package common import ( "bytes" "context" "encoding/json" "errors" "fmt" "strings" "time" "github.com/ethereum/go-ethereum/accounts" "github.com/ethereum/go-ethereum/accounts/keystore" "github.com/ethereum/go-ethereum/common" "github.com/ethereum/go-ethereum/common/hexutil" "github.com/ethereum/go-ethereum/les" "github.com/ethereum/go-ethereum/node" whisper "github.com/ethereum/go-ethereum/whisper/whisperv5" "github.com/robertkrimen/otto" "github.com/status-im/status-go/geth/params" "github.com/status-im/status-go/geth/rpc" "github.com/status-im/status-go/static" ) // errors var ( ErrDeprecatedMethod = errors.New("Method is depricated and will be removed in future release") ) // SelectedExtKey is a container for currently selected (logged in) account type SelectedExtKey struct { Address common.Address AccountKey *keystore.Key SubAccounts []accounts.Account } // Hex dumps address of a given extended key as hex string func (k *SelectedExtKey) Hex() string { if k == nil { return "0x0" } return k.Address.Hex() } // NodeManager defines expected methods for managing Status node type NodeManager interface { // StartNode start Status node, fails if node is already started StartNode(config *params.NodeConfig) (<-chan struct{}, error) // StopNode stop the running Status node. // Stopped node cannot be resumed, one starts a new node instead. StopNode() (<-chan struct{}, error) // RestartNode restart running Status node, fails if node is not running RestartNode() (<-chan struct{}, error) // ResetChainData remove chain data from data directory. // Node is stopped, and new node is started, with clean data directory. ResetChainData() (<-chan struct{}, error) // IsNodeRunning confirm that node is running IsNodeRunning() bool // NodeConfig returns reference to running node's configuration NodeConfig() (*params.NodeConfig, error) // Node returns underlying Status node Node() (*node.Node, error) // PopulateStaticPeers populates node's list of static bootstrap peers PopulateStaticPeers() error // AddPeer adds URL of static peer AddPeer(url string) error // LightEthereumService exposes reference to LES service running on top of the node LightEthereumService() (*les.LightEthereum, error) // WhisperService returns reference to running Whisper service WhisperService() (*whisper.Whisper, error) // AccountManager returns reference to node's account manager AccountManager() (*accounts.Manager, error) // AccountKeyStore returns reference to account manager's keystore AccountKeyStore() (*keystore.KeyStore, error) // RPCClient exposes reference to RPC client connected to the running node RPCClient() *rpc.Client } // AccountManager defines expected methods for managing Status accounts type AccountManager interface { // CreateAccount creates an internal geth account // BIP44-compatible keys are generated: CKD#1 is stored as account key, CKD#2 stored as sub-account root // Public key of CKD#1 is returned, with CKD#2 securely encoded into account key file (to be used for // sub-account derivations) CreateAccount(password string) (address, pubKey, mnemonic string, err error) // CreateChildAccount creates sub-account for an account identified by parent address. // CKD#2 is used as root for master accounts (when parentAddress is ""). // Otherwise (when parentAddress != ""), child is derived directly from parent. CreateChildAccount(parentAddress, password string) (address, pubKey string, err error) // RecoverAccount re-creates master key using given details. // Once master key is re-generated, it is inserted into keystore (if not already there). RecoverAccount(password, mnemonic string) (address, pubKey string, err error) // VerifyAccountPassword tries to decrypt a given account key file, with a provided password. // If no error is returned, then account is considered verified. VerifyAccountPassword(keyStoreDir, address, password string) (*keystore.Key, error) // SelectAccount selects current account, by verifying that address has corresponding account which can be decrypted // using provided password. Once verification is done, decrypted key is injected into Whisper (as a single identity, // all previous identities are removed). SelectAccount(address, password string) error // ReSelectAccount selects previously selected account, often, after node restart. ReSelectAccount() error // SelectedAccount returns currently selected account SelectedAccount() (*SelectedExtKey, error) // Logout clears whisper identities Logout() error // AccountsListRequestHandler returns handler to process account list request AccountsListRequestHandler() func(entities []common.Address) []common.Address // AddressToDecryptedAccount tries to load decrypted key for a given account. // The running node, has a keystore directory which is loaded on start. Key file // for a given address is expected to be in that directory prior to node start. AddressToDecryptedAccount(address, password string) (accounts.Account, *keystore.Key, error) } // RawCompleteTransactionResult is a JSON returned from transaction complete function (used internally) type RawCompleteTransactionResult struct { Hash common.Hash Error error } // RawDiscardTransactionResult is list of results from CompleteTransactions() (used internally) type RawDiscardTransactionResult struct { Error error } // QueuedTxID queued transaction identifier type QueuedTxID string // QueuedTx holds enough information to complete the queued transaction. type QueuedTx struct { ID QueuedTxID Hash common.Hash Context context.Context Args SendTxArgs InProgress bool // true if transaction is being sent Done chan struct{} Discard chan struct{} Err error } // SendTxArgs represents the arguments to submit a new transaction into the transaction pool. type SendTxArgs struct { From common.Address `json:"from"` To *common.Address `json:"to"` Gas *hexutil.Big `json:"gas"` GasPrice *hexutil.Big `json:"gasPrice"` Value *hexutil.Big `json:"value"` Data hexutil.Bytes `json:"data"` Nonce *hexutil.Uint64 `json:"nonce"` } // EnqueuedTxHandler is a function that receives queued/pending transactions, when they get queued type EnqueuedTxHandler func(*QueuedTx) // EnqueuedTxReturnHandler is a function that receives response when tx is complete (both on success and error) type EnqueuedTxReturnHandler func(*QueuedTx, error) // TxQueue is a queue of transactions. type TxQueue interface { // Remove removes a transaction from the queue. Remove(id QueuedTxID) // Reset resets the state of the queue. Reset() // Count returns a number of transactions in the queue. Count() int // Has returns true if a transaction is in the queue. Has(id QueuedTxID) bool } // TxQueueManager defines expected methods for managing transaction queue type TxQueueManager interface { // Start starts accepting new transaction in the queue. Start() // Stop stops accepting new transactions in the queue. Stop() // TransactionQueue returns a transaction queue. TransactionQueue() TxQueue // CreateTransactoin creates a new transaction. CreateTransaction(ctx context.Context, args SendTxArgs) *QueuedTx // QueueTransaction adds a new transaction to the queue. QueueTransaction(tx *QueuedTx) error // WaitForTransactions blocks until transaction is completed, discarded or timed out. WaitForTransaction(tx *QueuedTx) error // NotifyOnQueuedTxReturn notifies a handler when a transaction returns. NotifyOnQueuedTxReturn(queuedTx *QueuedTx, err error) // TransactionQueueHandler returns handler that processes incoming tx queue requests TransactionQueueHandler() func(queuedTx *QueuedTx) // TODO(adam): might be not needed SetTransactionQueueHandler(fn EnqueuedTxHandler) // TODO(adam): might be not needed SetTransactionReturnHandler(fn EnqueuedTxReturnHandler) // TransactionReturnHandler returns handler that processes responses from internal tx manager TransactionReturnHandler() func(queuedTx *QueuedTx, err error) // CompleteTransaction instructs backend to complete sending of a given transaction CompleteTransaction(id QueuedTxID, password string) (common.Hash, error) // CompleteTransactions instructs backend to complete sending of multiple transactions CompleteTransactions(ids []QueuedTxID, password string) map[QueuedTxID]RawCompleteTransactionResult // DiscardTransaction discards a given transaction from transaction queue DiscardTransaction(id QueuedTxID) error // DiscardTransactions discards given multiple transactions from transaction queue DiscardTransactions(ids []QueuedTxID) map[QueuedTxID]RawDiscardTransactionResult } // JailCell represents single jail cell, which is basically a JavaScript VM. // It's designed to be a transparent wrapper around otto.VM's methods. type JailCell interface { // Set a value inside VM. Set(string, interface{}) error // Get a value from VM. Get(string) (otto.Value, error) // Run an arbitrary JS code. Input maybe string or otto.Script. Run(interface{}) (otto.Value, error) // Call an arbitrary JS function by name and args. Call(item string, this interface{}, args ...interface{}) (otto.Value, error) } // JailManager defines methods for managing jailed environments type JailManager interface { // Parse creates a new jail cell context, with the given chatID as identifier. // New context executes provided JavaScript code, right after the initialization. Parse(chatID, js string) string // Call executes given JavaScript function w/i a jail cell context identified by the chatID. Call(chatID, this, args string) string // NewCell initializes and returns a new jail cell. NewCell(chatID string) (JailCell, error) // Cell returns an existing instance of JailCell. Cell(chatID string) (JailCell, error) // BaseJS allows to setup initial JavaScript to be loaded on each jail.Parse() BaseJS(js string) } // APIResponse generic response from API type APIResponse struct { Error string `json:"error"` } // APIDetailedResponse represents a generic response // with possible errors. type APIDetailedResponse struct { Status bool `json:"status"` Message string `json:"message,omitempty"` FieldErrors []APIFieldError `json:"field_errors,omitempty"` } func (r APIDetailedResponse) Error() string { buf := bytes.NewBufferString("") for _, err := range r.FieldErrors { buf.WriteString(err.Error()) buf.WriteString("\n") } return strings.TrimSpace(buf.String()) } // APIFieldError represents a set of errors // related to a parameter. type APIFieldError struct { Parameter string `json:"parameter,omitempty"` Errors []APIError `json:"errors"` } func (e APIFieldError) Error() string { if len(e.Errors) == 0 { return "" } buf := bytes.NewBufferString(fmt.Sprintf("Parameter: %s\n", e.Parameter)) for _, err := range e.Errors { buf.WriteString(err.Error()) buf.WriteString("\n") } return strings.TrimSpace(buf.String()) } // APIError represents a single error. type APIError struct { Message string `json:"message"` } func (e APIError) Error() string { return fmt.Sprintf("message=%s", e.Message) } // AccountInfo represents account's info type AccountInfo struct { Address string `json:"address"` PubKey string `json:"pubkey"` Mnemonic string `json:"mnemonic"` Error string `json:"error"` } // StopRPCCallError defines a error type specific for killing a execution process. type StopRPCCallError struct { Err error } // Error returns the internal error associated with the critical error. func (c StopRPCCallError) Error() string { return c.Err.Error() } // CompleteTransactionResult is a JSON returned from transaction complete function (used in exposed method) type CompleteTransactionResult struct { ID string `json:"id"` Hash string `json:"hash"` Error string `json:"error"` } // CompleteTransactionsResult is list of results from CompleteTransactions() (used in exposed method) type CompleteTransactionsResult struct { Results map[string]CompleteTransactionResult `json:"results"` } // DiscardTransactionResult is a JSON returned from transaction discard function type DiscardTransactionResult struct { ID string `json:"id"` Error string `json:"error"` } // DiscardTransactionsResult is a list of results from DiscardTransactions() type DiscardTransactionsResult struct { Results map[string]DiscardTransactionResult `json:"results"` } // TestConfig contains shared (among different test packages) parameters type TestConfig struct { Node struct { SyncSeconds time.Duration HTTPPort int WSPort int } Account1 struct { Address string Password string } Account2 struct { Address string Password string } } // LoadTestConfig loads test configuration values from disk func LoadTestConfig() (*TestConfig, error) { var testConfig TestConfig configData := string(static.MustAsset("config/test-data.json")) if err := json.Unmarshal([]byte(configData), &testConfig); err != nil { return nil, err } return &testConfig, nil }