 100644 --- a/cmd/geth/js.go +++ b/cmd/geth/js.go @@ -34,6 +34,7 @@ import ( "github.com/ethereum/go-ethereum/common/registrar" "github.com/ethereum/go-ethereum/eth" re "github.com/ethereum/go-ethereum/jsre" + "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/rpc" "github.com/ethereum/go-ethereum/rpc/api" "github.com/ethereum/go-ethereum/rpc/codec" @@ -77,7 +78,7 @@ func (r dumbterm) AppendHistory(string) {} type jsre struct { re *re.JSRE - ethereum *eth.Ethereum + stack *node.Node xeth *xeth.XEth wait chan *big.Int ps1 string @@ -176,18 +177,18 @@ func newLightweightJSRE(docRoot string, client comms.EthereumClient, datadir str return js } -func newJSRE(ethereum *eth.Ethereum, docRoot, corsDomain string, client comms.EthereumClient, interactive bool, f xeth.Frontend) *jsre { - js := &jsre{ethereum: ethereum, ps1: "> "} +func newJSRE(stack *node.Node, docRoot, corsDomain string, client comms.EthereumClient, interactive bool, f xeth.Frontend) *jsre { + js := &jsre{stack: stack, ps1: "> "} // set default cors domain used by startRpc from CLI flag js.corsDomain = corsDomain if f == nil { f = js } - js.xeth = xeth.New(ethereum, f) + js.xeth = xeth.New(stack, f) js.wait = js.xeth.UpdateState() js.client = client if clt, ok := js.client.(*comms.InProcClient); ok { - if offeredApis, err := api.ParseApiString(shared.AllApis, codec.JSON, js.xeth, ethereum); err == nil { + if offeredApis, err := api.ParseApiString(shared.AllApis, codec.JSON, js.xeth, stack); err == nil { clt.Initialize(api.Merge(offeredApis...)) } } @@ -202,14 +203,14 @@ func newJSRE(ethereum *eth.Ethereum, docRoot, corsDomain string, client comms.Et js.prompter = dumbterm{bufio.NewReader(os.Stdin)} } else { lr := liner.NewLiner() - js.withHistory(ethereum.DataDir, func(hist *os.File) { lr.ReadHistory(hist) }) + js.withHistory(stack.DataDir(), func(hist *os.File) { lr.ReadHistory(hist) }) lr.SetCtrlCAborts(true) js.loadAutoCompletion() lr.SetWordCompleter(apiWordCompleter) lr.SetTabCompletionStyle(liner.TabPrints) js.prompter = lr js.atexit = func() { - js.withHistory(ethereum.DataDir, func(hist *os.File) { hist.Truncate(0); lr.WriteHistory(hist) }) + js.withHistory(stack.DataDir(), func(hist *os.File) { hist.Truncate(0); lr.WriteHistory(hist) }) lr.Close() close(js.wait) } @@ -276,7 +277,7 @@ func (js *jsre) apiBindings(f xeth.Frontend) error { apiNames = append(apiNames, a) } - apiImpl, err := api.ParseApiString(strings.Join(apiNames, ","), codec.JSON, js.xeth, js.ethereum) + apiImpl, err := api.ParseApiString(strings.Join(apiNames, ","), codec.JSON, js.xeth, js.stack) if err != nil { utils.Fatalf("Unable to determine supported api's: %v", err) } @@ -342,8 +343,14 @@ func (self *jsre) AskPassword() (string, bool) { } func (self *jsre) ConfirmTransaction(tx string) bool { - if self.ethereum.NatSpec { - notice := natspec.GetNotice(self.xeth, tx, self.ethereum.HTTPClient()) + // Retrieve the Ethereum instance from the node + var ethereum *eth.Ethereum + if err := self.stack.Service(ðereum); err != nil { + return false + } + // If natspec is enabled, ask for permission + if ethereum.NatSpec { + notice := natspec.GetNotice(self.xeth, tx, ethereum.HTTPClient()) fmt.Println(notice) answer, _ := self.Prompt("Confirm Transaction [y/n]") return strings.HasPrefix(strings.Trim(answer, " "), "y") @@ -359,7 +366,11 @@ func (self *jsre) UnlockAccount(addr []byte) bool { return false } // TODO: allow retry - if err := self.ethereum.AccountManager().Unlock(common.BytesToAddress(addr), pass); err != nil { + var ethereum *eth.Ethereum + if err := self.stack.Service(ðereum); err != nil { + return false + } + if err := ethereum.AccountManager().Unlock(common.BytesToAddress(addr), pass); err != nil { return false } else { fmt.Println("Account is now unlocked for this session.") diff --git a/cmd/geth/js_test.go b/cmd/geth/js_test.go index 477079706..a0f3f2fb7 100644 --- a/cmd/geth/js_test.go +++ b/cmd/geth/js_test.go @@ -38,6 +38,7 @@ import ( "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/eth" "github.com/ethereum/go-ethereum/ethdb" + "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/rpc/codec" "github.com/ethereum/go-ethereum/rpc/comms" ) @@ -66,7 +67,10 @@ type testjethre struct { } func (self *testjethre) UnlockAccount(acc []byte) bool { - err := self.ethereum.AccountManager().Unlock(common.BytesToAddress(acc), "") + var ethereum *eth.Ethereum + self.stack.Service(ðereum) + + err := ethereum.AccountManager().Unlock(common.BytesToAddress(acc), "") if err != nil { panic("unable to unlock") } @@ -74,67 +78,74 @@ func (self *testjethre) UnlockAccount(acc []byte) bool { } func (self *testjethre) ConfirmTransaction(tx string) bool { - if self.ethereum.NatSpec { + var ethereum *eth.Ethereum + self.stack.Service(ðereum) + + if ethereum.NatSpec { self.lastConfirm = natspec.GetNotice(self.xeth, tx, self.client) } return true } -func testJEthRE(t *testing.T) (string, *testjethre, *eth.Ethereum) { +func testJEthRE(t *testing.T) (string, *testjethre, *node.Node) { return testREPL(t, nil) } -func testREPL(t *testing.T, config func(*eth.Config)) (string, *testjethre, *eth.Ethereum) { +func testREPL(t *testing.T, config func(*eth.Config)) (string, *testjethre, *node.Node) { tmp, err := ioutil.TempDir("", "geth-test") if err != nil { t.Fatal(err) } + // Create a networkless protocol stack + stack, err := node.New(&node.Config{PrivateKey: testNodeKey, Name: "test", NoDiscovery: true}) + if err != nil { + t.Fatalf("failed to create node: %v", err) + } + // Initialize and register the Ethereum protocol + keystore := crypto.NewKeyStorePlain(filepath.Join(tmp, "keystore")) + accman := accounts.NewManager(keystore) db, _ := ethdb.NewMemDatabase() - core.WriteGenesisBlockForTesting(db, core.GenesisAccount{common.HexToAddress(testAddress), common.String2Big(testBalance)}) - ks := crypto.NewKeyStorePlain(filepath.Join(tmp, "keystore")) - am := accounts.NewManager(ks) - conf := ð.Config{ - NodeKey: testNodeKey, - DataDir: tmp, - AccountManager: am, - MaxPeers: 0, - Name: "test", - DocRoot: "/", - SolcPath: testSolcPath, - PowTest: true, - NewDB: func(path string) (ethdb.Database, error) { return db, nil }, + + ethConf := ð.Config{ + TestGenesisState: db, + AccountManager: accman, + DocRoot: "/", + SolcPath: testSolcPath, + PowTest: true, } if config != nil { - config(conf) + config(ethConf) } - ethereum, err := eth.New(conf) - if err != nil { - t.Fatal("%v", err) + if err := stack.Register(func(ctx *node.ServiceContext) (node.Service, error) { return eth.New(ctx, ethConf) }); err != nil { + t.Fatalf("failed to register ethereum protocol: %v", err) } - + // Initialize all the keys for testing keyb, err := crypto.HexToECDSA(testKey) if err != nil { t.Fatal(err) } key := crypto.NewKeyFromECDSA(keyb) - err = ks.StoreKey(key, "") - if err != nil { + if err := keystore.StoreKey(key, ""); err != nil { t.Fatal(err) } - - err = am.Unlock(key.Address, "") - if err != nil { + if err := accman.Unlock(key.Address, ""); err != nil { t.Fatal(err) } + // Start the node and assemble the REPL tester + if err := stack.Start(); err != nil { + t.Fatalf("failed to start test stack: %v", err) + } + var ethereum *eth.Ethereum + stack.Service(ðereum) assetPath := filepath.Join(os.Getenv("GOPATH"), "src", "github.com", "ethereum", "go-ethereum", "cmd", "mist", "assets", "ext") client := comms.NewInProcClient(codec.JSON) tf := &testjethre{client: ethereum.HTTPClient()} - repl := newJSRE(ethereum, assetPath, "", client, false, tf) + repl := newJSRE(stack, assetPath, "", client, false, tf) tf.jsre = repl - return tmp, tf, ethereum + return tmp, tf, stack } func TestNodeInfo(t *testing.T) { @@ -151,11 +162,8 @@ func TestNodeInfo(t *testing.T) { } func TestAccounts(t *testing.T) { - tmp, repl, ethereum := testJEthRE(t) - if err := ethereum.Start(); err != nil { - t.Fatalf("error starting ethereum: %v", err) - } - defer ethereum.Stop() + tmp, repl, node := testJEthRE(t) + defer node.Stop() defer os.RemoveAll(tmp) checkEvalJSON(t, repl, `eth.accounts`, `["`+testAddress+`"]`) @@ -174,11 +182,8 @@ func TestAccounts(t *testing.T) { } func TestBlockChain(t *testing.T) { - tmp, repl, ethereum := testJEthRE(t) - if err := ethereum.Start(); err != nil { - t.Fatalf("error starting ethereum: %v", err) - } - defer ethereum.Stop() + tmp, repl, node := testJEthRE(t) + defer node.Stop() defer os.RemoveAll(tmp) // get current block dump before export/import. val, err := repl.re.Run("JSON.stringify(debug.dumpBlock(eth.blockNumber))") @@ -196,6 +201,8 @@ func TestBlockChain(t *testing.T) { tmpfile := filepath.Join(extmp, "export.chain") tmpfileq := strconv.Quote(tmpfile) + var ethereum *eth.Ethereum + node.Service(ðereum) ethereum.BlockChain().Reset() checkEvalJSON(t, repl, `admin.exportChain(`+tmpfileq+`)`, `true`) @@ -209,22 +216,15 @@ func TestBlockChain(t *testing.T) { } func TestMining(t *testing.T) { - tmp, repl, ethereum := testJEthRE(t) - if err := ethereum.Start(); err != nil { - t.Fatalf("error starting ethereum: %v", err) - } - defer ethereum.Stop() + tmp, repl, node := testJEthRE(t) + defer node.Stop() defer os.RemoveAll(tmp) checkEvalJSON(t, repl, `eth.mining`, `false`) } func TestRPC(t *testing.T) { - tmp, repl, ethereum := testJEthRE(t) - if err := ethereum.Start(); err != nil { - t.Errorf("error starting ethereum: %v", err) - return - } - defer ethereum.Stop() + tmp, repl, node := testJEthRE(t) + defer node.Stop() defer os.RemoveAll(tmp) checkEvalJSON(t, repl, `admin.startRPC("127.0.0.1", 5004, "*", "web3,eth,net")`, `true`) @@ -234,12 +234,8 @@ func TestCheckTestAccountBalance(t *testing.T) { t.Skip() // i don't think it tests the correct behaviour here. it's actually testing // internals which shouldn't be tested. This now fails because of a change in the core // and i have no means to fix this, sorry - @obscuren - tmp, repl, ethereum := testJEthRE(t) - if err := ethereum.Start(); err != nil { - t.Errorf("error starting ethereum: %v", err) - return - } - defer ethereum.Stop() + tmp, repl, node := testJEthRE(t) + defer node.Stop() defer os.RemoveAll(tmp) repl.re.Run(`primary = "` + testAddress + `"`) @@ -247,12 +243,8 @@ func TestCheckTestAccountBalance(t *testing.T) { } func TestSignature(t *testing.T) { - tmp, repl, ethereum := testJEthRE(t) - if err := ethereum.Start(); err != nil { - t.Errorf("error starting ethereum: %v", err) - return - } - defer ethereum.Stop() + tmp, repl, node := testJEthRE(t) + defer node.Stop() defer os.RemoveAll(tmp) val, err := repl.re.Run(`eth.sign("` + testAddress + `", "` + testHash + `")`) @@ -443,7 +435,10 @@ multiply7 = Multiply7.at(contractaddress); } func pendingTransactions(repl *testjethre, t *testing.T) (txc int64, err error) { - txs := repl.ethereum.TxPool().GetTransactions() + var ethereum *eth.Ethereum + repl.stack.Service(ðereum) + + txs := ethereum.TxPool().GetTransactions() return int64(len(txs)), nil } @@ -468,12 +463,15 @@ func processTxs(repl *testjethre, t *testing.T, expTxc int) bool { t.Errorf("incorrect number of pending transactions, expected %v, got %v", expTxc, txc) return false } - err = repl.ethereum.StartMining(runtime.NumCPU(), "") + var ethereum *eth.Ethereum + repl.stack.Service(ðereum) + + err = ethereum.StartMining(runtime.NumCPU(), "") if err != nil { t.Errorf("unexpected error mining: %v", err) return false } - defer repl.ethereum.StopMining() + defer ethereum.StopMining() timer := time.NewTimer(100 * time.Second) height := new(big.Int).Add(repl.xeth.CurrentBlock().Number(), big.NewInt(1)) diff --git a/cmd/geth/main.go b/cmd/geth/main.go index 82bc21ab0..3a5471845 100644 --- a/cmd/geth/main.go +++ b/cmd/geth/main.go @@ -33,13 +33,11 @@ import ( "github.com/ethereum/go-ethereum/accounts" "github.com/ethereum/go-ethereum/cmd/utils" "github.com/ethereum/go-ethereum/common" - "github.com/ethereum/go-ethereum/core" - "github.com/ethereum/go-ethereum/core/types" "github.com/ethereum/go-ethereum/eth" - "github.com/ethereum/go-ethereum/ethdb" "github.com/ethereum/go-ethereum/logger" "github.com/ethereum/go-ethereum/logger/glog" "github.com/ethereum/go-ethereum/metrics" + "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/params" "github.com/ethereum/go-ethereum/rlp" "github.com/ethereum/go-ethereum/rpc/codec" @@ -68,22 +66,9 @@ func init() { } app = utils.NewApp(Version, "the go-ethereum command line interface") - app.Action = run + app.Action = geth app.HideVersion = true // we have a command to print the version app.Commands = []cli.Command{ - { - Action: blockRecovery, - Name: "recover", - Usage: "Attempts to recover a corrupted database by setting a new block by number or hash", - Description: ` -The recover commands will attempt to read out the last -block based on that. - -recover #number recovers by number -recover recovers by hash -`, - }, - blocktestCommand, importCommand, exportCommand, upgradedbCommand, @@ -285,7 +270,7 @@ This command allows to open a console on a running geth node. `, }, { - Action: execJSFiles, + Action: execScripts, Name: "js", Usage: `executes the given JavaScript files in the Geth JavaScript VM`, Description: ` @@ -376,14 +361,6 @@ func main() { } } -// makeExtra resolves extradata for the miner from a flag or returns a default. -func makeExtra(ctx *cli.Context) []byte { - if ctx.GlobalIsSet(utils.ExtraDataFlag.Name) { - return []byte(ctx.GlobalString(utils.ExtraDataFlag.Name)) - } - return makeDefaultExtra() -} - func makeDefaultExtra() []byte { var clientInfo = struct { Version uint @@ -404,18 +381,13 @@ func makeDefaultExtra() []byte { return extra } -func run(ctx *cli.Context) { - cfg := utils.MakeEthConfig(ClientIdentifier, nodeNameVersion, ctx) - cfg.ExtraData = makeExtra(ctx) - - ethereum, err := eth.New(cfg) - if err != nil { - utils.Fatalf("%v", err) - } - - startEth(ctx, ethereum) - // this blocks the thread - ethereum.WaitForShutdown() +// geth is the main entry point into the system if no special subcommand is ran. +// It creates a default node based on the command line arguments and runs it in +// blocking mode, waiting for it to be shut down. +func geth(ctx *cli.Context) { + node := utils.MakeSystemNode(ClientIdentifier, nodeNameVersion, makeDefaultExtra(), ctx) + startNode(ctx, node) + node.Wait() } func attach(ctx *cli.Context) { @@ -449,156 +421,107 @@ func attach(ctx *cli.Context) { } } +// console starts a new geth node, attaching a JavaScript console to it at the +// same time. func console(ctx *cli.Context) { - cfg := utils.MakeEthConfig(ClientIdentifier, nodeNameVersion, ctx) - cfg.ExtraData = makeExtra(ctx) - - ethereum, err := eth.New(cfg) - if err != nil { - utils.Fatalf("%v", err) - } + // Create and start the node based on the CLI flags + node := utils.MakeSystemNode(ClientIdentifier, nodeNameVersion, makeDefaultExtra(), ctx) + startNode(ctx, node) + // Attach to the newly started node, and either execute script or become interactive client := comms.NewInProcClient(codec.JSON) - - startEth(ctx, ethereum) - repl := newJSRE( - ethereum, + repl := newJSRE(node, ctx.GlobalString(utils.JSpathFlag.Name), ctx.GlobalString(utils.RPCCORSDomainFlag.Name), - client, - true, - nil, - ) + client, true, nil) - if ctx.GlobalString(utils.ExecFlag.Name) != "" { - repl.batch(ctx.GlobalString(utils.ExecFlag.Name)) + if script := ctx.GlobalString(utils.ExecFlag.Name); script != "" { + repl.batch(script) } else { repl.welcome() repl.interactive() } - - ethereum.Stop() - ethereum.WaitForShutdown() + node.Stop() } -func execJSFiles(ctx *cli.Context) { - cfg := utils.MakeEthConfig(ClientIdentifier, nodeNameVersion, ctx) - ethereum, err := eth.New(cfg) - if err != nil { - utils.Fatalf("%v", err) - } +// execScripts starts a new geth node based on the CLI flags, and executes each +// of the JavaScript files specified as command arguments. +func execScripts(ctx *cli.Context) { + // Create and start the node based on the CLI flags + node := utils.MakeSystemNode(ClientIdentifier, nodeNameVersion, makeDefaultExtra(), ctx) + startNode(ctx, node) + // Attach to the newly started node and execute the given scripts client := comms.NewInProcClient(codec.JSON) - startEth(ctx, ethereum) - repl := newJSRE( - ethereum, + repl := newJSRE(node, ctx.GlobalString(utils.JSpathFlag.Name), ctx.GlobalString(utils.RPCCORSDomainFlag.Name), - client, - false, - nil, - ) + client, false, nil) + for _, file := range ctx.Args() { repl.exec(file) } - - ethereum.Stop() - ethereum.WaitForShutdown() + node.Stop() } -func unlockAccount(ctx *cli.Context, am *accounts.Manager, addr string, i int, inputpassphrases []string) (addrHex, auth string, passphrases []string) { - var err error - passphrases = inputpassphrases - addrHex, err = utils.ParamToAddress(addr, am) - if err == nil { - // Attempt to unlock the account 3 times - attempts := 3 - for tries := 0; tries < attempts; tries++ { - msg := fmt.Sprintf("Unlocking account %s | Attempt %d/%d", addr, tries+1, attempts) - auth, passphrases = getPassPhrase(ctx, msg, false, i, passphrases) - err = am.Unlock(common.HexToAddress(addrHex), auth) - if err == nil || passphrases != nil { - break - } +func unlockAccount(ctx *cli.Context, accman *accounts.Manager, address string, i int, passwords []string) (common.Address, string) { + // Try to unlock the specified account a few times + account := utils.MakeAddress(accman, address) + + for trials := 0; trials < 3; trials++ { + prompt := fmt.Sprintf("Unlocking account %s | Attempt %d/%d", address, trials+1, 3) + password := getPassPhrase(prompt, false, i, passwords) + if err := accman.Unlock(account, password); err == nil { + return account, password } } - - if err != nil { - utils.Fatalf("Unlock account '%s' (%v) failed: %v", addr, addrHex, err) - } - fmt.Printf("Account '%s' (%v) unlocked.\n", addr, addrHex) - return + // All trials expended to unlock account, bail out + utils.Fatalf("Failed to unlock account: %s", address) + return common.Address{}, "" } -func blockRecovery(ctx *cli.Context) { - if len(ctx.Args()) < 1 { - glog.Fatal("recover requires block number or hash") +// startNode boots up the system node and all registered protocols, after which +// it unlocks any requested accounts, and starts the RPC/IPC interfaces and the +// miner. +func startNode(ctx *cli.Context, stack *node.Node) { + // Start up the node itself + utils.StartNode(stack) + + // Unlock any account specifically requested + var ethereum *eth.Ethereum + if err := stack.Service(ðereum); err != nil { + utils.Fatalf("ethereum service not running: %v", err) } - arg := ctx.Args().First() + accman := ethereum.AccountManager() + passwords := utils.MakePasswordList(ctx) - cfg := utils.MakeEthConfig(ClientIdentifier, nodeNameVersion, ctx) - blockDb, err := ethdb.NewLDBDatabase(filepath.Join(cfg.DataDir, "blockchain"), cfg.DatabaseCache) - if err != nil { - glog.Fatalln("could not open db:", err) - } - - var block *types.Block - if arg[0] == '#' { - block = core.GetBlock(blockDb, core.GetCanonicalHash(blockDb, common.String2Big(arg[1:]).Uint64())) - } else { - block = core.GetBlock(blockDb, common.HexToHash(arg)) - } - - if block == nil { - glog.Fatalln("block not found. Recovery failed") - } - - if err = core.WriteHeadBlockHash(blockDb, block.Hash()); err != nil { - glog.Fatalln("block write err", err) - } - glog.Infof("Recovery succesful. New HEAD %x\n", block.Hash()) -} - -func startEth(ctx *cli.Context, eth *eth.Ethereum) { - // Start Ethereum itself - utils.StartEthereum(eth) - - am := eth.AccountManager() - account := ctx.GlobalString(utils.UnlockedAccountFlag.Name) - accounts := strings.Split(account, " ") - var passphrases []string + accounts := strings.Split(ctx.GlobalString(utils.UnlockedAccountFlag.Name), ",") for i, account := range accounts { - if len(account) > 0 { - if account == "primary" { - utils.Fatalf("the 'primary' keyword is deprecated. You can use integer indexes, but the indexes are not permanent, they can change if you add external keys, export your keys or copy your keystore to another node.") - } - _, _, passphrases = unlockAccount(ctx, am, account, i, passphrases) + if trimmed := strings.TrimSpace(account); trimmed != "" { + unlockAccount(ctx, accman, trimmed, i, passwords) } } // Start auxiliary services if enabled. if !ctx.GlobalBool(utils.IPCDisabledFlag.Name) { - if err := utils.StartIPC(eth, ctx); err != nil { - utils.Fatalf("Error string IPC: %v", err) + if err := utils.StartIPC(stack, ctx); err != nil { + utils.Fatalf("Failed to start IPC: %v", err) } } if ctx.GlobalBool(utils.RPCEnabledFlag.Name) { - if err := utils.StartRPC(eth, ctx); err != nil { - utils.Fatalf("Error starting RPC: %v", err) + if err := utils.StartRPC(stack, ctx); err != nil { + utils.Fatalf("Failed to start RPC: %v", err) } } if ctx.GlobalBool(utils.MiningEnabledFlag.Name) { - err := eth.StartMining( - ctx.GlobalInt(utils.MinerThreadsFlag.Name), - ctx.GlobalString(utils.MiningGPUFlag.Name)) - if err != nil { - utils.Fatalf("%v", err) + if err := ethereum.StartMining(ctx.GlobalInt(utils.MinerThreadsFlag.Name), ctx.GlobalString(utils.MiningGPUFlag.Name)); err != nil { + utils.Fatalf("Failed to start mining: %v", err) } } } func accountList(ctx *cli.Context) { - am := utils.MakeAccountManager(ctx) - accts, err := am.Accounts() + accman := utils.MakeAccountManager(ctx) + accts, err := accman.Accounts() if err != nil { utils.Fatalf("Could not list accounts: %v", err) } @@ -607,67 +530,57 @@ func accountList(ctx *cli.Context) { } } -func getPassPhrase(ctx *cli.Context, desc string, confirmation bool, i int, inputpassphrases []string) (passphrase string, passphrases []string) { - passfile := ctx.GlobalString(utils.PasswordFileFlag.Name) - if len(passfile) == 0 { - fmt.Println(desc) - auth, err := utils.PromptPassword("Passphrase: ", true) +// getPassPhrase retrieves the passwor associated with an account, either fetched +// from a list of preloaded passphrases, or requested interactively from the user. +func getPassPhrase(prompt string, confirmation bool, i int, passwords []string) string { + // If a list of passwords was supplied, retrieve from them + if len(passwords) > 0 { + if i < len(passwords) { + return passwords[i] + } + return passwords[len(passwords)-1] + } + // Otherwise prompt the user for the password + fmt.Println(prompt) + password, err := utils.PromptPassword("Passphrase: ", true) + if err != nil { + utils.Fatalf("Failed to read passphrase: %v", err) + } + if confirmation { + confirm, err := utils.PromptPassword("Repeat passphrase: ", false) if err != nil { - utils.Fatalf("%v", err) + utils.Fatalf("Failed to read passphrase confirmation: %v", err) } - if confirmation { - confirm, err := utils.PromptPassword("Repeat Passphrase: ", false) - if err != nil { - utils.Fatalf("%v", err) - } - if auth != confirm { - utils.Fatalf("Passphrases did not match.") - } - } - passphrase = auth - - } else { - passphrases = inputpassphrases - if passphrases == nil { - passbytes, err := ioutil.ReadFile(passfile) - if err != nil { - utils.Fatalf("Unable to read password file '%s': %v", passfile, err) - } - // this is backwards compatible if the same password unlocks several accounts - // it also has the consequence that trailing newlines will not count as part - // of the password, so --password <(echo -n 'pass') will now work without -n - passphrases = strings.Split(string(passbytes), "\n") - } - if i >= len(passphrases) { - passphrase = passphrases[len(passphrases)-1] - } else { - passphrase = passphrases[i] + if password != confirm { + utils.Fatalf("Passphrases do not match") } } - return + return password } +// accountCreate creates a new account into the keystore defined by the CLI flags. func accountCreate(ctx *cli.Context) { - am := utils.MakeAccountManager(ctx) - passphrase, _ := getPassPhrase(ctx, "Your new account is locked with a password. Please give a password. Do not forget this password.", true, 0, nil) - acct, err := am.NewAccount(passphrase) + accman := utils.MakeAccountManager(ctx) + password := getPassPhrase("Your new account is locked with a password. Please give a password. Do not forget this password.", true, 0, utils.MakePasswordList(ctx)) + + account, err := accman.NewAccount(password) if err != nil { - utils.Fatalf("Could not create the account: %v", err) + utils.Fatalf("Failed to create account: %v", err) } - fmt.Printf("Address: %x\n", acct) + fmt.Printf("Address: %x\n", account) } +// accountUpdate transitions an account from a previous format to the current +// one, also providing the possibility to change the pass-phrase. func accountUpdate(ctx *cli.Context) { - am := utils.MakeAccountManager(ctx) - arg := ctx.Args().First() - if len(arg) == 0 { - utils.Fatalf("account address or index must be given as argument") + if len(ctx.Args()) == 0 { + utils.Fatalf("No accounts specified to update") } + accman := utils.MakeAccountManager(ctx) - addr, authFrom, passphrases := unlockAccount(ctx, am, arg, 0, nil) - authTo, _ := getPassPhrase(ctx, "Please give a new password. Do not forget this password.", true, 0, passphrases) - err := am.Update(common.HexToAddress(addr), authFrom, authTo) - if err != nil { + account, oldPassword := unlockAccount(ctx, accman, ctx.Args().First(), 0, nil) + newPassword := getPassPhrase("Please give a new password. Do not forget this password.", true, 0, nil) + if err := accman.Update(account, oldPassword, newPassword); err != nil { utils.Fatalf("Could not update the account: %v", err) } } @@ -682,10 +595,10 @@ func importWallet(ctx *cli.Context) { utils.Fatalf("Could not read wallet file: %v", err) } - am := utils.MakeAccountManager(ctx) - passphrase, _ := getPassPhrase(ctx, "", false, 0, nil) + accman := utils.MakeAccountManager(ctx) + passphrase := getPassPhrase("", false, 0, utils.MakePasswordList(ctx)) - acct, err := am.ImportPreSaleKey(keyJson, passphrase) + acct, err := accman.ImportPreSaleKey(keyJson, passphrase) if err != nil { utils.Fatalf("Could not create the account: %v", err) } @@ -697,9 +610,9 @@ func accountImport(ctx *cli.Context) { if len(keyfile) == 0 { utils.Fatalf("keyfile must be given as argument") } - am := utils.MakeAccountManager(ctx) - passphrase, _ := getPassPhrase(ctx, "Your new account is locked with a password. Please give a password. Do not forget this password.", true, 0, nil) - acct, err := am.Import(keyfile, passphrase) + accman := utils.MakeAccountManager(ctx) + passphrase := getPassPhrase("Your new account is locked with a password. Please give a password. Do not forget this password.", true, 0, utils.MakePasswordList(ctx)) + acct, err := accman.Import(keyfile, passphrase) if err != nil { utils.Fatalf("Could not create the account: %v", err) } diff --git a/cmd/gethrpctest/main.go b/cmd/gethrpctest/main.go new file mode 100644 index 000000000..7130980ac --- /dev/null +++ b/cmd/gethrpctest/main.go @@ -0,0 +1,179 @@ +// Copyright 2015 The go-ethereum Authors +// This file is part of go-ethereum. +// +// go-ethereum is free software: you can redistribute it and/or modify +// it under the terms of the GNU General Public License as published by +// the Free Software Foundation, either version 3 of the License, or +// (at your option) any later version. +// +// go-ethereum is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU General Public License for more details. +// +// You should have received a copy of the GNU General Public License +// along with go-ethereum. If not, see . + +// gethrpctest is a command to run the external RPC tests. +package main + +import ( + "flag" + "io/ioutil" + "log" + "os" + "os/signal" + + "github.com/ethereum/go-ethereum/accounts" + "github.com/ethereum/go-ethereum/crypto" + "github.com/ethereum/go-ethereum/eth" + "github.com/ethereum/go-ethereum/ethdb" + "github.com/ethereum/go-ethereum/node" + "github.com/ethereum/go-ethereum/rpc/api" + "github.com/ethereum/go-ethereum/rpc/codec" + "github.com/ethereum/go-ethereum/rpc/comms" + "github.com/ethereum/go-ethereum/tests" + "github.com/ethereum/go-ethereum/whisper" + "github.com/ethereum/go-ethereum/xeth" +) + +const defaultTestKey = "b71c71a67e1177ad4e901695e1b4b9ee17ae16c6668d313eac2f96dbcda3f291" + +var ( + testFile = flag.String("json", "", "Path to the .json test file to load") + testName = flag.String("test", "", "Name of the test from the .json file to run") + testKey = flag.String("key", defaultTestKey, "Private key of a test account to inject") +) + +func main() { + flag.Parse() + + // Load the test suite to run the RPC against + tests, err := tests.LoadBlockTests(*testFile) + if err != nil { + log.Fatalf("Failed to load test suite: %v", err) + } + test, found := tests[*testName] + if !found { + log.Fatalf("Requested test (%s) not found within suite", *testName) + } + // Create the protocol stack to run the test with + keydir, err := ioutil.TempDir("", "") + if err != nil { + log.Fatalf("Failed to create temporary keystore directory: %v", err) + } + defer os.RemoveAll(keydir) + + stack, err := MakeSystemNode(keydir, *testKey, test) + if err != nil { + log.Fatalf("Failed to assemble test stack: %v", err) + } + if err := stack.Start(); err != nil { + log.Fatalf("Failed to start test node: %v", err) + } + defer stack.Stop() + + log.Println("Test node started...") + + // Make sure the tests contained within the suite pass + if err := RunTest(stack, test); err != nil { + log.Fatalf("Failed to run the pre-configured test: %v", err) + } + log.Println("Initial test suite passed...") + + // Start the RPC interface and wait until terminated + if err := StartRPC(stack); err != nil { + log.Fatalf("Failed to start RPC instarface: %v", err) + } + log.Println("RPC Interface started, accepting requests...") + + quit := make(chan os.Signal, 1) + signal.Notify(quit, os.Interrupt) + <-quit +} + +// MakeSystemNode configures a protocol stack for the RPC tests based on a given +// keystore path and initial pre-state. +func MakeSystemNode(keydir string, privkey string, test *tests.BlockTest) (*node.Node, error) { + // Create a networkless protocol stack + stack, err := node.New(&node.Config{NoDiscovery: true}) + if err != nil { + return nil, err + } + // Create the keystore and inject an unlocked account if requested + keystore := crypto.NewKeyStorePassphrase(keydir, crypto.StandardScryptN, crypto.StandardScryptP) + accman := accounts.NewManager(keystore) + + if len(privkey) > 0 { + key, err := crypto.HexToECDSA(privkey) + if err != nil { + return nil, err + } + if err := keystore.StoreKey(crypto.NewKeyFromECDSA(key), ""); err != nil { + return nil, err + } + if err := accman.Unlock(crypto.NewKeyFromECDSA(key).Address, ""); err != nil { + return nil, err + } + } + // Initialize and register the Ethereum protocol + db, _ := ethdb.NewMemDatabase() + if _, err := test.InsertPreState(db, accman); err != nil { + return nil, err + } + ethConf := ð.Config{ + TestGenesisState: db, + TestGenesisBlock: test.Genesis, + AccountManager: accman, + } + if err := stack.Register(func(ctx *node.ServiceContext) (node.Service, error) { return eth.New(ctx, ethConf) }); err != nil { + return nil, err + } + // Initialize and register the Whisper protocol + if err := stack.Register(func(*node.ServiceContext) (node.Service, error) { return whisper.New(), nil }); err != nil { + return nil, err + } + return stack, nil +} + +// RunTest executes the specified test against an already pre-configured protocol +// stack to ensure basic checks pass before running RPC tests. +func RunTest(stack *node.Node, test *tests.BlockTest) error { + var ethereum *eth.Ethereum + stack.Service(ðereum) + blockchain := ethereum.BlockChain() + + // Process the blocks and verify the imported headers + blocks, err := test.TryBlocksInsert(blockchain) + if err != nil { + return err + } + if err := test.ValidateImportedHeaders(blockchain, blocks); err != nil { + return err + } + // Retrieve the assembled state and validate it + stateDb, err := blockchain.State() + if err != nil { + return err + } + if err := test.ValidatePostState(stateDb); err != nil { + return err + } + return nil +} + +// StartRPC initializes an RPC interface to the given protocol stack. +func StartRPC(stack *node.Node) error { + config := comms.HttpConfig{ + ListenAddress: "127.0.0.1", + ListenPort: 8545, + } + xeth := xeth.New(stack, nil) + codec := codec.JSON + + apis, err := api.ParseApiString(comms.DefaultHttpRpcApis, codec, xeth, stack) + if err != nil { + return err + } + return comms.StartHttp(config, codec, api.Merge(apis...)) +} diff --git a/cmd/utils/bootnodes.go b/cmd/utils/bootnodes.go new file mode 100644 index 000000000..fbbaa1f22 --- /dev/null +++ b/cmd/utils/bootnodes.go @@ -0,0 +1,41 @@ +// Copyright 2015 The go-ethereum Authors +// This file is part of go-ethereum. +// +// go-ethereum is free software: you can redistribute it and/or modify +// it under the terms of the GNU General Public License as published by +// the Free Software Foundation, either version 3 of the License, or +// (at your option) any later version. +// +// go-ethereum is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU General Public License for more details. +// +// You should have received a copy of the GNU General Public License +// along with go-ethereum. If not, see . + +package utils + +import "github.com/ethereum/go-ethereum/p2p/discover" + +// FrontierBootNodes are the enode URLs of the P2P bootstrap nodes running on +// the Frontier network. +var FrontierBootNodes = []*discover.Node{ + // ETH/DEV Go Bootnodes + discover.MustParseNode("enode://a979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c@52.16.188.185:30303"), // IE + discover.MustParseNode("enode://de471bccee3d042261d52e9bff31458daecc406142b401d4cd848f677479f73104b9fdeb090af9583d3391b7f10cb2ba9e26865dd5fca4fcdc0fb1e3b723c786@54.94.239.50:30303"), // BR + discover.MustParseNode("enode://1118980bf48b0a3640bdba04e0fe78b1add18e1cd99bf22d53daac1fd9972ad650df52176e7c7d89d1114cfef2bc23a2959aa54998a46afcf7d91809f0855082@52.74.57.123:30303"), // SG + + // ETH/DEV Cpp Bootnodes + discover.MustParseNode("enode://979b7fa28feeb35a4741660a16076f1943202cb72b6af70d327f053e248bab9ba81760f39d0701ef1d8f89cc1fbd2cacba0710a12cd5314d5e0c9021aa3637f9@5.1.83.226:30303"), +} + +// TestNetBootNodes are the enode URLs of the P2P bootstrap nodes running on the +// Morden test network. +var TestNetBootNodes = []*discover.Node{ + // ETH/DEV Go Bootnodes + discover.MustParseNode("enode://e4533109cc9bd7604e4ff6c095f7a1d807e15b38e9bfeb05d3b7c423ba86af0a9e89abbf40bd9dde4250fef114cd09270fa4e224cbeef8b7bf05a51e8260d6b8@94.242.229.4:40404"), + discover.MustParseNode("enode://8c336ee6f03e99613ad21274f269479bf4413fb294d697ef15ab897598afb931f56beb8e97af530aee20ce2bcba5776f4a312bc168545de4d43736992c814592@94.242.229.203:30303"), + + // ETH/DEV Cpp Bootnodes +} diff --git a/cmd/utils/cmd.go b/cmd/utils/cmd.go index 5cbb58124..a0d60a583 100644 --- a/cmd/utils/cmd.go +++ b/cmd/utils/cmd.go @@ -29,9 +29,9 @@ import ( "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/core" "github.com/ethereum/go-ethereum/core/types" - "github.com/ethereum/go-ethereum/eth" "github.com/ethereum/go-ethereum/logger" "github.com/ethereum/go-ethereum/logger/glog" + "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/rlp" "github.com/peterh/liner" ) @@ -110,10 +110,9 @@ func Fatalf(format string, args ...interface{}) { os.Exit(1) } -func StartEthereum(ethereum *eth.Ethereum) { - glog.V(logger.Info).Infoln("Starting", ethereum.Name()) - if err := ethereum.Start(); err != nil { - Fatalf("Error starting Ethereum: %v", err) +func StartNode(stack *node.Node) { + if err := stack.Start(); err != nil { + Fatalf("Error starting protocol stack: %v", err) } go func() { sigc := make(chan os.Signal, 1) @@ -121,7 +120,7 @@ func StartEthereum(ethereum *eth.Ethereum) { defer signal.Stop(sigc) <-sigc glog.V(logger.Info).Infoln("Got interrupt, shutting down...") - go ethereum.Stop() + go stack.Stop() logger.Flush() for i := 10; i > 0; i-- { <-sigc diff --git a/cmd/utils/flags.go b/cmd/utils/flags.go index 3792dc1e0..53126f9e5 100644 --- a/cmd/utils/flags.go +++ b/cmd/utils/flags.go @@ -19,6 +19,7 @@ package utils import ( "crypto/ecdsa" "fmt" + "io/ioutil" "log" "math" "math/big" @@ -28,12 +29,14 @@ import ( "path/filepath" "runtime" "strconv" + "strings" "github.com/codegangsta/cli" "github.com/ethereum/ethash" "github.com/ethereum/go-ethereum/accounts" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/core" + "github.com/ethereum/go-ethereum/core/state" "github.com/ethereum/go-ethereum/core/vm" "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/eth" @@ -42,6 +45,8 @@ import ( "github.com/ethereum/go-ethereum/logger" "github.com/ethereum/go-ethereum/logger/glog" "github.com/ethereum/go-ethereum/metrics" + "github.com/ethereum/go-ethereum/node" + "github.com/ethereum/go-ethereum/p2p/discover" "github.com/ethereum/go-ethereum/p2p/nat" "github.com/ethereum/go-ethereum/params" "github.com/ethereum/go-ethereum/rpc/api" @@ -49,6 +54,7 @@ import ( "github.com/ethereum/go-ethereum/rpc/comms" "github.com/ethereum/go-ethereum/rpc/shared" "github.com/ethereum/go-ethereum/rpc/useragent" + "github.com/ethereum/go-ethereum/whisper" "github.com/ethereum/go-ethereum/xeth" ) @@ -192,12 +198,12 @@ var ( // Account settings UnlockedAccountFlag = cli.StringFlag{ Name: "unlock", - Usage: "Unlock an account (may be creation index) until this program exits (prompts for password)", + Usage: "Comma separated list of accounts to unlock", Value: "", } PasswordFileFlag = cli.StringFlag{ Name: "password", - Usage: "Password file to use with options/subcommands needing a pass phrase", + Usage: "Password file to use for non-inteactive password input", Value: "", } @@ -316,7 +322,7 @@ var ( } BootnodesFlag = cli.StringFlag{ Name: "bootnodes", - Usage: "Space-separated enode URLs for P2P discovery bootstrap", + Usage: "Comma separated enode URLs for P2P discovery bootstrap", Value: "", } NodeKeyFileFlag = cli.StringFlag{ @@ -385,6 +391,90 @@ var ( } ) +// MustMakeDataDir retrieves the currently requested data directory, terminating +// if none (or the empty string) is specified. If the node is starting a testnet, +// the a subdirectory of the specified datadir will be used. +func MustMakeDataDir(ctx *cli.Context) string { + if path := ctx.GlobalString(DataDirFlag.Name); path != "" { + if ctx.GlobalBool(TestNetFlag.Name) { + return filepath.Join(path, "/testnet") + } + return path + } + Fatalf("Cannot determine default data directory, please set manually (--datadir)") + return "" +} + +// MakeNodeKey creates a node key from set command line flags, either loading it +// from a file or as a specified hex value. If neither flags were provided, this +// method returns nil and an emphemeral key is to be generated. +func MakeNodeKey(ctx *cli.Context) *ecdsa.PrivateKey { + var ( + hex = ctx.GlobalString(NodeKeyHexFlag.Name) + file = ctx.GlobalString(NodeKeyFileFlag.Name) + + key *ecdsa.PrivateKey + err error + ) + switch { + case file != "" && hex != "": + Fatalf("Options %q and %q are mutually exclusive", NodeKeyFileFlag.Name, NodeKeyHexFlag.Name) + + case file != "": + if key, err = crypto.LoadECDSA(file); err != nil { + Fatalf("Option %q: %v", NodeKeyFileFlag.Name, err) + } + + case hex != "": + if key, err = crypto.HexToECDSA(hex); err != nil { + Fatalf("Option %q: %v", NodeKeyHexFlag.Name, err) + } + } + return key +} + +// MakeNodeName creates a node name from a base set and the command line flags. +func MakeNodeName(client, version string, ctx *cli.Context) string { + name := common.MakeName(client, version) + if identity := ctx.GlobalString(IdentityFlag.Name); len(identity) > 0 { + name += "/" + identity + } + if ctx.GlobalBool(VMEnableJitFlag.Name) { + name += "/JIT" + } + return name +} + +// MakeBootstrapNodes creates a list of bootstrap nodes from the command line +// flags, reverting to pre-configured ones if none have been specified. +func MakeBootstrapNodes(ctx *cli.Context) []*discover.Node { + // Return pre-configured nodes if none were manually requested + if !ctx.GlobalIsSet(BootnodesFlag.Name) { + if ctx.GlobalBool(TestNetFlag.Name) { + return TestNetBootNodes + } + return FrontierBootNodes + } + // Otherwise parse and use the CLI bootstrap nodes + bootnodes := []*discover.Node{} + + for _, url := range strings.Split(ctx.GlobalString(BootnodesFlag.Name), ",") { + node, err := discover.ParseNode(url) + if err != nil { + glog.V(logger.Error).Infof("Bootstrap URL %s: %v\n", url, err) + continue + } + bootnodes = append(bootnodes, node) + } + return bootnodes +} + +// MakeListenAddress creates a TCP listening address string from set command +// line flags. +func MakeListenAddress(ctx *cli.Context) string { + return fmt.Sprintf(":%d", ctx.GlobalInt(ListenPortFlag.Name)) +} + // MakeNAT creates a port mapper from set command line flags. func MakeNAT(ctx *cli.Context) nat.Interface { natif, err := nat.Parse(ctx.GlobalString(NATFlag.Name)) @@ -394,64 +484,145 @@ func MakeNAT(ctx *cli.Context) nat.Interface { return natif } -// MakeNodeKey creates a node key from set command line flags. -func MakeNodeKey(ctx *cli.Context) (key *ecdsa.PrivateKey) { - hex, file := ctx.GlobalString(NodeKeyHexFlag.Name), ctx.GlobalString(NodeKeyFileFlag.Name) - var err error - switch { - case file != "" && hex != "": - Fatalf("Options %q and %q are mutually exclusive", NodeKeyFileFlag.Name, NodeKeyHexFlag.Name) - case file != "": - if key, err = crypto.LoadECDSA(file); err != nil { - Fatalf("Option %q: %v", NodeKeyFileFlag.Name, err) - } - case hex != "": - if key, err = crypto.HexToECDSA(hex); err != nil { - Fatalf("Option %q: %v", NodeKeyHexFlag.Name, err) - } +// MakeGenesisBlock loads up a genesis block from an input file specified in the +// command line, or returns the empty string if none set. +func MakeGenesisBlock(ctx *cli.Context) string { + genesis := ctx.GlobalString(GenesisFileFlag.Name) + if genesis == "" { + return "" } - return key + data, err := ioutil.ReadFile(genesis) + if err != nil { + Fatalf("Failed to load custom genesis file: %v", err) + } + return string(data) } -// MakeEthConfig creates ethereum options from set command line flags. -func MakeEthConfig(clientID, version string, ctx *cli.Context) *eth.Config { - customName := ctx.GlobalString(IdentityFlag.Name) - if len(customName) > 0 { - clientID += "/" + customName +// MakeAccountManager creates an account manager from set command line flags. +func MakeAccountManager(ctx *cli.Context) *accounts.Manager { + // Create the keystore crypto primitive, light if requested + scryptN := crypto.StandardScryptN + scryptP := crypto.StandardScryptP + + if ctx.GlobalBool(LightKDFFlag.Name) { + scryptN = crypto.LightScryptN + scryptP = crypto.LightScryptP } - am := MakeAccountManager(ctx) - etherbase, err := ParamToAddress(ctx.GlobalString(EtherbaseFlag.Name), am) + // Assemble an account manager using the configured datadir + var ( + datadir = MustMakeDataDir(ctx) + keystore = crypto.NewKeyStorePassphrase(filepath.Join(datadir, "keystore"), scryptN, scryptP) + ) + return accounts.NewManager(keystore) +} + +// MakeAddress converts an account specified directly as a hex encoded string or +// a key index in the key store to an internal account representation. +func MakeAddress(accman *accounts.Manager, account string) common.Address { + // If the specified account is a valid address, return it + if common.IsHexAddress(account) { + return common.HexToAddress(account) + } + // Otherwise try to interpret the account as a keystore index + index, err := strconv.Atoi(account) if err != nil { - glog.V(logger.Error).Infoln("WARNING: No etherbase set and no accounts found as default") + Fatalf("Invalid account address or index: '%s'", account) } - // Assemble the entire eth configuration and return - cfg := ð.Config{ - Name: common.MakeName(clientID, version), - DataDir: MustDataDir(ctx), - GenesisFile: ctx.GlobalString(GenesisFileFlag.Name), + hex, err := accman.AddressByIndex(index) + if err != nil { + Fatalf("Failed to retrieve requested account #%d: %v", index, err) + } + return common.HexToAddress(hex) +} + +// MakeEtherbase retrieves the etherbase either from the directly specified +// command line flags or from the keystore if CLI indexed. +func MakeEtherbase(accman *accounts.Manager, ctx *cli.Context) common.Address { + // If the specified etherbase is a valid address, return it + etherbase := ctx.GlobalString(EtherbaseFlag.Name) + if common.IsHexAddress(etherbase) { + return common.HexToAddress(etherbase) + } + // If no etherbase was specified and no accounts are known, bail out + accounts, _ := accman.Accounts() + if etherbase == "" && len(accounts) == 0 { + glog.V(logger.Error).Infoln("WARNING: No etherbase set and no accounts found as default") + return common.Address{} + } + // Otherwise try to interpret the parameter as a keystore index + index, err := strconv.Atoi(etherbase) + if err != nil { + Fatalf("Invalid account address or index: '%s'", etherbase) + } + hex, err := accman.AddressByIndex(index) + if err != nil { + Fatalf("Failed to set requested account #%d as etherbase: %v", index, err) + } + return common.HexToAddress(hex) +} + +// MakeMinerExtra resolves extradata for the miner from the set command line flags +// or returns a default one composed on the client, runtime and OS metadata. +func MakeMinerExtra(extra []byte, ctx *cli.Context) []byte { + if ctx.GlobalIsSet(ExtraDataFlag.Name) { + return []byte(ctx.GlobalString(ExtraDataFlag.Name)) + } + return extra +} + +// MakePasswordList loads up a list of password from a file specified by the +// command line flags. +func MakePasswordList(ctx *cli.Context) []string { + if path := ctx.GlobalString(PasswordFileFlag.Name); path != "" { + blob, err := ioutil.ReadFile(path) + if err != nil { + Fatalf("Failed to read password file: %v", err) + } + return strings.Split(string(blob), "\n") + } + return nil +} + +// MakeSystemNode sets up a local node, configures the services to launch and +// assembles the P2P protocol stack. +func MakeSystemNode(name, version string, extra []byte, ctx *cli.Context) *node.Node { + // Avoid conflicting network flags + networks, netFlags := 0, []cli.BoolFlag{DevModeFlag, TestNetFlag, OlympicFlag} + for _, flag := range netFlags { + if ctx.GlobalBool(flag.Name) { + networks++ + } + } + if networks > 1 { + Fatalf("The %v flags are mutually exclusive", netFlags) + } + // Configure the node's service container + stackConf := &node.Config{ + DataDir: MustMakeDataDir(ctx), + PrivateKey: MakeNodeKey(ctx), + Name: MakeNodeName(name, version, ctx), + NoDiscovery: ctx.GlobalBool(NoDiscoverFlag.Name), + BootstrapNodes: MakeBootstrapNodes(ctx), + ListenAddr: MakeListenAddress(ctx), + NAT: MakeNAT(ctx), + MaxPeers: ctx.GlobalInt(MaxPeersFlag.Name), + MaxPendingPeers: ctx.GlobalInt(MaxPendingPeersFlag.Name), + } + // Configure the Ethereum service + accman := MakeAccountManager(ctx) + + ethConf := ð.Config{ + Genesis: MakeGenesisBlock(ctx), FastSync: ctx.GlobalBool(FastSyncFlag.Name), BlockChainVersion: ctx.GlobalInt(BlockchainVersionFlag.Name), DatabaseCache: ctx.GlobalInt(CacheFlag.Name), - SkipBcVersionCheck: false, NetworkId: ctx.GlobalInt(NetworkIdFlag.Name), - LogFile: ctx.GlobalString(LogFileFlag.Name), - Verbosity: ctx.GlobalInt(VerbosityFlag.Name), - Etherbase: common.HexToAddress(etherbase), + AccountManager: accman, + Etherbase: MakeEtherbase(accman, ctx), MinerThreads: ctx.GlobalInt(MinerThreadsFlag.Name), - AccountManager: am, - VmDebug: ctx.GlobalBool(VMDebugFlag.Name), - MaxPeers: ctx.GlobalInt(MaxPeersFlag.Name), - MaxPendingPeers: ctx.GlobalInt(MaxPendingPeersFlag.Name), - Port: ctx.GlobalString(ListenPortFlag.Name), - Olympic: ctx.GlobalBool(OlympicFlag.Name), - NAT: MakeNAT(ctx), + ExtraData: MakeMinerExtra(extra, ctx), NatSpec: ctx.GlobalBool(NatspecEnabledFlag.Name), DocRoot: ctx.GlobalString(DocRootFlag.Name), - Discovery: !ctx.GlobalBool(NoDiscoverFlag.Name), - NodeKey: MakeNodeKey(ctx), - Shh: ctx.GlobalBool(WhisperEnabledFlag.Name), - Dial: true, - BootNodes: ctx.GlobalString(BootnodesFlag.Name), GasPrice: common.String2Big(ctx.GlobalString(GasPriceFlag.Name)), GpoMinGasPrice: common.String2Big(ctx.GlobalString(GpoMinGasPriceFlag.Name)), GpoMaxGasPrice: common.String2Big(ctx.GlobalString(GpoMaxGasPriceFlag.Name)), @@ -462,46 +633,70 @@ func MakeEthConfig(clientID, version string, ctx *cli.Context) *eth.Config { SolcPath: ctx.GlobalString(SolcPathFlag.Name), AutoDAG: ctx.GlobalBool(AutoDAGFlag.Name) || ctx.GlobalBool(MiningEnabledFlag.Name), } + // Configure the Whisper service + shhEnable := ctx.GlobalBool(WhisperEnabledFlag.Name) - if ctx.GlobalBool(DevModeFlag.Name) && ctx.GlobalBool(TestNetFlag.Name) { - glog.Fatalf("%s and %s are mutually exclusive\n", DevModeFlag.Name, TestNetFlag.Name) - } + // Override any default configs in dev mode or the test net + switch { + case ctx.GlobalBool(OlympicFlag.Name): + if !ctx.GlobalIsSet(NetworkIdFlag.Name) { + ethConf.NetworkId = 1 + } + if !ctx.GlobalIsSet(GenesisFileFlag.Name) { + ethConf.Genesis = core.OlympicGenesisBlock() + } - if ctx.GlobalBool(TestNetFlag.Name) { - // testnet is always stored in the testnet folder - cfg.DataDir += "/testnet" - cfg.NetworkId = 2 - cfg.TestNet = true - } + case ctx.GlobalBool(TestNetFlag.Name): + if !ctx.GlobalIsSet(NetworkIdFlag.Name) { + ethConf.NetworkId = 2 + } + if !ctx.GlobalIsSet(GenesisFileFlag.Name) { + ethConf.Genesis = core.TestNetGenesisBlock() + } + state.StartingNonce = 1048576 // (2**20) - if ctx.GlobalBool(VMEnableJitFlag.Name) { - cfg.Name += "/JIT" - } - if ctx.GlobalBool(DevModeFlag.Name) { - if !ctx.GlobalIsSet(VMDebugFlag.Name) { - cfg.VmDebug = true + case ctx.GlobalBool(DevModeFlag.Name): + // Override the base network stack configs + if !ctx.GlobalIsSet(DataDirFlag.Name) { + stackConf.DataDir = filepath.Join(os.TempDir(), "/ethereum_dev_mode") } if !ctx.GlobalIsSet(MaxPeersFlag.Name) { - cfg.MaxPeers = 0 - } - if !ctx.GlobalIsSet(GasPriceFlag.Name) { - cfg.GasPrice = new(big.Int) + stackConf.MaxPeers = 0 } if !ctx.GlobalIsSet(ListenPortFlag.Name) { - cfg.Port = "0" // auto port + stackConf.ListenAddr = ":0" + } + // Override the Ethereum protocol configs + if !ctx.GlobalIsSet(GenesisFileFlag.Name) { + ethConf.Genesis = core.OlympicGenesisBlock() + } + if !ctx.GlobalIsSet(GasPriceFlag.Name) { + ethConf.GasPrice = new(big.Int) } if !ctx.GlobalIsSet(WhisperEnabledFlag.Name) { - cfg.Shh = true + shhEnable = true } - if !ctx.GlobalIsSet(DataDirFlag.Name) { - cfg.DataDir = os.TempDir() + "/ethereum_dev_mode" + if !ctx.GlobalIsSet(VMDebugFlag.Name) { + vm.Debug = true } - cfg.PowTest = true - cfg.DevMode = true - - glog.V(logger.Info).Infoln("dev mode enabled") + ethConf.PowTest = true } - return cfg + // Assemble and return the protocol stack + stack, err := node.New(stackConf) + if err != nil { + Fatalf("Failed to create the protocol stack: %v", err) + } + if err := stack.Register(func(ctx *node.ServiceContext) (node.Service, error) { + return eth.New(ctx, ethConf) + }); err != nil { + Fatalf("Failed to register the Ethereum service: %v", err) + } + if shhEnable { + if err := stack.Register(func(*node.ServiceContext) (node.Service, error) { return whisper.New(), nil }); err != nil { + Fatalf("Failed to register the Whisper service: %v", err) + } + } + return stack } // SetupLogger configures glog from the logging-related command line flags. @@ -509,7 +704,12 @@ func SetupLogger(ctx *cli.Context) { glog.SetV(ctx.GlobalInt(VerbosityFlag.Name)) glog.CopyStandardLogTo("INFO") glog.SetToStderr(true) - glog.SetLogDir(ctx.GlobalString(LogFileFlag.Name)) + if ctx.GlobalIsSet(LogFileFlag.Name) { + logger.New("", ctx.GlobalString(LogFileFlag.Name), ctx.GlobalInt(VerbosityFlag.Name)) + } + if ctx.GlobalIsSet(VMDebugFlag.Name) { + vm.Debug = ctx.GlobalBool(VMDebugFlag.Name) + } } // SetupNetwork configures the system for either the main net or some test network. @@ -535,7 +735,7 @@ func SetupVM(ctx *cli.Context) { // MakeChain creates a chain manager from set command line flags. func MakeChain(ctx *cli.Context) (chain *core.BlockChain, chainDb ethdb.Database) { - datadir := MustDataDir(ctx) + datadir := MustMakeDataDir(ctx) cache := ctx.GlobalInt(CacheFlag.Name) var err error @@ -543,7 +743,7 @@ func MakeChain(ctx *cli.Context) (chain *core.BlockChain, chainDb ethdb.Database Fatalf("Could not open database: %v", err) } if ctx.GlobalBool(OlympicFlag.Name) { - _, err := core.WriteTestNetGenesisBlock(chainDb, 42) + _, err := core.WriteTestNetGenesisBlock(chainDb) if err != nil { glog.Fatalln(err) } @@ -560,32 +760,6 @@ func MakeChain(ctx *cli.Context) (chain *core.BlockChain, chainDb ethdb.Database return chain, chainDb } -// MakeChain creates an account manager from set command line flags. -func MakeAccountManager(ctx *cli.Context) *accounts.Manager { - dataDir := MustDataDir(ctx) - if ctx.GlobalBool(TestNetFlag.Name) { - dataDir += "/testnet" - } - scryptN := crypto.StandardScryptN - scryptP := crypto.StandardScryptP - if ctx.GlobalBool(LightKDFFlag.Name) { - scryptN = crypto.LightScryptN - scryptP = crypto.LightScryptP - } - ks := crypto.NewKeyStorePassphrase(filepath.Join(dataDir, "keystore"), scryptN, scryptP) - return accounts.NewManager(ks) -} - -// MustDataDir retrieves the currently requested data directory, terminating if -// none (or the empty string) is specified. -func MustDataDir(ctx *cli.Context) string { - if path := ctx.GlobalString(DataDirFlag.Name); path != "" { - return path - } - Fatalf("Cannot determine default data directory, please set manually (--datadir)") - return "" -} - func IpcSocketPath(ctx *cli.Context) (ipcpath string) { if runtime.GOOS == "windows" { ipcpath = common.DefaultIpcPath() @@ -605,39 +779,43 @@ func IpcSocketPath(ctx *cli.Context) (ipcpath string) { return } -func StartIPC(eth *eth.Ethereum, ctx *cli.Context) error { +// StartIPC starts a IPC JSON-RPC API server. +func StartIPC(stack *node.Node, ctx *cli.Context) error { config := comms.IpcConfig{ Endpoint: IpcSocketPath(ctx), } initializer := func(conn net.Conn) (comms.Stopper, shared.EthereumApi, error) { - fe := useragent.NewRemoteFrontend(conn, eth.AccountManager()) - xeth := xeth.New(eth, fe) - apis, err := api.ParseApiString(ctx.GlobalString(IPCApiFlag.Name), codec.JSON, xeth, eth) + var ethereum *eth.Ethereum + if err := stack.Service(ðereum); err != nil { + return nil, nil, err + } + fe := useragent.NewRemoteFrontend(conn, ethereum.AccountManager()) + xeth := xeth.New(stack, fe) + apis, err := api.ParseApiString(ctx.GlobalString(IPCApiFlag.Name), codec.JSON, xeth, stack) if err != nil { return nil, nil, err } return xeth, api.Merge(apis...), nil } - return comms.StartIpc(config, codec.JSON, initializer) } -func StartRPC(eth *eth.Ethereum, ctx *cli.Context) error { +// StartRPC starts a HTTP JSON-RPC API server. +func StartRPC(stack *node.Node, ctx *cli.Context) error { config := comms.HttpConfig{ ListenAddress: ctx.GlobalString(RPCListenAddrFlag.Name), ListenPort: uint(ctx.GlobalInt(RPCPortFlag.Name)), CorsDomain: ctx.GlobalString(RPCCORSDomainFlag.Name), } - xeth := xeth.New(eth, nil) + xeth := xeth.New(stack, nil) codec := codec.JSON - apis, err := api.ParseApiString(ctx.GlobalString(RpcApiFlag.Name), codec, xeth, eth) + apis, err := api.ParseApiString(ctx.GlobalString(RpcApiFlag.Name), codec, xeth, stack) if err != nil { return err } - return comms.StartHttp(config, codec, api.Merge(apis...)) } @@ -647,20 +825,3 @@ func StartPProf(ctx *cli.Context) { log.Println(http.ListenAndServe(address, nil)) }() } - -func ParamToAddress(addr string, am *accounts.Manager) (addrHex string, err error) { - if !((len(addr) == 40) || (len(addr) == 42)) { // with or without 0x - index, err := strconv.Atoi(addr) - if err != nil { - Fatalf("Invalid account address '%s'", addr) - } - - addrHex, err = am.AddressByIndex(index) - if err != nil { - return "", err - } - } else { - addrHex = addr - } - return -} diff --git a/common/natspec/natspec_e2e_test.go b/common/natspec/natspec_e2e_test.go index 5c0d43091..95109ec07 100644 --- a/common/natspec/natspec_e2e_test.go +++ b/common/natspec/natspec_e2e_test.go @@ -34,6 +34,8 @@ import ( "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/eth" "github.com/ethereum/go-ethereum/ethdb" + "github.com/ethereum/go-ethereum/event" + "github.com/ethereum/go-ethereum/node" xe "github.com/ethereum/go-ethereum/xeth" ) @@ -146,13 +148,11 @@ func testEth(t *testing.T) (ethereum *eth.Ethereum, err error) { } // only use minimalistic stack with no networking - return eth.New(ð.Config{ - DataDir: tmp, + return eth.New(&node.ServiceContext{EventMux: new(event.TypeMux)}, ð.Config{ AccountManager: am, Etherbase: common.HexToAddress(testAddress), - MaxPeers: 0, PowTest: true, - NewDB: func(path string) (ethdb.Database, error) { return db, nil }, + TestGenesisState: db, GpoMinGasPrice: common.Big1, GpobaseCorrectionFactor: 1, GpoMaxGasPrice: common.Big1, @@ -166,7 +166,7 @@ func testInit(t *testing.T) (self *testFrontend) { t.Errorf("error creating ethereum: %v", err) return } - err = ethereum.Start() + err = ethereum.Start(nil) if err != nil { t.Errorf("error starting ethereum: %v", err) return @@ -174,7 +174,7 @@ func testInit(t *testing.T) (self *testFrontend) { // mock frontend self = &testFrontend{t: t, ethereum: ethereum} - self.xeth = xe.New(ethereum, self) + self.xeth = xe.New(nil, self) self.wait = self.xeth.UpdateState() addr, _ := self.ethereum.Etherbase() diff --git a/common/types.go b/common/types.go index 624f4b826..ea5838188 100644 --- a/common/types.go +++ b/common/types.go @@ -24,13 +24,13 @@ import ( ) const ( - hashLength = 32 - addressLength = 20 + HashLength = 32 + AddressLength = 20 ) type ( - Hash [hashLength]byte - Address [addressLength]byte + Hash [HashLength]byte + Address [AddressLength]byte ) func BytesToHash(b []byte) Hash { @@ -53,10 +53,10 @@ func (h Hash) Hex() string { return "0x" + Bytes2Hex(h[:]) } // Sets the hash to the value of b. If b is larger than len(h) it will panic func (h *Hash) SetBytes(b []byte) { if len(b) > len(h) { - b = b[len(b)-hashLength:] + b = b[len(b)-HashLength:] } - copy(h[hashLength-len(b):], b) + copy(h[HashLength-len(b):], b) } // Set string `s` to h. If s is larger than len(h) it will panic @@ -92,6 +92,18 @@ func StringToAddress(s string) Address { return BytesToAddress([]byte(s)) } func BigToAddress(b *big.Int) Address { return BytesToAddress(b.Bytes()) } func HexToAddress(s string) Address { return BytesToAddress(FromHex(s)) } +// IsHexAddress verifies whether a string can represent a valid hex-encoded +// Ethereum address or not. +func IsHexAddress(s string) bool { + if len(s) == 2+2*AddressLength && IsHex(s[2:]) { + return true + } + if len(s) == 2*AddressLength && IsHex(s) { + return true + } + return false +} + // Get the string representation of the underlying address func (a Address) Str() string { return string(a[:]) } func (a Address) Bytes() []byte { return a[:] } @@ -102,9 +114,9 @@ func (a Address) Hex() string { return "0x" + Bytes2Hex(a[:]) } // Sets the address to the value of b. If b is larger than len(a) it will panic func (a *Address) SetBytes(b []byte) { if len(b) > len(a) { - b = b[len(b)-addressLength:] + b = b[len(b)-AddressLength:] } - copy(a[addressLength-len(b):], b) + copy(a[AddressLength-len(b):], b) } // Set string `s` to a. If s is larger than len(a) it will panic diff --git a/core/block_validator_test.go b/core/block_validator_test.go index 70953d76d..2c4a97b45 100644 --- a/core/block_validator_test.go +++ b/core/block_validator_test.go @@ -34,7 +34,7 @@ func proc() (Validator, *BlockChain) { db, _ := ethdb.NewMemDatabase() var mux event.TypeMux - WriteTestNetGenesisBlock(db, 0) + WriteTestNetGenesisBlock(db) blockchain, err := NewBlockChain(db, thePow(), &mux) if err != nil { fmt.Println(err) diff --git a/core/blockchain.go b/core/blockchain.go index 5e1fc9424..5a6795b3e 100644 --- a/core/blockchain.go +++ b/core/blockchain.go @@ -149,11 +149,7 @@ func NewBlockChain(chainDb ethdb.Database, pow pow.PoW, mux *event.TypeMux) (*Bl bc.genesisBlock = bc.GetBlockByNumber(0) if bc.genesisBlock == nil { - reader, err := NewDefaultGenesisReader() - if err != nil { - return nil, err - } - bc.genesisBlock, err = WriteGenesisBlock(chainDb, reader) + bc.genesisBlock, err = WriteDefaultGenesisBlock(chainDb) if err != nil { return nil, err } diff --git a/core/blockchain_test.go b/core/blockchain_test.go index f18b5d084..6e1c5fdc7 100644 --- a/core/blockchain_test.go +++ b/core/blockchain_test.go @@ -51,7 +51,7 @@ func thePow() pow.PoW { func theBlockChain(db ethdb.Database, t *testing.T) *BlockChain { var eventMux event.TypeMux - WriteTestNetGenesisBlock(db, 0) + WriteTestNetGenesisBlock(db) blockchain, err := NewBlockChain(db, thePow(), &eventMux) if err != nil { t.Error("failed creating blockchain:", err) @@ -506,7 +506,7 @@ func testReorgShort(t *testing.T, full bool) { func testReorg(t *testing.T, first, second []int, td int64, full bool) { // Create a pristine block chain db, _ := ethdb.NewMemDatabase() - genesis, _ := WriteTestNetGenesisBlock(db, 0) + genesis, _ := WriteTestNetGenesisBlock(db) bc := chm(genesis, db) // Insert an easy and a difficult chain afterwards @@ -553,7 +553,7 @@ func TestBadBlockHashes(t *testing.T) { testBadHashes(t, true) } func testBadHashes(t *testing.T, full bool) { // Create a pristine block chain db, _ := ethdb.NewMemDatabase() - genesis, _ := WriteTestNetGenesisBlock(db, 0) + genesis, _ := WriteTestNetGenesisBlock(db) bc := chm(genesis, db) // Create a chain, ban a hash and try to import @@ -580,7 +580,7 @@ func TestReorgBadBlockHashes(t *testing.T) { testReorgBadHashes(t, true) } func testReorgBadHashes(t *testing.T, full bool) { // Create a pristine block chain db, _ := ethdb.NewMemDatabase() - genesis, _ := WriteTestNetGenesisBlock(db, 0) + genesis, _ := WriteTestNetGenesisBlock(db) bc := chm(genesis, db) // Create a chain, import and ban aferwards diff --git a/core/chain_makers.go b/core/chain_makers.go index f1ada487f..6d3152d97 100644 --- a/core/chain_makers.go +++ b/core/chain_makers.go @@ -220,7 +220,7 @@ func newCanonical(n int, full bool) (ethdb.Database, *BlockChain, error) { evmux := &event.TypeMux{} // Initialize a fresh chain with only a genesis block - genesis, _ := WriteTestNetGenesisBlock(db, 0) + genesis, _ := WriteTestNetGenesisBlock(db) blockchain, _ := NewBlockChain(db, FakePow{}, evmux) // Create and inject the requested chain diff --git a/core/default_genesis.go b/core/default_genesis.go index f8acda9fb..b418bfdfe 100644 --- a/core/default_genesis.go +++ b/core/default_genesis.go @@ -16,15 +16,6 @@ package core -import ( - "compress/gzip" - "encoding/base64" - "io" - "strings" -) - -func NewDefaultGenesisReader() (io.Reader, error) { - return gzip.NewReader(base64.NewDecoder(base64.StdEncoding, strings.NewReader(defaultGenesisBlock))) -} - +// defaultGenesisBlock is a gzip compressed dump of the official default Ethereum +// genesis block. const defaultGenesisBlock = "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" diff --git a/core/genesis.go b/core/genesis.go index 3fd8f42b0..d8c6e9cea 100644 --- a/core/genesis.go +++ b/core/genesis.go @@ -17,6 +17,8 @@ package core import ( + "compress/gzip" + "encoding/base64" "encoding/json" "fmt" "io" @@ -158,46 +160,80 @@ func WriteGenesisBlockForTesting(db ethdb.Database, accounts ...GenesisAccount) return block } -func WriteTestNetGenesisBlock(chainDb ethdb.Database, nonce uint64) (*types.Block, error) { - testGenesis := fmt.Sprintf(`{ - "nonce": "0x%x", - "difficulty": "0x20000", - "mixhash": "0x00000000000000000000000000000000000000647572616c65787365646c6578", - "coinbase": "0x0000000000000000000000000000000000000000", - "timestamp": "0x00", - "parentHash": "0x0000000000000000000000000000000000000000000000000000000000000000", - "extraData": "0x", - "gasLimit": "0x2FEFD8", - "alloc": { - "0000000000000000000000000000000000000001": { "balance": "1" }, - "0000000000000000000000000000000000000002": { "balance": "1" }, - "0000000000000000000000000000000000000003": { "balance": "1" }, - "0000000000000000000000000000000000000004": { "balance": "1" }, - "102e61f5d8f9bc71d0ad4a084df4e65e05ce0e1c": { "balance": "1606938044258990275541962092341162602522202993782792835301376" } - } -}`, types.EncodeNonce(nonce)) - return WriteGenesisBlock(chainDb, strings.NewReader(testGenesis)) +// WriteDefaultGenesisBlock assembles the official Ethereum genesis block and +// writes it - along with all associated state - into a chain database. +func WriteDefaultGenesisBlock(chainDb ethdb.Database) (*types.Block, error) { + return WriteGenesisBlock(chainDb, strings.NewReader(DefaultGenesisBlock())) } -func WriteOlympicGenesisBlock(chainDb ethdb.Database, nonce uint64) (*types.Block, error) { - testGenesis := fmt.Sprintf(`{ - "nonce":"0x%x", - "gasLimit":"0x%x", - "difficulty":"0x%x", - "alloc": { - "0000000000000000000000000000000000000001": {"balance": "1"}, - "0000000000000000000000000000000000000002": {"balance": "1"}, - "0000000000000000000000000000000000000003": {"balance": "1"}, - "0000000000000000000000000000000000000004": {"balance": "1"}, - "dbdbdb2cbd23b783741e8d7fcf51e459b497e4a6": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, - "e4157b34ea9615cfbde6b4fda419828124b70c78": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, - "b9c015918bdaba24b4ff057a92a3873d6eb201be": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, - "6c386a4b26f73c802f34673f7248bb118f97424a": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, - "cd2a3d9f938e13cd947ec05abc7fe734df8dd826": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, - "2ef47100e0787b915105fd5e3f4ff6752079d5cb": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, - "e6716f9544a56c530d868e4bfbacb172315bdead": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, - "1a26338f0d905e295fccb71fa9ea849ffa12aaf4": {"balance": "1606938044258990275541962092341162602522202993782792835301376"} - } -}`, types.EncodeNonce(nonce), params.GenesisGasLimit.Bytes(), params.GenesisDifficulty.Bytes()) - return WriteGenesisBlock(chainDb, strings.NewReader(testGenesis)) +// WriteTestNetGenesisBlock assembles the Morden test network genesis block and +// writes it - along with all associated state - into a chain database. +func WriteTestNetGenesisBlock(chainDb ethdb.Database) (*types.Block, error) { + return WriteGenesisBlock(chainDb, strings.NewReader(TestNetGenesisBlock())) +} + +// WriteOlympicGenesisBlock assembles the Olympic genesis block and writes it +// along with all associated state into a chain database. +func WriteOlympicGenesisBlock(db ethdb.Database) (*types.Block, error) { + return WriteGenesisBlock(db, strings.NewReader(OlympicGenesisBlock())) +} + +// DefaultGenesisBlock assembles a JSON string representing the default Ethereum +// genesis block. +func DefaultGenesisBlock() string { + reader, err := gzip.NewReader(base64.NewDecoder(base64.StdEncoding, strings.NewReader(defaultGenesisBlock))) + if err != nil { + panic(fmt.Sprintf("failed to access default genesis: %v", err)) + } + blob, err := ioutil.ReadAll(reader) + if err != nil { + panic(fmt.Sprintf("failed to load default genesis: %v", err)) + } + return string(blob) +} + +// OlympicGenesisBlock assembles a JSON string representing the Olympic genesis +// block. +func OlympicGenesisBlock() string { + return fmt.Sprintf(`{ + "nonce":"0x%x", + "gasLimit":"0x%x", + "difficulty":"0x%x", + "alloc": { + "0000000000000000000000000000000000000001": {"balance": "1"}, + "0000000000000000000000000000000000000002": {"balance": "1"}, + "0000000000000000000000000000000000000003": {"balance": "1"}, + "0000000000000000000000000000000000000004": {"balance": "1"}, + "dbdbdb2cbd23b783741e8d7fcf51e459b497e4a6": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, + "e4157b34ea9615cfbde6b4fda419828124b70c78": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, + "b9c015918bdaba24b4ff057a92a3873d6eb201be": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, + "6c386a4b26f73c802f34673f7248bb118f97424a": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, + "cd2a3d9f938e13cd947ec05abc7fe734df8dd826": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, + "2ef47100e0787b915105fd5e3f4ff6752079d5cb": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, + "e6716f9544a56c530d868e4bfbacb172315bdead": {"balance": "1606938044258990275541962092341162602522202993782792835301376"}, + "1a26338f0d905e295fccb71fa9ea849ffa12aaf4": {"balance": "1606938044258990275541962092341162602522202993782792835301376"} + } + }`, types.EncodeNonce(42), params.GenesisGasLimit.Bytes(), params.GenesisDifficulty.Bytes()) +} + +// TestNetGenesisBlock assembles a JSON string representing the Morden test net +// genenis block. +func TestNetGenesisBlock() string { + return fmt.Sprintf(`{ + "nonce": "0x%x", + "difficulty": "0x20000", + "mixhash": "0x00000000000000000000000000000000000000647572616c65787365646c6578", + "coinbase": "0x0000000000000000000000000000000000000000", + "timestamp": "0x00", + "parentHash": "0x0000000000000000000000000000000000000000000000000000000000000000", + "extraData": "0x", + "gasLimit": "0x2FEFD8", + "alloc": { + "0000000000000000000000000000000000000001": { "balance": "1" }, + "0000000000000000000000000000000000000002": { "balance": "1" }, + "0000000000000000000000000000000000000003": { "balance": "1" }, + "0000000000000000000000000000000000000004": { "balance": "1" }, + "102e61f5d8f9bc71d0ad4a084df4e65e05ce0e1c": { "balance": "1606938044258990275541962092341162602522202993782792835301376" } + } + }`, types.EncodeNonce(0x6d6f7264656e)) } diff --git a/eth/backend.go b/eth/backend.go index 5bd6ac55d..0369f6afd 100644 --- a/eth/backend.go +++ b/eth/backend.go @@ -19,16 +19,12 @@ package eth import ( "bytes" - "crypto/ecdsa" - "encoding/json" "fmt" - "io/ioutil" "math/big" "os" "path/filepath" "regexp" "strings" - "syscall" "time" "github.com/ethereum/ethash" @@ -37,21 +33,16 @@ import ( "github.com/ethereum/go-ethereum/common/compiler" "github.com/ethereum/go-ethereum/common/httpclient" "github.com/ethereum/go-ethereum/core" - "github.com/ethereum/go-ethereum/core/state" "github.com/ethereum/go-ethereum/core/types" - "github.com/ethereum/go-ethereum/core/vm" - "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/eth/downloader" "github.com/ethereum/go-ethereum/ethdb" "github.com/ethereum/go-ethereum/event" "github.com/ethereum/go-ethereum/logger" "github.com/ethereum/go-ethereum/logger/glog" "github.com/ethereum/go-ethereum/miner" + "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/p2p" - "github.com/ethereum/go-ethereum/p2p/discover" - "github.com/ethereum/go-ethereum/p2p/nat" "github.com/ethereum/go-ethereum/rlp" - "github.com/ethereum/go-ethereum/whisper" ) const ( @@ -63,74 +54,29 @@ const ( ) var ( - jsonlogger = logger.NewJsonLogger() - datadirInUseErrnos = map[uint]bool{11: true, 32: true, 35: true} portInUseErrRE = regexp.MustCompile("address already in use") - - defaultBootNodes = []*discover.Node{ - // ETH/DEV Go Bootnodes - discover.MustParseNode("enode://a979fb575495b8d6db44f750317d0f4622bf4c2aa3365d6af7c284339968eef29b69ad0dce72a4d8db5ebb4968de0e3bec910127f134779fbcb0cb6d3331163c@52.16.188.185:30303"), // IE - discover.MustParseNode("enode://de471bccee3d042261d52e9bff31458daecc406142b401d4cd848f677479f73104b9fdeb090af9583d3391b7f10cb2ba9e26865dd5fca4fcdc0fb1e3b723c786@54.94.239.50:30303"), // BR - discover.MustParseNode("enode://1118980bf48b0a3640bdba04e0fe78b1add18e1cd99bf22d53daac1fd9972ad650df52176e7c7d89d1114cfef2bc23a2959aa54998a46afcf7d91809f0855082@52.74.57.123:30303"), // SG - // ETH/DEV cpp-ethereum (poc-9.ethdev.com) - discover.MustParseNode("enode://979b7fa28feeb35a4741660a16076f1943202cb72b6af70d327f053e248bab9ba81760f39d0701ef1d8f89cc1fbd2cacba0710a12cd5314d5e0c9021aa3637f9@5.1.83.226:30303"), - } - - defaultTestNetBootNodes = []*discover.Node{ - discover.MustParseNode("enode://e4533109cc9bd7604e4ff6c095f7a1d807e15b38e9bfeb05d3b7c423ba86af0a9e89abbf40bd9dde4250fef114cd09270fa4e224cbeef8b7bf05a51e8260d6b8@94.242.229.4:40404"), - discover.MustParseNode("enode://8c336ee6f03e99613ad21274f269479bf4413fb294d697ef15ab897598afb931f56beb8e97af530aee20ce2bcba5776f4a312bc168545de4d43736992c814592@94.242.229.203:30303"), - } - - staticNodes = "static-nodes.json" // Path within to search for the static node list - trustedNodes = "trusted-nodes.json" // Path within to search for the trusted node list ) type Config struct { - DevMode bool - TestNet bool - - Name string - NetworkId int - GenesisFile string - GenesisBlock *types.Block // used by block tests - FastSync bool - Olympic bool + NetworkId int // Network ID to use for selecting peers to connect to + Genesis string // Genesis JSON to seed the chain database with + FastSync bool // Enables the state download based fast synchronisation algorithm BlockChainVersion int SkipBcVersionCheck bool // e.g. blockchain export DatabaseCache int - DataDir string - LogFile string - Verbosity int - VmDebug bool NatSpec bool DocRoot string AutoDAG bool PowTest bool ExtraData []byte - MaxPeers int - MaxPendingPeers int - Discovery bool - Port string - - // Space-separated list of discovery node URLs - BootNodes string - - // This key is used to identify the node on the network. - // If nil, an ephemeral key is used. - NodeKey *ecdsa.PrivateKey - - NAT nat.Interface - Shh bool - Dial bool - + AccountManager *accounts.Manager Etherbase common.Address GasPrice *big.Int MinerThreads int - AccountManager *accounts.Manager SolcPath string GpoMinGasPrice *big.Int @@ -140,87 +86,8 @@ type Config struct { GpobaseStepUp int GpobaseCorrectionFactor int - // NewDB is used to create databases. - // If nil, the default is to create leveldb databases on disk. - NewDB func(path string) (ethdb.Database, error) -} - -func (cfg *Config) parseBootNodes() []*discover.Node { - if cfg.BootNodes == "" { - if cfg.TestNet { - return defaultTestNetBootNodes - } - - return defaultBootNodes - } - var ns []*discover.Node - for _, url := range strings.Split(cfg.BootNodes, " ") { - if url == "" { - continue - } - n, err := discover.ParseNode(url) - if err != nil { - glog.V(logger.Error).Infof("Bootstrap URL %s: %v\n", url, err) - continue - } - ns = append(ns, n) - } - return ns -} - -// parseNodes parses a list of discovery node URLs loaded from a .json file. -func (cfg *Config) parseNodes(file string) []*discover.Node { - // Short circuit if no node config is present - path := filepath.Join(cfg.DataDir, file) - if _, err := os.Stat(path); err != nil { - return nil - } - // Load the nodes from the config file - blob, err := ioutil.ReadFile(path) - if err != nil { - glog.V(logger.Error).Infof("Failed to access nodes: %v", err) - return nil - } - nodelist := []string{} - if err := json.Unmarshal(blob, &nodelist); err != nil { - glog.V(logger.Error).Infof("Failed to load nodes: %v", err) - return nil - } - // Interpret the list as a discovery node array - var nodes []*discover.Node - for _, url := range nodelist { - if url == "" { - continue - } - node, err := discover.ParseNode(url) - if err != nil { - glog.V(logger.Error).Infof("Node URL %s: %v\n", url, err) - continue - } - nodes = append(nodes, node) - } - return nodes -} - -func (cfg *Config) nodeKey() (*ecdsa.PrivateKey, error) { - // use explicit key from command line args if set - if cfg.NodeKey != nil { - return cfg.NodeKey, nil - } - // use persistent key if present - keyfile := filepath.Join(cfg.DataDir, "nodekey") - key, err := crypto.LoadECDSA(keyfile) - if err == nil { - return key, nil - } - // no persistent key, generate and store a new one - if key, err = crypto.GenerateKey(); err != nil { - return nil, fmt.Errorf("could not generate server key: %v", err) - } - if err := crypto.SaveECDSA(keyfile, key); err != nil { - glog.V(logger.Error).Infoln("could not persist nodekey: ", err) - } - return key, nil + TestGenesisBlock *types.Block // Genesis block to seed the chain database with (testing only!) + TestGenesisState ethdb.Database // Genesis state to seed the database with (testing only!) } type Ethereum struct { @@ -235,7 +102,6 @@ type Ethereum struct { txPool *core.TxPool blockchain *core.BlockChain accountManager *accounts.Manager - whisper *whisper.Whisper pow *ethash.Ethash protocolManager *ProtocolManager SolcPath string @@ -250,44 +116,28 @@ type Ethereum struct { httpclient *httpclient.HTTPClient - net *p2p.Server eventMux *event.TypeMux miner *miner.Miner - // logger logger.LogSystem - - Mining bool - MinerThreads int - NatSpec bool - DataDir string - AutoDAG bool - PowTest bool - autodagquit chan bool - etherbase common.Address - clientVersion string - netVersionId int - shhVersionId int + Mining bool + MinerThreads int + NatSpec bool + AutoDAG bool + PowTest bool + autodagquit chan bool + etherbase common.Address + netVersionId int } -func New(config *Config) (*Ethereum, error) { - logger.New(config.DataDir, config.LogFile, config.Verbosity) - +func New(ctx *node.ServiceContext, config *Config) (*Ethereum, error) { // Let the database take 3/4 of the max open files (TODO figure out a way to get the actual limit of the open files) const dbCount = 3 ethdb.OpenFileLimit = 128 / (dbCount + 1) - newdb := config.NewDB - if newdb == nil { - newdb = func(path string) (ethdb.Database, error) { return ethdb.NewLDBDatabase(path, config.DatabaseCache) } - } - // Open the chain database and perform any upgrades needed - chainDb, err := newdb(filepath.Join(config.DataDir, "chaindata")) + chainDb, err := ctx.OpenDatabase("chaindata", config.DatabaseCache) if err != nil { - if errno, ok := err.(syscall.Errno); ok && datadirInUseErrnos[uint(errno)] { - err = fmt.Errorf("%v (check if another instance of geth is already running with the same data directory '%s')", err, config.DataDir) - } - return nil, fmt.Errorf("blockchain db err: %v", err) + return nil, err } if db, ok := chainDb.(*ethdb.LDBDatabase); ok { db.Meter("eth/db/chaindata/") @@ -299,56 +149,32 @@ func New(config *Config) (*Ethereum, error) { return nil, err } - dappDb, err := newdb(filepath.Join(config.DataDir, "dapp")) + dappDb, err := ctx.OpenDatabase("dapp", config.DatabaseCache) if err != nil { - if errno, ok := err.(syscall.Errno); ok && datadirInUseErrnos[uint(errno)] { - err = fmt.Errorf("%v (check if another instance of geth is already running with the same data directory '%s')", err, config.DataDir) - } - return nil, fmt.Errorf("dapp db err: %v", err) + return nil, err } if db, ok := dappDb.(*ethdb.LDBDatabase); ok { db.Meter("eth/db/dapp/") } - - nodeDb := filepath.Join(config.DataDir, "nodes") glog.V(logger.Info).Infof("Protocol Versions: %v, Network Id: %v", ProtocolVersions, config.NetworkId) - if len(config.GenesisFile) > 0 { - fr, err := os.Open(config.GenesisFile) + // Load up any custom genesis block if requested + if len(config.Genesis) > 0 { + block, err := core.WriteGenesisBlock(chainDb, strings.NewReader(config.Genesis)) if err != nil { return nil, err } - - block, err := core.WriteGenesisBlock(chainDb, fr) - if err != nil { - return nil, err - } - glog.V(logger.Info).Infof("Successfully wrote genesis block. New genesis hash = %x\n", block.Hash()) + glog.V(logger.Info).Infof("Successfully wrote custom genesis block: %x", block.Hash()) } - - // different modes - switch { - case config.Olympic: - glog.V(logger.Error).Infoln("Starting Olympic network") - fallthrough - case config.DevMode: - _, err := core.WriteOlympicGenesisBlock(chainDb, 42) - if err != nil { - return nil, err - } - case config.TestNet: - state.StartingNonce = 1048576 // (2**20) - _, err := core.WriteTestNetGenesisBlock(chainDb, 0x6d6f7264656e) - if err != nil { - return nil, err - } + // Load up a test setup if directly injected + if config.TestGenesisState != nil { + chainDb = config.TestGenesisState } - // This is for testing only. - if config.GenesisBlock != nil { - core.WriteTd(chainDb, config.GenesisBlock.Hash(), config.GenesisBlock.Difficulty()) - core.WriteBlock(chainDb, config.GenesisBlock) - core.WriteCanonicalHash(chainDb, config.GenesisBlock.Hash(), config.GenesisBlock.NumberU64()) - core.WriteHeadBlockHash(chainDb, config.GenesisBlock.Hash()) + if config.TestGenesisBlock != nil { + core.WriteTd(chainDb, config.TestGenesisBlock.Hash(), config.TestGenesisBlock.Difficulty()) + core.WriteBlock(chainDb, config.TestGenesisBlock) + core.WriteCanonicalHash(chainDb, config.TestGenesisBlock.Hash(), config.TestGenesisBlock.NumberU64()) + core.WriteHeadBlockHash(chainDb, config.TestGenesisBlock.Hash()) } if !config.SkipBcVersionCheck { @@ -367,9 +193,7 @@ func New(config *Config) (*Ethereum, error) { dappDb: dappDb, eventMux: &event.TypeMux{}, accountManager: config.AccountManager, - DataDir: config.DataDir, etherbase: config.Etherbase, - clientVersion: config.Name, // TODO should separate from Name netVersionId: config.NetworkId, NatSpec: config.NatSpec, MinerThreads: config.MinerThreads, @@ -412,48 +236,9 @@ func New(config *Config) (*Ethereum, error) { eth.miner.SetGasPrice(config.GasPrice) eth.miner.SetExtra(config.ExtraData) - if config.Shh { - eth.whisper = whisper.New() - eth.shhVersionId = int(eth.whisper.Version()) - } - - netprv, err := config.nodeKey() - if err != nil { - return nil, err - } - protocols := append([]p2p.Protocol{}, eth.protocolManager.SubProtocols...) - if config.Shh { - protocols = append(protocols, eth.whisper.Protocol()) - } - eth.net = &p2p.Server{ - PrivateKey: netprv, - Name: config.Name, - MaxPeers: config.MaxPeers, - MaxPendingPeers: config.MaxPendingPeers, - Discovery: config.Discovery, - Protocols: protocols, - NAT: config.NAT, - NoDial: !config.Dial, - BootstrapNodes: config.parseBootNodes(), - StaticNodes: config.parseNodes(staticNodes), - TrustedNodes: config.parseNodes(trustedNodes), - NodeDatabase: nodeDb, - } - if len(config.Port) > 0 { - eth.net.ListenAddr = ":" + config.Port - } - - vm.Debug = config.VmDebug - return eth, nil } -// Network retrieves the underlying P2P network server. This should eventually -// be moved out into a protocol independent package, but for now use an accessor. -func (s *Ethereum) Network() *p2p.Server { - return s.net -} - func (s *Ethereum) ResetWithGenesisBlock(gb *types.Block) { s.blockchain.ResetWithGenesisBlock(gb) } @@ -480,86 +265,48 @@ func (s *Ethereum) StopMining() { s.miner.Stop() } func (s *Ethereum) IsMining() bool { return s.miner.Mining() } func (s *Ethereum) Miner() *miner.Miner { return s.miner } -// func (s *Ethereum) Logger() logger.LogSystem { return s.logger } -func (s *Ethereum) Name() string { return s.net.Name } func (s *Ethereum) AccountManager() *accounts.Manager { return s.accountManager } func (s *Ethereum) BlockChain() *core.BlockChain { return s.blockchain } func (s *Ethereum) TxPool() *core.TxPool { return s.txPool } -func (s *Ethereum) Whisper() *whisper.Whisper { return s.whisper } func (s *Ethereum) EventMux() *event.TypeMux { return s.eventMux } func (s *Ethereum) ChainDb() ethdb.Database { return s.chainDb } func (s *Ethereum) DappDb() ethdb.Database { return s.dappDb } func (s *Ethereum) IsListening() bool { return true } // Always listening -func (s *Ethereum) PeerCount() int { return s.net.PeerCount() } -func (s *Ethereum) Peers() []*p2p.Peer { return s.net.Peers() } -func (s *Ethereum) MaxPeers() int { return s.net.MaxPeers } -func (s *Ethereum) ClientVersion() string { return s.clientVersion } func (s *Ethereum) EthVersion() int { return int(s.protocolManager.SubProtocols[0].Version) } func (s *Ethereum) NetVersion() int { return s.netVersionId } -func (s *Ethereum) ShhVersion() int { return s.shhVersionId } func (s *Ethereum) Downloader() *downloader.Downloader { return s.protocolManager.downloader } -// Start the ethereum -func (s *Ethereum) Start() error { - jsonlogger.LogJson(&logger.LogStarting{ - ClientString: s.net.Name, - ProtocolVersion: s.EthVersion(), - }) - err := s.net.Start() - if err != nil { - if portInUseErrRE.MatchString(err.Error()) { - err = fmt.Errorf("%v (possibly another instance of geth is using the same port)", err) - } - return err - } +// Protocols implements node.Service, returning all the currently configured +// network protocols to start. +func (s *Ethereum) Protocols() []p2p.Protocol { + return s.protocolManager.SubProtocols +} +// Start implements node.Service, starting all internal goroutines needed by the +// Ethereum protocol implementation. +func (s *Ethereum) Start(*p2p.Server) error { if s.AutoDAG { s.StartAutoDAG() } - s.protocolManager.Start() - - if s.whisper != nil { - s.whisper.Start() - } - - glog.V(logger.Info).Infoln("Server started") return nil } -func (s *Ethereum) StartForTest() { - jsonlogger.LogJson(&logger.LogStarting{ - ClientString: s.net.Name, - ProtocolVersion: s.EthVersion(), - }) -} - -// AddPeer connects to the given node and maintains the connection until the -// server is shut down. If the connection fails for any reason, the server will -// attempt to reconnect the peer. -func (self *Ethereum) AddPeer(nodeURL string) error { - n, err := discover.ParseNode(nodeURL) - if err != nil { - return fmt.Errorf("invalid node URL: %v", err) - } - self.net.AddPeer(n) - return nil -} - -func (s *Ethereum) Stop() { - s.net.Stop() +// Stop implements node.Service, terminating all internal goroutines used by the +// Ethereum protocol. +func (s *Ethereum) Stop() error { s.blockchain.Stop() s.protocolManager.Stop() s.txPool.Stop() s.eventMux.Stop() - if s.whisper != nil { - s.whisper.Stop() - } + s.StopAutoDAG() s.chainDb.Close() s.dappDb.Close() close(s.shutdownChan) + + return nil } // This function will wait for a shutdown and resumes main thread execution diff --git a/node/config.go b/node/config.go new file mode 100644 index 000000000..93f0ba79d --- /dev/null +++ b/node/config.go @@ -0,0 +1,171 @@ +// Copyright 2015 The go-ethereum Authors +// This file is part of the go-ethereum library. +// +// The go-ethereum library is free software: you can redistribute it and/or modify +// it under the terms of the GNU Lesser General Public License as published by +// the Free Software Foundation, either version 3 of the License, or +// (at your option) any later version. +// +// The go-ethereum library is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU Lesser General Public License for more details. +// +// You should have received a copy of the GNU Lesser General Public License +// along with the go-ethereum library. If not, see . + +package node + +import ( + "crypto/ecdsa" + "encoding/json" + "io/ioutil" + "net" + "os" + "path/filepath" + + "github.com/ethereum/go-ethereum/crypto" + "github.com/ethereum/go-ethereum/logger" + "github.com/ethereum/go-ethereum/logger/glog" + "github.com/ethereum/go-ethereum/p2p/discover" + "github.com/ethereum/go-ethereum/p2p/nat" +) + +var ( + datadirPrivateKey = "nodekey" // Path within the datadir to the node's private key + datadirStaticNodes = "static-nodes.json" // Path within the datadir to the static node list + datadirTrustedNodes = "trusted-nodes.json" // Path within the datadir to the trusted node list + datadirNodeDatabase = "nodes" // Path within the datadir to store the node infos +) + +// Config represents a small collection of configuration values to fine tune the +// P2P network layer of a protocol stack. These values can be further extended by +// all registered services. +type Config struct { + // DataDir is the file system folder the node should use for any data storage + // requirements. The configured data directory will not be directly shared with + // registered services, instead those can use utility methods to create/access + // databases or flat files. This enables ephemeral nodes which can fully reside + // in memory. + DataDir string + + // This field should be a valid secp256k1 private key that will be used for both + // remote peer identification as well as network traffic encryption. If no key + // is configured, the preset one is loaded from the data dir, generating it if + // needed. + PrivateKey *ecdsa.PrivateKey + + // Name sets the node name of this server. Use common.MakeName to create a name + // that follows existing conventions. + Name string + + // NoDiscovery specifies whether the peer discovery mechanism should be started + // or not. Disabling is usually useful for protocol debugging (manual topology). + NoDiscovery bool + + // Bootstrap nodes used to establish connectivity with the rest of the network. + BootstrapNodes []*discover.Node + + // Network interface address on which the node should listen for inbound peers. + ListenAddr string + + // If set to a non-nil value, the given NAT port mapper is used to make the + // listening port available to the Internet. + NAT nat.Interface + + // If Dialer is set to a non-nil value, the given Dialer is used to dial outbound + // peer connections. + Dialer *net.Dialer + + // If NoDial is true, the node will not dial any peers. + NoDial bool + + // MaxPeers is the maximum number of peers that can be connected. If this is + // set to zero, then only the configured static and trusted peers can connect. + MaxPeers int + + // MaxPendingPeers is the maximum number of peers that can be pending in the + // handshake phase, counted separately for inbound and outbound connections. + // Zero defaults to preset values. + MaxPendingPeers int +} + +// NodeKey retrieves the currently configured private key of the node, checking +// first any manually set key, falling back to the one found in the configured +// data folder. If no key can be found, a new one is generated. +func (c *Config) NodeKey() *ecdsa.PrivateKey { + // Use any specifically configured key + if c.PrivateKey != nil { + return c.PrivateKey + } + // Generate ephemeral key if no datadir is being used + if c.DataDir == "" { + key, err := crypto.GenerateKey() + if err != nil { + glog.Fatalf("Failed to generate ephemeral node key: %v", err) + } + return key + } + // Fall back to persistent key from the data directory + keyfile := filepath.Join(c.DataDir, datadirPrivateKey) + if key, err := crypto.LoadECDSA(keyfile); err == nil { + return key + } + // No persistent key found, generate and store a new one + key, err := crypto.GenerateKey() + if err != nil { + glog.Fatalf("Failed to generate node key: %v", err) + } + if err := crypto.SaveECDSA(keyfile, key); err != nil { + glog.V(logger.Error).Infof("Failed to persist node key: %v", err) + } + return key +} + +// StaticNodes returns a list of node enode URLs configured as static nodes. +func (c *Config) StaticNodes() []*discover.Node { + return c.parsePersistentNodes(datadirStaticNodes) +} + +// TrusterNodes returns a list of node enode URLs configured as trusted nodes. +func (c *Config) TrusterNodes() []*discover.Node { + return c.parsePersistentNodes(datadirTrustedNodes) +} + +// parsePersistentNodes parses a list of discovery node URLs loaded from a .json +// file from within the data directory. +func (c *Config) parsePersistentNodes(file string) []*discover.Node { + // Short circuit if no node config is present + if c.DataDir == "" { + return nil + } + path := filepath.Join(c.DataDir, file) + if _, err := os.Stat(path); err != nil { + return nil + } + // Load the nodes from the config file + blob, err := ioutil.ReadFile(path) + if err != nil { + glog.V(logger.Error).Infof("Failed to access nodes: %v", err) + return nil + } + nodelist := []string{} + if err := json.Unmarshal(blob, &nodelist); err != nil { + glog.V(logger.Error).Infof("Failed to load nodes: %v", err) + return nil + } + // Interpret the list as a discovery node array + var nodes []*discover.Node + for _, url := range nodelist { + if url == "" { + continue + } + node, err := discover.ParseNode(url) + if err != nil { + glog.V(logger.Error).Infof("Node URL %s: %v\n", url, err) + continue + } + nodes = append(nodes, node) + } + return nodes +} diff --git a/node/config_test.go b/node/config_test.go new file mode 100644 index 000000000..f59f3c0fe --- /dev/null +++ b/node/config_test.go @@ -0,0 +1,120 @@ +// Copyright 2015 The go-ethereum Authors +// This file is part of the go-ethereum library. +// +// The go-ethereum library is free software: you can redistribute it and/or modify +// it under the terms of the GNU Lesser General Public License as published by +// the Free Software Foundation, either version 3 of the License, or +// (at your option) any later version. +// +// The go-ethereum library is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU Lesser General Public License for more details. +// +// You should have received a copy of the GNU Lesser General Public License +// along with the go-ethereum library. If not, see . + +package node + +import ( + "bytes" + "io/ioutil" + "os" + "path/filepath" + "testing" + + "github.com/ethereum/go-ethereum/crypto" +) + +// Tests that datadirs can be successfully created, be them manually configured +// ones or automatically generated temporary ones. +func TestDatadirCreation(t *testing.T) { + // Create a temporary data dir and check that it can be used by a node + dir, err := ioutil.TempDir("", "") + if err != nil { + t.Fatalf("failed to create manual data dir: %v", err) + } + defer os.RemoveAll(dir) + + if _, err := New(&Config{DataDir: dir}); err != nil { + t.Fatalf("failed to create stack with existing datadir: %v", err) + } + // Generate a long non-existing datadir path and check that it gets created by a node + dir = filepath.Join(dir, "a", "b", "c", "d", "e", "f") + if _, err := New(&Config{DataDir: dir}); err != nil { + t.Fatalf("failed to create stack with creatable datadir: %v", err) + } + if _, err := os.Stat(dir); err != nil { + t.Fatalf("freshly created datadir not accessible: %v", err) + } + // Verify that an impossible datadir fails creation + file, err := ioutil.TempFile("", "") + if err != nil { + t.Fatalf("failed to create temporary file: %v", err) + } + defer os.Remove(file.Name()) + + dir = filepath.Join(file.Name(), "invalid/path") + if _, err := New(&Config{DataDir: dir}); err == nil { + t.Fatalf("protocol stack created with an invalid datadir") + } +} + +// Tests that node keys can be correctly created, persisted, loaded and/or made +// ephemeral. +func TestNodeKeyPersistency(t *testing.T) { + // Create a temporary folder and make sure no key is present + dir, err := ioutil.TempDir("", "") + if err != nil { + t.Fatalf("failed to create temporary data directory: %v", err) + } + defer os.RemoveAll(dir) + + if _, err := os.Stat(filepath.Join(dir, datadirPrivateKey)); err == nil { + t.Fatalf("non-created node key already exists") + } + // Configure a node with a preset key and ensure it's not persisted + key, err := crypto.GenerateKey() + if err != nil { + t.Fatalf("failed to generate one-shot node key: %v", err) + } + if _, err := New(&Config{DataDir: dir, PrivateKey: key}); err != nil { + t.Fatalf("failed to create empty stack: %v", err) + } + if _, err := os.Stat(filepath.Join(dir, datadirPrivateKey)); err == nil { + t.Fatalf("one-shot node key persisted to data directory") + } + // Configure a node with no preset key and ensure it is persisted this time + if _, err := New(&Config{DataDir: dir}); err != nil { + t.Fatalf("failed to create newly keyed stack: %v", err) + } + if _, err := os.Stat(filepath.Join(dir, datadirPrivateKey)); err != nil { + t.Fatalf("node key not persisted to data directory: %v", err) + } + key, err = crypto.LoadECDSA(filepath.Join(dir, datadirPrivateKey)) + if err != nil { + t.Fatalf("failed to load freshly persisted node key: %v", err) + } + blob1, err := ioutil.ReadFile(filepath.Join(dir, datadirPrivateKey)) + if err != nil { + t.Fatalf("failed to read freshly persisted node key: %v", err) + } + // Configure a new node and ensure the previously persisted key is loaded + if _, err := New(&Config{DataDir: dir}); err != nil { + t.Fatalf("failed to create previously keyed stack: %v", err) + } + blob2, err := ioutil.ReadFile(filepath.Join(dir, datadirPrivateKey)) + if err != nil { + t.Fatalf("failed to read previously persisted node key: %v", err) + } + if bytes.Compare(blob1, blob2) != 0 { + t.Fatalf("persisted node key mismatch: have %x, want %x", blob2, blob1) + } + // Configure ephemeral node and ensure no key is dumped locally + if _, err := New(&Config{DataDir: ""}); err != nil { + t.Fatalf("failed to create ephemeral stack: %v", err) + } + if _, err := os.Stat(filepath.Join(".", datadirPrivateKey)); err == nil { + t.Fatalf("ephemeral node key persisted to disk") + } +} diff --git a/node/errors.go b/node/errors.go new file mode 100644 index 000000000..bd5ddeb5d --- /dev/null +++ b/node/errors.go @@ -0,0 +1,45 @@ +// Copyright 2015 The go-ethereum Authors +// This file is part of the go-ethereum library. +// +// The go-ethereum library is free software: you can redistribute it and/or modify +// it under the terms of the GNU Lesser General Public License as published by +// the Free Software Foundation, either version 3 of the License, or +// (at your option) any later version. +// +// The go-ethereum library is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU Lesser General Public License for more details. +// +// You should have received a copy of the GNU Lesser General Public License +// along with the go-ethereum library. If not, see . + +package node + +import ( + "fmt" + "reflect" +) + +// DuplicateServiceError is returned during Node startup if a registered service +// constructor returns a service of the same type that was already started. +type DuplicateServiceError struct { + Kind reflect.Type +} + +// Error generates a textual representation of the duplicate service error. +func (e *DuplicateServiceError) Error() string { + return fmt.Sprintf("duplicate service: %v", e.Kind) +} + +// StopError is returned if a Node fails to stop either any of its registered +// services or itself. +type StopError struct { + Server error + Services map[reflect.Type]error +} + +// Error generates a textual representation of the stop error. +func (e *StopError) Error() string { + return fmt.Sprintf("server: %v, services: %v", e.Server, e.Services) +} diff --git a/node/node.go b/node/node.go new file mode 100644 index 000000000..5566bc44b --- /dev/null +++ b/node/node.go @@ -0,0 +1,266 @@ +// Copyright 2015 The go-ethereum Authors +// This file is part of the go-ethereum library. +// +// The go-ethereum library is free software: you can redistribute it and/or modify +// it under the terms of the GNU Lesser General Public License as published by +// the Free Software Foundation, either version 3 of the License, or +// (at your option) any later version. +// +// The go-ethereum library is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU Lesser General Public License for more details. +// +// You should have received a copy of the GNU Lesser General Public License +// along with the go-ethereum library. If not, see . + +// Package node represents the Ethereum protocol stack container. +package node + +import ( + "errors" + "os" + "path/filepath" + "reflect" + "sync" + "syscall" + + "github.com/ethereum/go-ethereum/event" + "github.com/ethereum/go-ethereum/p2p" +) + +var ( + ErrDatadirUsed = errors.New("datadir already used") + ErrNodeStopped = errors.New("node not started") + ErrNodeRunning = errors.New("node already running") + ErrServiceUnknown = errors.New("unknown service") + + datadirInUseErrnos = map[uint]bool{11: true, 32: true, 35: true} +) + +// Node represents a P2P node into which arbitrary (uniquely typed) services might +// be registered. +type Node struct { + datadir string // Path to the currently used data directory + eventmux *event.TypeMux // Event multiplexer used between the services of a stack + + serverConfig *p2p.Server // Configuration of the underlying P2P networking layer + server *p2p.Server // Currently running P2P networking layer + + serviceFuncs []ServiceConstructor // Service constructors (in dependency order) + services map[reflect.Type]Service // Currently running services + + stop chan struct{} // Channel to wait for termination notifications + lock sync.RWMutex +} + +// New creates a new P2P node, ready for protocol registration. +func New(conf *Config) (*Node, error) { + // Ensure the data directory exists, failing if it cannot be created + if conf.DataDir != "" { + if err := os.MkdirAll(conf.DataDir, 0700); err != nil { + return nil, err + } + } + // Assemble the networking layer and the node itself + nodeDbPath := "" + if conf.DataDir != "" { + nodeDbPath = filepath.Join(conf.DataDir, datadirNodeDatabase) + } + return &Node{ + datadir: conf.DataDir, + serverConfig: &p2p.Server{ + PrivateKey: conf.NodeKey(), + Name: conf.Name, + Discovery: !conf.NoDiscovery, + BootstrapNodes: conf.BootstrapNodes, + StaticNodes: conf.StaticNodes(), + TrustedNodes: conf.TrusterNodes(), + NodeDatabase: nodeDbPath, + ListenAddr: conf.ListenAddr, + NAT: conf.NAT, + Dialer: conf.Dialer, + NoDial: conf.NoDial, + MaxPeers: conf.MaxPeers, + MaxPendingPeers: conf.MaxPendingPeers, + }, + serviceFuncs: []ServiceConstructor{}, + eventmux: new(event.TypeMux), + }, nil +} + +// Register injects a new service into the node's stack. The service created by +// the passed constructor must be unique in its type with regard to sibling ones. +func (n *Node) Register(constructor ServiceConstructor) error { + n.lock.Lock() + defer n.lock.Unlock() + + if n.server != nil { + return ErrNodeRunning + } + n.serviceFuncs = append(n.serviceFuncs, constructor) + return nil +} + +// Start create a live P2P node and starts running it. +func (n *Node) Start() error { + n.lock.Lock() + defer n.lock.Unlock() + + // Short circuit if the node's already running + if n.server != nil { + return ErrNodeRunning + } + // Otherwise copy and specialize the P2P configuration + running := new(p2p.Server) + *running = *n.serverConfig + + services := make(map[reflect.Type]Service) + for _, constructor := range n.serviceFuncs { + // Create a new context for the particular service + ctx := &ServiceContext{ + datadir: n.datadir, + services: make(map[reflect.Type]Service), + EventMux: n.eventmux, + } + for kind, s := range services { // copy needed for threaded access + ctx.services[kind] = s + } + // Construct and save the service + service, err := constructor(ctx) + if err != nil { + return err + } + kind := reflect.TypeOf(service) + if _, exists := services[kind]; exists { + return &DuplicateServiceError{Kind: kind} + } + services[kind] = service + } + // Gather the protocols and start the freshly assembled P2P server + for _, service := range services { + running.Protocols = append(running.Protocols, service.Protocols()...) + } + if err := running.Start(); err != nil { + if errno, ok := err.(syscall.Errno); ok && datadirInUseErrnos[uint(errno)] { + return ErrDatadirUsed + } + return err + } + // Start each of the services + started := []reflect.Type{} + for kind, service := range services { + // Start the next service, stopping all previous upon failure + if err := service.Start(running); err != nil { + for _, kind := range started { + services[kind].Stop() + } + running.Stop() + + return err + } + // Mark the service started for potential cleanup + started = append(started, kind) + } + // Finish initializing the startup + n.services = services + n.server = running + n.stop = make(chan struct{}) + + return nil +} + +// Stop terminates a running node along with all it's services. In the node was +// not started, an error is returned. +func (n *Node) Stop() error { + n.lock.Lock() + defer n.lock.Unlock() + + // Short circuit if the node's not running + if n.server == nil { + return ErrNodeStopped + } + // Otherwise terminate all the services and the P2P server too + failure := &StopError{ + Services: make(map[reflect.Type]error), + } + for kind, service := range n.services { + if err := service.Stop(); err != nil { + failure.Services[kind] = err + } + } + n.server.Stop() + + n.services = nil + n.server = nil + close(n.stop) + + if len(failure.Services) > 0 { + return failure + } + return nil +} + +// Wait blocks the thread until the node is stopped. If the node is not running +// at the time of invocation, the method immediately returns. +func (n *Node) Wait() { + n.lock.RLock() + if n.server == nil { + return + } + stop := n.stop + n.lock.RUnlock() + + <-stop +} + +// Restart terminates a running node and boots up a new one in its place. If the +// node isn't running, an error is returned. +func (n *Node) Restart() error { + if err := n.Stop(); err != nil { + return err + } + if err := n.Start(); err != nil { + return err + } + return nil +} + +// Server retrieves the currently running P2P network layer. This method is meant +// only to inspect fields of the currently running server, life cycle management +// should be left to this Node entity. +func (n *Node) Server() *p2p.Server { + n.lock.RLock() + defer n.lock.RUnlock() + + return n.server +} + +// Service retrieves a currently running service registered of a specific type. +func (n *Node) Service(service interface{}) error { + n.lock.RLock() + defer n.lock.RUnlock() + + // Short circuit if the node's not running + if n.server == nil { + return ErrNodeStopped + } + // Otherwise try to find the service to return + element := reflect.ValueOf(service).Elem() + if running, ok := n.services[element.Type()]; ok { + element.Set(reflect.ValueOf(running)) + return nil + } + return ErrServiceUnknown +} + +// DataDir retrieves the current datadir used by the protocol stack. +func (n *Node) DataDir() string { + return n.datadir +} + +// EventMux retrieves the event multiplexer used by all the network services in +// the current protocol stack. +func (n *Node) EventMux() *event.TypeMux { + return n.eventmux +} diff --git a/node/node_example_test.go b/node/node_example_test.go new file mode 100644 index 000000000..2f9b49a56 --- /dev/null +++ b/node/node_example_test.go @@ -0,0 +1,87 @@ +// Copyright 2015 The go-ethereum Authors +// This file is part of the go-ethereum library. +// +// The go-ethereum library is free software: you can redistribute it and/or modify +// it under the terms of the GNU Lesser General Public License as published by +// the Free Software Foundation, either version 3 of the License, or +// (at your option) any later version. +// +// The go-ethereum library is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU Lesser General Public License for more details. +// +// You should have received a copy of the GNU Lesser General Public License +// along with the go-ethereum library. If not, see . + +package node_test + +import ( + "fmt" + "log" + + "github.com/ethereum/go-ethereum/node" + "github.com/ethereum/go-ethereum/p2p" + "github.com/ethereum/go-ethereum/p2p/discover" +) + +// SampleService is a trivial network service that can be attached to a node for +// life cycle management. +// +// The following methods are needed to implement a node.Service: +// - Protocols() []p2p.Protocol - devp2p protocols the service can communicate on +// - Start() error - method invoked when the node is ready to start the service +// - Stop() error - method invoked when the node terminates the service +type SampleService struct{} + +func (s *SampleService) Protocols() []p2p.Protocol { return nil } +func (s *SampleService) Start(*p2p.Server) error { fmt.Println("Service starting..."); return nil } +func (s *SampleService) Stop() error { fmt.Println("Service stopping..."); return nil } + +func ExampleUsage() { + // Create a network node to run protocols with the default values. The below list + // is only used to display each of the configuration options. All of these could + // have been ommited if the default behavior is desired. + nodeConfig := &node.Config{ + DataDir: "", // Empty uses ephemeral storage + PrivateKey: nil, // Nil generates a node key on the fly + Name: "", // Any textual node name is allowed + NoDiscovery: false, // Can disable discovering remote nodes + BootstrapNodes: []*discover.Node{}, // List of bootstrap nodes to use + ListenAddr: ":0", // Network interface to listen on + NAT: nil, // UPnP port mapper to use for crossing firewalls + Dialer: nil, // Custom dialer to use for establishing peer connections + NoDial: false, // Can prevent this node from dialing out + MaxPeers: 0, // Number of peers to allow + MaxPendingPeers: 0, // Number of peers allowed to handshake concurrently + } + stack, err := node.New(nodeConfig) + if err != nil { + log.Fatalf("Failed to create network node: %v", err) + } + // Create and register a simple network service. This is done through the definition + // of a node.ServiceConstructor that will instantiate a node.Service. The reason for + // the factory method approach is to support service restarts without relying on the + // individual implementations' support for such operations. + constructor := func(context *node.ServiceContext) (node.Service, error) { + return new(SampleService), nil + } + if err := stack.Register(constructor); err != nil { + log.Fatalf("Failed to register service: %v", err) + } + // Boot up the entire protocol stack, do a restart and terminate + if err := stack.Start(); err != nil { + log.Fatalf("Failed to start the protocol stack: %v", err) + } + if err := stack.Restart(); err != nil { + log.Fatalf("Failed to restart the protocol stack: %v", err) + } + if err := stack.Stop(); err != nil { + log.Fatalf("Failed to stop the protocol stack: %v", err) + } + // Output: + // Service starting... + // Service stopping... + // Service starting... + // Service stopping... +} diff --git a/node/node_test.go b/node/node_test.go new file mode 100644 index 000000000..ef096fc91 --- /dev/null +++ b/node/node_test.go @@ -0,0 +1,496 @@ +// Copyright 2015 The go-ethereum Authors +// This file is part of the go-ethereum library. +// +// The go-ethereum library is free software: you can redistribute it and/or modify +// it under the terms of the GNU Lesser General Public License as published by +// the Free Software Foundation, either version 3 of the License, or +// (at your option) any later version. +// +// The go-ethereum library is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU Lesser General Public License for more details. +// +// You should have received a copy of the GNU Lesser General Public License +// along with the go-ethereum library. If not, see . + +package node + +import ( + "errors" + "io/ioutil" + "os" + "reflect" + "testing" + + "github.com/ethereum/go-ethereum/crypto" + "github.com/ethereum/go-ethereum/p2p" +) + +var ( + testNodeKey, _ = crypto.GenerateKey() + + testNodeConfig = &Config{ + PrivateKey: testNodeKey, + Name: "test node", + } +) + +// Tests that an empty protocol stack can be started, restarted and stopped. +func TestNodeLifeCycle(t *testing.T) { + stack, err := New(testNodeConfig) + if err != nil { + t.Fatalf("failed to create protocol stack: %v", err) + } + // Ensure that a stopped node can be stopped again + for i := 0; i < 3; i++ { + if err := stack.Stop(); err != ErrNodeStopped { + t.Fatalf("iter %d: stop failure mismatch: have %v, want %v", i, err, ErrNodeStopped) + } + } + // Ensure that a node can be successfully started, but only once + if err := stack.Start(); err != nil { + t.Fatalf("failed to start node: %v", err) + } + if err := stack.Start(); err != ErrNodeRunning { + t.Fatalf("start failure mismatch: have %v, want %v ", err, ErrNodeRunning) + } + // Ensure that a node can be restarted arbitrarily many times + for i := 0; i < 3; i++ { + if err := stack.Restart(); err != nil { + t.Fatalf("iter %d: failed to restart node: %v", i, err) + } + } + // Ensure that a node can be stopped, but only once + if err := stack.Stop(); err != nil { + t.Fatalf("failed to stop node: %v", err) + } + if err := stack.Stop(); err != ErrNodeStopped { + t.Fatalf("stop failure mismatch: have %v, want %v ", err, ErrNodeStopped) + } +} + +// Tests that if the data dir is already in use, an appropriate error is returned. +func TestNodeUsedDataDir(t *testing.T) { + // Create a temporary folder to use as the data directory + dir, err := ioutil.TempDir("", "") + if err != nil { + t.Fatalf("failed to create temporary data directory: %v", err) + } + defer os.RemoveAll(dir) + + // Create a new node based on the data directory + original, err := New(&Config{DataDir: dir}) + if err != nil { + t.Fatalf("failed to create original protocol stack: %v", err) + } + if err := original.Start(); err != nil { + t.Fatalf("failed to start original protocol stack: %v", err) + } + defer original.Stop() + + // Create a second node based on the same data directory and ensure failure + duplicate, err := New(&Config{DataDir: dir}) + if err != nil { + t.Fatalf("failed to create duplicate protocol stack: %v", err) + } + if err := duplicate.Start(); err != ErrDatadirUsed { + t.Fatalf("duplicate datadir failure mismatch: have %v, want %v", err, ErrDatadirUsed) + } +} + +// Tests whether services can be registered and duplicates caught. +func TestServiceRegistry(t *testing.T) { + stack, err := New(testNodeConfig) + if err != nil { + t.Fatalf("failed to create protocol stack: %v", err) + } + // Register a batch of unique services and ensure they start successfully + services := []ServiceConstructor{NewNoopServiceA, NewNoopServiceB, NewNoopServiceC} + for i, constructor := range services { + if err := stack.Register(constructor); err != nil { + t.Fatalf("service #%d: registration failed: %v", i, err) + } + } + if err := stack.Start(); err != nil { + t.Fatalf("failed to start original service stack: %v", err) + } + if err := stack.Stop(); err != nil { + t.Fatalf("failed to stop original service stack: %v", err) + } + // Duplicate one of the services and retry starting the node + if err := stack.Register(NewNoopServiceB); err != nil { + t.Fatalf("duplicate registration failed: %v", err) + } + if err := stack.Start(); err == nil { + t.Fatalf("duplicate service started") + } else { + if _, ok := err.(*DuplicateServiceError); !ok { + t.Fatalf("duplicate error mismatch: have %v, want %v", err, DuplicateServiceError{}) + } + } +} + +// Tests that registered services get started and stopped correctly. +func TestServiceLifeCycle(t *testing.T) { + stack, err := New(testNodeConfig) + if err != nil { + t.Fatalf("failed to create protocol stack: %v", err) + } + // Register a batch of life-cycle instrumented services + services := map[string]InstrumentingWrapper{ + "A": InstrumentedServiceMakerA, + "B": InstrumentedServiceMakerB, + "C": InstrumentedServiceMakerC, + } + started := make(map[string]bool) + stopped := make(map[string]bool) + + for id, maker := range services { + id := id // Closure for the constructor + constructor := func(*ServiceContext) (Service, error) { + return &InstrumentedService{ + startHook: func(*p2p.Server) { started[id] = true }, + stopHook: func() { stopped[id] = true }, + }, nil + } + if err := stack.Register(maker(constructor)); err != nil { + t.Fatalf("service %s: registration failed: %v", id, err) + } + } + // Start the node and check that all services are running + if err := stack.Start(); err != nil { + t.Fatalf("failed to start protocol stack: %v", err) + } + for id, _ := range services { + if !started[id] { + t.Fatalf("service %s: freshly started service not running", id) + } + if stopped[id] { + t.Fatalf("service %s: freshly started service already stopped", id) + } + } + // Stop the node and check that all services have been stopped + if err := stack.Stop(); err != nil { + t.Fatalf("failed to stop protocol stack: %v", err) + } + for id, _ := range services { + if !stopped[id] { + t.Fatalf("service %s: freshly terminated service still running", id) + } + } +} + +// Tests that services are restarted cleanly as new instances. +func TestServiceRestarts(t *testing.T) { + stack, err := New(testNodeConfig) + if err != nil { + t.Fatalf("failed to create protocol stack: %v", err) + } + // Define a service that does not support restarts + var ( + running bool + started int + ) + constructor := func(*ServiceContext) (Service, error) { + running = false + + return &InstrumentedService{ + startHook: func(*p2p.Server) { + if running { + panic("already running") + } + running = true + started++ + }, + }, nil + } + // Register the service and start the protocol stack + if err := stack.Register(constructor); err != nil { + t.Fatalf("failed to register the service: %v", err) + } + if err := stack.Start(); err != nil { + t.Fatalf("failed to start protocol stack: %v", err) + } + defer stack.Stop() + + if running != true || started != 1 { + t.Fatalf("running/started mismatch: have %v/%d, want true/1", running, started) + } + // Restart the stack a few times and check successful service restarts + for i := 0; i < 3; i++ { + if err := stack.Restart(); err != nil { + t.Fatalf("iter %d: failed to restart stack: %v", i, err) + } + } + if running != true || started != 4 { + t.Fatalf("running/started mismatch: have %v/%d, want true/4", running, started) + } +} + +// Tests that if a service fails to initialize itself, none of the other services +// will be allowed to even start. +func TestServiceConstructionAbortion(t *testing.T) { + stack, err := New(testNodeConfig) + if err != nil { + t.Fatalf("failed to create protocol stack: %v", err) + } + // Define a batch of good services + services := map[string]InstrumentingWrapper{ + "A": InstrumentedServiceMakerA, + "B": InstrumentedServiceMakerB, + "C": InstrumentedServiceMakerC, + } + started := make(map[string]bool) + for id, maker := range services { + id := id // Closure for the constructor + constructor := func(*ServiceContext) (Service, error) { + return &InstrumentedService{ + startHook: func(*p2p.Server) { started[id] = true }, + }, nil + } + if err := stack.Register(maker(constructor)); err != nil { + t.Fatalf("service %s: registration failed: %v", id, err) + } + } + // Register a service that fails to construct itself + failure := errors.New("fail") + failer := func(*ServiceContext) (Service, error) { + return nil, failure + } + if err := stack.Register(failer); err != nil { + t.Fatalf("failer registration failed: %v", err) + } + // Start the protocol stack and ensure none of the services get started + for i := 0; i < 100; i++ { + if err := stack.Start(); err != failure { + t.Fatalf("iter %d: stack startup failure mismatch: have %v, want %v", i, err, failure) + } + for id, _ := range services { + if started[id] { + t.Fatalf("service %s: started should not have", id) + } + delete(started, id) + } + } +} + +// Tests that if a service fails to start, all others started before it will be +// shut down. +func TestServiceStartupAbortion(t *testing.T) { + stack, err := New(testNodeConfig) + if err != nil { + t.Fatalf("failed to create protocol stack: %v", err) + } + // Register a batch of good services + services := map[string]InstrumentingWrapper{ + "A": InstrumentedServiceMakerA, + "B": InstrumentedServiceMakerB, + "C": InstrumentedServiceMakerC, + } + started := make(map[string]bool) + stopped := make(map[string]bool) + + for id, maker := range services { + id := id // Closure for the constructor + constructor := func(*ServiceContext) (Service, error) { + return &InstrumentedService{ + startHook: func(*p2p.Server) { started[id] = true }, + stopHook: func() { stopped[id] = true }, + }, nil + } + if err := stack.Register(maker(constructor)); err != nil { + t.Fatalf("service %s: registration failed: %v", id, err) + } + } + // Register a service that fails to start + failure := errors.New("fail") + failer := func(*ServiceContext) (Service, error) { + return &InstrumentedService{ + start: failure, + }, nil + } + if err := stack.Register(failer); err != nil { + t.Fatalf("failer registration failed: %v", err) + } + // Start the protocol stack and ensure all started services stop + for i := 0; i < 100; i++ { + if err := stack.Start(); err != failure { + t.Fatalf("iter %d: stack startup failure mismatch: have %v, want %v", i, err, failure) + } + for id, _ := range services { + if started[id] && !stopped[id] { + t.Fatalf("service %s: started but not stopped", id) + } + delete(started, id) + delete(stopped, id) + } + } +} + +// Tests that even if a registered service fails to shut down cleanly, it does +// not influece the rest of the shutdown invocations. +func TestServiceTerminationGuarantee(t *testing.T) { + stack, err := New(testNodeConfig) + if err != nil { + t.Fatalf("failed to create protocol stack: %v", err) + } + // Register a batch of good services + services := map[string]InstrumentingWrapper{ + "A": InstrumentedServiceMakerA, + "B": InstrumentedServiceMakerB, + "C": InstrumentedServiceMakerC, + } + started := make(map[string]bool) + stopped := make(map[string]bool) + + for id, maker := range services { + id := id // Closure for the constructor + constructor := func(*ServiceContext) (Service, error) { + return &InstrumentedService{ + startHook: func(*p2p.Server) { started[id] = true }, + stopHook: func() { stopped[id] = true }, + }, nil + } + if err := stack.Register(maker(constructor)); err != nil { + t.Fatalf("service %s: registration failed: %v", id, err) + } + } + // Register a service that fails to shot down cleanly + failure := errors.New("fail") + failer := func(*ServiceContext) (Service, error) { + return &InstrumentedService{ + stop: failure, + }, nil + } + if err := stack.Register(failer); err != nil { + t.Fatalf("failer registration failed: %v", err) + } + // Start the protocol stack, and ensure that a failing shut down terminates all + for i := 0; i < 100; i++ { + // Start the stack and make sure all is online + if err := stack.Start(); err != nil { + t.Fatalf("iter %d: failed to start protocol stack: %v", i, err) + } + for id, _ := range services { + if !started[id] { + t.Fatalf("iter %d, service %s: service not running", i, id) + } + if stopped[id] { + t.Fatalf("iter %d, service %s: service already stopped", i, id) + } + } + // Stop the stack, verify failure and check all terminations + err := stack.Stop() + if err, ok := err.(*StopError); !ok { + t.Fatalf("iter %d: termination failure mismatch: have %v, want StopError", i, err) + } else { + failer := reflect.TypeOf(&InstrumentedService{}) + if err.Services[failer] != failure { + t.Fatalf("iter %d: failer termination failure mismatch: have %v, want %v", i, err.Services[failer], failure) + } + if len(err.Services) != 1 { + t.Fatalf("iter %d: failure count mismatch: have %d, want %d", i, len(err.Services), 1) + } + } + for id, _ := range services { + if !stopped[id] { + t.Fatalf("iter %d, service %s: service not terminated", i, id) + } + delete(started, id) + delete(stopped, id) + } + } +} + +// TestServiceRetrieval tests that individual services can be retrieved. +func TestServiceRetrieval(t *testing.T) { + // Create a simple stack and register two service types + stack, err := New(testNodeConfig) + if err != nil { + t.Fatalf("failed to create protocol stack: %v", err) + } + if err := stack.Register(NewNoopService); err != nil { + t.Fatalf("noop service registration failed: %v", err) + } + if err := stack.Register(NewInstrumentedService); err != nil { + t.Fatalf("instrumented service registration failed: %v", err) + } + // Make sure none of the services can be retrieved until started + var noopServ *NoopService + if err := stack.Service(&noopServ); err != ErrNodeStopped { + t.Fatalf("noop service retrieval mismatch: have %v, want %v", err, ErrNodeStopped) + } + var instServ *InstrumentedService + if err := stack.Service(&instServ); err != ErrNodeStopped { + t.Fatalf("instrumented service retrieval mismatch: have %v, want %v", err, ErrNodeStopped) + } + // Start the stack and ensure everything is retrievable now + if err := stack.Start(); err != nil { + t.Fatalf("failed to start stack: %v", err) + } + defer stack.Stop() + + if err := stack.Service(&noopServ); err != nil { + t.Fatalf("noop service retrieval mismatch: have %v, want %v", err, nil) + } + if err := stack.Service(&instServ); err != nil { + t.Fatalf("instrumented service retrieval mismatch: have %v, want %v", err, nil) + } +} + +// Tests that all protocols defined by individual services get launched. +func TestProtocolGather(t *testing.T) { + stack, err := New(testNodeConfig) + if err != nil { + t.Fatalf("failed to create protocol stack: %v", err) + } + // Register a batch of services with some configured number of protocols + services := map[string]struct { + Count int + Maker InstrumentingWrapper + }{ + "Zero Protocols": {0, InstrumentedServiceMakerA}, + "Single Protocol": {1, InstrumentedServiceMakerB}, + "Many Protocols": {25, InstrumentedServiceMakerC}, + } + for id, config := range services { + protocols := make([]p2p.Protocol, config.Count) + for i := 0; i < len(protocols); i++ { + protocols[i].Name = id + protocols[i].Version = uint(i) + } + constructor := func(*ServiceContext) (Service, error) { + return &InstrumentedService{ + protocols: protocols, + }, nil + } + if err := stack.Register(config.Maker(constructor)); err != nil { + t.Fatalf("service %s: registration failed: %v", id, err) + } + } + // Start the services and ensure all protocols start successfully + if err := stack.Start(); err != nil { + t.Fatalf("failed to start protocol stack: %v", err) + } + defer stack.Stop() + + protocols := stack.Server().Protocols + if len(protocols) != 26 { + t.Fatalf("mismatching number of protocols launched: have %d, want %d", len(protocols), 26) + } + for id, config := range services { + for ver := 0; ver < config.Count; ver++ { + launched := false + for i := 0; i < len(protocols); i++ { + if protocols[i].Name == id && protocols[i].Version == uint(ver) { + launched = true + break + } + } + if !launched { + t.Errorf("configured protocol not launched: %s v%d", id, ver) + } + } + } +} diff --git a/node/service.go b/node/service.go new file mode 100644 index 000000000..bfeeb7ab9 --- /dev/null +++ b/node/service.go @@ -0,0 +1,80 @@ +// Copyright 2015 The go-ethereum Authors +// This file is part of the go-ethereum library. +// +// The go-ethereum library is free software: you can redistribute it and/or modify +// it under the terms of the GNU Lesser General Public License as published by +// the Free Software Foundation, either version 3 of the License, or +// (at your option) any later version. +// +// The go-ethereum library is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU Lesser General Public License for more details. +// +// You should have received a copy of the GNU Lesser General Public License +// along with the go-ethereum library. If not, see . + +package node + +import ( + "path/filepath" + "reflect" + + "github.com/ethereum/go-ethereum/ethdb" + "github.com/ethereum/go-ethereum/event" + "github.com/ethereum/go-ethereum/p2p" +) + +// ServiceContext is a collection of service independent options inherited from +// the protocol stack, that is passed to all constructors to be optionally used; +// as well as utility methods to operate on the service environment. +type ServiceContext struct { + datadir string // Data directory for protocol persistence + services map[reflect.Type]Service // Index of the already constructed services + EventMux *event.TypeMux // Event multiplexer used for decoupled notifications +} + +// OpenDatabase opens an existing database with the given name (or creates one +// if no previous can be found) from within the node's data directory. If the +// node is an ephemeral one, a memory database is returned. +func (ctx *ServiceContext) OpenDatabase(name string, cache int) (ethdb.Database, error) { + if ctx.datadir == "" { + return ethdb.NewMemDatabase() + } + return ethdb.NewLDBDatabase(filepath.Join(ctx.datadir, name), cache) +} + +// Service retrieves a currently running service registered of a specific type. +func (ctx *ServiceContext) Service(service interface{}) error { + element := reflect.ValueOf(service).Elem() + if running, ok := ctx.services[element.Type()]; ok { + element.Set(reflect.ValueOf(running)) + return nil + } + return ErrServiceUnknown +} + +// ServiceConstructor is the function signature of the constructors needed to be +// registered for service instantiation. +type ServiceConstructor func(ctx *ServiceContext) (Service, error) + +// Service is an individual protocol that can be registered into a node. +// +// Notes: +// - Service life-cycle management is delegated to the node. The service is +// allowed to initialize itself upon creation, but no goroutines should be +// spun up outside of the Start method. +// - Restart logic is not required as the node will create a fresh instance +// every time a service is started. +type Service interface { + // Protocol retrieves the P2P protocols the service wishes to start. + Protocols() []p2p.Protocol + + // Start is called after all services have been constructed and the networking + // layer was also initialized to spawn any goroutines required by the service. + Start(server *p2p.Server) error + + // Stop terminates all goroutines belonging to the service, blocking until they + // are all terminated. + Stop() error +} diff --git a/node/service_test.go b/node/service_test.go new file mode 100644 index 000000000..1dfb61f73 --- /dev/null +++ b/node/service_test.go @@ -0,0 +1,97 @@ +// Copyright 2015 The go-ethereum Authors +// This file is part of the go-ethereum library. +// +// The go-ethereum library is free software: you can redistribute it and/or modify +// it under the terms of the GNU Lesser General Public License as published by +// the Free Software Foundation, either version 3 of the License, or +// (at your option) any later version. +// +// The go-ethereum library is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU Lesser General Public License for more details. +// +// You should have received a copy of the GNU Lesser General Public License +// along with the go-ethereum library. If not, see . + +package node + +import ( + "fmt" + "io/ioutil" + "os" + "path/filepath" + "testing" +) + +// Tests that databases are correctly created persistent or ephemeral based on +// the configured service context. +func TestContextDatabases(t *testing.T) { + // Create a temporary folder and ensure no database is contained within + dir, err := ioutil.TempDir("", "") + if err != nil { + t.Fatalf("failed to create temporary data directory: %v", err) + } + defer os.RemoveAll(dir) + + if _, err := os.Stat(filepath.Join(dir, "database")); err == nil { + t.Fatalf("non-created database already exists") + } + // Request the opening/creation of a database and ensure it persists to disk + ctx := &ServiceContext{datadir: dir} + db, err := ctx.OpenDatabase("persistent", 0) + if err != nil { + t.Fatalf("failed to open persistent database: %v", err) + } + db.Close() + + if _, err := os.Stat(filepath.Join(dir, "persistent")); err != nil { + t.Fatalf("persistent database doesn't exists: %v", err) + } + // Request th opening/creation of an ephemeral database and ensure it's not persisted + ctx = &ServiceContext{datadir: ""} + db, err = ctx.OpenDatabase("ephemeral", 0) + if err != nil { + t.Fatalf("failed to open ephemeral database: %v", err) + } + db.Close() + + if _, err := os.Stat(filepath.Join(dir, "ephemeral")); err == nil { + t.Fatalf("ephemeral database exists") + } +} + +// Tests that already constructed services can be retrieves by later ones. +func TestContextServices(t *testing.T) { + stack, err := New(testNodeConfig) + if err != nil { + t.Fatalf("failed to create protocol stack: %v", err) + } + // Define a verifier that ensures a NoopA is before it and NoopB after + verifier := func(ctx *ServiceContext) (Service, error) { + var objA *NoopServiceA + if ctx.Service(&objA) != nil { + return nil, fmt.Errorf("former service not found") + } + var objB *NoopServiceB + if err := ctx.Service(&objB); err != ErrServiceUnknown { + return nil, fmt.Errorf("latters lookup error mismatch: have %v, want %v", err, ErrServiceUnknown) + } + return new(NoopService), nil + } + // Register the collection of services + if err := stack.Register(NewNoopServiceA); err != nil { + t.Fatalf("former failed to register service: %v", err) + } + if err := stack.Register(verifier); err != nil { + t.Fatalf("failed to register service verifier: %v", err) + } + if err := stack.Register(NewNoopServiceB); err != nil { + t.Fatalf("latter failed to register service: %v", err) + } + // Start the protocol stack and ensure services are constructed in order + if err := stack.Start(); err != nil { + t.Fatalf("failed to start stack: %v", err) + } + defer stack.Stop() +} diff --git a/node/utils_test.go b/node/utils_test.go new file mode 100644 index 000000000..756622c86 --- /dev/null +++ b/node/utils_test.go @@ -0,0 +1,117 @@ +// Copyright 2015 The go-ethereum Authors +// This file is part of the go-ethereum library. +// +// The go-ethereum library is free software: you can redistribute it and/or modify +// it under the terms of the GNU Lesser General Public License as published by +// the Free Software Foundation, either version 3 of the License, or +// (at your option) any later version. +// +// The go-ethereum library is distributed in the hope that it will be useful, +// but WITHOUT ANY WARRANTY; without even the implied warranty of +// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +// GNU Lesser General Public License for more details. +// +// You should have received a copy of the GNU Lesser General Public License +// along with the go-ethereum library. If not, see . + +// Contains a batch of utility type declarations used by the tests. As the node +// operates on unique types, a lot of them are needed to check various features. + +package node + +import ( + "reflect" + + "github.com/ethereum/go-ethereum/p2p" +) + +// NoopService is a trivial implementation of the Service interface. +type NoopService struct{} + +func (s *NoopService) Protocols() []p2p.Protocol { return nil } +func (s *NoopService) Start(*p2p.Server) error { return nil } +func (s *NoopService) Stop() error { return nil } + +func NewNoopService(*ServiceContext) (Service, error) { return new(NoopService), nil } + +// Set of services all wrapping the base NoopService resulting in the same method +// signatures but different outer types. +type NoopServiceA struct{ NoopService } +type NoopServiceB struct{ NoopService } +type NoopServiceC struct{ NoopService } +type NoopServiceD struct{ NoopService } + +func NewNoopServiceA(*ServiceContext) (Service, error) { return new(NoopServiceA), nil } +func NewNoopServiceB(*ServiceContext) (Service, error) { return new(NoopServiceB), nil } +func NewNoopServiceC(*ServiceContext) (Service, error) { return new(NoopServiceC), nil } +func NewNoopServiceD(*ServiceContext) (Service, error) { return new(NoopServiceD), nil } + +// InstrumentedService is an implementation of Service for which all interface +// methods can be instrumented both return value as well as event hook wise. +type InstrumentedService struct { + protocols []p2p.Protocol + start error + stop error + + protocolsHook func() + startHook func(*p2p.Server) + stopHook func() +} + +func NewInstrumentedService(*ServiceContext) (Service, error) { return new(InstrumentedService), nil } + +func (s *InstrumentedService) Protocols() []p2p.Protocol { + if s.protocolsHook != nil { + s.protocolsHook() + } + return s.protocols +} + +func (s *InstrumentedService) Start(server *p2p.Server) error { + if s.startHook != nil { + s.startHook(server) + } + return s.start +} + +func (s *InstrumentedService) Stop() error { + if s.stopHook != nil { + s.stopHook() + } + return s.stop +} + +// InstrumentingWrapper is a method to specialize a service constructor returning +// a generic InstrumentedService into one returning a wrapping specific one. +type InstrumentingWrapper func(base ServiceConstructor) ServiceConstructor + +func InstrumentingWrapperMaker(base ServiceConstructor, kind reflect.Type) ServiceConstructor { + return func(ctx *ServiceContext) (Service, error) { + obj, err := base(ctx) + if err != nil { + return nil, err + } + wrapper := reflect.New(kind) + wrapper.Elem().Field(0).Set(reflect.ValueOf(obj).Elem()) + + return wrapper.Interface().(Service), nil + } +} + +// Set of services all wrapping the base InstrumentedService resulting in the +// same method signatures but different outer types. +type InstrumentedServiceA struct{ InstrumentedService } +type InstrumentedServiceB struct{ InstrumentedService } +type InstrumentedServiceC struct{ InstrumentedService } + +func InstrumentedServiceMakerA(base ServiceConstructor) ServiceConstructor { + return InstrumentingWrapperMaker(base, reflect.TypeOf(InstrumentedServiceA{})) +} + +func InstrumentedServiceMakerB(base ServiceConstructor) ServiceConstructor { + return InstrumentingWrapperMaker(base, reflect.TypeOf(InstrumentedServiceB{})) +} + +func InstrumentedServiceMakerC(base ServiceConstructor) ServiceConstructor { + return InstrumentingWrapperMaker(base, reflect.TypeOf(InstrumentedServiceC{})) +} diff --git a/p2p/discover/table.go b/p2p/discover/table.go index c128c2ed1..298ba3fa6 100644 --- a/p2p/discover/table.go +++ b/p2p/discover/table.go @@ -90,12 +90,11 @@ type transport interface { // that was most recently active is the first element in entries. type bucket struct{ entries []*Node } -func newTable(t transport, ourID NodeID, ourAddr *net.UDPAddr, nodeDBPath string) *Table { +func newTable(t transport, ourID NodeID, ourAddr *net.UDPAddr, nodeDBPath string) (*Table, error) { // If no node database was given, use an in-memory one db, err := newNodeDB(nodeDBPath, Version, ourID) if err != nil { - glog.V(logger.Warn).Infoln("Failed to open node database:", err) - db, _ = newNodeDB("", Version, ourID) + return nil, err } tab := &Table{ net: t, @@ -114,7 +113,7 @@ func newTable(t transport, ourID NodeID, ourAddr *net.UDPAddr, nodeDBPath string tab.buckets[i] = new(bucket) } go tab.refreshLoop() - return tab + return tab, nil } // Self returns the local node. diff --git a/p2p/discover/table_test.go b/p2p/discover/table_test.go index 84962a1a5..13effaed6 100644 --- a/p2p/discover/table_test.go +++ b/p2p/discover/table_test.go @@ -34,7 +34,7 @@ import ( func TestTable_pingReplace(t *testing.T) { doit := func(newNodeIsResponding, lastInBucketIsResponding bool) { transport := newPingRecorder() - tab := newTable(transport, NodeID{}, &net.UDPAddr{}, "") + tab, _ := newTable(transport, NodeID{}, &net.UDPAddr{}, "") defer tab.Close() pingSender := newNode(MustHexID("a502af0f59b2aab7746995408c79e9ca312d2793cc997e44fc55eda62f0150bbb8c59a6f9269ba3a081518b62699ee807c7c19c20125ddfccca872608af9e370"), net.IP{}, 99, 99) @@ -177,7 +177,7 @@ func TestTable_closest(t *testing.T) { test := func(test *closeTest) bool { // for any node table, Target and N - tab := newTable(nil, test.Self, &net.UDPAddr{}, "") + tab, _ := newTable(nil, test.Self, &net.UDPAddr{}, "") defer tab.Close() tab.stuff(test.All) @@ -236,7 +236,7 @@ func TestTable_ReadRandomNodesGetAll(t *testing.T) { }, } test := func(buf []*Node) bool { - tab := newTable(nil, NodeID{}, &net.UDPAddr{}, "") + tab, _ := newTable(nil, NodeID{}, &net.UDPAddr{}, "") defer tab.Close() for i := 0; i < len(buf); i++ { ld := cfg.Rand.Intn(len(tab.buckets)) @@ -279,7 +279,7 @@ func (*closeTest) Generate(rand *rand.Rand, size int) reflect.Value { func TestTable_Lookup(t *testing.T) { self := nodeAtDistance(common.Hash{}, 0) - tab := newTable(lookupTestnet, self.ID, &net.UDPAddr{}, "") + tab, _ := newTable(lookupTestnet, self.ID, &net.UDPAddr{}, "") defer tab.Close() // lookup on empty table returns no nodes diff --git a/p2p/discover/udp.go b/p2p/discover/udp.go index 20f69cf08..fc7fa737c 100644 --- a/p2p/discover/udp.go +++ b/p2p/discover/udp.go @@ -200,12 +200,15 @@ func ListenUDP(priv *ecdsa.PrivateKey, laddr string, natm nat.Interface, nodeDBP if err != nil { return nil, err } - tab, _ := newUDP(priv, conn, natm, nodeDBPath) + tab, _, err := newUDP(priv, conn, natm, nodeDBPath) + if err != nil { + return nil, err + } glog.V(logger.Info).Infoln("Listening,", tab.self) return tab, nil } -func newUDP(priv *ecdsa.PrivateKey, c conn, natm nat.Interface, nodeDBPath string) (*Table, *udp) { +func newUDP(priv *ecdsa.PrivateKey, c conn, natm nat.Interface, nodeDBPath string) (*Table, *udp, error) { udp := &udp{ conn: c, priv: priv, @@ -225,10 +228,15 @@ func newUDP(priv *ecdsa.PrivateKey, c conn, natm nat.Interface, nodeDBPath strin } // TODO: separate TCP port udp.ourEndpoint = makeEndpoint(realaddr, uint16(realaddr.Port)) - udp.Table = newTable(udp, PubkeyID(&priv.PublicKey), realaddr, nodeDBPath) + tab, err := newTable(udp, PubkeyID(&priv.PublicKey), realaddr, nodeDBPath) + if err != nil { + return nil, nil, err + } + udp.Table = tab + go udp.loop() go udp.readLoop() - return udp.Table, udp + return udp.Table, udp, nil } func (t *udp) close() { diff --git a/p2p/discover/udp_test.go b/p2p/discover/udp_test.go index 913199c26..944e73d6e 100644 --- a/p2p/discover/udp_test.go +++ b/p2p/discover/udp_test.go @@ -69,7 +69,7 @@ func newUDPTest(t *testing.T) *udpTest { remotekey: newkey(), remoteaddr: &net.UDPAddr{IP: net.IP{1, 2, 3, 4}, Port: 30303}, } - test.table, test.udp = newUDP(test.localkey, test.pipe, nil, "") + test.table, test.udp, _ = newUDP(test.localkey, test.pipe, nil, "") return test } diff --git a/rpc/api/admin.go b/rpc/api/admin.go index c11662577..1133c9bca 100644 --- a/rpc/api/admin.go +++ b/rpc/api/admin.go @@ -32,6 +32,8 @@ import ( "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/eth" "github.com/ethereum/go-ethereum/logger/glog" + "github.com/ethereum/go-ethereum/node" + "github.com/ethereum/go-ethereum/p2p/discover" "github.com/ethereum/go-ethereum/rlp" "github.com/ethereum/go-ethereum/rpc/codec" "github.com/ethereum/go-ethereum/rpc/comms" @@ -80,19 +82,24 @@ type adminhandler func(*adminApi, *shared.Request) (interface{}, error) // admin api provider type adminApi struct { xeth *xeth.XEth + stack *node.Node ethereum *eth.Ethereum codec codec.Codec coder codec.ApiCoder } // create a new admin api instance -func NewAdminApi(xeth *xeth.XEth, ethereum *eth.Ethereum, codec codec.Codec) *adminApi { - return &adminApi{ - xeth: xeth, - ethereum: ethereum, - codec: codec, - coder: codec.New(nil), +func NewAdminApi(xeth *xeth.XEth, stack *node.Node, codec codec.Codec) *adminApi { + api := &adminApi{ + xeth: xeth, + stack: stack, + codec: codec, + coder: codec.New(nil), } + if stack != nil { + stack.Service(&api.ethereum) + } + return api } // collection with supported methods @@ -128,24 +135,24 @@ func (self *adminApi) AddPeer(req *shared.Request) (interface{}, error) { if err := self.coder.Decode(req.Params, &args); err != nil { return nil, shared.NewDecodeParamError(err.Error()) } - - err := self.ethereum.AddPeer(args.Url) - if err == nil { - return true, nil + node, err := discover.ParseNode(args.Url) + if err != nil { + return nil, fmt.Errorf("invalid node URL: %v", err) } - return false, err + self.stack.Server().AddPeer(node) + return true, nil } func (self *adminApi) Peers(req *shared.Request) (interface{}, error) { - return self.ethereum.Network().PeersInfo(), nil + return self.stack.Server().PeersInfo(), nil } func (self *adminApi) NodeInfo(req *shared.Request) (interface{}, error) { - return self.ethereum.Network().NodeInfo(), nil + return self.stack.Server().NodeInfo(), nil } func (self *adminApi) DataDir(req *shared.Request) (interface{}, error) { - return self.ethereum.DataDir, nil + return self.stack.DataDir(), nil } func hasAllBlocks(chain *core.BlockChain, bs []*types.Block) bool { @@ -253,7 +260,7 @@ func (self *adminApi) StartRPC(req *shared.Request) (interface{}, error) { CorsDomain: args.CorsDomain, } - apis, err := ParseApiString(args.Apis, self.codec, self.xeth, self.ethereum) + apis, err := ParseApiString(args.Apis, self.codec, self.xeth, self.stack) if err != nil { return false, err } diff --git a/rpc/api/api_test.go b/rpc/api/api_test.go index 131ef68f8..eb63e8151 100644 --- a/rpc/api/api_test.go +++ b/rpc/api/api_test.go @@ -93,7 +93,7 @@ func TestCompileSolidity(t *testing.T) { expSource := source eth := ð.Ethereum{} - xeth := xeth.NewTest(eth, nil) + xeth := xeth.NewTest(nil, nil) api := NewEthApi(xeth, eth, codec.JSON) var rpcRequest shared.Request diff --git a/rpc/api/utils.go b/rpc/api/utils.go index 8351e88d3..d6820cd2e 100644 --- a/rpc/api/utils.go +++ b/rpc/api/utils.go @@ -22,6 +22,7 @@ import ( "fmt" "github.com/ethereum/go-ethereum/eth" + "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/rpc/codec" "github.com/ethereum/go-ethereum/rpc/shared" "github.com/ethereum/go-ethereum/xeth" @@ -154,7 +155,7 @@ var ( ) // Parse a comma separated API string to individual api's -func ParseApiString(apistr string, codec codec.Codec, xeth *xeth.XEth, eth *eth.Ethereum) ([]shared.EthereumApi, error) { +func ParseApiString(apistr string, codec codec.Codec, xeth *xeth.XEth, stack *node.Node) ([]shared.EthereumApi, error) { if len(strings.TrimSpace(apistr)) == 0 { return nil, fmt.Errorf("Empty apistr provided") } @@ -162,10 +163,16 @@ func ParseApiString(apistr string, codec codec.Codec, xeth *xeth.XEth, eth *eth. names := strings.Split(apistr, ",") apis := make([]shared.EthereumApi, len(names)) + var eth *eth.Ethereum + if stack != nil { + if err := stack.Service(ð); err != nil { + return nil, err + } + } for i, name := range names { switch strings.ToLower(strings.TrimSpace(name)) { case shared.AdminApiName: - apis[i] = NewAdminApi(xeth, eth, codec) + apis[i] = NewAdminApi(xeth, stack, codec) case shared.DebugApiName: apis[i] = NewDebugApi(xeth, eth, codec) case shared.DbApiName: @@ -188,7 +195,6 @@ func ParseApiString(apistr string, codec codec.Codec, xeth *xeth.XEth, eth *eth. return nil, fmt.Errorf("Unknown API '%s'", name) } } - return apis, nil } diff --git a/tests/block_test_util.go b/tests/block_test_util.go index 6a2eb96a4..473bc3419 100644 --- a/tests/block_test_util.go +++ b/tests/block_test_util.go @@ -36,7 +36,9 @@ import ( "github.com/ethereum/go-ethereum/crypto" "github.com/ethereum/go-ethereum/eth" "github.com/ethereum/go-ethereum/ethdb" + "github.com/ethereum/go-ethereum/event" "github.com/ethereum/go-ethereum/logger/glog" + "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/rlp" ) @@ -165,15 +167,6 @@ func runBlockTest(test *BlockTest) error { ks := crypto.NewKeyStorePassphrase(filepath.Join(common.DefaultDataDir(), "keystore"), crypto.StandardScryptN, crypto.StandardScryptP) am := accounts.NewManager(ks) db, _ := ethdb.NewMemDatabase() - cfg := ð.Config{ - DataDir: common.DefaultDataDir(), - Verbosity: 5, - Etherbase: common.Address{}, - AccountManager: am, - NewDB: func(path string) (ethdb.Database, error) { return db, nil }, - } - - cfg.GenesisBlock = test.Genesis // import pre accounts & construct test genesis block & state root _, err := test.InsertPreState(db, am) @@ -181,16 +174,16 @@ func runBlockTest(test *BlockTest) error { return fmt.Errorf("InsertPreState: %v", err) } - ethereum, err := eth.New(cfg) + cfg := ð.Config{ + TestGenesisState: db, + TestGenesisBlock: test.Genesis, + Etherbase: common.Address{}, + AccountManager: am, + } + ethereum, err := eth.New(&node.ServiceContext{EventMux: new(event.TypeMux)}, cfg) if err != nil { return err } - - err = ethereum.Start() - if err != nil { - return err - } - cm := ethereum.BlockChain() validBlocks, err := test.TryBlocksInsert(cm) if err != nil { diff --git a/whisper/peer_test.go b/whisper/peer_test.go index b3d2031c1..636bd8ca1 100644 --- a/whisper/peer_test.go +++ b/whisper/peer_test.go @@ -37,7 +37,7 @@ func startTestPeer() *testPeer { // Create a whisper client and connect with it to the tester peer client := New() - client.Start() + client.Start(nil) termed := make(chan struct{}) go func() { diff --git a/whisper/whisper.go b/whisper/whisper.go index a341f23e4..7201062b8 100644 --- a/whisper/whisper.go +++ b/whisper/whisper.go @@ -98,9 +98,9 @@ func New() *Whisper { return whisper } -// Protocol returns the whisper sub-protocol handler for this particular client. -func (self *Whisper) Protocol() p2p.Protocol { - return self.protocol +// Protocols returns the whisper sub-protocols ran by this particular client. +func (self *Whisper) Protocols() []p2p.Protocol { + return []p2p.Protocol{self.protocol} } // Version returns the whisper sub-protocols version number. @@ -156,14 +156,20 @@ func (self *Whisper) Send(envelope *Envelope) error { return self.add(envelope) } -func (self *Whisper) Start() { +// Start implements node.Service, starting the background data propagation thread +// of the Whisper protocol. +func (self *Whisper) Start(*p2p.Server) error { glog.V(logger.Info).Infoln("Whisper started") go self.update() + return nil } -func (self *Whisper) Stop() { +// Stop implements node.Service, stopping the background data propagation thread +// of the Whisper protocol. +func (self *Whisper) Stop() error { close(self.quit) glog.V(logger.Info).Infoln("Whisper stopped") + return nil } // Messages retrieves all the currently pooled messages matching a filter id. diff --git a/whisper/whisper_test.go b/whisper/whisper_test.go index b83ce0fe7..9cc235e7a 100644 --- a/whisper/whisper_test.go +++ b/whisper/whisper_test.go @@ -33,7 +33,7 @@ func startTestCluster(n int) []*Whisper { whispers := make([]*Whisper, n) for i := 0; i < n; i++ { whispers[i] = New() - whispers[i].Start() + whispers[i].Start(nil) } // Wire all the peers to the root one for i := 1; i < n; i++ { diff --git a/xeth/state.go b/xeth/state.go index 981fe63b7..7daccb525 100644 --- a/xeth/state.go +++ b/xeth/state.go @@ -45,8 +45,7 @@ func (self *State) SafeGet(addr string) *Object { func (self *State) safeGet(addr string) *state.StateObject { object := self.state.GetStateObject(common.HexToAddress(addr)) if object == nil { - object = state.NewStateObject(common.HexToAddress(addr), self.xeth.backend.ChainDb()) + object = state.NewStateObject(common.HexToAddress(addr), self.xeth.EthereumService().ChainDb()) } - return object } diff --git a/xeth/xeth.go b/xeth/xeth.go index a45ce688b..85bf41a82 100644 --- a/xeth/xeth.go +++ b/xeth/xeth.go @@ -40,7 +40,9 @@ import ( "github.com/ethereum/go-ethereum/logger" "github.com/ethereum/go-ethereum/logger/glog" "github.com/ethereum/go-ethereum/miner" + "github.com/ethereum/go-ethereum/node" "github.com/ethereum/go-ethereum/rlp" + "github.com/ethereum/go-ethereum/whisper" ) var ( @@ -77,7 +79,7 @@ type XEth struct { transactMu sync.Mutex // read-only fields - backend *eth.Ethereum + backend *node.Node frontend Frontend agent *miner.RemoteAgent gpo *eth.GasPriceOracle @@ -86,19 +88,26 @@ type XEth struct { filterManager *filters.FilterSystem } -func NewTest(eth *eth.Ethereum, frontend Frontend) *XEth { - return &XEth{backend: eth, frontend: frontend} +func NewTest(stack *node.Node, frontend Frontend) *XEth { + return &XEth{backend: stack, frontend: frontend} } // New creates an XEth that uses the given frontend. // If a nil Frontend is provided, a default frontend which // confirms all transactions will be used. -func New(ethereum *eth.Ethereum, frontend Frontend) *XEth { +func New(stack *node.Node, frontend Frontend) *XEth { + var ( + ethereum *eth.Ethereum + whisper *whisper.Whisper + ) + stack.Service(ðereum) + stack.Service(&whisper) + xeth := &XEth{ - backend: ethereum, + backend: stack, frontend: frontend, quit: make(chan struct{}), - filterManager: filters.NewFilterSystem(ethereum.EventMux()), + filterManager: filters.NewFilterSystem(stack.EventMux()), logQueue: make(map[int]*logQueue), blockQueue: make(map[int]*hashQueue), transactionQueue: make(map[int]*hashQueue), @@ -106,19 +115,35 @@ func New(ethereum *eth.Ethereum, frontend Frontend) *XEth { agent: miner.NewRemoteAgent(), gpo: eth.NewGasPriceOracle(ethereum), } - if ethereum.Whisper() != nil { - xeth.whisper = NewWhisper(ethereum.Whisper()) + if whisper != nil { + xeth.whisper = NewWhisper(whisper) } ethereum.Miner().Register(xeth.agent) if frontend == nil { xeth.frontend = dummyFrontend{} } - state, _ := xeth.backend.BlockChain().State() + state, _ := ethereum.BlockChain().State() xeth.state = NewState(xeth, state) go xeth.start() return xeth } +func (self *XEth) EthereumService() *eth.Ethereum { + var ethereum *eth.Ethereum + if err := self.backend.Service(ðereum); err != nil { + return nil + } + return ethereum +} + +func (self *XEth) WhisperService() *whisper.Whisper { + var whisper *whisper.Whisper + if err := self.backend.Service(&whisper); err != nil { + return nil + } + return whisper +} + func (self *XEth) start() { timer := time.NewTicker(2 * time.Second) defer timer.Stop() @@ -172,7 +197,7 @@ done: func (self *XEth) Stop() { close(self.quit) self.filterManager.Stop() - self.backend.Miner().Unregister(self.agent) + self.EthereumService().Miner().Unregister(self.agent) } func cAddress(a []string) []common.Address { @@ -207,21 +232,20 @@ func (self *XEth) AtStateNum(num int64) *XEth { var err error switch num { case -2: - st = self.backend.Miner().PendingState().Copy() + st = self.EthereumService().Miner().PendingState().Copy() default: if block := self.getBlockByHeight(num); block != nil { - st, err = state.New(block.Root(), self.backend.ChainDb()) + st, err = state.New(block.Root(), self.EthereumService().ChainDb()) if err != nil { return nil } } else { - st, err = state.New(self.backend.BlockChain().GetBlockByNumber(0).Root(), self.backend.ChainDb()) + st, err = state.New(self.EthereumService().BlockChain().GetBlockByNumber(0).Root(), self.EthereumService().ChainDb()) if err != nil { return nil } } } - return self.WithState(st) } @@ -270,7 +294,7 @@ func (self *XEth) UpdateState() (wait chan *big.Int) { wait <- n n = nil } - statedb, err := state.New(event.Block.Root(), self.backend.ChainDb()) + statedb, err := state.New(event.Block.Root(), self.EthereumService().ChainDb()) if err != nil { glog.V(logger.Error).Infoln("Could not create new state: %v", err) return @@ -294,7 +318,7 @@ func (self *XEth) getBlockByHeight(height int64) *types.Block { switch height { case -2: - return self.backend.Miner().PendingBlock() + return self.EthereumService().Miner().PendingBlock() case -1: return self.CurrentBlock() default: @@ -305,28 +329,29 @@ func (self *XEth) getBlockByHeight(height int64) *types.Block { num = uint64(height) } - return self.backend.BlockChain().GetBlockByNumber(num) + return self.EthereumService().BlockChain().GetBlockByNumber(num) } func (self *XEth) BlockByHash(strHash string) *Block { hash := common.HexToHash(strHash) - block := self.backend.BlockChain().GetBlock(hash) + block := self.EthereumService().BlockChain().GetBlock(hash) return NewBlock(block) } func (self *XEth) EthBlockByHash(strHash string) *types.Block { hash := common.HexToHash(strHash) - block := self.backend.BlockChain().GetBlock(hash) + block := self.EthereumService().BlockChain().GetBlock(hash) return block } func (self *XEth) EthTransactionByHash(hash string) (*types.Transaction, common.Hash, uint64, uint64) { - if tx, hash, number, index := core.GetTransaction(self.backend.ChainDb(), common.HexToHash(hash)); tx != nil { + ethereum := self.EthereumService() + if tx, hash, number, index := core.GetTransaction(ethereum.ChainDb(), common.HexToHash(hash)); tx != nil { return tx, hash, number, index } - return self.backend.TxPool().GetTransaction(common.HexToHash(hash)), common.Hash{}, 0, 0 + return ethereum.TxPool().GetTransaction(common.HexToHash(hash)), common.Hash{}, 0, 0 } func (self *XEth) BlockByNumber(num int64) *Block { @@ -338,23 +363,23 @@ func (self *XEth) EthBlockByNumber(num int64) *types.Block { } func (self *XEth) Td(hash common.Hash) *big.Int { - return self.backend.BlockChain().GetTd(hash) + return self.EthereumService().BlockChain().GetTd(hash) } func (self *XEth) CurrentBlock() *types.Block { - return self.backend.BlockChain().CurrentBlock() + return self.EthereumService().BlockChain().CurrentBlock() } func (self *XEth) GetBlockReceipts(bhash common.Hash) types.Receipts { - return core.GetBlockReceipts(self.backend.ChainDb(), bhash) + return core.GetBlockReceipts(self.EthereumService().ChainDb(), bhash) } func (self *XEth) GetTxReceipt(txhash common.Hash) *types.Receipt { - return core.GetReceipt(self.backend.ChainDb(), txhash) + return core.GetReceipt(self.EthereumService().ChainDb(), txhash) } func (self *XEth) GasLimit() *big.Int { - return self.backend.BlockChain().GasLimit() + return self.EthereumService().BlockChain().GasLimit() } func (self *XEth) Block(v interface{}) *Block { @@ -371,7 +396,7 @@ func (self *XEth) Block(v interface{}) *Block { func (self *XEth) Accounts() []string { // TODO: check err? - accounts, _ := self.backend.AccountManager().Accounts() + accounts, _ := self.EthereumService().AccountManager().Accounts() accountAddresses := make([]string, len(accounts)) for i, ac := range accounts { accountAddresses[i] = ac.Address.Hex() @@ -382,73 +407,73 @@ func (self *XEth) Accounts() []string { // accessor for solidity compiler. // memoized if available, retried on-demand if not func (self *XEth) Solc() (*compiler.Solidity, error) { - return self.backend.Solc() + return self.EthereumService().Solc() } // set in js console via admin interface or wrapper from cli flags func (self *XEth) SetSolc(solcPath string) (*compiler.Solidity, error) { - self.backend.SetSolc(solcPath) + self.EthereumService().SetSolc(solcPath) return self.Solc() } // store DApp value in extra database func (self *XEth) DbPut(key, val []byte) bool { - self.backend.DappDb().Put(append(dappStorePre, key...), val) + self.EthereumService().DappDb().Put(append(dappStorePre, key...), val) return true } // retrieve DApp value from extra database func (self *XEth) DbGet(key []byte) ([]byte, error) { - val, err := self.backend.DappDb().Get(append(dappStorePre, key...)) + val, err := self.EthereumService().DappDb().Get(append(dappStorePre, key...)) return val, err } func (self *XEth) PeerCount() int { - return self.backend.PeerCount() + return self.backend.Server().PeerCount() } func (self *XEth) IsMining() bool { - return self.backend.IsMining() + return self.EthereumService().IsMining() } func (self *XEth) HashRate() int64 { - return self.backend.Miner().HashRate() + return self.EthereumService().Miner().HashRate() } func (self *XEth) EthVersion() string { - return fmt.Sprintf("%d", self.backend.EthVersion()) + return fmt.Sprintf("%d", self.EthereumService().EthVersion()) } func (self *XEth) NetworkVersion() string { - return fmt.Sprintf("%d", self.backend.NetVersion()) + return fmt.Sprintf("%d", self.EthereumService().NetVersion()) } func (self *XEth) WhisperVersion() string { - return fmt.Sprintf("%d", self.backend.ShhVersion()) + return fmt.Sprintf("%d", self.WhisperService().Version()) } func (self *XEth) ClientVersion() string { - return self.backend.ClientVersion() + return self.backend.Server().Name } func (self *XEth) SetMining(shouldmine bool, threads int) bool { - ismining := self.backend.IsMining() + ismining := self.EthereumService().IsMining() if shouldmine && !ismining { - err := self.backend.StartMining(threads, "") + err := self.EthereumService().StartMining(threads, "") return err == nil } if ismining && !shouldmine { - self.backend.StopMining() + self.EthereumService().StopMining() } - return self.backend.IsMining() + return self.EthereumService().IsMining() } func (self *XEth) IsListening() bool { - return self.backend.IsListening() + return true } func (self *XEth) Coinbase() string { - eb, err := self.backend.Etherbase() + eb, err := self.EthereumService().Etherbase() if err != nil { return "0x0" } @@ -514,7 +539,7 @@ func (self *XEth) NewLogFilter(earliest, latest int64, skip, max int, address [] self.logMu.Lock() defer self.logMu.Unlock() - filter := filters.New(self.backend.ChainDb()) + filter := filters.New(self.EthereumService().ChainDb()) id := self.filterManager.Add(filter) self.logQueue[id] = &logQueue{timeout: time.Now()} @@ -538,7 +563,7 @@ func (self *XEth) NewTransactionFilter() int { self.transactionMu.Lock() defer self.transactionMu.Unlock() - filter := filters.New(self.backend.ChainDb()) + filter := filters.New(self.EthereumService().ChainDb()) id := self.filterManager.Add(filter) self.transactionQueue[id] = &hashQueue{timeout: time.Now()} @@ -557,7 +582,7 @@ func (self *XEth) NewBlockFilter() int { self.blockMu.Lock() defer self.blockMu.Unlock() - filter := filters.New(self.backend.ChainDb()) + filter := filters.New(self.EthereumService().ChainDb()) id := self.filterManager.Add(filter) self.blockQueue[id] = &hashQueue{timeout: time.Now()} @@ -624,7 +649,7 @@ func (self *XEth) Logs(id int) vm.Logs { } func (self *XEth) AllLogs(earliest, latest int64, skip, max int, address []string, topics [][]string) vm.Logs { - filter := filters.New(self.backend.ChainDb()) + filter := filters.New(self.EthereumService().ChainDb()) filter.SetBeginBlock(earliest) filter.SetEndBlock(latest) filter.SetAddresses(cAddress(address)) @@ -777,7 +802,7 @@ func (self *XEth) PushTx(encodedTx string) (string, error) { return "", err } - err = self.backend.TxPool().Add(tx) + err = self.EthereumService().TxPool().Add(tx) if err != nil { return "", err } @@ -801,7 +826,7 @@ func (self *XEth) Call(fromStr, toStr, valueStr, gasStr, gasPriceStr, dataStr st statedb := self.State().State().Copy() var from *state.StateObject if len(fromStr) == 0 { - accounts, err := self.backend.AccountManager().Accounts() + accounts, err := self.EthereumService().AccountManager().Accounts() if err != nil || len(accounts) == 0 { from = statedb.GetOrNewStateObject(common.Address{}) } else { @@ -834,7 +859,7 @@ func (self *XEth) Call(fromStr, toStr, valueStr, gasStr, gasPriceStr, dataStr st } header := self.CurrentBlock().Header() - vmenv := core.NewEnv(statedb, self.backend.BlockChain(), msg, header) + vmenv := core.NewEnv(statedb, self.EthereumService().BlockChain(), msg, header) gp := new(core.GasPool).AddGas(common.MaxBig) res, gas, err := core.ApplyMessage(vmenv, msg, gp) return common.ToHex(res), gas.String(), err @@ -845,7 +870,7 @@ func (self *XEth) ConfirmTransaction(tx string) bool { } func (self *XEth) doSign(from common.Address, hash common.Hash, didUnlock bool) ([]byte, error) { - sig, err := self.backend.AccountManager().Sign(accounts.Account{Address: from}, hash.Bytes()) + sig, err := self.EthereumService().AccountManager().Sign(accounts.Account{Address: from}, hash.Bytes()) if err == accounts.ErrLocked { if didUnlock { return nil, fmt.Errorf("signer account still locked after successful unlock") @@ -917,7 +942,7 @@ func (self *XEth) SignTransaction(fromStr, toStr, nonceStr, valueStr, gasStr, ga if len(nonceStr) != 0 { nonce = common.Big(nonceStr).Uint64() } else { - state := self.backend.TxPool().State() + state := self.EthereumService().TxPool().State() nonce = state.GetNonce(from) } var tx *types.Transaction @@ -1005,7 +1030,7 @@ func (self *XEth) Transact(fromStr, toStr, nonceStr, valueStr, gasStr, gasPriceS if len(nonceStr) != 0 { nonce = common.Big(nonceStr).Uint64() } else { - state := self.backend.TxPool().State() + state := self.EthereumService().TxPool().State() nonce = state.GetNonce(from) } var tx *types.Transaction @@ -1019,7 +1044,7 @@ func (self *XEth) Transact(fromStr, toStr, nonceStr, valueStr, gasStr, gasPriceS if err != nil { return "", err } - if err = self.backend.TxPool().Add(signed); err != nil { + if err = self.EthereumService().TxPool().Add(signed); err != nil { return "", err }